Keyword search (4,163 papers available)

"crispr" Keyword-tagged Publications:

Title Authors PubMed ID
1 Tri-Functional CRISPR Screen Reveals Overexpression of em QDR2 /em and em QDR3 /em Transporters Increase Fumaric Acid Production in em Kluyveromyces marxianus /em Thornbury M; Omran RP; Kumar L; Knoops A; Abushahin R; Whiteway M; Martin VJJ; 41277095
BIOLOGY
2 Sequencing of a Dairy Isolate Unlocks em Kluyveromyces marxianus /em as a Host for Lactose Valorization Thornbury M; Knoops A; Summerby-Murray I; Dhaliwal J; Johnson S; Utomo JC; Joshi J; Narcross L; Remondetto G; Pouliot M; Whiteway M; Martin VJJ; 40629255
BIOLOGY
3 Endogenous tagging using split mNeonGreen in human iPSCs for live imaging studies Husser MC; Pham NP; Law C; Araujo FRB; Martin VJJ; Piekny A; 38652106
BIOLOGY
4 CRISPR/Cas9 mediated gene editing of transcription factor ACE1 for enhanced cellulase production in thermophilic fungus Rasamsonia emersonii Singh V; Raheja Y; Basotra N; Sharma G; Tsang A; Chadha BS; 37658430
CSFG
5 CRAPS: Chromosomal-Repair-Assisted Pathway Shuffling in Yeast Dykstra CB; Pyne ME; Martin VJJ; 37584634
BIOLOGY
6 Rapid, scalable, combinatorial genome engineering by marker-less enrichment and recombination of genetically engineered loci in yeast Abdullah M; Greco BM; Laurent JM; Garge RK; Boutz DR; Vandeloo M; Marcotte EM; Kachroo AH; 37323580
BIOLOGY
7 Cytokinetic diversity in mammalian cells is revealed by the characterization of endogenous anillin, Ect2 and RhoA Husser MC; Ozugergin I; Resta T; Martin VJJ; Piekny AJ; 36416720
BIOLOGY
8 The MyLo CRISPR-Cas9 Toolkit: A Markerless Yeast Localization and Overexpression CRISPR-Cas9 Toolkit Bean BDM; Whiteway M; Martin VJJ; 35708612
BIOLOGY
9 The chimeric GaaR-XlnR transcription factor induces pectinolytic activities in the presence of D-xylose in Aspergillus niger Kun RS; Garrigues S; Di Falco M; Tsang A; de Vries RP; 34236481
CSFG
10 Identification of a Novel Biosynthetic Gene Cluster in Aspergillus niger Using Comparative Genomics Evdokias G; Semper C; Mora-Ochomogo M; Di Falco M; Nguyen TTM; Savchenko A; Tsang A; Benoit-Gelber I; 34064722
BIOLOGY
11 Using the endogenous CRISPR-Cas system of Heliobacterium modesticaldum to delete the photochemical reaction center core subunit gene. Baker PL, Orf GS, Kevershan K, Pyne ME, Bicer T, Redding KE 31540988
BIOLOGY
12 Single-step Precision Genome Editing in Yeast Using CRISPR-Cas9. Akhmetov A, Laurent JM, Gollihar J, Gardner EC, Garge RK, Ellington AD, Kachroo AH, Marcotte EM 29770349
BIOLOGY
13 A Highly Characterized Synthetic Landing Pad System for Precise Multicopy Gene Integration in Yeast. Bourgeois L, Pyne ME, Martin VJJ 30372609
BIOLOGY
14 Seamless site-directed mutagenesis of the Saccharomyces cerevisiae genome using CRISPR-Cas9. Biot-Pelletier D, Martin VJ 27134651
BIOLOGY
15 W361R mutation in GaaR, the regulator of D-galacturonic acid-responsive genes, leads to constitutive production of pectinases in Aspergillus niger. Alazi E, Niu J, Otto SB, Arentshorst M, Pham TTM, Tsang A, Ram AFJ 30298571
CSFG

 

Title:Endogenous tagging using split mNeonGreen in human iPSCs for live imaging studies
Authors:Husser MCPham NPLaw CAraujo FRBMartin VJJPiekny A
Link:https://pubmed.ncbi.nlm.nih.gov/38652106/
DOI:10.7554/eLife.92819
Publication:eLife
Keywords:cell biologycrisprcytokinesisendogenous tagginggene editinghumanipsclive imaging
PMID:38652106 Category: Date Added:2024-04-23
Dept Affiliation: BIOLOGY
1 Biology Department, Concordia University, Montreal, Canada.
2 Center for Microscopy and Cellular Imaging, Concordia University, Montreal, Canada.
3 Center for Applied Synthetic Biology, Concordia University, Montreal, Canada.

Description:

Endogenous tags have become invaluable tools to visualize and study native proteins in live cells. However, generating human cell lines carrying endogenous tags is difficult due to the low efficiency of homology-directed repair. Recently, an engineered split mNeonGreen protein was used to generate a large-scale endogenous tag library in HEK293 cells. Using split mNeonGreen for large-scale endogenous tagging in human iPSCs would open the door to studying protein function in healthy cells and across differentiated cell types. We engineered an iPS cell line to express the large fragment of the split mNeonGreen protein (mNG21-10) and showed that it enables fast and efficient endogenous tagging of proteins with the short fragment (mNG211). We also demonstrate that neural network-based image restoration enables live imaging studies of highly dynamic cellular processes such as cytokinesis in iPSCs. This work represents the first step towards a genome-wide endogenous tag library in human stem cells.





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