Kinetic evidence for low chemical processivity in ncd and Eg5

Kinetic evidence for low chemical processivity in ncd and Eg5

The kinesin molecular motor “walks” processively along microtubules, touching down with alternate motor domains and transiently bridging between sites spaced 8 nm apart axially. To allow bridging, the coiled coil tail of kinesin would need to unzip a region immediately adjacent to the heads, and the...

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Bibliographic Details
Published in:Journal of molecular biology Vol. 273; no. 1; pp. 160 - 170
Main Authors: Crevel, I.M-T.C., Lockhart, A., Cross, R.A.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 17-10-1997
Subjects:
Adenosine Triphosphatases - metabolism
Amino Acid Sequence
coiled coil
Drosophila Proteins
kinesin
Kinesin - chemistry
Kinesin - metabolism
Kinetics
microtubule
Microtubules - metabolism
Models, Molecular
molecular motor
Molecular Sequence Data
processivity
Protein Conformation
Protein Structure, Secondary
Sequence Homology, Amino Acid
Temperature
Tubulin - isolation & purification
Tubulin - metabolism
Xenopus Proteins
microtubule
coiled coil
MT(s)
kinesin
PF
processivity
k bi
molecular motor
ncd
K 50% MTs
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Summary:The kinesin molecular motor “walks” processively along microtubules, touching down with alternate motor domains and transiently bridging between sites spaced 8 nm apart axially. To allow bridging, the coiled coil tail of kinesin would need to unzip a region immediately adjacent to the heads, and the tail region sequence at this point indeed contains potentially destabilising interruptions in the regular hydrophobic heptad repeat. We noticed that such interruptions are substantially absent from the coiled coil tails of Eg5, a slow kinesin homologue, and ncd, a reverse-directed homologue, and we wondered if this precluded their processivity. We measured the temperature dependence of k cat/ K 50% MTs, an index of the chemical processivity of a motor, the number of ATPs split per productive diffusional encounter of motor with microtubule. We found two-headed ncd (GSTMC5) and two-headed Eg5 (E437GST) constructs to be slightly if at all processive in solution over the range 4°C to 30°C. By contrast, two-headed kinesin constructs K401 and K430 were processive, and became substantially more so with increasing temperature. Arrhenius plots for the solution ATPase were linear for all three motors. Arrhenius plots for MT gliding assays were linear and essentially parallel for E437GST and GSTMC5 ( E a = 61 and 63 kJ mol −1) but for K430 the plot was biphasic, with a break at 17°C, corresponding to a 30% reduction in E a from 84 to 57 kJ mol −1. The data indicate that ncd and Eg5 are only slightly if at all processive, and suggest that this may be related to structural differences in their coiled coil neck regions.
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ISSN:0022-2836
1089-8638
DOI:10.1006/jmbi.1997.1319