spacer gif spacer gif spacer gif spacer gif spacer gif
QUICK SEARCH:   [advanced]


spacer gif
     Home     Help     Feedback     Subscriptions     Archive     Search     Table of Contents    

This Article
Right arrow Summary Freely available
Right arrow Full Text (PDF)
Right arrow Alert me when this article is cited
Right arrow Alert me if a correction is posted
Services
Right arrow Email this article to a friend
Right arrow Similar articles in this journal
Right arrow Similar articles in PubMed
Right arrow Alert me to new issues of the journal
Right arrow Download to citation manager
Right arrow reprints & permissions
Citing Articles
Right arrow Citing Articles via HighWire
Right arrow Citing Articles via Google Scholar
Google Scholar
Right arrow Articles by Steffen, W.
Right arrow Articles by Linck, R. W.
Right arrow Search for Related Content
PubMed
Right arrow PubMed Citation
Right arrow Articles by Steffen, W.
Right arrow Articles by Linck, R. W.
Allen, C. and Borisy, G (1974). Structural polarity and directional growth of microtubules of Chlamydomonas flagella. J. Mol. Biol 90, 381-402.[Medline]

Bao, L., Zimmer, W. E. and Balczon, R (1993). Molecular cloning and autoepitope analysis of PCM-1, a novel centrosome autoantigen. Mol. Biol Cell 4, 395-.

Baron, A. T. and Salisbury, J. L (1988). Identification and localization of a novel, cytoskeletal centrosome-associated protein in PtK2cells. J. Cell Biol 107, 2669-2678.[Abstract/Free Full Text]

Berns, M. W. and Richardson, S. M (1977). Continuation of mitosis after selective laser microbeam destruction of the centriolar region. J. Cell Biol 75, 977-982.[Abstract/Free Full Text]

Birrell, G., Hedberg, K. K. and Griffith, O (1987). Pitfalls of immunogold labeling: Analysis by light microscopy, transmission electron microscopy, photoelectron microscopy. J. Histochem. Cytochem 35, 843-853.[Abstract]

Bornens, M., Paintrand, M., Berges, J., Marty, M. C. and Karsenti, E (1987). Structural and chemical characterization of isolated centrosomes. Cell Motil. Cytoskel 8, 238-249.[Medline]

Brenner, S., Branch, A., Meredith, S. and Berns, M. W (1977). The absence of centrioles from spindle poles of rat kangaroo (PtK2) cells undergoing meiotic-like reduction division in vitro. J. Cell Biol 72, 368-379.[Abstract/Free Full Text]

Buendia, B., Antony, C., Verde, F., Bornens, M. and Karsenti, E (1990). A centrosomal antigen localized on intermediate filaments and mitotic spindle poles. J. Cell Sci 97, 259-271.[Abstract/Free Full Text]

Chang, X. J. and Piperno, G (1987). Cross-reactivity of antibodies for flagellar tektins and intermediate filament subunits. J. Cell Biol 104, 1563-1568.[Abstract/Free Full Text]

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]

Clark, S. W. and Meyer, D. I (1992). Centractin is an actin homologue associated with the centrosome. Nature 359, 246-250.[Medline]

Doxsey, S. J., Stein, P., Evans, L., Calarco, P. D. and Kirschner, M (1994). Pericentrin, a highly conserved centrosome protein involved in microtubule organization. Cell 76, 639-650.[Medline]

Dunn, S. D (1986). Effect of the modification of transfer buffer composition and the renaturation of proteins in gels on the recognition of proteins on western blots by monoclonal antibodies. Anal. Biochem 157, 144-153.[Medline]

Gould, R. R. and Borisy, G. G (1977). The pericentriolar material in Chinese hamster ovary cells nucleates microtubule formation. J. Cell Biol 73, 601-615.[Abstract/Free Full Text]

Horio, T., Uzawa, S., Jung, M. K., Oakley, B. R., Tanaka, K. and Yanagida, M (1991). The fission yeast-tubulin is essential for mitosis and is localized at microtubule organizing centers. J. Cell Sci 99, 693-700.[Abstract]

Joswig, G., Petzelt, C. and Werner, D (1991). Murine cDNAs coding for the centrosomal antigen centrosomin A. J. Cell Sci 98, 37-43.[Abstract/Free Full Text]

Kalnins, V. J. and Porter, K. R (1969). Centriole replication during ciliogenesis in the chick tracheal epithelium. Z. Zellfors. Mikrosk. Anat 100, 1-30.[Medline]

Kilmartin, J. V., Dyos, S. L., Kershaw, D. and Finch, J. T (1993). A spacer protein in the Saccharomyces cerevisiae spindle pole body whose transrcript is cell cycle-regulated. J. Cell Biol 123, 1175-1184.[Abstract/Free Full Text]

Kimble, M. and Kuriyama, R (1992). Functional components of microtubule-organizing centers. Int. Rev. Cytol 136, 1-50.[Medline]

Kuriyama, R., Keryer, G. and Borisy, G. G (1984). The mitotic spindle of Chinese hamster ovary cells isolated in taxol-containing medium. J. Cell Sci 66, 265-275.[Abstract]

Kuriyama, R (1989). 225-kilodalton phosphoprotein associated with mitotic centrosomes in sea urchin eggs. Cell Motil. Cytoskel 12, 90-103.[Medline]

Laemmli, U. K (1970). Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227, 680-685.[Medline]

Lange, B. M. H. and Gull, K (1993). Cenexin, a protein defining one of the two centrioles in a mammalian cell. Mol. Biol Cell 4, 394-.

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., 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., Goggin, M. J., Norrander, J. M. and Steffen, W (1987). Characterization of antibodies as probes for structural and biochemical studies of tektins from ciliary and flagellar microtubules. J. Cell Sci 88, 453-466.[Abstract/Free Full Text]

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

Mascardo, R. N., Sherline, P. and Wheatherbee, J (1982). Localization of high molecular weight microtubule-associated protein (MAP1 and MAP2) in HeLa microtubule-organizing center. Cytobios 35, 113-127.[Medline]

Matsudaira, P (1987). Sequence from picomole quantities of proteins electroblotted onto polyvinylidene difluoride membranes. J. Biol. Chem 262, 10035-10038.[Abstract/Free Full Text]

Mitchison, T. J. and Kirschner, M. W (1986). Isolation of mammalian centrosomes. Meth. Enzymol 134, 261-268.[Medline]

Nigg, E. A., Schaefer, G., Hilz, H. and Eppenberger, H. M (1985). Cyclic-AMP-dependent protein kinase type II is associated with the Golgi complex and with centrosomes. Cell 41, 1039-1051.[Medline]

Nojima, D., Linck, R. W. and Egelman, E. H (1994). Evidence suggests that at least one of the 13 protofilaments of the A-tubule from doublet microtubules is not composed of tubulin. Biophys. J 66, 313-.

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

Oakley, B. R., Oakley, C. E., Yoon, Y. and Jung, M. K (1990). -tubulin is a component of the spindle pole body that is essential for the microtubule function in Aspergillus nidulans. Cell 61, 1289-1301.[Medline]

Oakley, C. E. and Oakley, B. R (1989). Identification of-tubulin, a new member of the tubulin superfamily encoded by mipA gene of Aspergillus nidulans. Nature 338, 662-664.[Medline]

Oegema, K., Whitfield, W. G. and Alberts, B. M (1993). Characterization of the functional domains of a Drosophila centrosomal protein. Mol. Biol. Cell 4, 228-.

Paul, E. C. A. and Quaroni, A (1993). Identification of a 102 kDa protein (cytocentrin) immunologically related to keratin 19, which is a cytoplasmically derived component of the mitotic spindle pole. J. Cell Sci 106, 967-981.[Abstract]

Perret, E., Albert, M., Bordes, N., Bornens, M. and Soyer-Gobillard, M.-O (1991). Microtubular spindle and centrosome structure during the cell cycle in a dinoflagellate Crypthecodinium cohnii. Biosystems 25, 53-65.[Medline]

Piperno, G., Huang, B. and Luck, D. J. L (1977). Two-dimensional analysis of flagellar proteins from wild-type and paralyzed mutants of Chlamydomonas reinhardtii. Proc. Nat. Acad. Sci. USA 74, 1600-1604.[Abstract/Free Full Text]

Piperno, G. and Fuller, M. T (1985). Monoclonal antibodies specific for an acetylated form of-tubulin recognize the antigen in cilia and flagella from a variety of organisms. J. Cell Biol 101, 2085-2094.[Abstract/Free Full Text]

Pirner, M. A. and Linck, R. W (1993). Structural associations in tektin A-B filaments. Mol. Biol. Cell 6, 272-.

Salisbury, J. L (1983). Contractile flagellar roots: the role of calcium. J. Submicrosc. Cytol 15, 105-110.

Sato, C., Nishizawa, K., Nakamura, H., Komagoe, Y., Shimada, K., Ueda, R. and Suzuki, S (1983). Monoclonal antibody against microtubule associated protein-1 produces immunofluorescent spots in the nucleus and centrosome of cultured mammalian cells. Cell Struct. Funct 8, 245-254.[Medline]

Schatten, H., Walter, M., Mazia, D., Biessmann, H., Paweletz, N., Coffe, G. and Schatten, G (1987). Centrosome detected in sea urchin eggs with a monoclonal antibody against Drosophila intermediate filaments: Characterization of stages of the division cycle of centrosomes. Proc. Nat. Acad. Sci. USA 84, 8488-8491.[Abstract/Free Full Text]

Schatten, G., Simerly, C., Asai, D. J., Szoke, E., Cooke, P. and Schatten, H (1988). Acetylated-tubulin in microtubules during mouse fertilization and early development. Dev. Biol 130, 74-86.[Medline]

Schatten, H., Walter, M., Biessmann, H. and Schatten, G (1988). Microtubules are required for centrosome expansion and repositioning while microfilaments are required for centrosome separation in sea urchin eggs during fertilization and mitosis. Cell Motil. Cytoskel 11, 248-259.[Medline]

Sellitto, C. and Kuriyama, R (1988). Distribution of pericentriolar material in multipolar spindles induced by colcemid treatment in Chinese hamster ovary cells. J. Cell Sci 89, 57-65.[Abstract/Free Full Text]

Sellitto, C., Kimble, M. and Kuriyama, R (1992). Heterogeneity of microtubule organizing center components as revealed by monoclonal antibodies to mammalian centrosomes and to nucleus-associated bodies from Dictyostelium. Cell Motil. Cytoskel 22, 7-24.[Medline]

Starger, J. M., Brown, W. E., Goldman, A. E. and Goldman, R. D (1978). Biochemical and immunological analysis of rapidly purified 10-nm filaments from baby hamster kidney (BHK-21) cells. J. Cell Biol 78, 93-109.[Abstract/Free Full Text]

Stearns, T., Evans, L. and Kirschner, M (1991). -tubulin is a highly conserved component of the centrosome. Cell 65, 825-836.[Medline]

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

Steffen, W. and Linck, R. W (1989). Relationship between tektins and intermediate filaments: an immunological study. Cell Motil. Cytoskel 14, 359-371.[Medline]

Steffen, W. and Linck, R. W (1989). Multiple immunoblot: A sensitive technique to stain proteins and detect multiple antigens on a single 2-D replica. Electrophoresis 10, 714-718.[Medline]

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]

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

Toriyama, M., Otha, K., Endo, S. and Sakai, H (1988). 51-kD protein, a component of microtubule-organizing granules in the mitotic apparatus involved in aster formation in vitro. Cell Motil. Cytoskel 9, 117-128.[Medline]

Towbin, H., Staehlin, T. and Gordon, J (1979). Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. Proc. Nat. Acad. Sci. USA 76, 4350-4354.[Abstract/Free Full Text]

Vandre, D. D., Davis, F. M., Rao, P. N. and Borisy, G. G (1984). Phosphoproteins are components of mitotic microtubule organizing centers. Proc. Nat. Acad. Sci. USA 81, 4439-4444.[Abstract/Free Full Text]

Vogl, A. W., Linck, R. W. and Dym, M (1983). Colchicine-induced changes in the cytoskeleton of the golden-mantled ground squirrel ( Spermophilus lateralis ) sertoli cells. Amer. J. Anat 168, 99-108.[Medline]

Zheng, Y. X., Jung, M. K. and Oakley, B. R (1991). -tubulin is present in Drosophila melanogaster and Homo sapiens and its associated with the centrosome. Cell 65, 817-823.[Medline]


This article has been cited by other articles:


Home page
 JCBHome page
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., October 17, 2008; 181(4): 595 - 603.
[Abstract] [Full Text] [PDF]

Home page
 Mol. Biol. CellHome page
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]

Home page
 Biol. Reprod.Home page
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]

Home page
 Genes Dev.Home page
E. H. Hinchcliffe and G. Sluder
"It Takes Two to Tango": understanding how centrosome duplication is regulated throughout the cell cycle
Genes & Dev., May 15, 2001; 15(10): 1167 - 1181.
[Full Text]

Home page
 Mol. Biol. CellHome page
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]

Home page
 J. Cell Sci.Home page
E. Hinchcliffe and R. Linck
Two proteins isolated from sea urchin sperm flagella: structural components common to the stable microtubules of axonemes and centrioles
J. Cell Sci., January 3, 1998; 111(5): 585 - 595.
[Abstract] [PDF]

Home page
 DevelopmentHome page
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]

This Article
Right arrow Summary Freely available
Right arrow Full Text (PDF)
Right arrow Alert me when this article is cited
Right arrow Alert me if a correction is posted
Services
Right arrow Email this article to a friend
Right arrow Similar articles in this journal
Right arrow Similar articles in PubMed
Right arrow Alert me to new issues of the journal
Right arrow Download to citation manager
Right arrow reprints & permissions
Citing Articles
Right arrow Citing Articles via HighWire
Right arrow Citing Articles via Google Scholar
Google Scholar
Right arrow Articles by Steffen, W.
Right arrow Articles by Linck, R. W.
Right arrow Search for Related Content
PubMed
Right arrow PubMed Citation
Right arrow Articles by Steffen, W.
Right arrow Articles by Linck, R. W.