about
Quantification of Oxidized 5-Methylcytosine Bases and TET Enzyme Activity.Tet2 Catalyzes Stepwise 5-Methylcytosine Oxidation by an Iterative and de novo Mechanism.The expanding scope and impact of epigenetic cytosine modifications.A Small-Molecule Inducible Synthetic Circuit for Control of the SOS Gene Network without DNA Damage.Mutations along a TET2 active site scaffold stall oxidation at 5-hydroxymethylcytosine.Harnessing natural DNA modifying activities for editing of the genome and epigenome.OGT binds a conserved C-terminal domain of TET1 to regulate TET1 activity and function in development
P50
Q38291835-59986543-34E3-4B2B-8D56-0A125510665CQ38587746-D76F0F3E-1E89-4D80-8602-3F082173940AQ38868484-7FD2C231-04CC-4C8F-A291-588F3C6CEE3EQ47145902-4D67DDF3-BD87-4033-BA40-0A1819D06AD8Q48180112-6EA50E6F-8F36-4F6F-BAC6-18058071C01BQ49917892-20E11BE8-6B09-44E8-936B-760030C4C9FCQ57456942-D94D1A07-1318-429E-B9BE-88C3D2D22366
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Monica Yun Liu
@en
Monica Yun Liu
@nl
type
label
Monica Yun Liu
@en
Monica Yun Liu
@nl
prefLabel
Monica Yun Liu
@en
Monica Yun Liu
@nl
P31
P496
0000-0003-3936-9377