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Tal Laviv
Tal Laviv
Verified email at tauex.tau.ac.il - Homepage
Title
Cited by
Cited by
Year
Autocrine BDNF–TrkB signalling within a single dendritic spine
SC Harward, NG Hedrick, CE Hall, P Parra-Bueno, TA Milner, E Pan, ...
Nature 538 (7623), 99-103, 2016
2992016
A bright cyan-excitable orange fluorescent protein facilitates dual-emission microscopy and enhances bioluminescence imaging in vivo
J Chu, Y Oh, A Sens, N Ataie, H Dana, JJ Macklin, T Laviv, ES Welf, ...
Nature biotechnology 34 (7), 760-767, 2016
2322016
CaMKII autophosphorylation is necessary for optimal integration of Ca2+ signals during LTP induction, but not maintenance
JY Chang, P Parra-Bueno, T Laviv, EM Szatmari, SJR Lee, R Yasuda
Neuron 94 (4), 800-808. e4, 2017
1532017
Simultaneous dual-color fluorescence lifetime imaging with novel red-shifted fluorescent proteins
T Laviv, BB Kim, J Chu, AJ Lam, MZ Lin, R Yasuda
Nature methods 13 (12), 989-992, 2016
962016
GABAB receptor deficiency causes failure of neuronal homeostasis in hippocampal networks
I Vertkin, B Styr, E Slomowitz, N Ofir, I Shapira, D Berner, T Fedorova, ...
Proceedings of the National Academy of Sciences 112 (25), E3291-E3299, 2015
522015
Compartmentalization of the GABAB receptor signaling complex is required for presynaptic inhibition at hippocampal synapses
T Laviv, I Vertkin, Y Berdichevsky, H Fogel, I Riven, B Bettler, ...
Journal of Neuroscience 31 (35), 12523-12532, 2011
522011
Basal GABA regulates GABABR conformation and release probability at single hippocampal synapses
T Laviv, I Riven, I Dolev, I Vertkin, B Balana, PA Slesinger, I Slutsky
Neuron 67 (2), 253-267, 2010
522010
In vivo imaging of the coupling between neuronal and CREB activity in the mouse brain
T Laviv, B Scholl, P Parra-Bueno, B Foote, C Zhang, L Yan, Y Hayano, ...
Neuron 105 (5), 799-812. e5, 2020
442020
Methodologies and challenges for CRISPR/Cas9 mediated genome editing of the mammalian brain
H Nishizono, R Yasuda, T Laviv
Frontiers in Genome Editing 2, 18, 2020
162020
Brain‐Targeted Liposomes Loaded with Monoclonal Antibodies Reduce Alpha‐Synuclein Aggregation and Improve Behavioral Symptoms in Parkinson's Disease
M Sela, M Poley, P Mora‐Raimundo, S Kagan, A Avital, M Kaduri, G Chen, ...
Advanced Materials 35 (51), 2304654, 2023
62023
Imaging neuronal protein signaling dynamics in vivo
T Laviv, R Yasuda
Current opinion in neurobiology 69, 68-75, 2021
52021
FRET imaging of rho GTPase activity with red fluorescent protein-based FRET pairs
BT Bajar, X Guan, A Lam, MZ Lin, R Yasuda, T Laviv, J Chu
Cell Polarity Signaling: Methods and Protocols, 31-43, 2022
22022
Disease-associated polyalanine expansion mutations impair UBA6-dependent ubiquitination
F Amer-Sarsour, D Falik, Y Berdichevsky, A Kordonsky, S Eid, T Rabinski, ...
The EMBO Journal 43 (2), 250-276, 2024
2024
Brain‐Targeted Liposomes Loaded with Monoclonal Antibodies Reduce Alpha‐Synuclein Aggregation and Improve Behavioral Symptoms in Parkinson's Disease (Adv. Mater. 51/2023)
M Sela, M Poley, P Mora‐Raimundo, S Kagan, A Avital, M Kaduri, G Chen, ...
Advanced Materials 35 (51), 2370367, 2023
2023
Tension-dependent RHGF-1 recruitment to stress fibers drives robust spermathecal tissue contraction
S Avivi Kela, K Sethi, PY Tan, D Suresh, HT Ong, PG Castaneda, ...
Journal of Cell Biology 222 (2), e202203105, 2022
2022
An optical probe of synaptic plasticity (vol 35, pg 26, 2017)
T Laviv, R Yasuda
NATURE BIOTECHNOLOGY 35 (5), 481-481, 2017
2017
Erratum: An optical probe of synaptic plasticity
T Laviv, R Yasuda
Nature Biotechnology 35 (5), 481-481, 2017
2017
An optical probe of synaptic plasticity
T Laviv, R Yasuda
Nature Biotechnology 35 (1), 26-27, 2017
2017
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