Lei (Stanley) Qi
Lei (Stanley) Qi
Other namesLei S. Qi, Stanley Qi
Associate Professor, Stanford University
Verified email at - Homepage
Cited by
Cited by
Repurposing CRISPR as an RNA-guided platform for sequence-specific control of gene expression
LS Qi, MH Larson, LA Gilbert, JA Doudna, JS Weissman, AP Arkin, ...
Cell 152 (5), 1173-1183, 2013
CRISPR-mediated modular RNA-guided regulation of transcription in eukaryotes
LA Gilbert, MH Larson, L Morsut, Z Liu, GA Brar, SE Torres, ...
Cell 154 (2), 442-451, 2013
Genome-scale CRISPR-mediated control of gene repression and activation
LA Gilbert, MA Horlbeck, B Adamson, JE Villalta, Y Chen, EH Whitehead, ...
Cell 159 (3), 647-661, 2014
Dynamic imaging of genomic loci in living human cells by an optimized CRISPR/Cas system
B Chen, LA Gilbert, BA Cimini, J Schnitzbauer, W Zhang, GW Li, J Park, ...
Cell 155 (7), 1479-1491, 2013
A protein-tagging system for signal amplification in gene expression and fluorescence imaging
ME Tanenbaum, LA Gilbert, LS Qi, JS Weissman, RD Vale
Cell 159 (3), 635-646, 2014
CRISPR interference (CRISPRi) for sequence-specific control of gene expression
MH Larson, LA Gilbert, X Wang, WA Lim, JS Weissman, LS Qi
Nature protocols 8 (11), 2180-2196, 2013
CRISPR/Cas9 in genome editing and beyond
H Wang, M La Russa, LS Qi
Annual review of biochemistry 85, 227-264, 2016
Engineering complex synthetic transcriptional programs with CRISPR RNA scaffolds
JG Zalatan, ME Lee, R Almeida, LA Gilbert, EH Whitehead, M La Russa, ...
Cell 160 (1), 339-350, 2015
Beyond editing: repurposing CRISPR–Cas9 for precision genome regulation and interrogation
AA Dominguez, WA Lim, LS Qi
Nature reviews Molecular cell biology 17 (1), 5-15, 2016
Methods and compositions for RNA-directed target DNA modification and for RNA-directed modulation of transcription
JA Doudna, M Jinek, E Charpentier, K Chylinski
US Patent 10,266,850, 2019
A comprehensive, CRISPR-based functional analysis of essential genes in bacteria
JM Peters, A Colavin, H Shi, TL Czarny, MH Larson, S Wong, JS Hawkins, ...
Cell 165 (6), 1493-1506, 2016
CRISPR interference efficiently induces specific and reversible gene silencing in human iPSCs
MA Mandegar, N Huebsch, EB Frolov, E Shin, A Truong, MP Olvera, ...
Cell stem cell 18 (4), 541-553, 2016
Small molecules enhance CRISPR genome editing in pluripotent stem cells
C Yu, Y Liu, T Ma, K Liu, S Xu, Y Zhang, H Liu, M La Russa, M Xie, S Ding, ...
Cell stem cell 16 (2), 142-147, 2015
Development of CRISPR as an antiviral strategy to combat SARS-CoV-2 and influenza
TR Abbott, G Dhamdhere, Y Liu, X Lin, L Goudy, L Zeng, A Chemparathy, ...
Cell 181 (4), 865-876. e12, 2020
Combinatorial CRISPR–Cas9 screens for de novo mapping of genetic interactions
JP Shen, D Zhao, R Sasik, J Luebeck, A Birmingham, ...
Nature methods 14 (6), 573-576, 2017
Complex transcriptional modulation with orthogonal and inducible dCas9 regulators
Y Gao, X Xiong, S Wong, EJ Charles, WA Lim, LS Qi
Nature methods 13 (12), 1043-1049, 2016
High-content CRISPR screening
C Bock, P Datlinger, F Chardon, MA Coelho, MB Dong, KA Lawson, T Lu, ...
Nature Reviews Methods Primers 2 (1), 1-23, 2022
Versatile RNA-sensing transcriptional regulators for engineering genetic networks
JB Lucks, L Qi, VK Mutalik, D Wang, AP Arkin
Proceedings of the National Academy of Sciences 108 (21), 8617-8622, 2011
The new state of the art: Cas9 for gene activation and repression
MF La Russa, LS Qi
Molecular and cellular biology 35 (22), 3800-3809, 2015
A CRISPR–dCas toolbox for genetic engineering and synthetic biology
X Xu, LS Qi
Journal of molecular biology 431 (1), 34-47, 2019
The system can't perform the operation now. Try again later.
Articles 1–20