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Summary Expression Gene Literature (35) GO Terms (2) Nucleotides (21) Proteins (12) Interactants (160) Wiki
ECB-GENEPAGE-23154277

Papers associated with bmp2



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Coup-TF: A maternal factor essential for differentiation along the embryonic axes in the sea urchin Paracentrotus lividus., Tsironis I, Paganos P, Gouvi G, Tsimpos P, Stamopoulou A, Arnone MI, Flytzanis CN., Dev Biol. July 1, 2021; 475 131-144.

MAPK and GSK3/ß-TRCP-mediated degradation of the maternal Ets domain transcriptional repressor Yan/Tel controls the spatial expression of nodal in the sea urchin embryo., Molina MD, Quirin M, Haillot E, De Crozé N, Range R, Rouel M, Jimenez F, Amrouche R, Chessel A, Lepage T., PLoS Genet. September 17, 2018; 14 (9): e1007621.                

Transforming growth factor-β signal regulates gut bending in the sea urchin embryo., Suzuki H, Yaguchi S., Dev Growth Differ. May 1, 2018; 60 (4): 216-225.

Nodal and BMP expression during the transition to pentamery in the sea urchin Heliocidaris erythrogramma: insights into patterning the enigmatic echinoderm body plan., Koop D, Cisternas P, Morris VB, Strbenac D, Yang JY, Wray GA, Byrne M., BMC Dev Biol. February 13, 2017; 17 (1): 4.          

Acquisition of the dorsal structures in chordate amphioxus., Morov AR, Ukizintambara T, Sabirov RM, Yasui K., Open Biol. June 1, 2016; 6 (6):                 

Cooperative Wnt-Nodal Signals Regulate the Patterning of Anterior Neuroectoderm., Yaguchi J, Takeda N, Inaba K, Yaguchi S., PLoS Genet. April 21, 2016; 12 (4): e1006001.                

Zygotic LvBMP5-8 is required for skeletal patterning and for left-right but not dorsal-ventral specification in the sea urchin embryo., Piacentino ML, Chung O, Ramachandran J, Zuch DT, Yu J, Conaway EA, Reyna AE, Bradham CA., Dev Biol. April 1, 2016; 412 (1): 44-56.

Transcriptomic analysis of Nodal- and BMP-associated genes during juvenile development of the sea urchin Heliocidaris erythrogramma., Byrne M, Koop D, Cisternas P, Strbenac D, Yang JY, Wray GA., Mar Genomics. December 1, 2015; 24 Pt 1 41-5.

Hemichordate genomes and deuterostome origins., Simakov O, Kawashima T, Marlétaz F, Jenkins J, Koyanagi R, Mitros T, Hisata K, Bredeson J, Shoguchi E, Gyoja F, Yue JX, Chen YC, Freeman RM, Sasaki A, Hikosaka-Katayama T, Sato A, Fujie M, Baughman KW, Levine J, Gonzalez P, Cameron C, Fritzenwanker JH, Pani AM, Goto H, Kanda M, Arakaki N, Yamasaki S, Qu J, Cree A, Ding Y, Dinh HH, Dugan S, Holder M, Jhangiani SN, Kovar CL, Lee SL, Lewis LR, Morton D, Nazareth LV, Okwuonu G, Santibanez J, Chen R, Richards S, Muzny DM, Gillis A, Peshkin L, Wu M, Humphreys T, Su YH, Putnam NH, Schmutz J, Fujiyama A, Yu JK, Tagawa K, Worley KC, Gibbs RA, Kirschner MW, Lowe CJ, Satoh N, Rokhsar DS, Gerhart J., Nature. November 26, 2015; 527 (7579): 459-65.                          

A deuterostome origin of the Spemann organiser suggested by Nodal and ADMPs functions in Echinoderms., Lapraz F, Haillot E, Lepage T., Nat Commun. October 1, 2015; 6 8434.                    

The Maternal Maverick/GDF15-like TGF-β Ligand Panda Directs Dorsal-Ventral Axis Formation by Restricting Nodal Expression in the Sea Urchin Embryo., Haillot E, Molina MD, Lapraz F, Lepage T., PLoS Biol. September 9, 2015; 13 (9): e1002247.                      

Short-range Wnt5 signaling initiates specification of sea urchin posterior ectoderm., McIntyre DC, Seay NW, Croce JC, McClay DR., Development. December 1, 2013; 140 (24): 4881-9.

Nodal: master and commander of the dorsal-ventral and left-right axes in the sea urchin embryo., Molina MD, de Crozé N, Haillot E, Lepage T., Curr Opin Genet Dev. August 1, 2013; 23 (4): 445-53.

Gene regulatory network for neurogenesis in a sea star embryo connects broad neural specification and localized patterning., Yankura KA, Koechlein CS, Cryan AF, Cheatle A, Hinman VF., Proc Natl Acad Sci U S A. May 21, 2013; 110 (21): 8591-6.

Gene regulatory control in the sea urchin aboral ectoderm: spatial initiation, signaling inputs, and cell fate lockdown., Ben-Tabou de-Leon S, Su YH, Lin KT, Li E, Davidson EH., Dev Biol. February 1, 2013; 374 (1): 245-54.

Opposing nodal and BMP signals regulate left-right asymmetry in the sea urchin larva., Luo YJ, Su YH., PLoS Biol. January 1, 2012; 10 (10): e1001402.            

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.                      

Fez function is required to maintain the size of the animal plate in the sea urchin embryo., Yaguchi S, Yaguchi J, Wei Z, Jin Y, Angerer LM, Inaba K., Development. October 1, 2011; 138 (19): 4233-43.

Ancestral regulatory circuits governing ectoderm patterning downstream of Nodal and BMP2/4 revealed by gene regulatory network analysis in an echinoderm., Saudemont A, Haillot E, Mekpoh F, Bessodes N, Quirin M, Lapraz F, Duboc V, Röttinger E, Range R, Oisel A, Besnardeau L, Wincker P, Lepage T., PLoS Genet. December 23, 2010; 6 (12): e1001259.                      

TGFβ signaling positions the ciliary band and patterns neurons in the sea urchin embryo., Yaguchi S, Yaguchi J, Angerer RC, Angerer LM, Burke RD., Dev Biol. November 1, 2010; 347 (1): 71-81.

Nodal and BMP2/4 pattern the mesoderm and endoderm during development of the sea urchin embryo., Duboc V, Lapraz F, Saudemont A, Bessodes N, Mekpoh F, Haillot E, Quirin M, Lepage T., Development. January 1, 2010; 137 (2): 223-35.

Patterning of the dorsal-ventral axis in echinoderms: insights into the evolution of the BMP-chordin signaling network., Lapraz F, Besnardeau L, Lepage T., PLoS Biol. November 1, 2009; 7 (11): e1000248.                        

Chordin is required for neural but not axial development in sea urchin embryos., Bradham CA, Oikonomou C, Kühn A, Core AB, Modell JW, McClay DR, Poustka AJ., Dev Biol. April 15, 2009; 328 (2): 221-33.

Molecular determinants of Xolloid action in vivo., Geach TJ, Dale L., J Biol Chem. October 3, 2008; 283 (40): 27057-63.

Coelomic expression of a novel bone morphogenetic protein in regenerating arms of the brittle star Amphiura filiformis., Bannister R, McGonnell IM, Graham A, Thorndyke MC, Beesley PW., Dev Genes Evol. January 1, 2008; 218 (1): 33-8.

Growth factors, apoptotic cells and barx1 gene in bone and soft tissue of skeletal class III patients., Jankovska I, Pilmane M, Urtane I, Bigestans A, Salms G, Lauskis G., Stomatologija. January 1, 2007; 9 (2): 40-6.

RTK and TGF-beta signaling pathways genes in the sea urchin genome., Lapraz F, Röttinger E, Duboc V, Range R, Duloquin L, Walton K, Wu SY, Bradham C, Loza MA, Hibino T, Wilson K, Poustka A, McClay D, Angerer L, Gache C, Lepage T., Dev Biol. December 1, 2006; 300 (1): 132-52.

Nodal and BMP2/4 signaling organizes the oral-aboral axis of the sea urchin embryo., Duboc V, Röttinger E, Besnardeau L, Lepage T., Dev Cell. March 1, 2004; 6 (3): 397-410.

LvTbx2/3: a T-box family transcription factor involved in formation of the oral/aboral axis of the sea urchin embryo., Gross JM, Peterson RE, Wu SY, McClay DR., Development. May 1, 2003; 130 (9): 1989-99.

Conserved expression pattern of BMP-2/4 in hemichordate acorn worm and echinoderm sea cucumber embryos., Harada Y, Shoguchi E, Taguchi S, Okai N, Humphreys T, Tagawa K, Satoh N., Zoolog Sci. October 1, 2002; 19 (10): 1113-21.

Identification and characterization of bone morphogenetic protein 2/4 gene from the starfish Archaster typicus., Shih LJ, Chen CA, Chen CP, Hwang SP., Comp Biochem Physiol B Biochem Mol Biol. February 1, 2002; 131 (2): 143-51.

Molecular approach to echinoderm regeneration., Thorndyke MC, Chen WC, Beesley PW, Patruno M., Microsc Res Tech. December 15, 2001; 55 (6): 474-85.

A BMP pathway regulates cell fate allocation along the sea urchin animal-vegetal embryonic axis., Angerer LM, Oleksyn DW, Logan CY, McClay DR, Dale L, Angerer RC., Development. March 1, 2000; 127 (5): 1105-14.

Animal-vegetal axis patterning mechanisms in the early sea urchin embryo., Angerer LM, Angerer RC., Dev Biol. February 1, 2000; 218 (1): 1-12.

Sea urchin TgBMP2/4 gene encoding a bone morphogenetic protein closely related to vertebrate BMP2 and BMP4 with maximal expression at the later stages of embryonic development., Hwang SL, Chen CA, Chen C., Biochem Biophys Res Commun. May 10, 1999; 258 (2): 457-63.

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