Publications by authors named "Jacob S Antony"
Article Synopsis
- - The CRISPR-Cas genome editing system is widely used due to its versatility in research and biotechnology, particularly in eukaryotic organisms like yeast.
- - The overview covers tools and methods for efficient, marker-free genome editing in yeast, including techniques like sgRNA design, multiplex editing, and optimizing Cas9 expression.
- - Recent studies are highlighted to showcase potential issues with CRISPR in yeast, such as background mutations that can arise during the editing process.
DNA base damage arises frequently in living cells and needs to be removed by base excision repair (BER) to prevent mutagenesis and genome instability. Both the formation and repair of base damage occur in chromatin and are conceivably affected by DNA-binding proteins such as transcription factors (TFs). However, to what extent TF binding affects base damage distribution and BER in cells is unclear.
View Article and Find Full Text PDFdCas9 binding inhibits the initiation of base excision repair in vitro.
DNA Repair (Amst)
January 2022
Cas9 targets DNA during genome editing by forming an RNA:DNA heteroduplex (R-loop) between the Cas9-bound guide RNA and the targeted DNA strand. We have recently demonstrated that R-loop formation by catalytically inactive Cas9 (dCas9) is inherently mutagenic, in part, by promoting spontaneous cytosine deamination within the non-targeted single-stranded DNA of the dCas9-induced R-loop. However, the extent to which dCas9 binding and R-loop formation affect the subsequent repair of uracil lesions or other damaged DNA bases is unclear.
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