Interactions of LC8 with N-terminal segments of the intermediate chain of cytoplasmic dynein.

Afua Nyarko,Elisar Barbar,Michael Hare,Moses Makokha

doi:10.1100/tsw.2003.56

Afua Nyarko, Elisar Barbar + Show 2 more

Open Access

https://doi.org/10.1100/tsw.2003.56

Copy DOI

Journal: TheScientificWorldJournal	Publication Date: Jan 1, 2003
Citations: 5	License type: CC BY 3.0

Affiliation: Ohio University

Abstract

LC8, a highly conserved 10-kDa light chain, and IC74, a 74-kDa intermediate chain, are presumed to promote the assembly of the cytoplasmic dynein motor protein complex and to be engaged in the controlled binding and release of cargo. The interactions of LC8 from Drosophila melanogaster with constructs of IC74 were characterized in vitro by affinity methods, limited proteolysis, and circular dichroism spectroscopy. Previously, we have performed limited proteolysis on the N-terminal domain of IC74, IC(1-289), when free and when bound to dynein light chains LC8 and Tctex-1[1]. We have also shown that upon addition of LC8, IC(1-289) undergoes a significant conformational change from a largely unfolded to a more ordered structure. The purpose of the work presented here is to determine whether residues 1-30 in IC74, predicted to be in a coiled coil, are involved in the stabilization of the protein upon binding to LC8. Constructs of IC74, IC(1-143), and IC(30-143) that include the LC8 binding site but with and without the first 30 residues were prepared, and their binding and protection patterns were compared to our previous results for IC(1-289). The results suggest that coiled coil residues 1-30 are not responsible for the increase in structure we observe when IC(1-289) binds to LC8.

Highlights

Cytoplasmic dynein is an essential participant in chromosome movement during mitosis, in the trafficking of vesicular cargo, and in positioning various organelles during the interphase
The intermediate chain IC74 forms a key intermediary in the complex, as it associates with the heavy chain and the accessory complex dynactin as well as with other subunits in the base[3,4]
We have shown by circular dichroism, fluorescence spectroscopy, sedimentation velocity, and the relative ease of proteolysis that IC(1-289) is predominantly unfolded with elongated noncompact structure[1]

Summary

Introduction

Cytoplasmic dynein is an essential participant in chromosome movement during mitosis, in the trafficking of vesicular cargo, and in positioning various organelles during the interphase. It is a principal motor for motion along microtubules, toward their minus end. The C-terminal domain IC(290-643) is predicted to be predominantly β-sheet with seven WD repeats folded into a β-propeller. Truncation mutations of these domains show that they have independent functions: the Nterminal domain binds dynactin, while the C-terminal domain binds the heavy chain[5]. Far UV CD, indicates the presence of a small percentage of helical or coiled-coil structure, consistent with coiled coil

Methods

Results

Conclusion