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PDBsum entry 4ype
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References listed in PDB file
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Key reference
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Title
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Two loops undergoing concerted dynamics regulate the activity of the ash1l histone methyltransferase.
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Authors
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D.S.Rogawski,
J.Ndoj,
H.J.Cho,
I.Maillard,
J.Grembecka,
T.Cierpicki.
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Ref.
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Biochemistry, 2015,
54,
5401-5413.
[DOI no: ]
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PubMed id
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Abstract
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ASH1L (absent, small, or homeotic-like 1) is a histone methyltransferase
(HMTase) involved in gene activation that is overexpressed in multiple forms of
cancer. Previous studies of ASH1L's catalytic SET domain identified an
autoinhibitory loop that blocks access of histone substrate to the enzyme active
site. Here, we used both nuclear magnetic resonance and X-ray crystallography to
identify conformational dynamics in the ASH1L autoinhibitory loop. Using
site-directed mutagenesis, we found that point mutations in the autoinhibitory
loop that perturb the structure of the SET domain result in decreased enzyme
activity, indicating that the autoinhibitory loop is not a simple gate to the
active site but is rather a key feature critical to ASH1L function. We also
identified a second loop in the SET-I subdomain of ASH1L that experiences
conformational dynamics, and we trapped two different conformations of this loop
using crystallographic studies. Mutation of the SET-I loop led to a large
decrease in ASH1L enzymatic activity in addition to a significant conformational
change in the SET-I loop, demonstrating the importance of the structure and
dynamics of the SET-I loop to ASH1L function. Furthermore, we found that three
C-terminal chromatin-interacting domains greatly enhance ASH1L enzymatic
activity and that ASH1L requires native nucleosome substrate for robust
activity. Our study illuminates the role of concerted conformational dynamics in
ASH1L function and identifies structural features important for ASH1L enzymatic
activity.
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