메뉴 건너뛰기
소속 기관 / 학교 인증
인증하면 논문, 학술자료 등을  무료로 열람할 수 있어요.
한국대학교, 누리자동차, 시립도서관 등 나의 기관을 확인해보세요
(국내 대학 90% 이상 구독 중)
고객센터 ENG
주제분류

논문 기본 정보

저자정보
출처
Springer Science and Business Media LLC The EMBO Journal 2026
오류 신고하기
표지

검색

    초록·키워드

    Ubiquitin-binding shuttle proteins are important components of stress-induced biomolecular condensates in cells. Yeast Dsk2 scaffolds proteasome-containing condensates via multivalent interactions with proteasomes and polyubiquitinated substrates under stress conditions. Here, we identify the chaperone-binding STI1 domain as the main driver of Dsk2 self-association and phase separation. Using nuclear magnetic resonance (NMR) spectroscopy and computational simulations, we find that the STI1 domain interacts with three transient amphipathic helices within the intrinsically disordered regions of Dsk2. Removal of either the STI1 domain or these helices significantly reduces Dsk2's propensity to form condensates. In vivo, perturbing STI1-helix interactions, specifically removal of the transient helices, reduces the formation of azide stress-induced Dsk2/proteasome condensates, in line with our in vitro results. Modeling of Dsk2 STI1-helix interactions reveals a binding mode reminiscent of chaperone STI1/DP2 domains interacting with client helices. Our findings support a model whereby STI1-helix interactions important for Dsk2 condensate formation can be replaced by STI1-client interactions for downstream chaperone or other protein quality control outcomes.

    본문·목차

    최근 본 자료 전체보기