Keyword search (4,163 papers available)

"Saccharomyces" Keyword-tagged Publications:

Title Authors PubMed ID
1 Benzylisoquinoline Alkaloid Production in Yeast via Norlaudanosoline Improves Titer, Selectivity, and Yield Narcross L; Pyne ME; Kevvai K; Siu KH; Dueber JE; Martin VJJ; 41779670
BIOLOGY
2 PARPAL: PARalog Protein Redistribution using Abundance and Localization in Yeast Database Greco BM; Zapata G; Dandage R; Papkov M; Pereira V; Lefebvre F; Bourque G; Parts L; Kuzmin E; 40580499
BIOLOGY
3 Thermotolerance in S. cerevisiae as a model to study extracellular vesicle biology Logan CJ; Staton CC; Oliver JT; Bouffard J; Kazmirchuk TDD; Magi M; Brett CL; 38711329
BIOLOGY
4 Genome sequencing of 15 acid-tolerant yeasts Bagley JA; Pyne ME; Exley K; Kevvai K; Wang Q; Whiteway M; Martin VJJ; 37747226
BIOLOGY
5 CRAPS: Chromosomal-Repair-Assisted Pathway Shuffling in Yeast Dykstra CB; Pyne ME; Martin VJJ; 37584634
BIOLOGY
6 Engineering Yeast for De Novo Synthesis of the Insect Repellent Nepetalactone Davies ME; Tsyplenkov D; Martin VJJ; 34748704
BIOLOGY
7 An Engineered Aro1 Protein Degradation Approach for Increased cis,cis-Muconic Acid Biosynthesis in Saccharomyces cerevisiae. Pyne ME, Narcross L, Melgar M, Kevvai K, Mookerjee S, Leite GB, Martin VJJ 29934332
BIOLOGY
8 A Highly Characterized Synthetic Landing Pad System for Precise Multicopy Gene Integration in Yeast. Bourgeois L, Pyne ME, Martin VJJ 30372609
BIOLOGY
9 Engineering of a Nepetalactol-Producing Platform Strain of Saccharomyces cerevisiae for the Production of Plant Seco-Iridoids. Campbell A, Bauchart P, Gold ND, Zhu Y, De Luca V, Martin VJ 26981892
CSFG
10 Seamless site-directed mutagenesis of the Saccharomyces cerevisiae genome using CRISPR-Cas9. Biot-Pelletier D, Martin VJ 27134651
BIOLOGY
11 Reconstituting Plant Secondary Metabolism in Saccharomyces cerevisiae for Production of High-Value Benzylisoquinoline Alkaloids. Pyne ME, Narcross L, Fossati E, Bourgeois L, Burton E, Gold ND, Martin VJ 27417930
CSFG
12 Mining Enzyme Diversity of Transcriptome Libraries through DNA Synthesis for Benzylisoquinoline Alkaloid Pathway Optimization in Yeast. Narcross L, Bourgeois L, Fossati E, Burton E, Martin VJ 27442619
BIOLOGY

 

Title:Seamless site-directed mutagenesis of the Saccharomyces cerevisiae genome using CRISPR-Cas9.
Authors:Biot-Pelletier DMartin VJ
Link:https://www.ncbi.nlm.nih.gov/pubmed/27134651?dopt=Abstract
DOI:10.1186/s13036-016-0028-1
Publication:Journal of biological engineering
Keywords:CRISPR-Cas9Genome editingSaccharomyces cerevisiaeSite-directed mutagenesis
PMID:27134651 Category:J Biol Eng Date Added:2019-06-07
Dept Affiliation: BIOLOGY
1 Department of Biology, Concordia University, 7141 Sherbrooke West, Montréal, QC H4B 1R6 Canada ; Centre for Structural and Functional Genomics, Concordia University, 7141 Sherbrooke West, Montréal, QC H4B 1R6 Canada.

Description:

Seamless site-directed mutagenesis of the Saccharomyces cerevisiae genome using CRISPR-Cas9.

J Biol Eng. 2016;10:6

Authors: Biot-Pelletier D, Martin VJ

Abstract

CRISPR assisted homology directed repair enables the introduction of virtually any modification to the Saccharomyces cerevisiae genome. Of obvious interest is the marker-free and seamless introduction of point mutations. To fulfill this promise, a strategy that effects single nucleotide changes while preventing repeated recognition and cutting by the gRNA/Cas9 complex is needed. We demonstrate a two-step method to introduce point mutations at 17 positions in the S. cerevisiae genome. We show the general applicability of the method, enabling the seamless introduction of single nucleotide changes at any location, including essential genes and non-coding regions. We also show a quantifiable phenotype for a point mutation introduced in gene GSH1. The ease and wide applicability of this general method, combined with the demonstration of its feasibility will enable genome editing at an unprecedented level of detail in yeast and other organisms.

PMID: 27134651 [PubMed]




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