Ubiquitin(Ub) chain isopeptide bond mimics are useful molecules for biochemical and biophysical studies. Herein, we report the semi-synthesis of the disulfide-linked K11/K48-branched tri-Ub(Ub_3^(11/48)(S-S)), the fir...Ubiquitin(Ub) chain isopeptide bond mimics are useful molecules for biochemical and biophysical studies. Herein, we report the semi-synthesis of the disulfide-linked K11/K48-branched tri-Ub(Ub_3^(11/48)(S-S)), the first example of an isopeptide mimic for the branched Ub chains,which have recently emerged as an interesting category of Ub modifications. Our strategy comprised the El-dependent synthesis of the Ub conjugate of aminoethanethiol, followed by disulfide formation with Ub(K11 C, K48 C). The structure of the synthetic isopeptide bond mimics was verified by the crystal structure of Ub_3^(11/48)(S-S). Deubiquitination and pulldown assays indicated that the synthetic Ub_3^(11/48)(S-S) could be hydrolyzed by linkage-specific deubiquitinases(K11-specific Cezanne and K48-specific OTUB1), and recognized by proteasomal ubiquitin receptor S5 a.展开更多
Histone H2A methylation at Glnl04 (H2AQ104Me) is a new type of histone post-translational modification (PTM) discovered recently. This modification has been found to have significant influence on gene transcriptio...Histone H2A methylation at Glnl04 (H2AQ104Me) is a new type of histone post-translational modification (PTM) discovered recently. This modification has been found to have significant influence on gene transcription. However, the structural and fimctional consequence of glutamine methylation on nucleosome remains to be further elucidated. Obtaining of histones with site-specific methylation at glutamine residues might facilitate the studies towards a better understanding of this new PTM. In the present work, total chemical synthesis of H2AQ 104Me was carried out through use of the hydrazide-based native chemical ligation. Synthetic histone H2AQ104Me could be successfully incorporated into nucleosomes in vitro and showed a negative influence on the nucleosome stability.展开更多
基金supported by the National Key R&D Program of China(2017YFA0505200)the National Natural Science Foundation of China(91753205,21532004,21761142008)the Program of Introducing Talents of Discipline to Universities of China(B16028)
文摘Ubiquitin(Ub) chain isopeptide bond mimics are useful molecules for biochemical and biophysical studies. Herein, we report the semi-synthesis of the disulfide-linked K11/K48-branched tri-Ub(Ub_3^(11/48)(S-S)), the first example of an isopeptide mimic for the branched Ub chains,which have recently emerged as an interesting category of Ub modifications. Our strategy comprised the El-dependent synthesis of the Ub conjugate of aminoethanethiol, followed by disulfide formation with Ub(K11 C, K48 C). The structure of the synthetic isopeptide bond mimics was verified by the crystal structure of Ub_3^(11/48)(S-S). Deubiquitination and pulldown assays indicated that the synthetic Ub_3^(11/48)(S-S) could be hydrolyzed by linkage-specific deubiquitinases(K11-specific Cezanne and K48-specific OTUB1), and recognized by proteasomal ubiquitin receptor S5 a.
基金supported by the National Basic Research Program of China(2013CB932800)the National Natural Science Foundation of China(21532004,21225207,81621002)
文摘Histone H2A methylation at Glnl04 (H2AQ104Me) is a new type of histone post-translational modification (PTM) discovered recently. This modification has been found to have significant influence on gene transcription. However, the structural and fimctional consequence of glutamine methylation on nucleosome remains to be further elucidated. Obtaining of histones with site-specific methylation at glutamine residues might facilitate the studies towards a better understanding of this new PTM. In the present work, total chemical synthesis of H2AQ 104Me was carried out through use of the hydrazide-based native chemical ligation. Synthetic histone H2AQ104Me could be successfully incorporated into nucleosomes in vitro and showed a negative influence on the nucleosome stability.
