Variation in histone configurations correlates with gene expression across nine inbred strains of mice | Zendy

Anna L. Tyler | Zendy; Catrina Spruce | Zendy; Romy Kursawe | Zendy; Annat Haber | Zendy; Robyn L. Ball | Zendy; Wendy A. Pitman | Zendy; Alexander D. Fine | Zendy; Narayanan Raghupathy | Zendy; Michael Walker | Zendy; Vivek M. Philip | Zendy; Christopher L. Baker | Zendy; J. Matthew Mahoney | Zendy; Gary A. Churchill | Zendy; Jennifer J. Trowbridge | Zendy; Michael L. Stitzel | Zendy; Kenneth Paigen | Zendy; Petko M. Petkov | Zendy; Gregory W. Carter | Zendy

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Variation in histone configurations correlates with gene expression across nine inbred strains of mice

Author(s) -

Anna L. Tyler,

Catrina Spruce,

Romy Kursawe,

Annat Haber,

Robyn L. Ball,

Wendy A. Pitman,

Alexander D. Fine,

Narayanan Raghupathy,

Michael Walker,

Vivek M. Philip,

Christopher L. Baker,

J. Matthew Mahoney,

Gary A. Churchill,

Jennifer J. Trowbridge,

Michael L. Stitzel,

Kenneth Paigen,

Petko M. Petkov,

Gregory W. Carter

Publication year - 2023

Publication title -

genome research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 9.556

H-Index - 297

eISSN - 1549-5469

pISSN - 1088-9051

DOI - 10.1101/gr.277467.122

Subject(s) - epigenetics , biology , dna methylation , epigenetic regulation of neurogenesis , h3k4me3 , histone , genetics , epigenomics , chromatin , histone methylation , regulation of gene expression , epigenetics of physical exercise , cancer epigenetics , gene , gene expression , histone methyltransferase , promoter

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