Histone H3K79 modifications are essential to regulate chromatin structure and gene transcription,but understanding of the molecular mechanisms is limited.Because H3K79 is at globular domain,short histone peptide canno...Histone H3K79 modifications are essential to regulate chromatin structure and gene transcription,but understanding of the molecular mechanisms is limited.Because H3K79 is at globular domain,short histone peptide cannot mimic H3K79 in chromatin.Instead,reconstituted nucleosome-based chemical tools are ideally used to investigate H3K79 modifications.In consequence,H3K79-modified histone H3 with additional chemical handles are required,but such synthesis is challenging and laborious.Here we report a facile semisynthesis method that enables multifunctional histone H3 readily available.H3K79-containing fragment is short for straight peptide synthesis that was later ligated to recombinant expressed H3 fragments for full-length product in large scale.As a result,nucleosomes with H3K79 modifications as well as photo-reactive group and affinity tag were obtained to investigate potential binding proteins.We believe this method that enhances synthetic accessibility of nucleosome probes will accelerate understanding of the underexplored H3K79 modifications.展开更多
Cold stress in low-temperature environments can trigger changes in gene expression,but epigenomics regulation of temperature stability in vital tissues,including the fat and diencephalon,is still unclear.Here,we explo...Cold stress in low-temperature environments can trigger changes in gene expression,but epigenomics regulation of temperature stability in vital tissues,including the fat and diencephalon,is still unclear.Here,we explore the cold-induced changes in epigenomic features in the diencephalon and fat tissues of two cold-resistant Chinese pig breeds,Min and Enshi black(ES)pigs,utilizing H3K27ac CUT&Tag,RNA-seq,and selective signature analysis.Our results show significant alterations in H3K27ac modifications in the diencephalon of Min pigs and the fat of ES pigs after cold exposure.Dramatic changes in H3K27ac modifications in the diencephalon of Min pig are primarily associated with genes involved in energy metabolism and hormone regulation,whereas those in the fat of ES pig are primarily associated with immunity-related genes.Moreover,transcription factors PRDM1 and HSF1,which show evidence of selection,are enriched in genomic regions presenting cold-responsive alterations in H3K27ac modification in the Min pig diencephalon and ES pig fat,respectively.Our results indicate the diversity of epigenomic response mechanisms to cold exposure between Min and ES pigs,providing unique epigenetic resources for studies of low-temperature adaptation in large mammals.展开更多
基金support from National Natural Science Foundation of China(Nos.22077103 and 22161132006)Westlake University startup。
文摘Histone H3K79 modifications are essential to regulate chromatin structure and gene transcription,but understanding of the molecular mechanisms is limited.Because H3K79 is at globular domain,short histone peptide cannot mimic H3K79 in chromatin.Instead,reconstituted nucleosome-based chemical tools are ideally used to investigate H3K79 modifications.In consequence,H3K79-modified histone H3 with additional chemical handles are required,but such synthesis is challenging and laborious.Here we report a facile semisynthesis method that enables multifunctional histone H3 readily available.H3K79-containing fragment is short for straight peptide synthesis that was later ligated to recombinant expressed H3 fragments for full-length product in large scale.As a result,nucleosomes with H3K79 modifications as well as photo-reactive group and affinity tag were obtained to investigate potential binding proteins.We believe this method that enhances synthetic accessibility of nucleosome probes will accelerate understanding of the underexplored H3K79 modifications.
基金supported by the National Natural Science Foundation of China(32202634)National Natural Science Foundation of China(31961143020)+2 种基金National Natural Science Foundation of China(U20A2052)China Agricultural Research System(CARS-35)the Heilongjiang Provincial Research Institutes Research Business Fund Project(CZKYF2023-1-B009)。
文摘Cold stress in low-temperature environments can trigger changes in gene expression,but epigenomics regulation of temperature stability in vital tissues,including the fat and diencephalon,is still unclear.Here,we explore the cold-induced changes in epigenomic features in the diencephalon and fat tissues of two cold-resistant Chinese pig breeds,Min and Enshi black(ES)pigs,utilizing H3K27ac CUT&Tag,RNA-seq,and selective signature analysis.Our results show significant alterations in H3K27ac modifications in the diencephalon of Min pigs and the fat of ES pigs after cold exposure.Dramatic changes in H3K27ac modifications in the diencephalon of Min pig are primarily associated with genes involved in energy metabolism and hormone regulation,whereas those in the fat of ES pig are primarily associated with immunity-related genes.Moreover,transcription factors PRDM1 and HSF1,which show evidence of selection,are enriched in genomic regions presenting cold-responsive alterations in H3K27ac modification in the Min pig diencephalon and ES pig fat,respectively.Our results indicate the diversity of epigenomic response mechanisms to cold exposure between Min and ES pigs,providing unique epigenetic resources for studies of low-temperature adaptation in large mammals.
