Transcriptional control of tektin A mRNA correlates with cilia development and length determination during sea urchin embryogenesis

QUICK SEARCH:

[advanced]

	Author:		Keyword(s):

Home Help Feedback Subscriptions Archive Search Table of Contents

This Article

	Summary
	Full Text (PDF)
	Alert me when this article is cited
	Alert me if a correction is posted

Services

	Email this article to a friend
	Similar articles in this journal
	Similar articles in PubMed
	Alert me to new issues of the journal
	Download to citation manager


Citing Articles

	Citing Articles via HighWire
	Citing Articles via Google Scholar

Google Scholar

	Articles by Norrander, J. M.
	Articles by Stephens, R. E.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Norrander, J. M.
	Articles by Stephens, R. E.

Alexandraki, D. and Ruderman, J. V (1985). Expression of-and -tubulin genes during development of sea urchin embryos. Dev. Biol 109, 436-451.[Medline]

Amos, W. B., Amos, L. A. and Linck, R. W (1985). Proteins closely similar to flagellar tektins are detected in cilia but not in cytoplasmic microtubules. Cell Motil 5, 239-249.[Medline]

Auclair, W. and Siegel, B. W (1966). Ciliary regeneration in the sea urchin embryo: Evidence for a pool of ciliary proteins. Science 154, 913-915.[Abstract/Free Full Text]

Bibring, T. and Baxandall, J (1981). Tubulin synthesis in sea urchin embryos. II. Ciliary A tubulin derives from the unfertilized egg. Dev. Biol 83, 122-126.[Medline]

Chen, R., Perrone, C. A., Amos, L. A. and Linck, R. W (1993). Tektin B1 from ciliary microtubules: primary structure as deduced from the cDNA sequence and comparison with tektin A1. J. Cell Sci 106, 909-918.[Abstract]

Gibbons, B. H., Asai, D. J., Tang, W-. J., Hays, T. S. and Gibbons, I. R (1994). Phylogeny and expression of axonemal and cytoplasmic dynein genes in sea urchins. Molec. Biol. Cell 5, 57-60.[Abstract]

Gong, Z. and Brandhorst, B. P (1987). Stimulation of tubulin gene transcription by deciliation of sea urchin embryos. Molec. Cell. Biol 7, 4238-4246.[Abstract/Free Full Text]

Harlow, P. and Nemer, M (1987). Developmental and tissue specific regulation of-tubulin gene expression in the embryo of the sea urchin Strongylocentrotus purpuratus. Genes Dev 1, 147-160.[Abstract/Free Full Text]

Harlow, P. and Nemer, M (1987). Coordinate and selective-tubulin gene expression associated with cilium formation in sea urchin embryos. Genes Dev 1, 1293-1304.[Abstract/Free Full Text]

Haselgrove, J. C., Lyons, G., Rubenstein, N. and Kelly, A (1985). A rapid, inexpensive, quantitative, general-purpose densitometer and its application to one-dimensional gel electrophoretograms. Anal. Biochem 150, 449-456.[Medline]

Kelso-Winemiller, L., Yoon, J., Peeler, M. T. and Winkler, M. M (1993). Sea urchin maternal mRNA classes with distinct developmental regulation. Dev. Genet 14, 397-406.[Medline]

Lefebvre, P. A. and Rosenbaum, J. L (1986). Regulation of the synthesis and assembly of ciliary and flagellar proteins during regeneration. Ann. Rev. Cell Biol 2, 517-546.

Linck, R. W (1976). Flagellar doublet microtubules: fractionation of minor components and-tubulin from specific regions of the A-tubule. J. Cell Sci 20, 405-439.[Abstract]

Linck, R. W. and Langevin, G. L (1982). Structure and chemical composition of insoluble filamentous components of sperm flagellar microtubules. J. Cell Sci 58, 1-22.[Abstract]

Linck, R. W., Albertini, D. F., Kenney, D. M. and Langevin, G. L (1982). Tektin filaments: chemically unique filaments of sperm flagellar microtubules. Cell Motil 1, 127-132.

Linck R. W., Amos, L. A. and Amos, W. B (1985). Localization of tektin filaments in microtubules of sea urchin sperm flagella by immunoelectron microscopy. J. Cell Biol 100, 126-135.[Abstract/Free Full Text]

Linck, R. W. and Stephens, R. E (1987). Biochemical characterization oftektins from sperm flagellar outer doublet microtubules. J. Cell Biol 104, 1069-1075.[Abstract/Free Full Text]

Merlino, G. T., Chamberlain, J. P. and Kleinsmith, L. J (1978). Effects of deciliation on tubulin messenger RNA activity in sea urchin embryos. J. Biol. Chem 253, 7078-7085.[Free Full Text]

Nemer, M (1986). An altered series of ectodermal gene expressions accompanying the reversible suspension of differentiation in the zinc-animalized sea urchin embryo. Dev. Biol 114, 214-224.[Medline]

Nemer, M., Rondinelli, E., Infante, D. and Infante, A. A (1991). Polyubiquitin RNA characteristics and conditional induction in sea urchin embryos. Dev. Biol 145, 255-265.[Medline]

Nojima, D., Linck, R. W. and Egelman, E. H (1995). At least one of the protofilaments in flagellar microtubules is not composed of tubulin. Curr. Biol 5, 158-167.[Medline]

Norrander, J. M., Amos, L. A. and Linck, R. W (1992). Primary structure of tektin-A1: A comparison with intermediate filament proteins and a model for its association with tubulin. Proc. Natl. Acad. Sci. USA 89, 8567-8571.[Abstract/Free Full Text]

Pirner, M. A. and Linck, R. W (1994). Tektins are heterodimeric polymers in flagellar microtubules with axial periodicities matching the tubulin lattice. J. Biol. Chem 269, 31800-31806.[Abstract/Free Full Text]

Raff, R. A., Greenhouse, G., Gross, K. W. and Gross, P. R (1971). Synthesis and storage of microtubule proteins by sea urchin embryos. J. Cell Biol 50, 516-527.[Abstract/Free Full Text]

Riederer-Henderson, M. A (1988). Effects of theophylline on expression of the long cilia phenotype in sand dollar blastulae. J. Exp. Zool 246, 17-22.[Medline]

Steffen, W., and Linck, R. W (1988). Evidence for tektins in centrioles and axonemal microtubules. Proc. Natl. Acad. Sci. USA 85, 2643-2647.[Abstract/Free Full Text]

Steffen, W. and Linck, R. W (1992). Evidence for a non-tubulin spindle matrix and for spindle components immunologically related to tektin filaments. J. Cell Sci 101, 809-822.[Abstract/Free Full Text]

Steffen, W., Fajer, E. A. and Linck, R. W (1994). Centrosomal components immunologically related to tektins from ciliary and flagellar microtubules. J. Cell Sci 107, 2095-2105.[Abstract]

Stephens, R. E (1972). Studies on the development of the sea urchin Strongylocentrotus droebachiensis . I. Ecology and normal development. Biol. Bull 142, 132-144.[Abstract/Free Full Text]

Stephens, R. E (1972). Studies on the development of the sea urchin Strongylocentrotus droebachiensis . II. Embryonic synthesis of ciliary proteins. Biol. Bull 142, 489-504.[Abstract/Free Full Text]

Stephens, R. E (1977). Differential protein synthesis and utilization during cilia formation in sea urchin embryos. Dev. Biol 61, 311-329.[Medline]

Stephens, R. E (1986). Isolation of embryonic cilia and sperm flagella. Meth. Cell Biol 27, 311-329.

Stephens, R. E (1989). Quantal tektin synthesis and ciliary length in sea-urchin embryos. J. Cell Sci 92, 403-413.[Abstract/Free Full Text]

Stephens, R. E (1992). Tubulin in sea urchin embryonic cilia: Post-translational modifications during regeneration. J. Cell Sci 101, 837-845.[Abstract/Free Full Text]

Stephens, R. E (1994). Tubulin and tektin in sea urchin embryonic cilia: pathways of protein incorporation during turnover and regeneration. J. Cell Sci 107, 683-692.[Abstract]

Stephens, R. E (1994). Rapid induction of a hyperciliated phenotype in zinc-arrested sea urchin embryos by theophylline. J. Exp. Zool 269, 106-115.[Medline]

Stephens, R. E., Olsezko-Szuts, S. and Linck, R. W (1989). Retention of ciliary nine-fold structure after removal of microtubules. J. Cell Sci 92, 391-402.[Abstract/Free Full Text]

Suprenant, K. A. and Marsh, J. C (1987). Temperature and pH govern the self-assembly of microtubules from unfertilized se-urchin egg extracts. J. Cell Sci 87, 71-84.[Abstract]

Thomas, P. S (1980). Hybridization of denatured RNA and small DNA fragments transferred to nitrocellulose. Proc. Natl. Acad. Sci. USA 77, 5201-5205.[Abstract/Free Full Text]

This article has been cited by other articles:

T. M. Durcan, E. S. Halpin, T. Rao, N. S. Collins, E. K. Tribble, J. E. Hornick, and E. H. Hinchcliffe
Tektin 2 is required for central spindle microtubule organization and the completion of cytokinesis
J. Cell Biol., June 10, 2008; 181(4): 595 - 603.
[Abstract] [Full Text] [PDF]

H.-a. Yanagisawa and R. Kamiya
A Tektin Homologue Is Decreased in Chlamydomonas Mutants Lacking an Axonemal Inner-Arm Dynein
Mol. Biol. Cell, May 1, 2004; 15(5): 2105 - 2115.
[Abstract] [Full Text] [PDF]

L.-W. Tam, W. L. Dentler, and P. A. Lefebvre
Defective flagellar assembly and length regulation in LF3 null mutants in Chlamydomonas
J. Cell Biol., November 10, 2003; 163(3): 597 - 607.
[Abstract] [Full Text] [PDF]

M. J. Wolkowicz, S. Naaby-Hansen, A. R. Gamble, P. P. Reddi, C. J. Flickinger, and J. C. Herr
Tektin B1 Demonstrates Flagellar Localization in Human Sperm
Biol Reprod, January 1, 2002; 66(1): 241 - 250.
[Abstract] [Full Text]

J. M. Norrander, A. M. deCathelineau, J. A. Brown, M. E. Porter, and R. W. Linck
The Rib43a Protein Is Associated with Forming the Specialized Protofilament Ribbons of Flagellar Microtubules in Chlamydomonas
Mol. Biol. Cell, January 1, 2000; 11(1): 201 - 215.
[Abstract] [Full Text]

M. LeDizet, J. C. Beck, and W. E. Finkbeiner
Differential regulation of centrin genes during ciliogenesis in human tracheal epithelial cells
Am J Physiol Lung Cell Mol Physiol, December 1, 1998; 275(6): L1145 - L1156.
[Abstract] [Full Text] [PDF]

J. Norrander, M. Larsson, S. Stahl, C. Hoog, and R. Linck
Expression of Ciliary Tektins in Brain and Sensory Development
J. Neurosci., November 1, 1998; 18(21): 8912 - 8918.
[Abstract] [Full Text] [PDF]

R. E. Stephens
Synthesis and Turnover of Embryonic Sea Urchin Ciliary Proteins during Selective Inhibition of Tubulin Synthesis and Assembly
Mol. Biol. Cell, November 1, 1997; 8(11): 2187 - 2198.
[Abstract] [Full Text]

R. L. Morris and J. M. Scholey
Heterotrimeric Kinesin-II Is Required for the Assembly of Motile 9+2 Ciliary Axonemes on Sea Urchin Embryos
J. Cell Biol., September 8, 1997; 138(5): 1009 - 1022.
[Abstract] [Full Text] [PDF]

This Article

Summary

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Norrander, J. M.

Articles by Stephens, R. E.

Search for Related Content

PubMed

PubMed Citation

Articles by Norrander, J. M.

Articles by Stephens, R. E.

				H.-a. Yanagisawa and R. Kamiya A Tektin Homologue Is Decreased in Chlamydomonas Mutants Lacking an Axonemal Inner-Arm Dynein Mol. Biol. Cell, May 1, 2004; 15(5): 2105 - 2115. [Abstract] [Full Text] [PDF]

				L.-W. Tam, W. L. Dentler, and P. A. Lefebvre Defective flagellar assembly and length regulation in LF3 null mutants in Chlamydomonas J. Cell Biol., November 10, 2003; 163(3): 597 - 607. [Abstract] [Full Text] [PDF]

				M. J. Wolkowicz, S. Naaby-Hansen, A. R. Gamble, P. P. Reddi, C. J. Flickinger, and J. C. Herr Tektin B1 Demonstrates Flagellar Localization in Human Sperm Biol Reprod, January 1, 2002; 66(1): 241 - 250. [Abstract] [Full Text]

				J. M. Norrander, A. M. deCathelineau, J. A. Brown, M. E. Porter, and R. W. Linck The Rib43a Protein Is Associated with Forming the Specialized Protofilament Ribbons of Flagellar Microtubules in Chlamydomonas Mol. Biol. Cell, January 1, 2000; 11(1): 201 - 215. [Abstract] [Full Text]

				M. LeDizet, J. C. Beck, and W. E. Finkbeiner Differential regulation of centrin genes during ciliogenesis in human tracheal epithelial cells Am J Physiol Lung Cell Mol Physiol, December 1, 1998; 275(6): L1145 - L1156. [Abstract] [Full Text] [PDF]

				J. Norrander, M. Larsson, S. Stahl, C. Hoog, and R. Linck Expression of Ciliary Tektins in Brain and Sensory Development J. Neurosci., November 1, 1998; 18(21): 8912 - 8918. [Abstract] [Full Text] [PDF]

				R. E. Stephens Synthesis and Turnover of Embryonic Sea Urchin Ciliary Proteins during Selective Inhibition of Tubulin Synthesis and Assembly Mol. Biol. Cell, November 1, 1997; 8(11): 2187 - 2198. [Abstract] [Full Text]

				R. L. Morris and J. M. Scholey Heterotrimeric Kinesin-II Is Required for the Assembly of Motile 9+2 Ciliary Axonemes on Sea Urchin Embryos J. Cell Biol., September 8, 1997; 138(5): 1009 - 1022. [Abstract] [Full Text] [PDF]