Follow
Xiaojing Gao
Xiaojing Gao
Assistant Professor, Chemical Engineering, Stanford
Verified email at stanford.edu - Homepage
Title
Cited by
Cited by
Year
Circuit architecture of VTA dopamine neurons revealed by systematic input-output mapping
KT Beier, EE Steinberg, KE DeLoach, S Xie, K Miyamichi, L Schwarz, ...
Cell 162 (3), 622-634, 2015
9392015
Viral-genetic tracing of the input-output organization of a central noradrenaline circuit
LA Schwarz*, K Miyamichi*, XJ Gao, KT Beier, B Weissbourd, ...
Nature 524 (7563), 88-92, 2015
6612015
Programmable protein circuits in living cells
XJ Gao*, LS Chong*, MS Kim, MB Elowitz, * equal contribution
Science 361 (6408), 1252-1258, 2018
2952018
A versatile in vivo system for directed dissection of gene expression patterns
DM Gohl, MA Silies, XJ Gao, S Bhalerao, FJ Luongo, CC Lin, CJ Potter, ...
Nature methods 8 (3), 231-237, 2011
2242011
Topological organization of ventral tegmental area connectivity revealed by viral-genetic dissection of input-output relations
KT Beier, XJ Gao, S Xie, KE DeLoach, RC Malenka, L Luo
Cell reports 26 (1), 159-167. e6, 2019
942019
A transcriptional reporter of intracellular Ca2+ in Drosophila
XJ Gao^, O Riabinina, J Li, CJ Potter, TR Clandinin^, L Luo^, ...
Nature neuroscience 18 (6), 917-925, 2015
922015
Cas9-triggered chain ablation of cas9 as a gene drive brake
B Wu*, L Luo, XJ Gao*, * equal contribution
Nature biotechnology 34 (2), 137, 2016
792016
Modular, programmable RNA sensing using ADAR editing in living cells
KE Kaseniit, N Katz, NS Kolber, CC Call, DL Wengier, WB Cody, ...
Nature biotechnology 41 (4), 482-487, 2023
332023
Specific kinematics and motor-related neurons for aversive chemotaxis in Drosophila
XJ Gao, CJ Potter, DM Gohl, M Silies, AY Katsov, TR Clandinin, L Luo
Current Biology 23 (13), 1163-1172, 2013
322013
Extremely Sparse Olfactory Inputs Are Sufficient to Mediate Innate Aversion in Drosophila
XJ Gao^, TR Clandinin, L Luo, ^ corresponding
PLOS ONE 10 (4), e0125986, 2015
192015
Precision timing in a cell
XJ Gao, MB Elowitz
Nature 538 (7626), 462-463, 2016
132016
Protease-controlled secretion and display of intercellular signals
AE Vlahos, J Kang, CA Aldrete, R Zhu, LS Chong, MB Elowitz, XJ Gao
Nature communications 13 (1), 912, 2022
122022
Programmable protein circuits in living cells
X Gao, LS Chong, M Elowitz, MW Budde, MS Kim
US Patent 10,899,823, 2021
32021
RNA-based delivery systems with levels of control
X Gao, LS Chong, MB Elowitz, MSM Kim
US Patent 11,453,893, 2022
22022
Drosophila chemotaxis: A first look with neurogenetics
XJ Gao
Fly 8 (1), 3-6, 2014
22014
Synthetic protein circuits detecting signal transducer activity
X Gao, MB Elowitz
US Patent 11,542,305, 2023
12023
Programmable protein circuits in living cells
X Gao, LS Chong, M Elowitz, MW Budde, MS Kim
US Patent App. 17/157,880, 2021
12021
Engineering multiple levels of specificity in an RNA viral vector
XJ Gao, LS Chong, MH Ince, MS Kim, MB Elowitz
bioRxiv, 2020.05. 27.119909, 2020
12020
Orthogonalized human protease control of secreted signals
CA Aldrete, AE Vlahos, J Pei, Q Cong, XJ Gao
bioRxiv, 2024.01. 18.576308, 2024
2024
Compact Programmable Control of Protein Secretion in Mammalian Cells
AE Vlahos, CC Call, SE Kadaba, S Guo, XJ Gao
bioRxiv, 2023
2023
The system can't perform the operation now. Try again later.
Articles 1–20