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DSSylation, a novel protein modification targets proteins induced by oxidative stress, and facilitates their degradation in cells
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作者 Yinghao Zhang Fang-Mei Chang +11 位作者 Jianjun Huang Jacob J. Junco Shivani K. Maffi Hannah I. Pridgen Gabriel Catano Hong Dang Xiang Ding Fuquan Yang Dae Joon Kim Thomas J. Slaga Rongqiao He sung-jen wei 《Protein & Cell》 SCIE CAS CSCD 2014年第2期124-140,共17页
Timely removal of oxidatively damaged proteins is crit- ical for cells exposed to oxidative stresses; however, cellular mechanism for clearing oxidized proteins is not clear. Our study reveals a novel type of protein ... Timely removal of oxidatively damaged proteins is crit- ical for cells exposed to oxidative stresses; however, cellular mechanism for clearing oxidized proteins is not clear. Our study reveals a novel type of protein modifi- cation that may play a role in targeting oxidized proteins and remove them. In this process, DSS1 (deleted in split hand/split foot 1), an evolutionally conserved small protein, is conjugated to proteins induced by oxidative stresses in vitro and in vivo, implying oxidized proteins are DSS1 clients. A subsequent ubiquitination targeting DSSl-protein adducts has been observed, suggesting the client proteins are degraded through the ubiquitin- proteasome pathway. The DSS1 attachment to its clients is evidenced to be an enzymatic process modulated by an unidentified ATPase. We name this novel protein modification as DSSylation, in which DSS1 plays as amodifier, whose attachment may render target proteins a signature leading to their subsequent ubiquitination, thereby recruits proteasome to degrade them. 展开更多
关键词 DSS1 shfml free radicals OXIDATIVESTRESS PROTEASOME protein modification DSSylation
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