Identification of a structural constituent and one possible site of postembryonic formation of a teleost otolithic membrane

Davis, James G.; Burns, Frank R.; Navaratnam, Dasakumar; Lee, A. Masaji; Ichimiya, Shingo; Oberholtzer, J. Carl; Greene, Mark I.

doi:10.1073/pnas.94.2.707

Cited by 34 publications

(35 citation statements)

References 25 publications

(26 reference statements)

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“…[38,64] Collagen VIII Produced by endothelial cells; major constituent of Descemet's membrane (specialized basement membrane of corneal endothelial cells); optic nerve, aorta, umbilical cord and tissues undergoing remodeling; calvarium, eye and skin. tight association of the subunits, although with significant variations, as judged from total buried surface, which are much lower in ACRP30 (5324 Å 2 ) and C1q (5490 Å 2 ) than in collagen VIII (6150 Å 2 ) and X (7360 Å 2 ), accounting for the exceptional stability of the collagen VIII and X molecules [16].…”

Section: Modular Organization Of the Gc1q Domainmentioning

confidence: 99%

C1q and tumor necrosis factor superfamily: modularity and versatility

Kishore

Gaboriaud

Waters

et al. 2004

Trends in Immunology

395

374

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Section: Modular Organization Of the Gc1q Domainmentioning

confidence: 99%

C1q and tumor necrosis factor superfamily: modularity and versatility

Kishore

Gaboriaud

Waters

et al. 2004

Trends in Immunology

395

374

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“…The production of monoclonal antibodies against peptide (CEQKEENQG-KNESNIKP) coupled to KLH was performed as described elsewhere (Kajino et al, in preparation and Drebin et al, 1985). Each antibody was initially evaluated for binding to peptide in spot test assay (Data not shown, Davis et al, 1997) and then by immunoprecipitation of the p215 BRCA1 polypeptide from rodent and human cells. Monoclonal BRCA1 antibody Ab-1 was obtained from Oncogene Science, Inc. Polyclonal anti-BRCA1 antibodies C20 and M-20, as well as the monoclonal anti-pTyr antibody pY20 were purchased from Santa Cruz Biotechnology.…”

Section: Antibodiesmentioning

confidence: 99%

Relationship of p215BRCA1 to tyrosine kinase signaling pathways and the cell cycle in normal and transformed cells

Zhang

Zhao

et al. 1997

Oncogene

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We have analysed the relationship of the products of two genes, neu and BRCA1, known to be important in human breast cancer. Highly speci®c antibodies that recognized both the rodent and human form of the BRCA1 gene product (M r 215 kDa, p215 BRCA1 ) were developed to facilitate these e orts. p215 BRCA1 was identi®ed as a tyrosine phosphorylated protein primarily localized in the nucleus of several breast cancer cell lines. In transformed murine and human cells, levels of p215 BRCA1 tyrosine phosphorylation were inversely correlated with the activity of the erbB family receptor-tyrosine-kinases and with the transformed growth features of these cells. Regulation of p215 BRCA1 tyrosine phosphorylation was also related to events in the cell cycle. Increased levels of p215 BRCA1 phosphotyrosine content were observed in NIH3T3 cells arrested at the G 2 /M transition. These ®ndings indicate that the products of BRCA1, neu, and erbB breast cancer genes participate in a common or shared signaling pathway important in cell growth and its regulation.

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“…Otolin, first identified in trout (Murayama et al, 2002;Takagi and Takahashi, 1999), is expressed by the transitional cells of the developing sacculus and has short collagen like repeats similar to collagen X (Murayama et al, 2002). Otolin is similar to the fish saccular collagen proposed to have a role in the calcification process of the aragonitic otolith (Davis et al, 1995(Davis et al, , 1997; this has been supported by the phenotype of otolin morphants. Morphant otoliths lose adherence to the sensory maculae (but not to hair cell kinocilia) and fuse by 72 hpf.…”

Section: Make and Export The Matrix Proteins Correctlymentioning

confidence: 84%

Mixing model systems: Using zebrafish and mouse inner ear mutants and other organ systems to unravel the mystery of otoconial development

Hughes

Thalmann

et al. 2006

Brain Research

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Human vestibular dysfunction is an increasing clinical problem. Degeneration or displacement of otoconia is a significant etiology of age-related balance disorders and Benign Positional Vertigo (BPV). In addition, commonly used antibiotics, such as aminoglycoside antibiotics, can lead to disruption of otoconial structure and function. Despite such clinical significance, relatively little information has been compiled about the development and maintenance of otoconia in humans. Recent studies in model organisms and other mammalian organ systems have revealed some of the proteins and processes required for the normal biomineralization of otoconia and otoliths in the inner ear of vertebrates. Orchestration of extracellular biomineralization requires bringing together ionic and proteinaceous components in time and space. Coordination of these events requires the normal formation of the otocyst and sensory maculae, specific secretion and localization of extracellular matrix proteins, as well as tight regulation of the endolymph ionic environment. Disruption of any of these processes can lead to the formation of abnormally shaped, or ectopic, otoconia, or otoconial agenesis. We propose that normal generation of otoconia requires a complex temporal and spatial control of developmental and biochemical events. In this review, we suggest a new hypothetical model for normal otoconial and otolith formation based on matrix vesicle mineralization in bone which we believe to be supported by information from existing mutants, morphants, and biochemical studies.

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Identification of a structural constituent and one possible site of postembryonic formation of a teleost otolithic membrane

Cited by 34 publications

References 25 publications

C1q and tumor necrosis factor superfamily: modularity and versatility

C1q and tumor necrosis factor superfamily: modularity and versatility

Relationship of p215BRCA1 to tyrosine kinase signaling pathways and the cell cycle in normal and transformed cells

Mixing model systems: Using zebrafish and mouse inner ear mutants and other organ systems to unravel the mystery of otoconial development

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