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OCA

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 ==Overview==
-Posttranslational histone modifications participate in modulating the, structure and function of chromatin. Promoters of transcribed genes are, enriched with K4 trimethylation and hyperacetylation on the N-terminal, tail of histone H3. Recently, PHD finger proteins, like Yng1 in the NuA3, HAT complex, were shown to interact with H3K4me3, indicating a biochemical, link between K4 methylation and hyperacetylation. By using a combination, of mass spectrometry, biochemistry, and NMR, we detail the Yng1, PHD-H3K4me3 interaction and the importance of NuA3-dependent acetylation, at K14. Furthermore, genome-wide ChIP-Chip analysis demonstrates, colocalization of Yng1 and H3K4me3 in vivo. Disrupting the K4me3 binding, of Yng1 altered K14ac and transcription at certain genes, thereby, demonstrating direct in vivo evidence of sequential trimethyl binding, acetyltransferase activity, and gene regulation by NuA3. Our data support, a general mechanism of transcriptional control through which histone, acetylation upstream of gene activation is promoted partially through, availability of H3K4me3, "read" by binding modules in select subunits.
+Posttranslational histone modifications participate in modulating the structure and function of chromatin. Promoters of transcribed genes are enriched with K4 trimethylation and hyperacetylation on the N-terminal tail of histone H3. Recently, PHD finger proteins, like Yng1 in the NuA3 HAT complex, were shown to interact with H3K4me3, indicating a biochemical link between K4 methylation and hyperacetylation. By using a combination of mass spectrometry, biochemistry, and NMR, we detail the Yng1 PHD-H3K4me3 interaction and the importance of NuA3-dependent acetylation at K14. Furthermore, genome-wide ChIP-Chip analysis demonstrates colocalization of Yng1 and H3K4me3 in vivo. Disrupting the K4me3 binding of Yng1 altered K14ac and transcription at certain genes, thereby demonstrating direct in vivo evidence of sequential trimethyl binding, acetyltransferase activity, and gene regulation by NuA3. Our data support a general mechanism of transcriptional control through which histone acetylation upstream of gene activation is promoted partially through availability of H3K4me3, "read" by binding modules in select subunits.
 ==About this Structure==
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 [[Category: Saccharomyces cerevisiae]]
 [[Category: Single protein]]
-[[Category: Aitchison, J.D.]]
+[[Category: Aitchison, J D.]]
-[[Category: Allis, C.D.]]
+[[Category: Allis, C D.]]
 [[Category: Baker, L.]]
-[[Category: Blair, L.P.]]
+[[Category: Blair, L P.]]
 [[Category: Boyle, J.]]
-[[Category: Chait, B.T.]]
+[[Category: Chait, B T.]]
 [[Category: Ilin, S.]]
 [[Category: Lavender, H.]]
 [[Category: Li, H.]]
-[[Category: Patel, D.J.]]
+[[Category: Patel, D J.]]
-[[Category: Rogers, R.S.]]
+[[Category: Rogers, R S.]]
-[[Category: Tackett, A.J.]]
+[[Category: Tackett, A J.]]
-[[Category: Tanny, J.C.]]
+[[Category: Tanny, J C.]]
-[[Category: Taverna, S.D.]]
+[[Category: Taverna, S D.]]
 [[Category: ZN]]
 [[Category: histone]]
@@ Line 34: / Line 34: @@
 [[Category: yeast]]
-''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Wed Jan 23 14:39:55 2008''
+''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 18:04:03 2008''