AREAS OF ACTIVITY - Biochemistry & Molecular Biology
analysis
bacterial
biochemistry
bioinformatics
biological
biotechnology
cancer
cell
cellular
chromatin
complex
control
development
disease
dna
drug
engineering
epigenetics
evolution
expression
factor
function
gene
genetics
genomics
human
immunology
interaction
lipid
mechanism
membrane
metabolism
mitochondrial
nuclear
other
physiology
plant
protein
receptor
regulation
repair
response
rna
role
signal
stem
stress
structural
structure
study
transcription
virus
See All
AREAS OF ACTIVITY - Biochemistry & Molecular Biology
-
acid
- Amino acid metabolism
- Antiviral / Antitumoral effects of nucleic acid ligands
- Myeloperoxidase and hypochlorous acid
- Nucleic acid enzymes
- Nucleic acid stereochemistry
- Nucleic acid structure
- Nucleic acids
- Nucleic acids structure
- Peptides or nucleic acids assembling
- Structure and function of proteins and nucleic acids
-
analysis
- Analysis of structure and functions of genes
- Analysis of tumour progression susceptibility in the models generated
- Conformational analysis
- DNA amplification methods and their use in biotecnology and genome analysis
- Genome analysis: development of predictive tools
- Genome-wide analysis
- Identification and functional analysis of transcription factor, Ebf1
- Informatics as applied to the analysis of global omics datasets
- Modelling and analysis of the dynamics of biological regulatory networks, in particular, immunological and gene networks
- Molecular analysis of bacterial pathogens
- Quantitative lipid analysis by nano-electrospray ionization tandem mass spectrometry
- Sperm fertility analysis
- Structural and functional analysis of non-coding RNA regions
- Structure-function analysis metallo-enzymes involved in protection from chemical and oxidative damage
- Survival analysis
-
assembly
- Amyloid assembly mechanisms
- Assembly of multi-subunit membrane complexes
- Assembly of the oxidative phosphorylation system
- Biogenesis of Mitochondria: Protein Transport and Assembly
- Fe-S cluster assembly
- Genome synthesis an assembly
- Macromolecular complex assembly pathways
- Protein assembly
- Protein folding and assembly
- Structure of viruses of Archaea, molecular basis of virion assembly and mechanisms of extreme thermostability
- Studies large protein assemblies: viral capsids, ribonulceoprotein complexes (HBV, DENV, HDV)
- Study of macromolecular assemblies
- Subunits, structure, function and assembly of Spt-Ada-Gcn5-acetyltransferase (SAGA) complexes
- Subunits, structure, function and assembly of ADA two A containing (ATAC) HAT complexes
- Subunits, structure, function and assembly of TFIID complexes
-
bacteria
- Antimicrobial peptides: mode of action and resistance in bacteria
- Bacteria and yeast ribosome structures
- Bioenergetics of anaerobic bacteria
- Double strand DNA break repair in bacteria and eukarya
- Gram-negative bacteria
- Intracellular bacteria
- Mechanisms of resistance in bacteria
- Pathogenic bacteria
- Pathogenic bacteria
- Plant controlled differentiation of bacteria
- Roles of RNA-binding proteins in regulation of gene expression in bacteria
- Translation and its control in bacteria
-
bacterial
- Bacterial Genetics and Molecular Biology
- Bacterial Genetics of Mycobacteria
- Bacterial adaptive evolution
- Bacterial adaptive responses
- Bacterial anti-virus systems
- Bacterial cell biology
- Bacterial cell division and morphogenesis
- Bacterial cell engineering
- Bacterial enhancer binding proteins
- Bacterial evolution
- Bacterial genetics
- Bacterial genome structure and maintenance
- Bacterial immunity
- Bacterial pathogenesis
- Bacterial pathogenesis
- Bacterial physiology
- Bacterial restriction and modification systems
- Bacterial secretion
- Bacterial toxins
- Bacterial virulence
- Bacterial, fungal and microalga fermentative bioconversions in aerobic and anaerobic systems
- Emergence of bacterial lineages
- Function and regulation of bacterial and plant genes controlling nodule development
- Molecular analysis of bacterial pathogens
- Phylogenetics and bacterial transmission
-
biochemistry
- Biochemistry
- Biochemistry
- Biochemistry and Genetics of Yeast Strains
- Biochemistry and molecular biology
- Biochemistry of glutathione
- Biochemistry of nucleic acid-protein complexes
- Biochemistry of phase separation
- Biochemistry, biophysics and physiology of thermal acclimation and temperature stress responses
- Biochemistry, cell and molecular biology
- Lipid biochemistry
- Medical biochemistry
- Membrane and lipid biochemistry and biophysics
- Metalloprotein biochemistry
- Molecular Biology and Biochemistry
- Molecular microbiology and biochemistry
- Physiology and biochemistry of legume Rhizobium symbiosis
- Plant Virus Biochemistry
- Plant biochemistry
- Plant biochemistry and molecular biology
- Plant biochemistry and molecular cell biology
- Plant biochemistry and plant molecular physiology, particularly plant hormones
- Protein biochemistry
- Rhizobium genetics and biochemistry
- Structural biochemistry
-
bioenergetics
- Bioenergetics
- Bioenergetics
- Bioenergetics of anaerobic bacteria
- Bioenergetics, especially related to mitochondrial Ca2+ homeostasis and formation of reactive oxygen species
- Mitochondrial bioenergetics
-
biogenesis
- Biogenesis and function of RNA
- Biogenesis and function of peroxisomes
- Biogenesis of Mitochondria: Protein Transport and Assembly
- Biogenesis of the chloroplast
- Glycosome biogenesis inhibitors
- Membrane biogenesis
- Metazoan ribosome biogenesis
- Mitochondria biogenesis
- Mitochondria/organelles/protein biogenesis/
- Mitochondrial biogenesis
- Nuclear envelope structure, function and biogenesis
- Pilus biogenesis
- Protein biogenesis
- Ribosome biogenesis and export nuclear envelope organization
- Role of chaperones & BAM complex in membrane biogenesis
-
bioinformatics
- Bioinformatics
- Bioinformatics
- Bioinformatics & computational biology
- Clinical bioinformatics
- Plant cell biology and structural bioinformatics
- Plant molecular genetics, genomics, and structural bioinformatics
- Structural bioinformatics
- Structural bioinformatics
- Structural biology and bioinformatics
- Structural biophysics and bioinformatics of RNA molecules
-
biological
- Biological control of plant diseases
- Biological drugs against cytokine systems
- Biological engineering
- Biological hydrogen production and CO2 reduction
- Biological implications of quasispecies dynamics
- Biological membranes
- Biological nitrogen fixation
- Biological nuclear molecular biology
- Biological oxidation
- Biological role of lipid unsaturation
- Biological sensors (biosensors)
- Chemistry of Biological Processes
- Development of deterministic and stochastic logical tools for the integration and modelling of biological systems
- Genetic and epigenetic gene switches in a wide range of biological processes including Type II diabetes, polycystic kidney disease
- Metal in biological systems
- Modelling and analysis of the dynamics of biological regulatory networks, in particular, immunological and gene networks
- Molecular mechanisms of biological evolution
- Representations of biological data
- Spatial and temporal organization in chemical, biochemical and biological systems
- Structure and function of biological macromolecules
- Theory and mathematical modelling of chemical and biological systems
-
biophysics
- Amyloid biophysics
- Biochemistry, biophysics and physiology of thermal acclimation and temperature stress responses
- Biophysics
- Biophysics
- Ion channel biophysics
- Membrane and lipid biochemistry and biophysics
- Membrane protein biophysics
- Molecular Biophysics
- Molecular biophysics
- Single molecule biophysics
- Structural biophysics and bioinformatics of RNA molecules
- Virus biophysics
-
biotechnology
- Agricultural biotechnology
- All aspects of food and beverage fermentation technology from the point of view of biotechnology
- Bioeconomy and Food Biotechnologies
- Biotechnology
- Biotechnology for sustainability
- Biotechnology, cancer diagnostics, diagnostics, therapeutics, technologies
- Cyanobacteria biotechnology
- Development of theoretical basis of modern biotechnology
- Environmental microbiology and biotechnology, including biofilm control , utilisation, and green engineering
- Industrial biotechnology
- Microbial biotechnology
- Molecular biotechnology
- Plant Biotechnology
- Plant biotechnology
- Plant biotechnology and epigenetics
- Plant molecular biotechnology and genomics
- Plant molecular biotechnology and nanobiotechnology
- Recombinant proteins - design and biotechnology
- Starter culture production for food biotechnology and food safety
- Synthetic biotechnology
-
cancer
- Aberrant pre-mRNA splicing in cancer – frequency and immunogenicity
- Biotechnology, cancer diagnostics, diagnostics, therapeutics, technologies
- Breast Cancer
- Breast cancer
- Breast cancer metastasis: mechanism and drug target identification
- Calcium signaling and cancer
- Cancer
- Cancer
- Cancer Research
- Cancer Stem Cells
- Cancer and metastasis
- Cancer biology
- Cancer biology
- Cancer biomarkers
- Cancer cell biology
- Cancer epidemiology
- Cancer genetics
- Cancer genetics
- Cancer immunotherapy
- Cancer mechanisms
- Cancer metabolism
- Cancer molecular biology
- Cancer pharmacology
- Cancer research
- Cancer therapy
- Cancer therapy modalities
- Cell differentiation and cancer
- Circuits between tumor and stroma in cancer progression
- Colon cancer
- Construction of designer cytokines to study inflammation and cancer
- Control of stress in cancer cells
- Crosstalk adaptive and innate immune cells in cancer
- Diseases caused by defects of mitochondrial carrier genes, and role of the carriers in diabetes, cancer, etc.
- Elucidated metabolic rewiring in cancer cells using isotopic tracers
- Evaluation of autoantibodies as biomarkers for response to therapy and early detection of cancer
- Heart and lung diseases, cancer, and bone diseases
- Helicobacter hepaticus, infection and cancer
- High throughput transposon insertional mutagenesis to identify components in signaling pathways relevant for cancer
- Identification of mRNA and miRNA signatures for cancer diagnosis
- Inflammation and Cancer
- Inflammation and cancer
- Ion channels and cancer
- Liver cancer
- Mechanisms of drug resistance in cancer cells
- Mechanisms of genome integrity maintenance and their aberrations in cancer
- Metabolism and cancer
- Molecular and cell biology of cancer and inflammation
- Molecular immunology of inflammation and inflammation associated cancer
- Mouse models of cancer
- Multidrug resistance in cancer
- New approaches to cancer therapy
- Prostate cancer
- Rational drug design and cancer treatment
- Relationships between defective DNA repair processes and human diseases such as inheritable breast cancer and neurological disorders.
- Role of deregulated TGF-β signalling in cancer
- Stem cells and cancer
- Stem sells prostate cancer
- Targeting cancer cell metabolism
- Targeting zinc enzymes in cancer stem cells
- Telomerase and cancer
- Telomers and telomerase and their links to aging and cancer
- The role of histone and DNA methylation in stem cells and cancer
- The role of tumor heterogeneity and cells-of-origin of lung cancer and mesothelioma
- Translational cancer research
-
cell
- Advanced fluorescence microscopy of intact cells and of receptor signaling
- Apoptosis and cell death
- Aspects of the regulation of processes that occur during cell division
- Asymmetric cell division
- Bacterial cell biology
- Bacterial cell division and morphogenesis
- Bacterial cell engineering
- Biochemistry, cell and molecular biology
- Boundary cap cells
- Cancer Stem Cells
- Cancer cell biology
- Cancerous development of cells
- Cell Biology
- Cell Migration
- Cell Polarity
- Cell adhesion
- Cell adhesion
- Cell adhesion receptors
- Cell and molecular biology
- Cell and tissue architecture
- Cell biology
- Cell culture engineering
- Cell cycle
- Cell cycle
- Cell cycle control
- Cell cycle control
- Cell cycle deregulation
- Cell cycle regulation
- Cell cycles
- Cell death
- Cell differentiation
- Cell differentiation and cancer
- Cell division
- Cell division
- Cell fate decisions
- Cell growth
- Cell growth and death
- Cell membrane proteins
- Cell membranes
- Cell migration
- Cell of origin
- Cell penetrating peptides
- Cell physiology
- Cell signaling
- Cell signaling
- Cell signaling and DNA repair
- Cell signaling and cytoskeleton structure
- Cell signalling
- Cell structure
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- Co-operation of auxins and cytokinins in regulation of plant cell development
- Control of cell division
- Control of stress in cancer cells
- Crosstalk adaptive and innate immune cells in cancer
- Dendritic cells
- Elucidated metabolic rewiring in cancer cells using isotopic tracers
- Epigenetics, stem cells, induced pluripotent stem (iPS) cells
- Functional genomics, genomics, genetics, molecular biology, cell biology applied to symbiosis research
- Genetic reprogramming by induced pluripotent stem cell technology
- Genetics and physiology of the E. coli cell division cycle
- Glial cells
- Host-factor interactions in virus infected cells
- In cell NMR
- Mechanisms of AHR-dependent regulation of cell pluripotency
- Mechanisms of cell death
- Mechanisms of drug resistance in cancer cells
- Mechanisms of gene expression in higher cells
- Mechanisms of translation initiation in eukaryotic cells
- Microbial and animal cell cultures in bioreactors
- Modelling cell differentiation, decision making and memory processes
- Molecular and Cell Biology
- Molecular and cell biology of cancer and inflammation
- Molecular biology with focus on RNA interactions in the cell
- Molecular cell biology
- Molecular cell genetics
- Molecular mechanisms governing cell developmental potency
- Molecular mechanisms that control the integrity of endothelial cell contacts and the formation of blood vessel
- Mouse embryonic stem cells
- Natural killer cells
- Neural stem cells
- Nucleo-cytoplasmic trafficking: cell cycle dependent NLS-adjacent phosphorylation
- Plant biochemistry and molecular cell biology
- Plant cell biology and structural bioinformatics
- Plant cell cycle regulation
- Plant cell wall
- Plant molecular and cell biology
- Pluripotent stem cell technology platform for medical models, toxicology and regenerative medicine
- Process of transcription in the nucleus of cells
- Regulation of immune cell development
- Role of mitochondria in cell functioning
- Schwann cells
- Single cell circadian and cell cycle oscillators
- Single cell genomics
- Single cell tracing
- Small RNAs Cell proliferation Differentiation Epigenetics
- Stem Cell Biology
- Stem cells
- Stem cells
- Stem cells and cancer
- Stem cells and cell fate decisions
- Stem cells and genomics
- Structural organization of nuclei and chromatin within the cell
- Structure and function of mitochondrial carriers in cell metabolism, and special cell functions (e.g., insulin secretion)
- T cells
- Targeting cancer cell metabolism
- Targeting zinc enzymes in cancer stem cells
- The role of histone and DNA methylation in stem cells and cancer
- Tumor cell senescence
- Tumor markers and circulating tumour cells
- Viral cell fusion
- Virus/cell interaction
-
cellular
- Antiviral cellular innate immunity
- Cellular aggregation
- Cellular architecture in health and disease
- Cellular differentiation
- Cellular immunology - including cytokine biology
- Cellular mechanisms
- Cellular microbiology
- Cellular microbiology
- Cellular neuroscience
- Cellular resistance to carcinogens
- Cellular senescence
- Cellular signal transduction
- Cellular signaling
- Cellular signalling
- Cellular structural biology
- Genetic and molecular basis of cellular and organismal energy homeostasis
- Molecular and Cellular Biology
- Molecular and cellular biology
- Molecular and cellular immunology
- Molecular and cellular mechanisms
- Molecular and cellular physiology and pathophysiology
- Regulation of cellular functions
- Relationship between structure and toxicity of protein oligomers in cellular and animal models
- Role of miRNAs in the cellular response to cisplatin-based chemotherapy and inter-cellular communication
- Structural molecular and cellular biology
- The control of cellular migration and growth
-
chemistry
- Bioinorganic chemistry
- Bioinorganic chemistry
- Bioinspired chemistry
- Biophysical chemistry
- Chemistry of Biological Processes
- Coordination chemistry
- Physical chemistry
- Protein chemistry
-
chromatin
- Chromatin
- Chromatin
- Chromatin biology
- Chromatin dynamics
- Chromatin dynamics in development
- Chromatin folding and chromatin compaction
- Chromatin modifying complexes
- Chromatin organization/modification
- Chromatin profiling with transposon-reporters
- Chromatin regulation
- Chromatin states and chromatin interactions
- Chromatin structure
- Chromatin structure and epigenetic modifications
- Chromatin structure and function
- Chromatin structure-function
- Chromatin topology
- DNA-protein interaction and chromatin
- Function of chromatin modification
- Structural organization of nuclei and chromatin within the cell
- Structure and function of chromatin
-
complex
- Assembly of multi-subunit membrane complexes
- Biochemistry of nucleic acid-protein complexes
- Chromatin modifying complexes
- Control of endoreduplication cycles, targeted proteolysis by the anaphase promoting complex APC-CCS52 ubiquitin ligase enzyme complexes
- Crystallography and cryo-EM of macromolecule complexes
- Deciphering the role of multi-protein complexes in the function of transcriptional enhancers
- Development of tools to faster generate complex mouse models
- Function of polycomb complexes
- Histone acetyl transferase (HAT) complexes
- Histone deacetylase complexes
- Macromolecular complex assembly pathways
- Macromolecular complexes
- Nuclear pore complex
- P53 protein SV40 T antigen complex
- Protein complexes
- Protein-RNA complexes
- Role of chaperones & BAM complex in membrane biogenesis
- Stress response, adaptation and learning of complex systems
- Structure and function of the Photosystem II complex
- Studies large protein assemblies: viral capsids, ribonulceoprotein complexes (HBV, DENV, HDV)
- Subunits, structure, function and assembly of Spt-Ada-Gcn5-acetyltransferase (SAGA) complexes
- Subunits, structure, function and assembly of ADA two A containing (ATAC) HAT complexes
- Subunits, structure, function and assembly of TFIID complexes
- The genetic basis of complex traits
- Transcription factor/DNA complexes
-
computational
- Alternatives to animal research - including the development of in vitro, in silico and computational models
- Bioinformatics & computational biology
- Computational Biology
- Computational Epigenomics
- Computational RNA biology
- Computational and Systems biology
- Computational biology
- Computational modelling of the TGF-β/Smad pathway
- Computational structrual biology
- Development of computational and experimental methods to study protein homeostasis
- Molecular Oncology and Computational Biology
-
control
- Biological control of plant diseases
- Cell cycle control
- Cell cycle control
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- Control of Gene Expression and Epigenetics
- Control of cell division
- Control of endoreduplication cycles, targeted proteolysis by the anaphase promoting complex APC-CCS52 ubiquitin ligase enzyme complexes
- Control of stress in cancer cells
- Environmental microbiology and biotechnology, including biofilm control , utilisation, and green engineering
- Epigenetic Mechanisms Controlling Immunoglobulin Allelic Exclusion
- Function and regulation of bacterial and plant genes controlling nodule development
- Molecular mechanisms that control the integrity of endothelial cell contacts and the formation of blood vessel
- Plant controlled differentiation of bacteria
- Quality control
- Stress reactions and metabolic control
- The control of cellular migration and growth
- Translation and its control in bacteria
- Translation control
- Translational control
- Vector control
- pH control
-
cycle
- Cell cycle
- Cell cycle
- Cell cycle control
- Cell cycle control
- Cell cycle deregulation
- Cell cycle regulation
- Cell cycles
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- Control of endoreduplication cycles, targeted proteolysis by the anaphase promoting complex APC-CCS52 ubiquitin ligase enzyme complexes
- Feeding fasting cycle
- Genetics and physiology of the E. coli cell division cycle
- Herpesvirus life cycle
- Nucleo-cytoplasmic trafficking: cell cycle dependent NLS-adjacent phosphorylation
- Plant cell cycle regulation
- Single cell circadian and cell cycle oscillators
-
damage
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- DNA damage
- DNA damage and repair
- DNA damage repair
- DNA damage response
- DNA damage response
- DNA damage response and repair/genomic instability
- DNA polymerases and primases involved in DNA damage tolerance and DNA replication stress
- Molecular pathology of the DNA damage responses
- Structure-function analysis metallo-enzymes involved in protection from chemical and oxidative damage
- X-ray induced radiation damage
-
development
- Alternatives to animal research - including the development of in vitro, in silico and computational models
- Antibiofilm-based drug development
- Antibiotic development
- Business development
- Cancerous development of cells
- Chromatin dynamics in development
- Co-operation of auxins and cytokinins in regulation of plant cell development
- Determination of the effects of these mutations on the development of the whole organism and in diseases
- Development
- Development of computational and experimental methods to study protein homeostasis
- Development of deterministic and stochastic logical tools for the integration and modelling of biological systems
- Development of human genetic, physical and gene maps
- Development of methods for protein structure determination using NMR chemical shifts and residual dipolar couplings
- Development of methods for the rational design of antibodies
- Development of methods of using molecular dynamics simulations restrained with experimental data for the determination of the structures of non-native states of proteins
- Development of miRNA replacement therapy methods
- Development of novel, plant derived antimicrobial agents
- Development of nuclear magnetic resonance techniques
- Development of organs such as the heart and liver
- Development of resistance to current therapies
- Development of theoretical basis of modern biotechnology
- Development of tools to faster generate complex mouse models
- Development/Study of strategies which inhibit proteolytic activity of tumour proteases
- Drosophila development
- Drug development
- Drug subsance development
- Embryonic development
- Function and regulation of bacterial and plant genes controlling nodule development
- Gene regulation in development and disease
- General management and managing drug development in spin-off companies and partnering with industry
- Genome analysis: development of predictive tools
- Human evolution and development
- Liver development
- Mammalian development
- Method development and advanced biophysical techniques (native mass spectrometry, NMR, and single molecule methods)
- Molecular mechanisms involved in plant development and on plant genomics
- Morphogenesis/development/Drosophila/cytoskeleton/innate immunity
- Nervous System Development
- Organ development
- Ovarian development and function
- Plant Development
- Plant development
- Regulation of immune cell development
- Regulation, mechanism and function of Activin/Nodal signalling in early Xenopus development
- Technology development including development of software
- Vaccine development
-
differentiation
- Adipocyte differentiation
- Cell differentiation
- Cell differentiation and cancer
- Cellular differentiation
- Differentiation
- Differentiation
- Gene positioning in differentiation and degenerative disease
- Microbial biofilms and microbiomes - biofilm differentiation and dispersal
- Modelling cell differentiation, decision making and memory processes
- Molecular and biochemical basis of plant growth and differentiation
- Molecular basis of lymphocyte differentiation and transcriptional responses to signaling pathways
- Plant controlled differentiation of bacteria
- Regulation of differentiation
- Small RNAs Cell proliferation Differentiation Epigenetics
-
discovery
- Anti-aggregation drug discovery
- Discovery and characterization of human PrimPol
- Discovery of activity and targets of the clostridial neurotoxins
- Discovery of bacteriophage phi29 DNA polymerase
- Discovery of human Pol lambda and human Polmu
- Discovery of microRNA regulation of cholinergic signaling
- Discovery of small molecules to prevent or treat Alzheimer's disease and Parkinson's disease
- Discovery of the mechanism of action of the vacuolating VacA cytotoxin
- Discovery of the neutrophil-activating protein (HP-NAP) of ''H. pylori''
- Drug discovery
- Drug discovery
- Microbial drug discovery
- Structure-based drug discovery
-
disease
- Alzheimer's and Parkinson's diseases
- Alzheimer's disease
- Animal models of Parkinson's disease
- Biochemical and metabolic biomarkers of diabetes and cardiovascular disease
- Biological control of plant diseases
- Calcium signalling in health and disease
- Cardiovascular disease
- Cellular architecture in health and disease
- Conformational diseases, prions
- Determination of the effects of these mutations on the development of the whole organism and in diseases
- Discovery of small molecules to prevent or treat Alzheimer's disease and Parkinson's disease
- Diseases caused by defects of mitochondrial carrier genes, and role of the carriers in diabetes, cancer, etc.
- Elucidation of the molecular origins of Alzheimer's disease and Parkinson's disease
- Epidemiology and public health in relation to nutrition or nutrition diseases
- Epizootic diseases
- Establishment of basic principles of physiology and basic mechanisms of disease pathogenesis
- Gene positioning in differentiation and degenerative disease
- Gene regulation in development and disease
- Genetic and epigenetic gene switches in a wide range of biological processes including Type II diabetes, polycystic kidney disease
- Hand-foot-mouth disease
- Heart and lung diseases, cancer, and bone diseases
- Human DNA Repair Diseases
- Human genetics in the transmission of HIV-1 and disease progression
- Identification of inherited disease genes, including various muscular dystrophies
- Identification of new biomarkers to identify primary and secondary prevention strategies for chronic diseases
- Identifying CholinomiRs-associated changes in neurodegenerative and inflammatory diseases
- In vitro embryo production and developmental origin of adulthood diseases in mammalians
- Infectious disease
- Infectious diseases
- Infectious diseases
- Inflammatory diseases
- Intestinal microbiota and bowel diseases
- Lafora disease
- Lipid storage disease
- Mechanisms of protein misfolding, aggregation and disease
- Mediterranean diet and cardiovascular disease
- Mitochondrial and neuro-degenerative diseases
- Molecular basis of mitochondrial diseases
- Molecular basis of peroxisomal diseases
- Molecular brain disease
- Molecular genetic mechanisms of neuropsychiatric diseases and dementia
- Molecular genetics of neurogenerative prion diseases
- Molecular mechanisms of autoimmune diseases
- Molecular mechanisms of processes of ageing and age-related diseases
- Mouse models for human disease
- Neurodegenerative disease
- Neurodegenerative diseases
- Neurodegenerative diseases in vitro modelling (Alzheimers disease)
- New models in flies to model diseases at the whole genome level
- New therapies against Sleeping sickness, Leishmaniasis and Chagas Disease
- Pathobiochemistry of obesity, inflammatory and autoimmune diseases
- Polyglutamine repeats in function and disease
- Prion diseases
- RNA in disease
- Rare diseases
- Relationships between defective DNA repair processes and human diseases such as inheritable breast cancer and neurological disorders.
- Skin biology - including skin diseases (psoriasis and allergic contact dermatitis)
- Viral diseases
- ncRNAs in disease
-
dna
- Applications of unusual DNA/RNA structures for nano- and bio-technologies
- Cell signaling and DNA repair
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- DNA Microarrays
- DNA Replication
- DNA amplification methods and their use in biotecnology and genome analysis
- DNA damage
- DNA damage and repair
- DNA damage repair
- DNA damage response
- DNA damage response
- DNA damage response and repair/genomic instability
- DNA diagnostics
- DNA methylation
- DNA methylation
- DNA methylation and CpG islands
- DNA microsatellites
- DNA polymerases
- DNA polymerases and primases involved in DNA damage tolerance and DNA replication stress
- DNA recombination
- DNA recombination
- DNA repair
- DNA repair
- DNA repair pathways
- DNA replication
- DNA replication and repair
- DNA replication fidelity
- DNA replication in hyperthermophilic Archaea
- DNA strand break repair
- DNA topology
- Discovery of bacteriophage phi29 DNA polymerase
- Double strand DNA break repair in bacteria and eukarya
- Engineering of DNA polymerases as improved biotechnological tools
- Genome integrity: the role of dUTPases in preventive DNA repair
- Human DNA Repair Diseases
- Isolation and characterization of constituents of the DNA transcription machineries
- Mechanisms of DNA replication
- Molecular pathology of the DNA damage responses
- Neanderthal mitochondrial DNA (mtDNA)
- Red/ET DNA recombineering
- Regulation of DNA replication
- Relationships between defective DNA repair processes and human diseases such as inheritable breast cancer and neurological disorders.
- Repetitive DNA sequences
- Sequencing RNA and DNA
- Terminal proteins as non-conventional primers for DNA replication
- The interaction of proteins with other biomolecules; proteins, RNA, DNA
- The role of histone and DNA methylation in stem cells and cancer
- Transcription factor/DNA complexes
- Unusual nucleotides in DNA
- Uracil in DNA: double role for uracil moieties within genomic DNA
-
drug
- Anti-aggregation drug discovery
- Antibiofilm-based drug development
- Biological drugs against cytokine systems
- Breast cancer metastasis: mechanism and drug target identification
- Drug design: multi-target and network drugs
- Drug development
- Drug discovery
- Drug discovery
- Drug resistance
- Drug subsance development
- General management and managing drug development in spin-off companies and partnering with industry
- Global transmission drug resistance
- Identification of new drug candidates against M. tuberculosis or other mycobacteriosis
- Mechanisms of drug resistance in cancer cells
- Microbial drug discovery
- Nanoscale drug delivery carriers
- Pertussisstructed by rational drug design that has been approved for human use.
- Rational drug design and cancer treatment
- Structure-based drug discovery
-
dynamic
- Biological implications of quasispecies dynamics
- Chromatin dynamics
- Chromatin dynamics in development
- Development of methods of using molecular dynamics simulations restrained with experimental data for the determination of the structures of non-native states of proteins
- Link between the topology of regulatory networks and their dynamic properties
- Modelling and analysis of the dynamics of biological regulatory networks, in particular, immunological and gene networks
- Molecular Dynamics
- Molecular biology of plants' pathogens and stability/ dynamics of genomes
- Nuclear dynamics
- Protein dynamics
-
engineering
- Bacterial cell engineering
- Biochemical engineering
- Biological engineering
- Cell culture engineering
- Engineering modified peptides: RiPPs and NRPs
- Engineering of DNA polymerases as improved biotechnological tools
- Environmental microbiology and biotechnology, including biofilm control , utilisation, and green engineering
- Enzyme engineering
- Genetic engineering
- Genetic engineering
- Genome engineering
- Metabolic engineering
- Metabolic pathway engineering applications to aminoacid, alcohol, glycol, biopolymer, isoprenoid and vitamin production
- Protein engineering
- Protein engineering
-
enzyme
- Angiotensin converting enzymes
- Control of endoreduplication cycles, targeted proteolysis by the anaphase promoting complex APC-CCS52 ubiquitin ligase enzyme complexes
- Enzyme and gene regulation
- Enzyme biocatalysis
- Enzyme engineering
- Enzyme families catalyzing phosphate transfer by nucleophilic attack on the alpha-phosphorus: dUTPases and cytidylyltransferases
- Enzyme mechanism
- Enzymes involved in RNA transactions
- Immobilization of enzymes and microorganisms
- Nucleic acid enzymes
- Redox enzymes for sustainable catalysis
- Structure and function of enzymes (biocatalysts)
- Structure, function and evolution of the universal ribonucleotide reductase (RNR) enzyme family
- Targeting zinc enzymes in cancer stem cells
-
epigenetics
- Control of Gene Expression and Epigenetics
- Effect of the interactions of genetics, epigenetics and nutrition on health in the population
- Epigenetics
- Epigenetics
- Epigenetics, stem cells, induced pluripotent stem (iPS) cells
- Genetics/epigenetics
- Plant biotechnology and epigenetics
- Small RNAs Cell proliferation Differentiation Epigenetics
-
evolution
- Bacterial adaptive evolution
- Bacterial evolution
- Directed molecular evolution
- Evolution
- Evolution
- Evolution of cooperation using spatial games
- Evolution of mutation rates
- Genome evolution
- Helicobacter pylori, clonal structure, genetic variability, evolution and population genetics
- Human evolution and development
- Molecular Evolution
- Molecular evolution
- Molecular mechanisms of biological evolution
- Origin and evolution of viruses
- Plant evolution
- Protein evolution
- Protein evolution
- Protein evolution in vitro
- Structure, function and evolution of the universal ribonucleotide reductase (RNR) enzyme family
- Structure, function, folding and evolution of proteins
- Viral Evolution
- Viral evolution
-
expression
- Chloroplast gene expression
- Control of Gene Expression and Epigenetics
- First cloning and expression of interferon
- Gene expression
- Gene expression
- Gene expression profiling
- Mechanisms of gene expression in higher cells
- Monoallelic expression
- Post-transcriptinal regulation of gene expression
- Regulation of gene expression
- Regulation of gene expression
- Regulation of gene expression by epigenetic principles
- Regulation of mitochondrial translational and gene expression
- Roles of RNA-binding proteins in regulation of gene expression in bacteria
- Transcriptional regulation of mitochondrial carrier gene expression
- Transposable elements and their role in regulating gene expression
-
factor
- Co-discovery of the activity and substrate of the anthrax lethal factor
- Estrogen Receptor as a Transcription Factor
- Growth factor signalling
- Growth factors
- Hypoxia-inducible factor
- Identification and functional analysis of transcription factor, Ebf1
- Mechanisms and Factors of Transcription
- Neurotrophic factor receptors
- Neurotrophic factors
- Role of transcription factors and signaling molecules in ovarian function
- STAT transcription factors
- Signal transduction of hormones and growth factors
- TATA box binding (TBP)-type factors
- TBP-associated factors (TAFs)
- Transcription Factors
- Transcription factor
- Transcription factor relationships and interactions
- Transcription factor/DNA complexes
- Transcription factors
-
fold
- Membrane protein folding
- Membrane protein folding mechanisms
- Molecular mechanisms of folding
- Protein folding
- Protein folding
- Structure, function, folding and evolution of proteins
- Study, at a molecular level, of the process by which native proteins convert into aggregation-prone partially folded states
- Study, in molecular depth, of the conversion of partially folded states of proteins into amyloid fibrils and precursor oligomers
-
function
- Analysis of structure and functions of genes
- Antibody structure and function
- Biogenesis and function of RNA
- Biogenesis and function of peroxisomes
- Carotenoid biosynthesis and function
- Chromatin structure and function
- Deciphering the role of multi-protein complexes in the function of transcriptional enhancers
- Function and regulation derived from allosteric rearrangements
- Function and regulation of bacterial and plant genes controlling nodule development
- Function of ABC-transporters in mammals
- Function of chromatin modification
- Function of mammalian peroxidases
- Function of polycomb complexes
- Function of symbiotic antimicrobial plant peptides
- Generation of animal models of gain and loss of proteolytic function
- Genome organisation and function
- Golgi function
- Group of ribonucle oprotein particles (RNP) that function in the processing of messenger RNA precursors
- Lipids in membrane function and signal transduction
- Long-range gene regulation - function of enhancers
- Molecular biology of receptor function, intracellular signal transduction and its retroactive effect on receptors in terms of desensitization
- Nuclear envelope structure, function and biogenesis
- Ovarian development and function
- Polyglutamine repeats in function and disease
- Protein Structure and Function
- Protein synthesis by and function on the ribosome
- RNA methyltransferases and function of modified residues in translation
- RNA- structure and function
- Regulation of cellular functions
- Regulation, mechanism and function of Activin/Nodal signalling in early Xenopus development
- Regulation, mechanism and function of BMP signalling in early zebrafish embryos
- Regulatory RNAs: identification, mechanisms of regulation, functions
- Role of transcription factors and signaling molecules in ovarian function
- Structure and function of biological macromolecules
- Structure and function of chromatin
- Structure and function of enzymes (biocatalysts)
- Structure and function of mitochondrial carriers in cell metabolism, and special cell functions (e.g., insulin secretion)
- Structure and function of nuclear receptors
- Structure and function of proteins
- Structure and function of proteins and nucleic acids
- Structure and function of telomeres
- Structure and function of the Photosystem II complex
- Structure, function and evolution of the universal ribonucleotide reductase (RNR) enzyme family
- Structure, function and molecular organization of stress proteins and molecular chaperones
- Structure, function and relationship of enhancers and promoters
- Structure, function, folding and evolution of proteins
- Subunits, structure, function and assembly of Spt-Ada-Gcn5-acetyltransferase (SAGA) complexes
- Subunits, structure, function and assembly of ADA two A containing (ATAC) HAT complexes
- Subunits, structure, function and assembly of TFIID complexes
-
gene
- Analysis of structure and functions of genes
- Chloroplast gene expression
- Comparative Gene Expressionics
- Control of Gene Expression and Epigenetics
- Development of human genetic, physical and gene maps
- Diseases caused by defects of mitochondrial carrier genes, and role of the carriers in diabetes, cancer, etc.
- Enzyme and gene regulation
- Eukaryotic gene regulation
- Function and regulation of bacterial and plant genes controlling nodule development
- Gene Biology
- Gene editing
- Gene expression
- Gene expression
- Gene expression profiling
- Gene positioning in differentiation and degenerative disease
- Gene regulation
- Gene regulation
- Gene regulation in development and disease
- Gene regulation in influenza virus
- Gene regulation in microbes
- Gene regulatory networks
- Gene structure
- Gene structure and molecular genetics
- Gene switches
- Gene therapy
- Gene therapy and gene editing
- Gene transcription
- Genetic and epigenetic gene switches in a wide range of biological processes including Type II diabetes, polycystic kidney disease
- Genetical manipulation and change of genes in mice
- Heritable gene repression in yeast
- Horizontal gene transfer
- Horizontal gene transfer
- Hox genes
- Identification of inherited disease genes, including various muscular dystrophies
- Identification of virulence genes in M. tuberculosis.
- Long-range gene regulation - function of enhancers
- Mapping and Positional cloning of genes for human pathologies
- Mapping, identification and cloning of human genes
- Mechanisms of gene expression in higher cells
- Membrane dependent transcriptional regulation of “stress defending genes”
- Modelling and analysis of the dynamics of biological regulatory networks, in particular, immunological and gene networks
- Molecular interactions that lead to eukaryotic gene activation
- Nonviral gene transfer
- Post-transcriptinal regulation of gene expression
- RNA and gene regulation
- Regulation of gene expression
- Regulation of gene expression
- Regulation of gene expression by epigenetic principles
- Regulation of mitochondrial translational and gene expression
- Roles of RNA-binding proteins in regulation of gene expression in bacteria
- The "language gene" (FOXP2)
- The nuclear periphery and gene regulation
- Transcription of small nuclear RNA genes
- Transcriptional regulation of mitochondrial carrier gene expression
- Transposable elements and their role in regulating gene expression
- Variation of gene regulation
-
genetics
- Bacterial Genetics and Molecular Biology
- Bacterial Genetics of Mycobacteria
- Bacterial genetics
- Biochemistry and Genetics of Yeast Strains
- Cancer genetics
- Cancer genetics
- Effect of the interactions of genetics, epigenetics and nutrition on health in the population
- Evolutionary genetics
- Functional genomics, genomics, genetics, molecular biology, cell biology applied to symbiosis research
- Gene structure and molecular genetics
- Genetics
- Genetics
- Genetics and Molecular Medicine
- Genetics and physiology of the E. coli cell division cycle
- Genetics/epigenetics
- Helicobacter pylori, clonal structure, genetic variability, evolution and population genetics
- Human genetics
- Human genetics
- Human genetics and genomics
- Human genetics in the transmission of HIV-1 and disease progression
- Human molecular genetics
- Legume genetics and genomics
- Legume molecular genetics
- Microbial genetics
- Molecular cell genetics
- Molecular genetics
- Molecular genetics
- Molecular genetics of neurogenerative prion diseases
- Mouse genetics
- Plant genetics
- Plant genetics
- Plant molecular genetics
- Plant molecular genetics, genomics, and structural bioinformatics
- Population Genetics
- Population genetics and genomics
- Reproductive genetics
- Rhizobium genetics and biochemistry
- Yeast genetics
- Yeast genetics
-
genomics
- Applications in structural and functional genomics
- Comparative (Meta)Genomics
- Comparative Genomics
- Developmental genomics
- Evolutionary Genomics
- Functional genomics
- Functional genomics
- Functional genomics, genomics, genetics, molecular biology, cell biology applied to symbiosis research
- Genomics
- Genomics
- Genomics (transcriptomics, proteomics, interactomics)
- Genomics and transcriptomics
- Human genetics and genomics
- Legume genetics and genomics
- Medical genomics
- Microbial genomics
- Molecular genomics
- Molecular mechanisms involved in plant development and on plant genomics
- Plant Genomics
- Plant genomics
- Plant molecular biotechnology and genomics
- Plant molecular genetics, genomics, and structural bioinformatics
- Population genetics and genomics
- Psychiatric genomics
- Single cell genomics
- Stem cells and genomics
- Structural and functional genomics
- Synthetic genomics
-
human
- Adjuvant: Contributed to the licensing of the MF59 adjuvant for human use
- Determination of three dimensional structures of human proteases associated with tumours
- Developing Quantum Dot labeling tools for recombinant human cholinesterases:
- Development of human genetic, physical and gene maps
- Discovery and characterization of human PrimPol
- Discovery of human Pol lambda and human Polmu
- Genetic variation of Helicobacter pylori in connection with human migration and the adaptation of the pathogen to its host
- Human DNA Repair Diseases
- Human evolution and development
- Human female infertility
- Human genetics
- Human genetics
- Human genetics and genomics
- Human genetics in the transmission of HIV-1 and disease progression
- Human immunodeficiency virus
- Human molecular genetics
- Mapping and Positional cloning of genes for human pathologies
- Mapping, identification and cloning of human genes
- Mouse models for human disease
- Pertussisstructed by rational drug design that has been approved for human use.
- Relationships between defective DNA repair processes and human diseases such as inheritable breast cancer and neurological disorders.
-
identification
- Antigen identification and characterization
- Breast cancer metastasis: mechanism and drug target identification
- Identification and characterisation of tumour antigens
- Identification and characterization of mitochondrial carrier family members in man, Saccharomyces cerevisiae and Arabidopsis thaliana
- Identification and functional analysis of transcription factor, Ebf1
- Identification of LEF1
- Identification of active mobiles elements in mycobacteria
- Identification of and enzymatic and functional characterization of proteases associated with tumour processes
- Identification of horizontal transfer in M. tuberculosis
- Identification of inherited disease genes, including various muscular dystrophies
- Identification of mRNA and miRNA signatures for cancer diagnosis
- Identification of new biomarkers to identify primary and secondary prevention strategies for chronic diseases
- Identification of new drug candidates against M. tuberculosis or other mycobacteriosis
- Identification of virulence genes in M. tuberculosis.
- Mapping, identification and cloning of human genes
- Regulatory RNAs: identification, mechanisms of regulation, functions
-
immunity
- Antiviral cellular innate immunity
- Bacterial immunity
- Immunity
- Immunity to pathogens
- Innate immunity
- Innate immunity
- Insect immunity
- Leukocyte biology in innate and adaptive immunity
- Molecular mechanism of innate immunity
- Morphogenesis/development/Drosophila/cytoskeleton/innate immunity
- Role of humoral response in antitumour immunity
-
immunology
- Cellular immunology - including cytokine biology
- Chemical Immunology
- Immunology
- Immunology
- Microbiology and immunology
- Molecular and cellular immunology
- Molecular immunology
- Molecular immunology
- Molecular immunology of inflammation and inflammation associated cancer
- Tumor immunology
- Tumor immunology
-
infection
- Emerging infections
- Global molecular epidemiology of HIV1 infection
- Helicobacter hepaticus, infection and cancer
- Infection
- Infection biology
- Infection biology
- Leptospirosis and rickettsial infections
- Molecular Infection Biology
- Viral transmission and infection
-
interaction
- Biophysical approaches for studying molecular interactions
- Cation interactions
- Chemically mediated microbial and inter-kingdom interactions
- Chromatin states and chromatin interactions
- DNA-protein interaction and chromatin
- Drug-DNA interactions
- Effect of the interactions of genetics, epigenetics and nutrition on health in the population
- Host pathogen interactions
- Host-bacterial interactions
- Host-factor interactions in virus infected cells
- Host-microbe (holobiont) interactions
- Host-microbe interactions
- Host-pathogen interaction
- Host-pathogen interaction
- Host-pathogen interactions
- Ligand-biomolecule interactions
- Molecular biology with focus on RNA interactions in the cell
- Molecular interactions
- Molecular interactions that lead to eukaryotic gene activation
- Nucleic acid-protein interactions
- Plant-bacterium interactions
- Plant-microbe interactions
- Plant-microbe interactions
- Plant-pathogen interactions
- Protein-DNA interactions
- Protein-Protein interactions
- Protein-lipid interactions
- Protein-membrane interactions
- Protein/lipid interactions in membranes
- RNA-protein interaction
- RNA-protein interactions
- The interaction of proteins with other biomolecules; proteins, RNA, DNA
- Transcription factor relationships and interactions
- Transfer-messenger RNA interaction with the ribosome
- Tumor-stroma interactions
- Virus-host interactions
- Virus-host interactions in Archaea
- Virus/cell interaction
-
lipid
- Biological role of lipid unsaturation
- Effect of membrane lipids, such as the GM1 ganglioside, on protein aggregation and associated toxicity
- Lipid binding to membrane proteins
- Lipid biochemistry
- Lipid biosynthesis and transport
- Lipid membranes
- Lipid metabolism
- Lipid rafts
- Lipid storage disease
- Lipid transport
- Lipids in membrane function and signal transduction
- Membrane and lipid biochemistry and biophysics
- Molecular mechanics of lipid systems
- Protein/lipid interactions in membranes
- Quantitative lipid analysis by nano-electrospray ionization tandem mass spectrometry
-
mechanism
- Amyloid assembly mechanisms
- Aternative mechanisms of protein synthesis used by RNA viruses
- Breast cancer metastasis: mechanism and drug target identification
- Cancer mechanisms
- Cellular mechanisms
- Defense mechanisms against biotic and abiotic stresses
- Discovery of the mechanism of action of the vacuolating VacA cytotoxin
- Enzyme mechanism
- Epigenetic Mechanisms Controlling Immunoglobulin Allelic Exclusion
- Establishment of basic principles of physiology and basic mechanisms of disease pathogenesis
- GTPase Mechanisms
- Implicating cholinergic mechanisms to our stress-related daily life
- Import mechanism of nuclear-coded mitochondrial carriers into the inner mitochondrial membrane
- Intervention studies to discover the effect of the diet or the constituents of the diet on health or illness and the mechanisms involved
- Mechanism and regulation of translation
- Mechanism of TGF-β signalling through the Smad pathway
- Mechanism of protein synthesis
- Mechanism(s) of protein folding and misfolding
- Mechanisms and Factors of Transcription
- Mechanisms of AHR-dependent regulation of cell pluripotency
- Mechanisms of DNA replication
- Mechanisms of cell death
- Mechanisms of drug resistance in cancer cells
- Mechanisms of gene expression in higher cells
- Mechanisms of genetic recombination
- Mechanisms of genome integrity maintenance and their aberrations in cancer
- Mechanisms of pathogenicity of Mycobacterium tuberculosis
- Mechanisms of protein folding
- Mechanisms of protein misfolding, aggregation and disease
- Mechanisms of resistance in bacteria
- Mechanisms of translation initiation in eukaryotic cells
- Mechanisms of transposition
- Membrane protein folding mechanisms
- Molecular Mechanisms of Vesicular Protein Transport
- Molecular and cellular mechanisms
- Molecular genetic mechanisms of neuropsychiatric diseases and dementia
- Molecular mechanism of apoptosis and autophagy
- Molecular mechanism of innate immunity
- Molecular mechanisms governing cell developmental potency
- Molecular mechanisms involved in plant development and on plant genomics
- Molecular mechanisms of autoimmune diseases
- Molecular mechanisms of auxin signalling
- Molecular mechanisms of auxin transport, auxin transporters
- Molecular mechanisms of biological evolution
- Molecular mechanisms of folding
- Molecular mechanisms of processes of ageing and age-related diseases
- Molecular mechanisms that control the integrity of endothelial cell contacts and the formation of blood vessel
- Neuronal death mechanisms
- Regulation, mechanism and function of Activin/Nodal signalling in early Xenopus development
- Regulation, mechanism and function of BMP signalling in early zebrafish embryos
- Regulatory RNAs: identification, mechanisms of regulation, functions
- Regulatory mechanisms
- Ribosome structure and mechanism of translation
- Structure of viruses of Archaea, molecular basis of virion assembly and mechanisms of extreme thermostability
- Understanding the molecular mechanism of how ATP is made
-
medicine
- Clinical medicine
- Diabetes treatment by regenerative medicine
- Experimental Medicine
- Genetics and Molecular Medicine
- Genomic medicine
- Molecular medicine
- Molecular medicine
- Personalised medicine
- Personalised medicine and prevention
- Physiology and medicine
- Pluripotent stem cell technology platform for medical models, toxicology and regenerative medicine
- Production of biotechnological materials for medicine and agriculture
-
membrane
- Assembly of multi-subunit membrane complexes
- Biological membranes
- Cell membrane proteins
- Cell membranes
- Crystallisation of membrane proteins
- Effect of membrane lipids, such as the GM1 ganglioside, on protein aggregation and associated toxicity
- Import mechanism of nuclear-coded mitochondrial carriers into the inner mitochondrial membrane
- Lipid binding to membrane proteins
- Lipid membranes
- Lipids in membrane function and signal transduction
- Membrane and lipid biochemistry and biophysics
- Membrane biogenesis
- Membrane contact sites
- Membrane dependent transcriptional regulation of “stress defending genes”
- Membrane domains
- Membrane fusion
- Membrane pore formation
- Membrane protein
- Membrane protein biophysics
- Membrane protein folding
- Membrane protein folding mechanisms
- Membrane proteins
- Membrane proteins
- Membrane proteins structure-function
- Membrane proteins: ABC transporter BmrA
- Membrane traffic
- Membrane traffic
- Microbiology of mRNA splicing and membrane trafficking
- Molecular simulations of membrane proteins
- Protein and membrane purification
- Protein/lipid interactions in membranes
- Role of chaperones & BAM complex in membrane biogenesis
- Structural studies of viral membrane proteins (SARS-CoV-2)
-
metabolism
- Amino acid metabolism
- Cancer metabolism
- Deoxynucleotide metabolism
- Finding cholinergic-mediated RNA metabolism impairments in the Alzheimer’s brain
- Fundamentals of metabolism
- Genome metabolism
- Intermediary metabolism of skeletal and cardiac muscle;
- Iron metabolism
- Lipid metabolism
- Metabolism
- Metabolism
- Metabolism and cancer
- RNA metabolism
- RNA metabolism
- Regulation of hepatic, muscular and neuronal glycogen metabolism
- Regulation of metabolism
- Regulatory networks involved in stress responses, metabolism adaptation, and virulence
- Stress responses and metabolism
- Structure and function of mitochondrial carriers in cell metabolism, and special cell functions (e.g., insulin secretion)
- Targeting cancer cell metabolism
-
method
- Chemical methods in molecular biology
- DNA amplification methods and their use in biotecnology and genome analysis
- Development of computational and experimental methods to study protein homeostasis
- Development of methods for protein structure determination using NMR chemical shifts and residual dipolar couplings
- Development of methods for the rational design of antibodies
- Development of methods of using molecular dynamics simulations restrained with experimental data for the determination of the structures of non-native states of proteins
- Development of miRNA replacement therapy methods
- Hybrid methods
- Method development and advanced biophysical techniques (native mass spectrometry, NMR, and single molecule methods)
- Methods for screening low-molecular-weight compounds
-
microbial
- Chemically mediated microbial and inter-kingdom interactions
- Microbial and animal cell cultures in bioreactors
- Microbial biofilms and microbiomes - biofilm differentiation and dispersal
- Microbial biotechnology
- Microbial drug discovery
- Microbial ecogenomics
- Microbial genetics
- Microbial genomics
- Microbial natural products
- Microbial pathogenesis
- Microbial physiology
- Understanding microbial biofilms for environmental, industrial, medical and public health solutions
-
microbiology
- Applied and environmental microbiology
- Cellular microbiology
- Cellular microbiology
- Environmental microbiology and biotechnology, including biofilm control , utilisation, and green engineering
- Microbiology
- Microbiology
- Microbiology and immunology
- Microbiology of mRNA splicing and membrane trafficking
- Molecular Microbiology
- Molecular microbiology and biochemistry
- Rhizosphere microbiology
-
microscopy
- Advanced fluorescence microscopy of intact cells and of receptor signaling
- Advanced light microscopy
- Cryo-electron microscopy
- Electron microscopy
- Electron microscopy imaging
- Fluorescence microscopy
- Immuno-fluorescent microscopy
- Live fluorescence microscopy
- Microscopy
- Single-particle cryo-electron microscopy
-
mitochondrial
- Bioenergetics, especially related to mitochondrial Ca2+ homeostasis and formation of reactive oxygen species
- Diseases caused by defects of mitochondrial carrier genes, and role of the carriers in diabetes, cancer, etc.
- Identification and characterization of mitochondrial carrier family members in man, Saccharomyces cerevisiae and Arabidopsis thaliana
- Import mechanism of nuclear-coded mitochondrial carriers into the inner mitochondrial membrane
- Mitochondrial and neuro-degenerative diseases
- Mitochondrial bioenergetics
- Mitochondrial biogenesis
- Mitochondrial proteome
- Mitochondrial signalling
- Mitochondrial signalling processes
- Molecular basis of mitochondrial diseases
- Neanderthal mitochondrial DNA (mtDNA)
- Regulation of mitochondrial translational and gene expression
- Role of mitochondrial dysfunction in cardiac failure and muscular dystrophy
- Structure and function of mitochondrial carriers in cell metabolism, and special cell functions (e.g., insulin secretion)
- Targeting, translocation and folding of mitochondrial proteins
- Transcriptional regulation of mitochondrial carrier gene expression
-
model
- Alternatives to animal research - including the development of in vitro, in silico and computational models
- Analysis of tumour progression susceptibility in the models generated
- Animal models of ALS
- Animal models of Parkinson's disease
- Bioprocess design, modeling and scale-up
- Development of tools to faster generate complex mouse models
- Gene-modified mouse models
- Generation of animal models of gain and loss of proteolytic function
- Homology modelling
- Lung tumor models
- Modeling
- Modelling cell differentiation, decision making and memory processes
- Mouse models
- Mouse models for human disease
- Mouse models of cancer
- New models in flies to model diseases at the whole genome level
- Pluripotent stem cell technology platform for medical models, toxicology and regenerative medicine
- Relationship between structure and toxicity of protein oligomers in cellular and animal models
- Transgenic mouse models
-
modification
- Bacterial restriction and modification systems
- Chromatin organization/modification
- Chromatin structure and epigenetic modifications
- Function of chromatin modification
- Histone post-translational modifications
- Post-translational modification of proteins
- Post-translational modifications
- Protein oxidation and modification
- RNA modification
- RNA modification
- RNA modification & epitranscriptomics
- RNA modifications
- Rapid reaction techniques, spectroscopy of macromolecules, biochemical modifications, thermodynamics and structural biology of proteins
- SUMO modification
- Ubiquitin modification and protein degradation
- tRNA modification
-
nmr
- Biomolecular NMR spectroscopy
- Development of methods for protein structure determination using NMR chemical shifts and residual dipolar couplings
- Establishing solid-state NMR techniques: sequential assignment and distance measurements, protein structures by NMR
- In cell NMR
- NMR spectroscopy
- NMR structure determination of proteins
- Solution NMR
-
nuclear
- Biological nuclear molecular biology
- Development of nuclear magnetic resonance techniques
- Genetic reprogramming by nuclear transfer cloning in animals
- Molecular functioning of nuclear receptors
- Nuclear biology
- Nuclear dynamics
- Nuclear envelope
- Nuclear envelope breakdown
- Nuclear envelope structure, function and biogenesis
- Nuclear hormone receptors
- Nuclear organisation
- Nuclear organization
- Nuclear pore complex
- Nuclear receptors
- Nuclear reprogramming
- Ribosome biogenesis and export nuclear envelope organization
- Structure and function of nuclear receptors
- The nuclear periphery and gene regulation
- Transcription of small nuclear RNA genes
-
nucleic
- Antiviral / Antitumoral effects of nucleic acid ligands
- Biochemistry of nucleic acid-protein complexes
- Nucleic acid enzymes
- Nucleic acid stereochemistry
- Nucleic acid structure
- Nucleic acid-protein interactions
- Nucleic acids
- Nucleic acids structure
- Peptides or nucleic acids assembling
- Structure and function of proteins and nucleic acids
-
pathway
- Biochemical pathways and regulatory networks
- Biosynthetic pathways
- Chaperone usher pathway
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- Computational modelling of the TGF-β/Smad pathway
- DNA repair pathways
- High throughput transposon insertional mutagenesis to identify components in signaling pathways relevant for cancer
- Macromolecular complex assembly pathways
- Mechanism of TGF-β signalling through the Smad pathway
- Metabolic pathway engineering applications to aminoacid, alcohol, glycol, biopolymer, isoprenoid and vitamin production
- Molecular basis of lymphocyte differentiation and transcriptional responses to signaling pathways
- N-end rule pathway
- piRNA pathway
-
physiology
- Angiogenesis in physiology and pathology
- Bacterial physiology
- Biochemistry, biophysics and physiology of thermal acclimation and temperature stress responses
- Cell physiology
- Establishment of basic principles of physiology and basic mechanisms of disease pathogenesis
- Genetics and physiology of the E. coli cell division cycle
- Liver physiology
- Microbial physiology
- Molecular Plant Physiology
- Molecular and cellular physiology and pathophysiology
- Molecular physiology
- Physiology and biochemistry of legume Rhizobium symbiosis
- Physiology and medicine
- Physiology of intestinal microbiota
- Physiology of receptors
- Plant biochemistry and plant molecular physiology, particularly plant hormones
- Plant hormone physiology
- Plant physiology
- Plant physiology and signalling
-
plant
- Biofuel and bioconversion of plant biomass
- Biological control of plant diseases
- Co-operation of auxins and cytokinins in regulation of plant cell development
- Development of novel, plant derived antimicrobial agents
- Endoreduplication in plants
- Environmental stress responses of plants, algae and cyanobacteria
- Epigenetic changes in plants
- Function and regulation of bacterial and plant genes controlling nodule development
- Function of symbiotic antimicrobial plant peptides
- Light stress in plants
- Marker-based genetic improvement of plants and animals
- Molecular Plant Physiology
- Molecular and biochemical basis of plant growth and differentiation
- Molecular biology of plants' pathogens and stability/ dynamics of genomes
- Molecular mechanisms involved in plant development and on plant genomics
- Plant Biotechnology
- Plant Development
- Plant Genomics
- Plant Pathology
- Plant Virus Biochemistry
- Plant biochemistry
- Plant biochemistry and molecular biology
- Plant biochemistry and molecular cell biology
- Plant biochemistry and plant molecular physiology, particularly plant hormones
- Plant biology
- Plant biology
- Plant biology, Arabidopsis
- Plant biomass, oil plants, and biofuel technologies
- Plant biotechnology
- Plant biotechnology and epigenetics
- Plant cell biology and structural bioinformatics
- Plant cell cycle regulation
- Plant cell wall
- Plant controlled differentiation of bacteria
- Plant cytoskeleton
- Plant development
- Plant evolution
- Plant genetics
- Plant genetics
- Plant genomics
- Plant hormone physiology
- Plant microbiome
- Plant molecular and cell biology
- Plant molecular biology
- Plant molecular biology
- Plant molecular biotechnology and genomics
- Plant molecular biotechnology and nanobiotechnology
- Plant molecular genetics
- Plant molecular genetics, genomics, and structural bioinformatics
- Plant natural products
- Plant oncogenes
- Plant physiology
- Plant physiology and signalling
- Plant stress and retrograde signalling
- Plant symbiosis
- Plant transgenesis
- Plant viruses
- Symbiosis in plants (rhizobium-legume interaction) and insects (gut symbiosis)
- Systems biology of plants and cyanobacteria
-
polymerase
- Consequences of de-regulation of RNA polymerase III transcription
- DNA polymerases
- DNA polymerases and primases involved in DNA damage tolerance and DNA replication stress
- Discovery of bacteriophage phi29 DNA polymerase
- Engineering of DNA polymerases as improved biotechnological tools
- Genomic regulation of RNA polymerase III transcription
- Polymerase chain reaction
- RNA polymerase I and III transcription
- RNA polymerases
- RNA polymerases
- Regulation of RNA polymerase II transcription
- Regulation of RNA polymerase III transcription
-
process
- Aspects of the regulation of processes that occur during cell division
- Chemistry of Biological Processes
- Cooling, drying and refrigeration processes and systems
- Genetic and epigenetic gene switches in a wide range of biological processes including Type II diabetes, polycystic kidney disease
- Identification of and enzymatic and functional characterization of proteases associated with tumour processes
- Mitochondrial signalling processes
- Modelling cell differentiation, decision making and memory processes
- Molecular mechanisms of processes of ageing and age-related diseases
- Process of transcription in the nucleus of cells
- Relationships between defective DNA repair processes and human diseases such as inheritable breast cancer and neurological disorders.
- Stochastic processes and cell-to-cell heterogeneity
- Study, at a molecular level, of the process by which native proteins convert into aggregation-prone partially folded states
- Study, at a molecular level, of the process of native-like aggregation
-
protein
- ABC proteins
- Allergy - skin and respiratory allergy to chemicals and proteins
- Allosteric proteins
- Aternative mechanisms of protein synthesis used by RNA viruses
- Bacterial enhancer binding proteins
- Benchmarking and critical assessment of protein structure prediction
- Beta-barrel proteins
- Biogenesis of Mitochondria: Protein Transport and Assembly
- Cell membrane proteins
- Crystallisation of membrane proteins
- Development of computational and experimental methods to study protein homeostasis
- Development of methods for protein structure determination using NMR chemical shifts and residual dipolar couplings
- Development of methods of using molecular dynamics simulations restrained with experimental data for the determination of the structures of non-native states of proteins
- Discovery of the neutrophil-activating protein (HP-NAP) of ''H. pylori''
- Editing of mathematical algorithms able to predict fundamental aspects of protein aggregation in vitro and in vivo
- Effect of extracellular agents, such as glycosamynoglycans, on protein aggregation and associated toxicity
- Effect of membrane lipids, such as the GM1 ganglioside, on protein aggregation and associated toxicity
- Establishing solid-state NMR techniques: sequential assignment and distance measurements, protein structures by NMR
- Fibrous protein structure
- Functional and structural characterization of RNA-binding proteins
- GPI-anchored proteins
- GTP-binding proteins
- Immunogenic proteins and antigenic determinants
- Interferon -Induced Trans-membrane Proteins (IFITMs)
- Intracellular protein sorting
- Intrinsically disordered proteins
- Investigation of molecular chaperones as inhibitors of the toxicity of protein oligomers
- Lipid binding to membrane proteins
- Luminescence of proteins
- Mechanism of protein synthesis
- Mechanism(s) of protein folding and misfolding
- Mechanisms of protein folding
- Mechanisms of protein misfolding, aggregation and disease
- Membrane protein
- Membrane protein biophysics
- Membrane protein folding
- Membrane protein folding mechanisms
- Membrane proteins
- Membrane proteins
- Membrane proteins: ABC transporter BmrA
- Mitochondria/organelles/protein biogenesis/
- Molecular Mechanisms of Vesicular Protein Transport
- Molecular biology of heat shock proteins
- Molecular machinery of protein degradation
- Molecular simulations of membrane proteins
- Motor proteins
- Motor proteins
- NMR structure determination of proteins
- P53 protein SV40 T antigen complex
- Pore forming proteins
- Post-translational modification of proteins
- Protein Structure and Function
- Protein aggregation
- Protein and membrane purification
- Protein assembly
- Protein biochemistry
- Protein biogenesis
- Protein chemistry
- Protein complexes
- Protein cross-linker transglutaminases
- Protein crystallography
- Protein crystallography
- Protein degradation
- Protein design
- Protein design, self-assembly and nanotechnology
- Protein dynamics
- Protein engineering
- Protein engineering
- Protein evolution
- Protein evolution
- Protein evolution in vitro
- Protein folding
- Protein folding
- Protein folding and assembly
- Protein functionality
- Protein homeostasis
- Protein kinases
- Protein liquid-liquid phase separation
- Protein misfolding
- Protein misfolding and aggregation
- Protein misfolding, protein aggregation, amyloid fibril formation
- Protein oxidation
- Protein oxidation and modification
- Protein research
- Protein self-assembly
- Protein solid-state NMR-
- Protein sorting
- Protein sorting
- Protein structure
- Protein structure and folding
- Protein structure and folding
- Protein structure prediction
- Protein synthesis
- Protein synthesis
- Protein synthesis by and function on the ribosome
- Protein targeting and intracellular sorting
- Protein translocation
- Protein transport
- Protein transport into mitochondria
- Protein ultrastructure
- Protein/lipid interactions in membranes
- Proteins
- RNA binding protein
- RNA binding proteins
- RNA binding proteins
- RNA-binding proteins
- RNA-binding proteins
- Rapid reaction techniques, spectroscopy of macromolecules, biochemical modifications, thermodynamics and structural biology of proteins
- Recombinant proteins
- Regulatory Proteins
- Relationship between structure and toxicity of protein oligomers in cellular and animal models
- Roles of RNA-binding proteins in regulation of gene expression in bacteria
- Serine proteinases and their protein inhibitors
- Stabilising proteins of therapeutic/ interest against aggregation
- Structural studies of fibrillar proteins (yeast prions Ure2p and Sup35, as well as the amyloids A-β and α-synuclein)
- Structural studies of viral membrane proteins (SARS-CoV-2)
- Structure and function of proteins
- Structure and function of proteins and nucleic acids
- Structure, function and molecular organization of stress proteins and molecular chaperones
- Structure, function, folding and evolution of proteins
- Studies large protein assemblies: viral capsids, ribonulceoprotein complexes (HBV, DENV, HDV)
- Study, at a molecular level, of the process by which native proteins convert into aggregation-prone partially folded states
- Study, in molecular depth, of the conversion of partially folded states of proteins into amyloid fibrils and precursor oligomers
- Targeting, translocation and folding of mitochondrial proteins
- Terminal proteins as non-conventional primers for DNA replication
- The interaction of proteins with other biomolecules; proteins, RNA, DNA
- Topogenesis of peroxisomal proteins
- Ubiquitin modification and protein degradation
- Ubiquitin-mediated protein degradation
- Viral envelope proteins: hepatitis B virus, SARS-CoV-2
- mRNA-based protein replacement therapy
-
receptor
- Advanced fluorescence microscopy of intact cells and of receptor signaling
- Cell adhesion receptors
- Cys-loop receptors
- Cytokine and cytokine receptor biology
- Estrogen Receptor as a Transcription Factor
- Molecular biology of receptor function, intracellular signal transduction and its retroactive effect on receptors in terms of desensitization
- Molecular functioning of nuclear receptors
- Neuropeptide receptors
- Neurotrophic factor receptors
- Nuclear hormone receptors
- Nuclear receptors
- Pharmacology of receptors
- Physiology of receptors
- Receptors and signal transduction
- Receptors and signal transduction
- Receptors of the adrenergic system and other G-protein-coupled receptors
- Role of receptors in the heart
- Shedding of cytokine receptors by ADAM proteases
- Structure and function of nuclear receptors
- Structure-function studies of cytokines and cytokine receptors
- Thrombin receptor signaling
-
regulation
- Aspects of the regulation of processes that occur during cell division
- Cell cycle regulation
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- Chromatin regulation
- Co-operation of auxins and cytokinins in regulation of plant cell development
- Discovery of microRNA regulation of cholinergic signaling
- Enzyme and gene regulation
- Eukaryotic gene regulation
- Function and regulation derived from allosteric rearrangements
- Function and regulation of bacterial and plant genes controlling nodule development
- Gene regulation
- Gene regulation
- Gene regulation in development and disease
- Gene regulation in influenza virus
- Gene regulation in microbes
- Genome regulation
- Genome regulation
- Genomic regulation of RNA polymerase III transcription
- Immune regulation
- Impact of metagenomics and severe nutritional regulation on cognitive status and dementia
- Integrin regulation and studies on their intercellular adhesion molecule ligands (ICAM)
- Long-range gene regulation - function of enhancers
- Mechanism and regulation of translation
- Mechanisms of AHR-dependent regulation of cell pluripotency
- Membrane dependent transcriptional regulation of “stress defending genes”
- Plant cell cycle regulation
- Post-transcriptinal regulation of gene expression
- Post-transcriptional regulation
- Quorum-sensing regulation
- RNA and gene regulation
- Redox regulation
- Regulation of DNA replication
- Regulation of RNA polymerase II transcription
- Regulation of RNA polymerase III transcription
- Regulation of apoptosis
- Regulation of auxin homeostasis
- Regulation of cellular functions
- Regulation of differentiation
- Regulation of gene expression
- Regulation of gene expression
- Regulation of gene expression by epigenetic principles
- Regulation of hepatic, muscular and neuronal glycogen metabolism
- Regulation of immune cell development
- Regulation of metabolism
- Regulation of mitochondrial translational and gene expression
- Regulation of photosynthesis
- Regulation of transcription in response to TGF-β signalling
- Regulation of translation
- Regulation, mechanism and function of Activin/Nodal signalling in early Xenopus development
- Regulation, mechanism and function of BMP signalling in early zebrafish embryos
- Regulatory RNAs: identification, mechanisms of regulation, functions
- Roles of RNA-binding proteins in regulation of gene expression in bacteria
- The nuclear periphery and gene regulation
- Transcription regulation in hyperthermophilic Archaea
- Transcription regulation
- Transcriptional regulation
- Transcriptional regulation
- Transcriptional regulation of mitochondrial carrier gene expression
- Variation of gene regulation
-
repair
- Base excision repair
- Cell signaling and DNA repair
- DNA damage and repair
- DNA damage repair
- DNA damage response and repair/genomic instability
- DNA repair
- DNA repair
- DNA repair pathways
- DNA replication and repair
- DNA strand break repair
- Double strand DNA break repair in bacteria and eukarya
- Genome integrity: the role of dUTPases in preventive DNA repair
- Human DNA Repair Diseases
- Mismatch repair
- Relationships between defective DNA repair processes and human diseases such as inheritable breast cancer and neurological disorders.
-
replication
- DNA Replication
- DNA polymerases and primases involved in DNA damage tolerance and DNA replication stress
- DNA replication
- DNA replication and repair
- DNA replication fidelity
- DNA replication in hyperthermophilic Archaea
- MV replication/transcription and related topics
- Mechanisms of DNA replication
- Regulation of DNA replication
- Replication
- Replication
- Replication checkpoint kinases
- Terminal proteins as non-conventional primers for DNA replication
-
research
- Alternatives to animal research - including the development of in vitro, in silico and computational models
- Antiviral research
- Biomedical ageing research
- Biomedical research
- Biomedical research
- Cancer Research
- Cancer research
- Functional genomics, genomics, genetics, molecular biology, cell biology applied to symbiosis research
- Photosynthesis research
- Protein research
- Science in schools and gifted children for research
- Translational cancer research
- Translational research
-
resistance
- Antibiotic resistance
- Antibiotic resistance
- Antimicrobial peptides: mode of action and resistance in bacteria
- Antimicrobial resistance
- Cellular resistance to carcinogens
- Development of resistance to current therapies
- Drug resistance
- Global transmission drug resistance
- Mechanisms of drug resistance in cancer cells
- Mechanisms of resistance in bacteria
- Multidrug resistance
- Multidrug resistance in cancer
- Novel biomarkers for therapy efficacy and resistance
- Resistance to targeted and immunotherapy
- Resistance, tolerance and persistance to antibiotics
-
response
- Bacterial adaptive responses
- Biochemistry, biophysics and physiology of thermal acclimation and temperature stress responses
- DNA damage response
- DNA damage response
- DNA damage response and repair/genomic instability
- Environmental stress responses
- Environmental stress responses of plants, algae and cyanobacteria
- Evaluation of autoantibodies as biomarkers for response to therapy and early detection of cancer
- Hypoxia response
- Immune response
- Immune response and suppression
- Immune responses
- Molecular basis of lymphocyte differentiation and transcriptional responses to signaling pathways
- Molecular pathology of the DNA damage responses
- Regulation of transcription in response to TGF-β signalling
- Regulatory networks involved in stress responses, metabolism adaptation, and virulence
- Role of humoral response in antitumour immunity
- Role of miRNAs in the cellular response to cisplatin-based chemotherapy and inter-cellular communication
- SOS response
- Signal transduction in response to nitrogen and oxygen
- Stress response
- Stress response
- Stress response and adaptation
- Stress response, adaptation and learning of complex systems
- Stress responses
- Stress responses
- Stress responses and metabolism
- T cell-based immune responses
-
rna
- Applications of unusual DNA/RNA structures for nano- and bio-technologies
- Aternative mechanisms of protein synthesis used by RNA viruses
- Biogenesis and function of RNA
- Computational RNA biology
- Consequences of de-regulation of RNA polymerase III transcription
- Enhancer RNAs
- Enzymes involved in RNA transactions
- Finding cholinergic-mediated RNA metabolism impairments in the Alzheimer’s brain
- Genomic regulation of RNA polymerase III transcription
- Germline small RNAs
- Group of ribonucle oprotein particles (RNP) that function in the processing of messenger RNA precursors
- Long noncoding RNA
- Micro RNAs
- Molecular biology with focus on RNA interactions in the cell
- Non-coding RNA (small and long) biology
- Noncoding RNAs
- RNA
- RNA
- RNA and gene regulation
- RNA binding protein
- RNA binding proteins
- RNA binding proteins
- RNA biology
- RNA biology
- RNA decay
- RNA degradation
- RNA editing
- RNA in disease
- RNA interference
- RNA interference and microRNAs
- RNA mass spectrometry
- RNA metabolism
- RNA metabolism
- RNA methylation
- RNA methyltransferases and function of modified residues in translation
- RNA modification
- RNA modification
- RNA modification & epitranscriptomics
- RNA modifications
- RNA polymerase I and III transcription
- RNA polymerases
- RNA polymerases
- RNA structure
- RNA surveillance
- RNA synthesis
- RNA viruses
- Regulation of RNA polymerase II transcription
- Regulation of RNA polymerase III transcription
- Regulatory RNAs
- Regulatory RNAs: identification, mechanisms of regulation, functions
- Regulatory regions of messenger RNA
- Sequencing RNA and DNA
- Small RNAs Cell proliferation Differentiation Epigenetics
- Structural and functional analysis of non-coding RNA regions
- Structural biophysics and bioinformatics of RNA molecules
- The interaction of proteins with other biomolecules; proteins, RNA, DNA
- Transcription of small nuclear RNA genes
- Transfer-messenger RNA interaction with the ribosome
-
role
- Biological role of lipid unsaturation
- Deciphering the role of multi-protein complexes in the function of transcriptional enhancers
- Diseases caused by defects of mitochondrial carrier genes, and role of the carriers in diabetes, cancer, etc.
- Functional role of combinations of regulatory patterns
- Genome integrity: the role of dUTPases in preventive DNA repair
- Role of E3 ubiquitin ligases in TGF-β signalling
- Role of chaperones & BAM complex in membrane biogenesis
- Role of deregulated TGF-β signalling in cancer
- Role of humoral response in antitumour immunity
- Role of miRNAs in the cellular response to cisplatin-based chemotherapy and inter-cellular communication
- Role of mitochondria in cell functioning
- Role of mitochondrial dysfunction in cardiac failure and muscular dystrophy
- Role of reactive oxygen species in photooxidative stress in photosynthetic systems
- Role of receptors in the heart
- Role of transcription factors and signaling molecules in ovarian function
- Roles of RNA-binding proteins in regulation of gene expression in bacteria
- The role of histone and DNA methylation in stem cells and cancer
- The role of tumor heterogeneity and cells-of-origin of lung cancer and mesothelioma
- Transposable elements and their role in regulating gene expression
- Uracil in DNA: double role for uracil moieties within genomic DNA
-
signal
- Advanced fluorescence microscopy of intact cells and of receptor signaling
- Ca2+ signaling
- Calcium signalling
- Calcium signalling in health and disease
- Cell signaling
- Cell signaling
- Cell signaling and DNA repair
- Cell signaling and cytoskeleton structure
- Cell signalling
- Cellular signal transduction
- Cellular signaling
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- Discovery of microRNA regulation of cholinergic signaling
- Growth factor signalling
- High throughput transposon insertional mutagenesis to identify components in signaling pathways relevant for cancer
- Hypoxia signaling
- Lipids in membrane function and signal transduction
- Molecular basis of lymphocyte differentiation and transcriptional responses to signaling pathways
- Molecular biology of receptor function, intracellular signal transduction and its retroactive effect on receptors in terms of desensitization
- Protease signaling
- Receptors and signal transduction
- Receptors and signal transduction
- Redox signalling
- Role of transcription factors and signaling molecules in ovarian function
- Signal transduction
- Signal transduction
- Signal transduction in oncology
- Signal transduction in response to nitrogen and oxygen
- Signal transduction of hormones and growth factors
- Signaling
- Targeting signals
- Thrombin receptor signaling
-
signalling
- Cellular signalling
- Cytokine signalling
- Jak-STAT signalling
- Mechanism of TGF-β signalling through the Smad pathway
- Mitochondrial signalling
- Mitochondrial signalling processes
- Molecular mechanisms of auxin signalling
- Plant physiology and signalling
- Plant stress and retrograde signalling
- Receptor-mediated signalling
- Regulation of transcription in response to TGF-β signalling
- Regulation, mechanism and function of Activin/Nodal signalling in early Xenopus development
- Regulation, mechanism and function of BMP signalling in early zebrafish embryos
- Role of E3 ubiquitin ligases in TGF-β signalling
- Role of deregulated TGF-β signalling in cancer
-
spectroscopy
- Biomolecular NMR spectroscopy
- Fluorescence spectroscopy
- NMR spectroscopy
- Rapid reaction techniques, spectroscopy of macromolecules, biochemical modifications, thermodynamics and structural biology of proteins
- Spectroscopy/optics
-
stem
- Cancer Stem Cells
- Epigenetics, stem cells, induced pluripotent stem (iPS) cells
- Genetic reprogramming by induced pluripotent stem cell technology
- Mouse embryonic stem cells
- Neural stem cells
- Pluripotent stem cell technology platform for medical models, toxicology and regenerative medicine
- Stem Cell Biology
- Stem cells
- Stem cells
- Stem cells and cancer
- Stem cells and cell fate decisions
- Stem cells and genomics
- Stem sells prostate cancer
- Targeting zinc enzymes in cancer stem cells
- The role of histone and DNA methylation in stem cells and cancer
-
stress
- Biochemistry, biophysics and physiology of thermal acclimation and temperature stress responses
- Control of stress in cancer cells
- DNA polymerases and primases involved in DNA damage tolerance and DNA replication stress
- Defense mechanisms against biotic and abiotic stresses
- Environmental stress responses
- Environmental stress responses of plants, algae and cyanobacteria
- Free radicals and oxidative stress
- Light stress in plants
- Membrane dependent transcriptional regulation of “stress defending genes”
- Oxidative stress
- Plant stress and retrograde signalling
- Regulatory networks involved in stress responses, metabolism adaptation, and virulence
- Role of reactive oxygen species in photooxidative stress in photosynthetic systems
- Shock/stress adaptation
- Stress adaptation
- Stress adpatation
- Stress reactions and metabolic control
- Stress response
- Stress response
- Stress response and adaptation
- Stress response, adaptation and learning of complex systems
- Stress responses
- Stress responses
- Stress responses and metabolism
- Structure, function and molecular organization of stress proteins and molecular chaperones
-
structural
- Applications in structural and functional genomics
- Applied structural biology
- Cellular structural biology
- Experimental structural biology
- Functional and structural characterization of RNA-binding proteins
- Integrated structural biology
- Plant cell biology and structural bioinformatics
- Plant molecular genetics, genomics, and structural bioinformatics
- Rapid reaction techniques, spectroscopy of macromolecules, biochemical modifications, thermodynamics and structural biology of proteins
- Structural and functional analysis of non-coding RNA regions
- Structural and functional genomics
- Structural and functional organization of chromosomes
- Structural biochemistry
- Structural bioinformatics
- Structural bioinformatics
- Structural biology
- Structural biology
- Structural biology (X-ray crystallography and solution methods)
- Structural biology - crystallography
- Structural biology and bioinformatics
- Structural biology of actin based cytoskeleton with focus on muscle Z-disk
- Structural biophysics and bioinformatics of RNA molecules
- Structural molecular and cellular biology
- Structural organization of nuclei and chromatin within the cell
- Structural studies of fibrillar proteins (yeast prions Ure2p and Sup35, as well as the amyloids A-β and α-synuclein)
- Structural studies of viral membrane proteins (SARS-CoV-2)
- Structural vaccinology
- Structural virology
-
structure
- Amyloid structure
- Analysis of structure and functions of genes
- Antibody structure and function
- Applications of unusual DNA/RNA structures for nano- and bio-technologies
- Bacteria and yeast ribosome structures
- Bacterial genome structure and maintenance
- Benchmarking and critical assessment of protein structure prediction
- Cell signaling and cytoskeleton structure
- Cell structure
- Chromatin structure
- Chromatin structure and epigenetic modifications
- Chromatin structure and function
- Determination of three dimensional structures of human proteases associated with tumours
- Development of methods for protein structure determination using NMR chemical shifts and residual dipolar couplings
- Development of methods of using molecular dynamics simulations restrained with experimental data for the determination of the structures of non-native states of proteins
- Establishing solid-state NMR techniques: sequential assignment and distance measurements, protein structures by NMR
- Fibrous protein structure
- Gene structure
- Gene structure and molecular genetics
- Helicobacter pylori, clonal structure, genetic variability, evolution and population genetics
- NMR structure determination of proteins
- Nuclear envelope structure, function and biogenesis
- Nucleic acid structure
- Nucleic acids structure
- Protein Structure and Function
- Protein structure
- Protein structure and folding
- Protein structure and folding
- Protein structure prediction
- RNA structure
- RNA- structure and function
- Relationship between structure and toxicity of protein oligomers in cellular and animal models
- Ribosome structure and mechanism of translation
- Structure and function of biological macromolecules
- Structure and function of chromatin
- Structure and function of enzymes (biocatalysts)
- Structure and function of mitochondrial carriers in cell metabolism, and special cell functions (e.g., insulin secretion)
- Structure and function of nuclear receptors
- Structure and function of proteins
- Structure and function of proteins and nucleic acids
- Structure and function of telomeres
- Structure and function of the Photosystem II complex
- Structure determination
- Structure determination of bio-macro-molecules
- Structure of viruses of Archaea, molecular basis of virion assembly and mechanisms of extreme thermostability
- Structure, function and evolution of the universal ribonucleotide reductase (RNR) enzyme family
- Structure, function and molecular organization of stress proteins and molecular chaperones
- Structure, function and relationship of enhancers and promoters
- Structure, function, folding and evolution of proteins
- Subunits, structure, function and assembly of Spt-Ada-Gcn5-acetyltransferase (SAGA) complexes
- Subunits, structure, function and assembly of ADA two A containing (ATAC) HAT complexes
- Subunits, structure, function and assembly of TFIID complexes
-
study
- Biophysical / Physico-chemical studies (Absorbance, Circular dichroism, Fluorescence / FRET)
- Biophysical approaches for studying molecular interactions
- Biophysical studies
- Community biology; involvement in community-wide studies
- Construction of designer cytokines to study inflammation and cancer
- Development of computational and experimental methods to study protein homeostasis
- Development/Study of strategies which inhibit proteolytic activity of tumour proteases
- Integrin regulation and studies on their intercellular adhesion molecule ligands (ICAM)
- Intervention studies to discover the effect of the diet or the constituents of the diet on health or illness and the mechanisms involved
- Structural studies of fibrillar proteins (yeast prions Ure2p and Sup35, as well as the amyloids A-β and α-synuclein)
- Structural studies of viral membrane proteins (SARS-CoV-2)
- Structure-function studies of cytokines and cytokine receptors
- Studies large protein assemblies: viral capsids, ribonulceoprotein complexes (HBV, DENV, HDV)
- Study of macromolecular assemblies
- Study of the relationship between obesity, inflammation and the different comorbidities associated with obesity
- Study, at a molecular level, of the process by which native proteins convert into aggregation-prone partially folded states
- Study, at a molecular level, of the process of native-like aggregation
- Study, in molecular depth, of the conversion of partially folded states of proteins into amyloid fibrils and precursor oligomers
-
synthesis
- Aternative mechanisms of protein synthesis used by RNA viruses
- Genome synthesis an assembly
- Mechanism of protein synthesis
- Peptide synthesis
- Protein synthesis
- Protein synthesis
- Protein synthesis by and function on the ribosome
- RNA synthesis
- Ribosome synthesis
-
synthetic
- Synthetic Biology
- Synthetic biology
- Synthetic biotechnology
- Synthetic genomics
-
target
- Breast cancer metastasis: mechanism and drug target identification
- Control of endoreduplication cycles, targeted proteolysis by the anaphase promoting complex APC-CCS52 ubiquitin ligase enzyme complexes
- Developing systems to integrate targeted and immunotherapy
- Discovery of activity and targets of the clostridial neurotoxins
- Function-based genomic screens for therapeutic targets and predictive biomarkers
- Protein targeting and intracellular sorting
- Resistance to targeted and immunotherapy
- Targeting cancer cell metabolism
- Targeting signals
- Targeting zinc enzymes in cancer stem cells
- Targeting, translocation and folding of mitochondrial proteins
-
technology
- All aspects of food and beverage fermentation technology from the point of view of biotechnology
- Biotechnology, cancer diagnostics, diagnostics, therapeutics, technologies
- Computer vision and hyperspectral imaging technology
- Genetic reprogramming by induced pluripotent stem cell technology
- Microarray technology
- New breeding technologies
- Plant biomass, oil plants, and biofuel technologies
- Pluripotent stem cell technology platform for medical models, toxicology and regenerative medicine
- Technology
- Technology development including development of software
- Technology transfer
-
therapy
- Antiviral therapy
- Cancer therapy
- Cancer therapy modalities
- Development of miRNA replacement therapy methods
- Development of resistance to current therapies
- Evaluation of autoantibodies as biomarkers for response to therapy and early detection of cancer
- Gene therapy
- Gene therapy and gene editing
- New approaches to cancer therapy
- New therapies against Sleeping sickness, Leishmaniasis and Chagas Disease
- Novel biomarkers for therapy efficacy and resistance
- mRNA-based protein replacement therapy
-
transcription
- Consequences of de-regulation of RNA polymerase III transcription
- Estrogen Receptor as a Transcription Factor
- Gene transcription
- Genomic regulation of RNA polymerase III transcription
- Identification and functional analysis of transcription factor, Ebf1
- Initiation of transcription
- Isolation and characterization of constituents of the DNA transcription machineries
- MV replication/transcription and related topics
- Mechanisms and Factors of Transcription
- Non-coding transcription
- Process of transcription in the nucleus of cells
- RNA polymerase I and III transcription
- Regulation of RNA polymerase II transcription
- Regulation of RNA polymerase III transcription
- Regulation of transcription in response to TGF-β signalling
- Reverse transcription
- Role of transcription factors and signaling molecules in ovarian function
- STAT transcription factors
- Transcription
- Transcription
- Transcription regulation in hyperthermophilic Archaea
- Transcription Factors
- Transcription factor
- Transcription factor relationships and interactions
- Transcription factor/DNA complexes
- Transcription factors
- Transcription of small nuclear RNA genes
- Transcription regulation
- Ubiquination, transcription
-
transduction
- Cellular signal transduction
- Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis
- Lipids in membrane function and signal transduction
- Molecular biology of receptor function, intracellular signal transduction and its retroactive effect on receptors in terms of desensitization
- Receptors and signal transduction
- Receptors and signal transduction
- Signal transduction
- Signal transduction
- Signal transduction in oncology
- Signal transduction in response to nitrogen and oxygen
- Signal transduction of hormones and growth factors
-
transfer
- Enzyme families catalyzing phosphate transfer by nucleophilic attack on the alpha-phosphorus: dUTPases and cytidylyltransferases
- Genetic reprogramming by nuclear transfer cloning in animals
- Horizontal gene transfer
- Horizontal gene transfer
- Identification of horizontal transfer in M. tuberculosis
- Nonviral gene transfer
- Technology transfer
-
translation
- Mechanism and regulation of translation
- Mechanisms of translation initiation in eukaryotic cells
- RNA methyltransferases and function of modified residues in translation
- Regulation of translation
- Ribosome structure and mechanism of translation
- Translation
- Translation
- Translation and its control in bacteria
- Translation control
- Translation initiation
- Translation machinery
- mRNA translation
-
transport
- Biogenesis of Mitochondria: Protein Transport and Assembly
- Intracellular transport of glycoproteins
- Lipid biosynthesis and transport
- Lipid transport
- Molecular Mechanisms of Vesicular Protein Transport
- Molecular mechanisms of auxin transport, auxin transporters
- Nucleo-cytoplasmic transport
- Nucleocytoplasmic transport
- Photosynthetic electron transport
- Protein transport
- Protein transport into mitochondria
- Vesicular transport
-
tumor
- Circuits between tumor and stroma in cancer progression
- Lung tumor models
- The role of tumor heterogeneity and cells-of-origin of lung cancer and mesothelioma
- Tumor Suppressor p53
- Tumor cell senescence
- Tumor heterogeneity
- Tumor immunology
- Tumor immunology
- Tumor markers and circulating tumour cells
- Tumor microenvironment
- Tumor microenvironment
- Tumor suppressor
- Tumor suppressors
-
tumour
- Analysis of tumour progression susceptibility in the models generated
- Determination of three dimensional structures of human proteases associated with tumours
- Development/Study of strategies which inhibit proteolytic activity of tumour proteases
- Identification and characterisation of tumour antigens
- Identification of and enzymatic and functional characterization of proteases associated with tumour processes
- Tumor markers and circulating tumour cells
- Tumour biology
- Tumour heterogeneity
- Tumour initiation
- Tumour progression
- Tumour suppression by p53
-
ubiquitin
- Control of endoreduplication cycles, targeted proteolysis by the anaphase promoting complex APC-CCS52 ubiquitin ligase enzyme complexes
- Cullin-RING-H2 E3 ubiquitin ligases (CRL)
- Role of E3 ubiquitin ligases in TGF-β signalling
- Ubiquitin
- Ubiquitin
- Ubiquitin E3 ligases
- Ubiquitin ligases
- Ubiquitin modification and protein degradation
- Ubiquitin proteasome system
- Ubiquitin proteasome system (UPS)
- Ubiquitin system
-
use
- Adjuvant: Contributed to the licensing of the MF59 adjuvant for human use
- Aternative mechanisms of protein synthesis used by RNA viruses
- DNA amplification methods and their use in biotecnology and genome analysis
- Development of methods for protein structure determination using NMR chemical shifts and residual dipolar couplings
- Development of methods of using molecular dynamics simulations restrained with experimental data for the determination of the structures of non-native states of proteins
- Elucidated metabolic rewiring in cancer cells using isotopic tracers
- Evolution of cooperation using spatial games
- Pertussisstructed by rational drug design that has been approved for human use.
- Therapeutic use of mRNA
-
virology
- Molecular Biology, Molecular Virology
- Molecular Virology
- Molecular virology
- Structural virology
- Virology
- Virology
-
virus
- AIDS virus
- African swine virus
- Aternative mechanisms of protein synthesis used by RNA viruses
- Diversity of viruses of Archaea
- Environmental impact of viruses of Achaea
- Gene regulation in influenza virus
- Herpes virus
- Host-factor interactions in virus infected cells
- Human immunodeficiency virus
- Influenza virus
- Influenza virus
- Insect viruses
- Molecular basis of virus extinction by enhanced mutagenesis
- Origin and evolution of viruses
- Plant Virus Biochemistry
- Plant viruses
- RNA viruses
- Structure of viruses of Archaea, molecular basis of virion assembly and mechanisms of extreme thermostability
- Viral envelope proteins: hepatitis B virus, SARS-CoV-2
- Virus biophysics
- Virus glycoproteins
- Virus/cell interaction
-
other
- 3D Genome organisation
- ADARs
- AI
- Advanced glycated end-products and RAGE
- Aedes aegypti
- Ageing
- Ageing
- Ageing, longevity, health span
- Aggrecan
- Aging
- Aging
- Alternative splicing
- Alternative substrates and feedstocks
- Amphiphilic self-assembling nanostructures
- Amyloid
- Amyloid
- Amyloid fibrils
- Amyloidoses
- Amyloids
- Angiogenesis
- Anti-diabetic agents
- Anti-microbial host defence
- Antibacterial peptides
- Antibody Catalysis
- Antigen presentation
- Antigenic variation
- Antimicrobial peptides
- Antioxidants
- Antiviral activity of nucleoside analogues
- Apoptosis
- Apoptosis
- Apoptotic bodies
- Arabidopsis thaliana
- Arbovirus
- Arboviruses
- Arbuscular mycorrhiza symbiosis
- Arf1 GTPase
- Atherosclerosis
- Autoimmunity
- Autophagy
- Autophagy
- Axon guidance cues in vascular remodeling
- BRAF/NRAS oncogenes
- Bacteriology
- Bacteriology
- Bcl-2 family members
- Beta-Thalassemia
- Big Data
- Biobanking
- Biocatalysis
- Biocatalysis
- Biochemical Processing
- Biocompatible nanomaterials
- Bioenergy and biofuels
- Bioethics
- Biohybrid systems
- Bioiformatics
- Biologically active peptides
- Biology of transposable elements
- Biomaterials
- Biopharmaceutical manufacturing
- Biophysical techniques
- Biophysical techniques
- Bioprocess simulation and optimisation
- Bioremediation
- Blood brain barrier
- Blood clotting
- Brain
- Breast and ovarian adenocarcinomas
- Brown and biege adipocytes
- Brucella abortus
- Burkholderia pseudomallei
- CNS patterning
- CRISPR-Cas
- Calcium-mediated signaling in legume nodulation
- Carcinogenic bacterium Helicobacter pylori and related pathogens of the gastrointestinal tract
- Cardiolipin
- Cascade
- Catalysis and biocatalysis
- Cell-cycle
- Centrosome
- Centrosome biology
- Characterization of glycosomes
- Chemical Ecology
- Chemical biology
- Chemical biology
- Chemical kinetics
- Chemokine biology
- Chemometry
- Chemosensitivity
- Chemotherapy
- Chromosome biology
- Chromosomes
- Chronobiology
- Circadian rhythms
- Cisplatin
- Clinical trials
- Cluster formation
- Coatomer and COPI-coated vesicles
- Collagen
- Collagens
- Communication networks in biology
- Conformational multiplicity
- Connective tissue
- Construction of DNA-based diagnostic test of tuberculosis
- Construction of a vaccine candidate against tuberculosis
- Consumer sciences
- Coronaviruses (SARS-CoV, SARS-CoV-2, etc.)
- Cpf1 (Cas12)
- Critical transitions (crisis) and their prediction
- Cryo-EM
- Cryo-electron tomography
- Cryobiology of mammalian gametes and embryos
- Crystallography
- Cyanobacteria
- Cysteine cathepsins
- Cystic fibrosis
- Cytoskeletal and muscle mechanics
- Cytoskeleton
- Cytoskeleton
- Demonstrating CholinomiRs-mediated AChE suppression of stress-inducible cognitive decline
- Designed bionanostructures
- Detection of the SARS coronavirus and other SARS-associated coronaviruses
- Determination of bioactivity of natural extracts and chemical synthesised compounds
- Determination of the whole genome sequence of a mycobacterial replicon
- Developing in vivo preclinical platforms
- Developing innovative functional foods
- Developmental biology
- Developmental biology of roots
- Developmental enhancers
- Developmental neurobiology
- Diabetes
- Diabetes
- Diabetes mellitus
- Diphtheria and CRM197
- Directed mutagenesis and phage displa
- Drosophila
- Drosophila melanogaster
- Education
- Effect of the diet on the circulating metabolome
- Electrogenetics
- Electron tomography
- Electrophysiology
- Emerging coronaviruses
- Endocrinology
- Endosymbiosis
- Entrepreneurship
- Environmental and health impacts of engineered nanomaterials
- Enzymology
- Epidemiology
- Epigenetic reprogramming
- Epigenetic reprogramming
- Epigenetic variation
- Epigenomics
- Epitranscriptomics
- Evolutionary anthropology
- Exosomes
- Experimental biology
- Experimental biology
- Experimental nephrology
- Extracellular matrix
- Extracellular matrix
- Extracellular vesicles
- Fast kinetics
- Fibrosis
- Food allergy
- Food policy
- Food regulatory sciences
- Food safety
- Food safety issues
- Food science
- Force production
- Free radical biology
- Functional organization of chromosomes
- Functional polymers
- Fusion-fission
- G-quadruplexes
- GMO detection
- Galanin
- Generic properties of feedback circuits and other regulatory motifs
- Genetic alteration
- Genetic code alterations in Candida albicans
- Genetic detoxification of toxins
- Genetic diagnostics
- Genetic information
- Genetic markers
- Genetic material
- Genome editing
- Genome stability
- Genome stability
- Genome-mining
- Genomic Imprinting
- Genomic Instability
- Genomic rearrangements and genomic disorders
- HIV
- HSV molecular biology
- Haematopoiesis
- Haemostasis
- Heart
- Helicobacter pylori
- Helicobacter pylori
- Hematological malignancies
- Hepatocarcinoma
- High resolution imaging
- High throughput transposon mutagenesis
- Hindbrain segmentation
- Hypervariable loops
- Hypoxia
- IRES elements
- Immuno-electron miscrocopy
- Immunometabolism
- Immunotherapy
- Immunotherapy
- Imprinting
- In silico modeling of Photosystem II
- Infectious microorganisms (Mycobacterium, Plasmodium, Staphylococcus)
- Inflammation
- Inflammation
- Inflammation biology
- Inorganic nanoparticles
- Inosine
- Integrin
- Integrins
- Integrons
- Intelligent bio-manufacturing
- Interleukin-6 cytokine family
- Internal ribosome entry sites (IRES)
- Interorganellar contact sites
- Intracellular traffic -
- Intracellular trafficking
- Invertebrates
- Ion transporters and channels
- Iron homeostasis
- Iron sulfur cluster biology
- Ischemia
- Kidney
- Laboratory management and accreditation
- Leadership
- Legionella
- Legume symbiosis
- Leukocyte trafficking in immune surveillance and inflammation
- Libraries construction and screening
- Life in extreme environments
- Life science data management
- Ligand-gated ion channels
- Lipidomics.
- Liquid-liquid phase separation
- Listeria monocytogenes
- Lysosomes
- Lysyl hydroxylase
- Lysyl oxidase
- MAP kinases
- MAP-kinase signaling
- Machine learning
- Machine learning in life sciences
- Macrophages
- Macrophages
- Male infertility
- Mass spectrometry
- Mass spectrometry
- Mathematical modeling of genetic/biochemical phenomena
- Matrisome
- Mdm2
- Mechanistic biology
- Mechanobiology
- Mechanobiology
- Meiosis
- Melanoma
- Melanoma initiation and progression
- Melioidosis and its cause
- Memory
- Meningoccocal conjugate vaccines
- Metabolic transformation
- Metagenomics
- Metallomics
- Metastasis
- MiRNAs
- MicroRNAs
- Microalgae
- Microbiomics
- Microbiota
- Microcephalie
- Microencapsulated bioactive powders; in vitro gastrointestinal digestions
- Micronutrients
- Microtubules
- Mitochondria
- Mitochondria
- Mitochondria,
- Mitosis
- Mitosis
- Mitotic spindle
- Mobile genetic elements
- Mobile genetic elements
- Modeling and simulation
- Molecular Biology
- Molecular Crowding and confinement
- Molecular bases of Angiogenesis
- Molecular biology
- Molecular biology of archaea
- Molecular biology of cytokines
- Molecular carcinogenesis
- Molecular chaperones
- Molecular chaperones
- Molecular detection of coronaviruses
- Molecular diagnosis (non invasive, pre-natal)
- Molecular diagnostics
- Molecular diagnostics
- Molecular gastronomy
- Molecular machines
- Molecular machines: DnaB helicase
- Molecular markers
- Molecular modeling
- Molecular modeling
- Molecular motors : myosin, kinesin, dynein
- Molecular neurobiology
- Molecular neuroscience
- Molecular oncology
- Molecular parasitology
- Molecular parasitology
- Molecular pathology
- Molecular pharmacology
- Molecular toxicology
- Molecularbiology
- Monoclonal neutralising antibodies
- Mosquito
- Motility
- Mucosal adjuvants
- Multiple alignment
- Multiple sclerosis
- Muscle contraction
- Muscle mechanics
- Mycobacteria
- Myelination
- NPY
- Na+-H+ antiporters
- Nanobiotechnology
- Natural product biosynthesis
- Natural products
- Natural toxins
- Neglected disease- GVGH Institute
- Networks
- Neurobiology
- Neurobiology of the sensory systems
- Neurodegeneration
- Neurodegenerative disorders
- Neurogenesis
- Neuromuscular junction
- Neuronal circuits
- Neuronal computation
- Neurons
- Neurophysiology
- Neurotoxic aggregates
- Next generation sequencing
- Nitrogen fixation
- Nonsense-mediated decay (NMD)
- Nox/Duox family of NADPH oxidases
- Nucleases
- Nucleolus, sumoylation
- Nucleosome
- Nucleotide pool imbalance and its physiological consequences
- Nutrient sensors (O2, glucose)
- Nutrition
- Obesity
- Olfaction
- Oncochannelopathies
- Oncogene
- Oncology
- Oncology
- Optogenetics
- Origin of Life on Earth
- PIASy as a SUMO E3 ligase
- PNS-CNS segregation
- Paclitaxel
- Paleogenetics
- Pancreatic beta-cells
- Pandemic influenza
- Pathogenic aspects of MV
- Pathology
- Pathology of collagene
- Pathophysiology
- Pattern formation
- Pediatric malignancies
- Peripheral nervous system
- Permeability transitions
- Pharmacological efflux systems
- Pharmacology
- Phenotypic heterogeneity and bistability
- Phenotypic variability
- Photobiology
- Photodamage of the photosynthetic appartus by visible and UV light
- Photosynthesis
- Photosynthesis
- Photosynthetic light energy conversion and utilization
- Physico-chemical biology
- Phytohormones
- Phytopathology
- Plant-based recombinant vaccines
- Platelets
- Pollutant biodegradation
- Poly-ADP-ribosylation
- Polycomb silencing
- Pre-mRNA 3' end processing
- Pre-mRNA splicing
- Preclinical reasearch (nonhuman primates)
- Prenatal screening
- Prion biology
- Prokaryotic Argonaute (pAgo)
- Prolyl hydroxylase
- Proteases/peptidases
- Proteasome
- Proteolysis
- Proteolysis
- Proteolytic processing/shedding
- Proteomics
- Proteomics
- Proteostasis (ubiquitin and autophagy)
- Pseudokinases
- Public discussion on biofuels
- Quality and safety of food products
- Quantitative proteomics
- Quantitative proteomics
- RNAi
- RNAi
- RNRdb - RNR database
- Rare anemias
- Ras oncogenes
- Reaction kinetics
- Reactive oxygen speciess - tissue injury
- RecQ helicases
- Redox biology
- Redox biology related to oncogenesis
- Refinement of SDS-PAGE
- Relationships between biochemical and functional changes in cardiac ischemia
- Renewable energy production by photosynthetic systems
- Restriction-modification systems
- Rett Syndrome
- Reverse transcriptases
- Reverse vaccinology and meningococcus B.
- Rheumatoid arthritis
- Rheumatoid arthritis
- Rhizobial biofilms
- Ribosome
- Ribosome profiling
- Ribosomes
- Root architecture
- SARS-CoV-2 sequencing
- SARS-CoV-2 testing
- SARS-CoV2 variants
- Science education and administration
- Science policy
- Science-for-policy and policy-for-science advice
- Self non self recognition
- Senescence and aging
- Sequencing of nosocomial pathogens to generate actionable information for public health
- Single-cell
- Site specific and homologous recombination
- Site-specific recombination
- Soft tissue calcification
- Solid state cultivation and processing waste recycling
- Spatial biology
- Spinocerebellar Ataxia type 3
- Spliceosome
- Splicing
- Staphylococcus aureus
- Statistical physics
- Stereoelectronic effects
- Streptococcus pyogenes
- Stress-activated MAP kinases
- Stromal fibroblasts
- Subcellular biology
- Surface filaments
- Surface plasmon resonance
- Susceptibility
- Sustainability
- Symbiosis
- Symbiotic nitrogen fixation
- Symbiotic nitrogen fixation
- Synapse
- Syncytia formation
- Systems Biology
- Systems Biology
- Systems biology approaches to understand and predict toxicity
- Talent support
- Teaching
- Telomerase
- Telomere
- Telomere biology
- Telomeres
- The p53 field
- ThermoCas9
- Thrombosis/Thrombolysis
- Time-resolved fluorescence
- Tolerance
- Toxicology - all aspects including risk assessment
- Transciptomics
- Transcription-coupled mRNA export
- Transcriptional bursting
- Transcriptional networks
- Transcriptional repression
- Transcriptomics
- Transgenic and knockout animals
- Transposition and construction of mutant libraries of Mycobacterium tuberculosis
- Trithorax-Group
- Tubercle bacillus
- Tuberculosis
- Tuberculosis Vaccine
- Tumorigenesis
- Tumorigenesis
- Type IV secretion systems
- Ubiquitylation
- Ultraviolet light
- Utilization of MV as a vector
- Vaccines
- Vaccines
- Vaccinology
- Vascular biology
- Vector competence
- Viral and molecular mmunology
- Viral entry
- Viral pathogenesis
- Viral persistence
- Virology-
- Vitamins
- X-Ray diffraction crystallography
- X-ray crystallography
- Yersinia species
- Zebrafish neurogenetics
- cCllular senescence
- mRNA
- mRNA vaccines
- mRNA-based antibody therapeutics
- miRNAs
- microRNAs
- p53
- piRNAs
- small GTPases
- snRNAs
- tRNA