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Summary Expression Gene Literature (29) GO Terms (1) Nucleotides (8) Proteins (6) Interactants (62) Wiki
ECB--23084861

Papers associated with msp130 (and LOC115919910)



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Developmental transcriptomics of the brittle star Amphiura filiformis reveals gene regulatory network rewiring in echinoderm larval skeleton evolution., Dylus DV, Czarkwiani A, Blowes LM, Elphick MR, Oliveri P., Genome Biol. February 28, 2018; 19 (1): 26.            


Alteration of neurotransmission and skeletogenesis in sea urchin Arbacia lixula embryos exposed to copper oxide nanoparticles., Cappello T, Vitale V, Oliva S, Villari V, Mauceri A, Fasulo S, Maisano M., Comp Biochem Physiol C Toxicol Pharmacol. September 1, 2017; 199 20-27.


Exposure of Paracentrotus lividus male gametes to engineered nanoparticles affects skeletal bio-mineralization processes and larval plasticity., Gambardella C, Ferrando S, Morgana S, Gallus L, Ramoino P, Ravera S, Bramini M, Diaspro A, Faimali M, Falugi C., Aquat Toxicol. January 1, 2015; 158 181-91.


Reciprocal signaling between the ectoderm and a mesendodermal left-right organizer directs left-right determination in the sea urchin embryo., Bessodes N, Haillot E, Duboc V, Röttinger E, Lahaye F, Lepage T., PLoS Genet. January 1, 2012; 8 (12): e1003121.                      


Rapid adaptation to food availability by a dopamine-mediated morphogenetic response., Adams DK, Sewell MA, Angerer RC, Angerer LM., Nat Commun. December 20, 2011; 2 592.        


Proteomic analysis of sea urchin (Strongylocentrotus purpuratus) spicule matrix., Mann K, Wilt FH, Poustka AJ., Proteome Sci. June 17, 2010; 8 33.      


Skeletogenesis by transfated secondary mesenchyme cells is dependent on extracellular matrix-ectoderm interactions in Paracentrotus lividus sea urchin embryos., Kiyomoto M, Zito F, Costa C, Poma V, Sciarrino S, Matranga V., Dev Growth Differ. December 1, 2007; 49 (9): 731-41.


Identification and developmental expression of new biomineralization proteins in the sea urchin Strongylocentrotus purpuratus., Illies MR, Peeler MT, Dechtiaruk AM, Ettensohn CA., Dev Genes Evol. October 1, 2002; 212 (9): 419-31.


Mechanisms of evolutionary changes in timing, spatial expression, and mRNA processing in the msp130 gene in a direct-developing sea urchin, Heliocidaris erythrogramma., Klueg KM, Harkey MA, Raff RA., Dev Biol. February 1, 1997; 182 (1): 121-33.


Variation of cleavage pattern permitting normal development in a sand dollar, Peronella japonica: comparison with other sand dollars., Amemiya S, Arakawa E., Dev Genes Evol. September 1, 1996; 206 (2): 125-35.


Promoter structure and protein sequence of msp130, a lipid-anchored sea urchin glycoprotein., Parr BA, Parks AL, Raff RA., J Biol Chem. January 25, 1990; 265 (3): 1408-13.


Sea urchin primary mesenchyme cells: relation of cell polarity to the epithelial-mesenchymal transformation., Anstrom JA, Raff RA., Dev Biol. November 1, 1988; 130 (1): 57-66.


Localization and expression of msp130, a primary mesenchyme lineage-specific cell surface protein in the sea urchin embryo., Anstrom JA, Chin JE, Leaf DS, Parks AL, Raff RA., Development. October 1, 1987; 101 (2): 255-65.


Antibodies to a fusion protein identify a cDNA clone encoding msp130, a primary mesenchyme-specific cell surface protein of the sea urchin embryo., Leaf DS, Anstrom JA, Chin JE, Harkey MA, Showman RM, Raff RA., Dev Biol. May 1, 1987; 121 (1): 29-40.

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