Predicted to enable protein-L-histidine N-pros-methyltransferase activity. Predicted to be involved in methylation. Is an ortholog of human METTL9 (methyltransferase 9, His-X-His N1(pi)-histidine).
Predicted to enable DNA binding activity and protein heterodimerization activity. Predicted to be a structural constituent of chromatin. Predicted to be part of nucleosome. Is an ortholog of human H2BK1 (H2B.K variant histone 1).
Predicted to enable DNA binding activity and protein heterodimerization activity. Predicted to be a structural constituent of chromatin. Is an ortholog of several human genes including H4C1 (H4 clustered histone 1); H4C4 (H4 clustered histone 4); and H4C9 (H4 clustered histone 9).
Predicted to enable DNA binding activity. Involved in innate immune response. Part of chromatin. Is an ortholog of several human genes including H2BC12 (H2B clustered histone 12); H2BC17 (H2B clustered histone 17); and H2BC3 (H2B clustered histone 3).
Predicted to enable DNA binding activity and protein heterodimerization activity. Predicted to be a structural constituent of chromatin. Predicted to be part of nucleosome. Is an ortholog of several human genes including H3C1 (H3 clustered histone 1); H3C3 (H3 clustered histone 3); and H3C4 (H3 clustered histone 4).
Enables H3K27me3 modified histone binding activity. Involved in chromatin remodeling; defense response to Gram-positive bacterium; and negative regulation of gene expression. Located in chromosome, telomeric region; cytoplasm; and nucleus. Expressed in several structures, including germ line and gonad. Is an ortholog of human H1-0 (H1.0 linker histone) and H1-8 (H1.8 linker histone).