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Histone tyrosine sulfation by SULT1B1 regulates H4R3me2a and gene transcription.

Weixing YuRunxin ZhouNan LiZhi-Chao LeiDingyuan GuoFei PengYan LiXue BaiShan FengYu WangJie HeSibi YinXiao ZengLeya HeYuan GaoMingchang LiYusong R GuoKe LiuYugang Wang
Published in: Nature chemical biology (2023)
Tyrosine sulfation is a common posttranslational modification in mammals. To date, it has been thought to be limited to secreted and transmembrane proteins, but little is known about tyrosine sulfation on nuclear proteins. Here we report that SULT1B1 is a histone sulfotransferase that can sulfate the tyrosine 99 residue of nascent histone H3 in cytosol. The sulfated histone H3 can be transported into the nucleus and majorly deposited in the promoter regions of genes in chromatin. While the H3Y99 residue is buried inside octameric nucleosome, dynamically regulated subnucleosomal structures provide chromatin-H3Y99sulf the opportunity of being recognized and bound by PRMT1, which deposits H4R3me2a in chromatin. Disruption of H3Y99sulf reduces PRMT1 binding to chromatin, H4R3me2a level and gene transcription. These findings reveal the mechanisms underlying H3Y99 sulfation and its cross-talk with H4R3me2a to regulate gene transcription. This study extends the spectrum of tyrosine sulfation on nuclear proteins and the repertoire of histone modifications regulating chromatin functions.
Keyphrases
  • genome wide
  • dna methylation
  • transcription factor
  • genome wide identification
  • gene expression
  • copy number
  • dna damage