Exposure of lumenal microtubule sites after mild fixation.

High-resolution analysis of tubulin structure and docking the structure of tubulin dimer into a map of microtubules led to a prediction that sites for tubulin acetylation are in the interior of microtubules. This is somehow difficult to reconcile with their susceptibility to proteases and acetylation in assembled microtubules. To assess the availability of acetylated alpha-tubulin for antibodies, immunofluorescence on detergent-extracted cells, on cells fixed under various conditions and in microinjected cells was performed with monoclonal antibodies of known epitope locations. The presented data indicate that acetylated alpha:Lys40 is not exposed on unfixed microtubules but that this region of lumenal microtubule surface becomes easily exposed under mild fixation conditions.

[1]  L. Amos,et al.  Focusing-in on microtubules. , 2000, Current opinion in structural biology.

[2]  E. Nogales,et al.  High-Resolution Model of the Microtubule , 1999, Cell.

[3]  P. Chacón,et al.  Changes in Microtubule Protofilament Number Induced by Taxol Binding to an Easily Accessible Site , 1998, The Journal of Biological Chemistry.

[4]  Kenneth H. Downing,et al.  Structure of the αβ tubulin dimer by electron crystallography , 1998, Nature.

[5]  A. Hoenger,et al.  Motor domains of kinesin and ncd interact with microtubule protofilaments with the same binding geometry. , 1997, Journal of molecular biology.

[6]  J. M. de Pereda,et al.  Mapping surface sequences of the tubulin dimer and taxol-induced microtubules with limited proteolysis. , 1996, Biochemistry.

[7]  F Metoz,et al.  Lattice defects in microtubules: protofilament numbers vary within individual microtubules , 1992, The Journal of cell biology.

[8]  E. Mandelkow,et al.  Microtubule dynamics and microtubule caps: a time-resolved cryo- electron microscopy study , 1991, The Journal of cell biology.

[9]  K. Gull,et al.  Definition of individual components within the cytoskeleton of Trypanosoma brucei by a library of monoclonal antibodies. , 1989, Journal of cell science.

[10]  I. Linhartova,et al.  Differences in the exposure of C- and N-terminal tubulin domains in cytoplasmic microtubules detected with domain-specific monoclonal antibodies. , 1989, Journal of cell science.

[11]  M. Kirschner,et al.  Posttranslational modification and microtubule stability , 1987, The Journal of cell biology.

[12]  G. Piperno,et al.  Identification of an acetylation site of Chlamydomonas alpha-tubulin. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[13]  M. Little,et al.  Location of the epitope for the α-tubulin monoclonal antibody TU-O1 , 1987 .

[14]  G. Piperno,et al.  Microtubules containing acetylated alpha-tubulin in mammalian cells in culture , 1987, The Journal of cell biology.

[15]  J. Rosenbaum,et al.  The acetylation of alpha-tubulin and its relationship to the assembly and disassembly of microtubules , 1986, The Journal of cell biology.

[16]  G. Piperno,et al.  Monoclonal antibodies specific for an acetylated form of alpha-tubulin recognize the antigen in cilia and flagella from a variety of organisms , 1985, The Journal of cell biology.

[17]  M. Willingham,et al.  A rat monoclonal antibody reacting specifically with the tyrosylated form of alpha-tubulin. I. Biochemical characterization, effects on microtubule polymerization in vitro, and microtubule polymerization and organization in vivo , 1983, The Journal of cell biology.

[18]  J. Bartek,et al.  Production and characterization of a monoclonal antitubulin antibody. , 1982, Cell biology international reports.

[19]  J. Kilmartin,et al.  Rat monoclonal antitubulin antibodies derived by using a new nonsecreting rat cell line , 1982, The Journal of cell biology.

[20]  M. Klymkowsky Intermediate filaments in 3T3 cells collapse after intracellular injection of a monoclonal anti-intermediate filament antibody , 1981, Nature.

[21]  I. Barasoain,et al.  Fluorescent taxoids as probes of the microtubule cytoskeleton. , 1998, Cell motility and the cytoskeleton.

[22]  David Odde Diffusion inside microtubules , 1998, European Biophysics Journal.

[23]  J. Bartek,et al.  Production and characterization of monoclonal antibodies against human transferrin. , 1984, Folia biologica.