FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3047790618> ?p ?o ?g. }

• W3047790618 abstract "Abstract The proper structural organization of the microtubule-based spindle during cell division requires the collective activity of many different types of proteins. These include non-motor microtubule-associated proteins (MAPs) whose functions include crosslinking microtubules to regulate filament sliding rates and assembling microtubule arrays. One such protein is PRC1, an essential MAP that has been shown to preferentially crosslink overlapping antiparallel microtubules at the spindle midzone. PRC1 has been proposed to act as a molecular brake, but insight into the mechanism of how PRC1 molecules function cooperatively to resist motor-driven microtubule sliding and to allow for the formation of stable midzone overlaps has been lacking. Here we employ a modified microtubule gliding assay to rupture PRC1-mediated microtubule pairs using surface-bound kinesins. We discovered that PRC1 crosslinks always reduce bundled filament sliding velocities relative to single microtubule gliding rates, and do so via two distinct emergent modes of mechanical resistance to motor-driven sliding. We term these behaviors braking and coasting, where braking events exhibit substantially slowed microtubule sliding compared to coasting events. Strikingly, braking behavior requires the formation of two distinct high-density clusters of PRC1 molecules near microtubule tips. Our results suggest a cooperative mechanism for PRC1 accumulation when under mechanical load that leads to a unique state of enhanced resistance to filament sliding and provides insight into collective protein ensemble behavior in regulating the mechanics of spindle assembly." @default.
• W3047790618 created "2020-08-13" @default.
• W3047790618 creator A5061469341 @default.
• W3047790618 creator A5066906855 @default.
• W3047790618 creator A5083788897 @default.
• W3047790618 date "2020-08-10" @default.
• W3047790618 modified "2023-09-27" @default.
• W3047790618 title "Two modes of PRC1-mediated mechanical resistance to kinesin-driven microtubule network disruption" @default.
• W3047790618 cites W1972474352 @default.
• W3047790618 cites W1993453384 @default.
• W3047790618 cites W2027540736 @default.
• W3047790618 cites W2029236619 @default.
• W3047790618 cites W2035664711 @default.
• W3047790618 cites W2039444499 @default.
• W3047790618 cites W2041335806 @default.
• W3047790618 cites W2044820159 @default.
• W3047790618 cites W2054084181 @default.
• W3047790618 cites W2073153492 @default.
• W3047790618 cites W2089248474 @default.
• W3047790618 cites W2095631043 @default.
• W3047790618 cites W2113778621 @default.
• W3047790618 cites W2139598402 @default.
• W3047790618 cites W2147120878 @default.
• W3047790618 cites W2148159864 @default.
• W3047790618 cites W2149486211 @default.
• W3047790618 cites W2154705653 @default.
• W3047790618 cites W2159512282 @default.
• W3047790618 cites W2160087268 @default.
• W3047790618 cites W2164700273 @default.
• W3047790618 cites W2168830217 @default.
• W3047790618 cites W2227537804 @default.
• W3047790618 cites W2344518204 @default.
• W3047790618 cites W2561037455 @default.
• W3047790618 cites W2562290755 @default.
• W3047790618 cites W2568269004 @default.
• W3047790618 cites W2585722462 @default.
• W3047790618 cites W2613581303 @default.
• W3047790618 cites W2615947293 @default.
• W3047790618 cites W2761358013 @default.
• W3047790618 cites W2765635011 @default.
• W3047790618 cites W2805863058 @default.
• W3047790618 cites W2952495805 @default.
• W3047790618 cites W2954047225 @default.
• W3047790618 cites W3175203116 @default.
• W3047790618 doi "https://doi.org/10.1101/2020.08.10.244491" @default.
• W3047790618 hasPublicationYear "2020" @default.
• W3047790618 type Work @default.
• W3047790618 sameAs 3047790618 @default.
• W3047790618 citedByCount "1" @default.
• W3047790618 countsByYear W30477906182021 @default.
• W3047790618 crossrefType "posted-content" @default.
• W3047790618 hasAuthorship W3047790618A5061469341 @default.
• W3047790618 hasAuthorship W3047790618A5066906855 @default.
• W3047790618 hasAuthorship W3047790618A5083788897 @default.
• W3047790618 hasBestOaLocation W30477906181 @default.
• W3047790618 hasConcept C12554922 @default.
• W3047790618 hasConcept C14228908 @default.
• W3047790618 hasConcept C20418707 @default.
• W3047790618 hasConcept C54355233 @default.
• W3047790618 hasConcept C59006786 @default.
• W3047790618 hasConcept C86803240 @default.
• W3047790618 hasConcept C93126451 @default.
• W3047790618 hasConcept C95444343 @default.
• W3047790618 hasConceptScore W3047790618C12554922 @default.
• W3047790618 hasConceptScore W3047790618C14228908 @default.
• W3047790618 hasConceptScore W3047790618C20418707 @default.
• W3047790618 hasConceptScore W3047790618C54355233 @default.
• W3047790618 hasConceptScore W3047790618C59006786 @default.
• W3047790618 hasConceptScore W3047790618C86803240 @default.
• W3047790618 hasConceptScore W3047790618C93126451 @default.
• W3047790618 hasConceptScore W3047790618C95444343 @default.
• W3047790618 hasLocation W30477906181 @default.
• W3047790618 hasLocation W30477906182 @default.
• W3047790618 hasOpenAccess W3047790618 @default.
• W3047790618 hasPrimaryLocation W30477906181 @default.
• W3047790618 hasRelatedWork W1523096427 @default.
• W3047790618 hasRelatedWork W1964816796 @default.
• W3047790618 hasRelatedWork W1974528900 @default.
• W3047790618 hasRelatedWork W2017522528 @default.
• W3047790618 hasRelatedWork W2036767683 @default.
• W3047790618 hasRelatedWork W2762659278 @default.
• W3047790618 hasRelatedWork W2944647541 @default.
• W3047790618 hasRelatedWork W2949994011 @default.
• W3047790618 hasRelatedWork W4298088849 @default.
• W3047790618 hasRelatedWork W4319936921 @default.
• W3047790618 isParatext "false" @default.
• W3047790618 isRetracted "false" @default.
• W3047790618 magId "3047790618" @default.
• W3047790618 workType "article" @default.