Title page for ETD etd-012899-114123

Type of Document Master's Thesis
Author Phelps, Kalmia Kniel
URN etd-012899-114123
Title Effects of Cysteine Modification on Microtubule-Motor Protein Function and Tubulin Assembly
Degree Master of Science
Department Biology
Advisory Committee
Advisor Name Title
Walker, Richard A. Committee Chair
Winkel, Brenda S. J. Committee Member
Wong, Eric A. Committee Member
  • microtubules
  • Ncd
  • kinesin
  • tubulin
  • cysteine
Date of Defense 1999-01-14
Availability unrestricted
Chemical modification is a powerful technique for probing functionally important amino acids. N-ethylmaleimide (NEM) reacts readily with exposed sulfhydryl groups, and has previously been shown to inhibit the activity of MT-motor proteins and tubulin assembly. This project seeks to investigate the mechanisms by which NEM affects motor function and inhibits MT minus end assembly. Recombinant motor domains of Drosophila kinesin (DK350 and DK375), Ncd (MC1), and squid kinesin (p181) were modified by NEM. NEM treatment was shown to affect the binding of MC1, but not recombinant kinesin proteins to MTs in the co-sedimentation assay. NEM treatment decreased the MT-stimulated ATPase rates of MC1 and DK350 in an NEM-concentration dependent manner, but did not affect the rate of DK375. Observed effects with DK375, p181, and MC1 were correlated with the number of labeled cysteines determined with [3H]NEM. As previously known, when NEM-treated tubulin was combined with untreated tubulin at certain ratios, assembly occurred only at the MT plus end. To investigate the mechanism by which NEM affects the polarity of tubulin assembly, tubulin was treated with NEM and assembly was analyzed using video-enhanced differential interference contrast microscopy. [3H]NEM was used to follow the time course of modification and to determine the number of modified sites per tubulin subunit. After 10 minutes, one cysteine was labeled on both a and b tubulin and this was sufficient to inhibit minus end assembly. Additionally, having one subunit labeled out of five tubulin subunits was sufficient to observe this effect. Protein digestion methods were used to aid in elimination of cysteines, to characterize potential critical cysteines in MC1, a, and b tubulin.
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