!!Dmitri Rusakov - Selected papers

* Theparambil SM, Kopach O, Braga A, ..., __Rusakov DA__, Kasparov S, Gourine AV (2024) Adenosine signalling to astrocytes coordinates brain metabolism and function. ''Nature'' 632: 139-146.
* __Rusakov DA__ (2024) Avoiding bias in fluorescence sensor readout. ''Nature Rev Neurosci'' 25: 1-2.
* Magloire V, Savtchenko LP, Jensen TP, ..., Pavlov I, __Rusakov DA__ (2023) Volume-transmitted GABA waves pace epileptiform rhythms in the hippocampal network. ''Curr Biol'' 33: 1249-1264.
* __Rusakov DA__ (2023) A misadventure of the correlation coefficient. ''Trends Neurosci'' 46: 94-96.
* __Rusakov DA__ (2022) Avoiding interpretational pitfalls in fluorescence imaging of the brain. ''Nature Rev Neurosci'' 23: 705–706.
* Michaluk P, __Rusakov DA__ (2022) Monitoring protein cell-membrane dynamics using whole-cell FRAP of pH-sensitive genetic tags. ''Nature Protocols'' 17: 3056–3079.
* Michaluk P, Heller JP, __Rusakov DA__ (2021) Rapid recycling of glutamate transporters on the astroglial surface. ''eLife'' 10: e64714, pp 1-18.
* Jensen TP, Kopach O, Savtchenko LP, Reynolds JP, __Rusakov DA__ (2021) Release probability increases towards distal dendrites boosting high-frequency signal transfer in the rodent hippocampus. ''eLife'' 10: e62588, pp 1-20.
* Henneberger C, Bard L, Panatier A, ..., Nägerl UV, __Rusakov DA__ (2020) LTP induction boosts glutamate spillover by driving withdrawal of perisynaptic astroglia. ''Neuron'' 108: 919-936.
* Jensen TP, Zheng K, Cole N, Marvin JS, Looger LL, __Rusakov DA__ (2019) Multiplex imaging relates quantal glutamate release to presynaptic Ca2+ homeostasis at multiple synapses in situ. ''Nature Commun'' 10: 1414 (pp 1-13).
* Savtchenko LP, Bard L, Jensen TP, Reynolds JP, Kraev I, Medvedev N, Stewart MG, Henneberger C, __Rusakov DA__ (2018) Disentangling astroglial physiology with a realistic cell model in silico. ''Nature Commun'' 9: 3556 (pp 1-12).
* Zheng K, Jensen TP, __Rusakov DA__ (2018) Monitoring intracellular nanomolar calcium using fluorescence lifetime imaging. ''Nature Protocols'' 13: 581-597.
* Savtchenko LP, Poo MM, __Rusakov DA__ (2017) Electrodiffusion phenomena in neuroscience: a neglected companion. ''Nature Rev Neurosci'' 18: 598–612.
* Mishra A, Reynolds JP, Chen Y, Gourine AV, __Rusakov DA, __Attwell D (2016) Astrocytes mediate neurovascular signaling to capillary pericytes but not to arterioles. ''Nature Neurosci'' 19: 1619–1627. 
* Zheng K, Bard L, Reynolds J, King K, Jensen TP, Gourine AV, __Rusakov DA__ (2015) Time-resolved imaging reveals heterogeneous landscapes of nanomolar Ca2+ in neurons and astroglia. ''Neuron ''88: 277-288. 
* __Rusakov DA __(2015) Disentangling calcium-driven astrocyte physiology. ''Nature Rev Neurosci'' 16: 226-233.
* __Rusakov DA__, Bard L, Stewart MG, Henneberger C (2014) Diversity of astroglial functions alludes to subcellular specialisation. ''Trends Neurosci'' 37: 228-242
* Scott R, Henneberger C, Padmashri R, Anders S, Jensen T, __Rusakov DA__ (2014) Neuronal adaptation involves rapid expansion of the action potential initiation site. ''Nature Comms''  5: 3817, pp 1-12.
* Pavlov I, Savtchenko LP, Song I, Koob J, Pimashkin A, __Rusakov DA#__, Semyanov A# (2014) Tonic GABAA conductance bidirectionally controls interneuron firing pattern and synchronization in the CA3 hippocampal network. ''PNAS USA'' 111: 504-509.
* Savtchenko LP, Sylantyev S, __Rusakov DA__ (2013) Central synapses release a resource-efficient amount of glutamate. ''Nature Neurosci'' 16: 10-12.
* Sylantyev S, Jensen TP, Ross RA, __Rusakov DA (__2013) Cannabinoid- and lysophosphatidylinositol-sensitive receptor GPR55 boosts neurotransmitter release at central synapses. ''PNAS USA'' 110: 5193-5198. 
* Sylantyev S, Savtchenko LP, Ermolyuk Y, Michaluk P, __Rusakov DA__ (2013) Spike-driven glutamate electrodiffusion triggers synaptic potentiation via a Homer-dependent mGluR-NMDAR link. ''Neuron ''77: 528-540.
* Henneberger C, Papouin T, Oliet SHR, __Rusakov DA__ (2010) Long-term potentiation depends on release of D-serine from astrocytes. ''Nature ''463: 232-236.
* Ruiz A, Campanac E, Scott R, __Rusakov DA__, Kullmann DM (2010) Presynaptic GABAA receptors enhance transmission and LTP induction at hippocampal missy fiber synapses. ''Nature Neurosci'' 13: 431-438.\\
* Sylantyev S, Savtchenko LP, Niu Y-P, Ivanov AI, Jensen TP, Kullmann DM, Xiao MY, __Rusakov DA__ (2008) Electric fields due to synaptic currents sharpen excitatory transmission. ''Science ''319: 1845-1849.\\
* Savtchenko LP, __Rusakov DA __(2007) The optimal height of the synaptic cleft. PNAS USA 104: 1823-1828.\\
* Lamsa KP, Heeroma JH, Somogyi P, __Rusakov DA__, Kullmann DM (2007) Anti-Hebbian long-term potentiation in the hippocampal feedback inhibitory circuit. ''Science ''315: 1262-1266.\\
* Scott R, __Rusakov DA__ (2006) Main determinants of presynaptic Ca2+ dynamics at individual mossy fiber-CA3 pyramidal cell synapses. ''J Neurosci'' 26: 7071-81.\\
* Volynski KE, __Rusakov DA__, Kullmann DM (2006) Presynaptic fluctuations and release-independent depression. ''Nature Neurosci'' 9: 1091-1093.
* __Rusakov DA__, Fine A (2003) Extracellular Ca2+ depletion contributes to fast activity- dependent modulation of synaptic transmission in the brain. ''Neuron ''37: 287-297.
* Ruiz A, Fabian-Fine R, Scott R, Walker MC, __Rusakov DA__, Kullmann DM (2003) GABAA receptors at hippocampal mossy fibers. ''Neuron ''39: 961-973.
* __Rusakov DA__, Kullmann DM (1998) Geometric and viscous components of the tortuosity of the extracellular space in the brain. ''PNAS USA'' 95: 8975-8980.