Dianna Hocking

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Distribution and diversity of classical deacylases in bacteria - Nature Communications

Nov 3, 2024 | nature.com | Carlos Moreno-Yruela |Sabrina Schulze |Gottfried J. Palm |Nancy Wang |Dianna Hocking |Leila Jebeli | +5 more

AbstractClassical Zn2+-dependent deac(et)ylases play fundamental regulatory roles in life and are well characterized in eukaryotes regarding their structures, substrates and physiological roles. In bacteria, however, classical deacylases are less well understood. We construct a Generalized Profile (GP) and identify thousands of uncharacterized classical deacylases in bacteria, which are grouped into five clusters.
Distribution and diversity of classical deacylases in bacteria - Nature Communications

Nov 3, 2024 | nature.com | Carlos Moreno-Yruela |Sabrina Schulze |Gottfried J. Palm |Nancy Wang |Dianna Hocking |Leila Jebeli | +5 more

AbstractClassical Zn2+-dependent deac(et)ylases play fundamental regulatory roles in life and are well characterized in eukaryotes regarding their structures, substrates and physiological roles. In bacteria, however, classical deacylases are less well understood. We construct a Generalized Profile (GP) and identify thousands of uncharacterized classical deacylases in bacteria, which are grouped into five clusters.

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