微管负端马达蛋白驱动蛋白-14和动力蛋白通过平行途径驱动细胞核汇聚。

Microtubule minus end motors kinesin-14 and dynein drive nuclear congression in parallel pathways.

作者信息

Scheffler Kathleen, Minnes Refael, Fraisier Vincent, Paoletti Anne, Tran Phong T

机构信息

Centre de Recherche and BioImaging Cell and Tissue Core Facility of the Institut Curie (PICT-IBiSA), Institut Curie, F-75248 Paris, France Centre National de la Recherche Scientifique, Unite Mixte de Recherche 144, F-75248 Paris, France.

Cell and Developmental Biology, University of Pennsylvania, Philadelphia, PA 19104.

出版信息

J Cell Biol. 2015 Apr 13;209(1):47-58. doi: 10.1083/jcb.201409087.

DOI:10.1083/jcb.201409087

PMID:25869666

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4395489/

Abstract

Microtubules (MTs) and associated motors play a central role in nuclear migration, which is crucial for diverse biological functions including cell division, polarity, and sexual reproduction. In this paper, we report a dual mechanism underlying nuclear congression during fission yeast karyogamy upon mating of haploid cells. Using microfluidic chambers for long-term imaging, we captured the precise timing of nuclear congression and identified two minus end-directed motors operating in parallel in this process. Kinesin-14 Klp2 associated with MTs may cross-link and slide antiparallel MTs emanating from the two nuclei, whereas dynein accumulating at spindle pole bodies (SPBs) may pull MTs nucleated from the opposite SPB. Klp2-dependent nuclear congression proceeds at constant speed, whereas dynein accumulation results in an increase of nuclear velocity over time. Surprisingly, the light intermediate chain Dli1, but not dynactin, is required for this previously unknown function of dynein. We conclude that efficient nuclear congression depends on the cooperation of two minus end-directed motors.

摘要

微管（MTs）及相关的马达蛋白在核迁移中起着核心作用，核迁移对于包括细胞分裂、极性和有性生殖在内的多种生物学功能至关重要。在本文中，我们报道了裂殖酵母单倍体细胞交配时核融合过程中核向赤道板移动的双重机制。利用微流控室进行长期成像，我们捕捉到了核向赤道板移动的精确时间，并确定在此过程中有两个向负端移动的马达蛋白并行发挥作用。与微管相关的驱动蛋白-14 Klp2可能会交联并使来自两个细胞核的反平行微管滑动，而聚集在纺锤极体（SPB）的动力蛋白可能会拉动从相对的纺锤极体产生的微管。依赖Klp2的核向赤道板移动以恒定速度进行，而动力蛋白的聚集导致核速度随时间增加。令人惊讶的是，动力蛋白的这种此前未知的功能需要轻中间链Dli1而非动力蛋白激活蛋白。我们得出结论，高效的核向赤道板移动依赖于两个向负端移动的马达蛋白的协同作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fde6/4395489/03dc1469d7fe/JCB_201409087_Fig1.jpg

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微管负端马达蛋白驱动蛋白-14和动力蛋白通过平行途径驱动细胞核汇聚。

Microtubule minus end motors kinesin-14 and dynein drive nuclear congression in parallel pathways.

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