scholarly journals In vitro Reactivation of the Contractile Ring in the Fission Yeast Cell-ghost

2014 ◽  
Vol 54 (4) ◽  
pp. 201-205
Author(s):  
Jun KASHIWAZAKI ◽  
Issei MABUCHI
Keyword(s):  
Yeast Cell ◽  
Fission Yeast ◽  
Contractile Ring ◽  
Cell Ghost ◽  
Fission Yeast Cell

scholarly journals Fission yeast myosin Myo2 is down-regulated in actin affinity by light chain phosphorylation

2017 ◽  
Vol 114 (35) ◽  
pp. E7236-E7244 ◽  
Author(s):  
Luther W. Pollard ◽  
Carol S. Bookwalter ◽  
Qing Tang ◽  
Elena B. Krementsova ◽  
Kathleen M. Trybus ◽  
...  
Keyword(s):  
Fission Yeast ◽  
Light Chain ◽  
Force Production ◽  
Class Ii ◽  
Cell System ◽  
Cell Cortex ◽  
Animal Cells ◽  
Contractile Ring ◽  
Biophysical Studies

Studies in fission yeast Schizosaccharomyces pombe have provided the basis for the most advanced models of the dynamics of the cytokinetic contractile ring. Myo2, a class-II myosin, is the major source of tension in the contractile ring, but how Myo2 is anchored and regulated to produce force is poorly understood. To enable more detailed biochemical/biophysical studies, Myo2 was expressed in the baculovirus/Sf9 insect cell system with its two native light chains, Rlc1 and Cdc4. Milligram yields of soluble, unphosphorylated Myo2 were obtained that exhibited high actin-activated ATPase activity and in vitro actin filament motility. The fission yeast specific chaperone Rng3 was thus not required for expression or activity. In contrast to nonmuscle myosins from animal cells that require phosphorylation of the regulatory light chain for activation, phosphorylation of Rlc1 markedly reduced the affinity of Myo2 for actin. Another unusual feature of Myo2 was that, unlike class-II myosins, which generally form bipolar filamentous structures, Myo2 showed no inclination to self-assemble at approximately physiological salt concentrations, as analyzed by sedimentation velocity ultracentrifugation. This lack of assembly supports the hypothesis that clusters of Myo2 depend on interactions at the cell cortex in structural units called nodes for force production during cytokinesis.

scholarly journals The F-actin bundler α-actinin Ain1 is tailored for ring assembly and constriction during cytokinesis in fission yeast

2016 ◽  
Vol 27 (11) ◽  
pp. 1821-1833 ◽  
Author(s):  
Yujie Li ◽  
Jenna R. Christensen ◽  
Kaitlin E. Homa ◽  
Glen M. Hocky ◽  
Alice Fok ◽  
...  
Keyword(s):  
Fission Yeast ◽  
Actin Filament ◽  
Actin Filaments ◽  
Biochemical Properties ◽  
Ring Formation ◽  
Cross Linking ◽  
Contractile Ring ◽  
Mixed Polarity ◽  
Dividing Cells

The actomyosin contractile ring is a network of cross-linked actin filaments that facilitates cytokinesis in dividing cells. Contractile ring formation has been well characterized in Schizosaccharomyces pombe, in which the cross-linking protein α-actinin SpAin1 bundles the actin filament network. However, the specific biochemical properties of SpAin1 and whether they are tailored for cytokinesis are not known. Therefore we purified SpAin1 and quantified its ability to dynamically bind and bundle actin filaments in vitro using a combination of bulk sedimentation assays and direct visualization by two-color total internal reflection fluorescence microscopy. We found that, while SpAin1 bundles actin filaments of mixed polarity like other α-actinins, SpAin1 has lower bundling activity and is more dynamic than human α-actinin HsACTN4. To determine whether dynamic bundling is important for cytokinesis in fission yeast, we created the less dynamic bundling mutant SpAin1(R216E). We found that dynamic bundling is critical for cytokinesis, as cells expressing SpAin1(R216E) display disorganized ring material and delays in both ring formation and constriction. Furthermore, computer simulations of initial actin filament elongation and alignment revealed that an intermediate level of cross-linking best facilitates filament alignment. Together our results demonstrate that dynamic bundling by SpAin1 is important for proper contractile ring formation and constriction.

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