Everything OLD is new again: How structural, functional, and bioinformatic advances have redefined a neglected nuclease family
EW Dot, LC Thomason, JS Chappie - Molecular Microbiology, 2023 - Wiley Online Library
Overcoming lysogenization defect (OLD) proteins are a conserved family of ATP‐powered
nucleases that function in anti‐phage defense. Recent bioinformatic, genetic, and …
nucleases that function in anti‐phage defense. Recent bioinformatic, genetic, and …
Everything OLD is new again: How structural, functional, and bioinformatic advances have redefined a neglected nuclease family.
EW Dot, LC Thomason, JS Chappie - 2023 - repository.cam.ac.uk
Overcoming lysogenization defect (OLD) proteins are a conserved family of ATP-powered
nucleases that function in anti-phage defense. Recent bioinformatic, genetic, and …
nucleases that function in anti-phage defense. Recent bioinformatic, genetic, and …
Everything OLD is new again: How structural, functional, and bioinformatic advances have redefined a neglected nuclease family.
EW Dot, LC Thomason, JS Chappie - Molecular Microbiology, 2023 - europepmc.org
Overcoming lysogenization defect (OLD) proteins are a conserved family of ATP-powered
nucleases that function in anti-phage defense. Recent bioinformatic, genetic, and …
nucleases that function in anti-phage defense. Recent bioinformatic, genetic, and …
Everything OLD is new again: How structural, functional, and bioinformatic advances have redefined a neglected nuclease family
EW Dot, LC Thomason… - Molecular …, 2023 - pubmed.ncbi.nlm.nih.gov
Overcoming lysogenization defect (OLD) proteins are a conserved family of ATP-powered
nucleases that function in anti-phage defense. Recent bioinformatic, genetic, and …
nucleases that function in anti-phage defense. Recent bioinformatic, genetic, and …