Phylogeny and expression of axonemal and cytoplasmic dynein genes in sea urchins

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Phylogeny and expression of axonemal and cytoplasmic dynein genes in sea urchins

BH Gibbons, DJ Asai, WJ Tang, TS Hays and IR Gibbons

Pacific Biomedical Research Center, University of Hawaii, Honolulu 96822.

Transcripts approximately 14.5 kilobases in length from 14 different genes that encode for dynein heavy chains have been identified in poly(A)+ RNA from sea urchin embryos. Analysis of the changes in level of these dynein transcripts in response to deciliation, together with their sequence relatedness, suggests that 11 or more of these genes encode dynein isoforms that participate in regeneration of external cilia on the embryo, whereas the single gene whose deduced sequence closely resembles that of cytoplasmic dynein in other organisms appears not to be involved in this regeneration. The four consensus motifs for phosphate binding found previously in the beta heavy chain of sea urchin dynein are present in all five additional isoforms for which extended sequences have been obtained, suggesting that these sites play a significant role in dynein function. Sequence analysis of a approximately 400 amino acid region encompassing the putative hydrolytic ATP-binding site shows that the dynein genes fall into at least six distinct classes. Most of these classes in sea urchin have a high degree of sequence identity with one of the dynein heavy chain genes identified in Drosophila, indicating that the radiation of the dynein gene family into the present classes occurred at an early stage in the evolution of eukaryotes. Evolutionary changes in cytoplasmic dynein have been more constrained than those in the axonemal dyneins.

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				J. R. Davenport and B. K. Yoder An incredible decade for the primary cilium: a look at a once-forgotten organelle Am J Physiol Renal Physiol, December 1, 2005; 289(6): F1159 - F1169. [Abstract] [Full Text] [PDF]

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				L. E. Ostrowski, K. Andrews, P. Potdar, H. Matsuura, A. Jetten, and P. Nettesheim Cloning and Characterization of KPL2, a Novel Gene Induced during Ciliogenesis of Tracheal Epithelial Cells Am. J. Respir. Cell Mol. Biol., April 1, 1999; 20(4): 675 - 683. [Abstract] [Full Text]

				M. E. Porter, R. Bower, J. A. Knott, P. Byrd, and W. Dentler Cytoplasmic Dynein Heavy Chain 1b Is Required for Flagellar Assembly in Chlamydomonas Mol. Biol. Cell, March 1, 1999; 10(3): 693 - 712. [Abstract] [Full Text]

				S. Lee, J. C. Wisniewski, W. L. Dentler, and D. J. Asai Gene Knockouts Reveal Separate Functions for Two Cytoplasmic Dyneins in Tetrahymena thermophila Mol. Biol. Cell, March 1, 1999; 10(3): 771 - 784. [Abstract] [Full Text]

				G. J. Pazour, B. L. Dickert, and G. B. Witman The DHC1b (DHC2) Isoform of Cytoplasmic Dynein Is Required for Flagellar Assembly J. Cell Biol., February 8, 1999; 144(3): 473 - 481. [Abstract] [Full Text] [PDF]

				J. L. Rosenbaum, D. G. Cole, and D. R. Diener Intraflagellar Transport: The Eyes Have It J. Cell Biol., February 8, 1999; 144(3): 385 - 388. [Full Text] [PDF]

Phylogeny and expression of axonemal and cytoplasmic dynein genes in sea urchins

Volume 5, Issue 1, pp. 57-70, 01/01/1994 Copyright © 1994 by The American Society for Cell Biology

Volume 5, Issue 1, pp. 57-70, 01/01/1994
Copyright © 1994 by The American Society for Cell Biology

				B A Afzelius Genetics and pulmonary medicine bullet �6: Immotile cilia syndrome: past, present, and prospects for the future Thorax, October 1, 1998; 53(10): 894 - 897. [Full Text]

				R. Kurek, A. M. Reugels, K. H. Glatzer, and H. Bunemann The Y Chromosomal Fertility Factor Threads in Drosophila hydei Harbors a Functional Gene Encoding an Axonemal Dynein ss Heavy Chain Protein Genetics, July 1, 1998; 149(3): 1363 - 1376. [Abstract] [Full Text] [PDF]

				G. J. Pazour, C. G. Wilkerson, and G. B. Witman A Dynein Light Chain Is Essential for the Retrograde Particle Movement of Intraflagellar Transport (IFT) J. Cell Biol., May 18, 1998; 141(4): 979 - 992. [Abstract] [Full Text] [PDF]

				J. G. Gindhart Jr., C. J. Desai, S. Beushausen, K. Zinn, and L. S.B. Goldstein Kinesin Light Chains Are Essential for Axonal Transport in Drosophila J. Cell Biol., April 20, 1998; 141(2): 443 - 454. [Abstract] [Full Text] [PDF]

				A. Harada, Y. Takei, Y. Kanai, Y. Tanaka, S. Nonaka, and N. Hirokawa Golgi Vesiculation and Lysosome Dispersion in Cells Lacking Cytoplasmic Dynein J. Cell Biol., April 6, 1998; 141(1): 51 - 59. [Abstract] [Full Text] [PDF]

				P. S. Criswell and D. J. Asai Evidence for Four Cytoplasmic Dynein Heavy Chain Isoforms in Rat Testis Mol. Biol. Cell, February 1, 1998; 9(2): 237 - 247. [Abstract] [Full Text]

				N. Hirokawa Kinesin and Dynein Superfamily Proteins and the Mechanism of Organelle Transport Science, January 23, 1998; 279(5350): 519 - 526. [Abstract] [Full Text]

				P. Criswell, L. Ostrowski, and D. Asai A novel cytoplasmic dynein heavy chain: expression of DHC1b in mammalian ciliated epithelial cells J. Cell Sci., January 7, 1996; 109(7): 1891 - 1898. [Abstract] [PDF]

				J. Norrander, R. Linck, and R. Stephens Transcriptional control of tektin A mRNA correlates with cilia development and length determination during sea urchin embryogenesis Development, January 6, 1995; 121(6): 1615 - 1623. [Abstract] [PDF]

				Y Tanaka, Z Zhang, and N Hirokawa Identification and molecular evolution of new dynein-like protein sequences in rat brain J. Cell Sci., January 5, 1995; 108(5): 1883 - 1893. [Abstract] [PDF]