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ZFIN ID:
ZDB-GENE-000406-9
CITATIONS
(66 total)
Gene Name:
mesoderm posterior ba
Gene Symbol:
mespba
Aerne, B., and Ish-Horowicz, D. (2004)
receptor tyrosine phosphatase
ψ is required for Delta/Notch signalling and cyclic gene expression in the presomitic mesoderm. Development (Cambridge, England). 131(14):3391-3399
Akanuma, T., Koshida, S., Kawamura, A., Kishimoto, Y., and Takada, S. (2007) Paf1 complex homologues are required for Notch-regulated transcription during somite segmentation. EMBO reports. 8(9):858-863
Akiyama, R., Masuda, M., Tsuge, S., Bessho, Y., and Matsui, T. (2014) An anterior limit of FGF/Erk signal activity marks the earliest future somite boundary in zebrafish. Development (Cambridge, England). 141(5):1104-1109
Bajard, L., Morelli, L.G., Ares, S., Pécréaux, J., Jülicher, F., Oates, A.C. (2014) Wnt-regulated dynamics of positional information in zebrafish somitogenesis. Development (Cambridge, England). 141:1381-91
Ban, H., Yokota, D., Otosaka, S., Kikuchi, M., Kinoshita, H., Fujino, Y., Yabe, T., Ovara, H., Izuka, A., Akama, K., Yamasu, K., Takada, S., Kawamura, A. (2019) Transcriptional autoregulation of zebrafish
tbx6
is required for somite segmentation. Development (Cambridge, England). 146(18):
Bink, R.J., Habuchi, H., Lele, Z., Dolk, E., Joore, J., Rauch, G.J., Geisler, R., Wilson, S.W., den Hertog, J., Kimata, K., and Zivkovic, D. (2003) Heparan sulfate 6-O-sulfotransferase is essential for muscle development in zebrafish. The Journal of biological chemistry. 278(33):31118-31127
Choorapoikayil, S., Willems, B., Ströhle, P., and Gajewski, M. (2012) Analysis of her1 and her7 Mutants Reveals a Spatio Temporal Separation of the Somite Clock Module. PLoS One. 7(6):e39073
Cutty, S.J., Fior, R., Henriques, P.M., Saude, L., and Wardle, F.C. (2012) Identification and expression analysis of two novel members of the Mesp family in zebrafish. The International journal of developmental biology. 56(4):285-294
Deshwar, A.R., Onderisin, J.C., Aleksandrova, A., Yuan, X., Burrows, J.T., Scott, I.C. (2016) Mespaa can potently induce cardiac fates in zebrafish. Developmental Biology. 418(1):17-27
Diotel, N., Viales, R.R., Armant, O., März, M., Ferg, M., Rastegar, S., Strähle, U. (2015) Comprehensive expression map of transcription regulators in the adult zebrafish telencephalon reveals distinct neurogenic niches. The Journal of comparative neurology. 523(8):1202-21
Goody, M.F., Kelly, M.W., Lessard, K.N., Khalil, A., and Henry, C.A. (2010) Nrk2b-mediated NAD+ production regulates cell adhesion and is required for muscle morphogenesis in vivo: Nrk2b and NAD+ in muscle morphogenesis. Developmental Biology. 344(2):809-826
Hamade, A., Deries, M., Begemann, G., Bally-Cuif, L., Genet, C., Sabatier, F., Bonnieu, A., and Cousin, X. (2006) Retinoic acid activates myogenesis in vivo through Fgf8 signalling. Developmental Biology. 289(1):127-140
Hayes, M., Naito, M., Daulat, A., Angers, S., and Ciruna, B. (2013) Ptk7 promotes non-canonical Wnt/PCP-mediated morphogenesis and inhibits Wnt/beta-catenin-dependent cell fate decisions during vertebrate development. Development (Cambridge, England). 140(8):1807-1818
Herrgen, L., Ares, S., Morelli, L.G., Schröter, C., Jülicher, F., and Oates, A.C. (2010) Intercellular Coupling Regulates the Period of the Segmentation Clock. Current biology : CB. 20(14):1244-1253
Ishimatsu, K., Hiscock, T.W., Collins, Z.M., Sari, D.W.K., Lischer, K., Richmond, D.L., Bessho, Y., Matsui, T., Megason, S.G. (2018) Size-reduced embryos reveal a gradient scaling based mechanism for zebrafish somite formation. Development (Cambridge, England). 145(11)
Junker, J.P., Noël, E.S., Guryev, V., Peterson, K.A., Shah, G., Huisken, J., McMahon, A.P., Berezikov, E., Bakkers, J., van Oudenaarden, A. (2014) Genome-wide RNA Tomography in the Zebrafish Embryo. Cell. 159:662-75
Kawakami, Y., Raya, A., Raya, R.M., Rodriguez-Esteban, C., and Izpisúa Belmonte, J.C. (2005) Retinoic acid signalling links left-right asymmetric patterning and bilaterally symmetric somitogenesis in the zebrafish embryo. Nature. 435(7039):165-171
Kawamura, A., Koshida, S., and Takada, S. (2008) Activator-to-repressor conversion of T-box transcription factors by the Ripply family of Groucho/TLE-associated mediators. Molecular and cellular biology. 28(10):3236-3244
Kawamura, A., Koshida, S., Hijikata, H., Ohbayashi, A., Kondoh, H., and Takada, S. (2005) Groucho-associated transcriptional repressor ripply1 is required for proper transition from the presomitic mesoderm to somites. Developmental Cell. 9(6):735-744
Kawamura, A., Koshida, S., Hijikata, H., Sakaguchi, T., Kondoh, H., and Takada, S. (2005) Zebrafish Hairy/Enhancer of split protein links FGF signaling to cyclic gene expression in the periodic segmentation of somites. Genes & Development. 19(10):1156-1161
Keskin, S., Simsek, M.F., Vu, H.T., Yang, C., Devoto, S.H., Ay, A., Özbudak, E.M. (2019) Regulatory Network of the Scoliosis-Associated Genes Establishes Rostrocaudal Patterning of Somites in Zebrafish. iScience. 12:247-259
Kinoshita, H., Ohgane, N., Fujino, Y., Yabe, T., Ovara, H., Yokota, D., Izuka, A., Kage, D., Yamasu, K., Takada, S., Kawamura, A. (2018) Functional roles of the Ripply-mediated suppression of segmentation gene expression at the anterior presomitic mesoderm in zebrafish. Mechanisms of Development. 152:21-31
Koshida, S., Kishimoto, Y., Ustumi, H., Shimizu, T., Furutani-Seiki, M., Kondoh, H., and Takada, S. (2005) Integrinalpha5-Dependent Fibronectin Accumulation for Maintenance of Somite Boundaries in Zebrafish Embryos. Developmental Cell. 8(4):587-598
Lackner, S., Schwendinger-Schreck, J., Jülich, D., and Holley, S.A. (2013) Segmental assembly of fibronectin matrix requires rap1b and integrin alpha5. Developmental Dynamics : an official publication of the American Association of Anatomists. 242(2):122-131
Lee, H.C., Tseng, W.A., Lo, F.Y., Liu, T.M., and Tsai, H.J. (2009) FoxD5 mediates anterior-posterior polarity through upstream modulator Fgf signaling during zebrafish somitogenesis. Developmental Biology. 336(2):232-245
Li, J., Yue, Y., Dong, X., Jia, W., Li, K., Liang, D., Dong, Z., Wang, X., Nan, X., Zhang, Q., Zhao, Q. (2015) Zebrafish foxc1a plays a crucial role in early somitogenesis by restricting the expression of aldh1a2 directly. The Journal of biological chemistry. 290(16):10216-28
Lin, C.Y., He, J.Y., Zeng, C.W., Loo, M.R., Chang, W.Y., Zhang, P.H., Tsai, H.J. (2017)
microRNA-206
modulates an Rtn4a/Cxcr4a/Thbs3a axis in newly forming somites to maintain and stabilize the somite boundary formation of zebrafish embryos.. Open Biology. 7(7)
LLeras Forero, L., Narayanan, R., Huitema, L.F.A., VanBergen, M., Apschner, A., Peterson-Maduro, J., Logister, I., Valentin, G., Morelli, L.G., Oates, A., Schulte-Merker, S. (2018) Segmentation of the zebrafish axial skeleton relies on notochord sheath cells and not on the segmentation clock. eLIFE. 7
Moreno, T.A., Jappelli, R., Izpisúa Belmonte, J.C., and Kintner, C. (2008) Retinoic acid regulation of the Mesp-Ripply feedback loop during vertebrate segmental patterning. Developmental Biology. 315(2):317-330
Nagaya, M., Inohaya, K., Imai, Y., and Kudo, A. (2002) Expression of zisp, a DHHC zinc finger gene, in somites and lens during zebrafish embryogenesis. Mechanisms of Development. (Suppl.) 119:S311-S314
Nomura-Kitabayashi, A., Takahashi, Y., Kitajima, S., Inoue, T., Takeda, H., and Saga, Y. (2002) Hypomorphic Mesp allele distinguishes establishment of rostrocaudal polarity and segment border formation in somitogenesis. Development (Cambridge, England). 129(10):2473-2481
Oates, A.C. and Ho, R.K. (2002) Hairy/E(spl)-related (Her) genes are central components of the segmentation oscillator and display redundancy with the Delta/Notch signaling pathway in the formation of anterior segmental boundaries in the zebrafish. Development (Cambridge, England). 129(12):2929-2946
Oates, A.C., Mueller, C., and Ho, R.K. (2005) Cooperative function of deltaC and her7 in anterior segment formation. Developmental Biology. 280(1):133-149
Oates, A.C., Rohde, L.A., and Ho, R.K. (2005) Generation of segment polarity in the paraxial mesoderm of the zebrafish through a T-box-dependent inductive event. Developmental Biology. 283(1):204-214
Ozbudak, E.M., Tassy, O., and Pourquié, O. (2010) Spatiotemporal compartmentalization of key physiological processes during muscle precursor differentiation. Proceedings of the National Academy of Sciences of the United States of America. 107(9):4224-4229
Pinto, R.A., Almeida-Santos, J., Lourenço, R., Saúde, L. (2018) Identification of Dmrt2a downstream genes during zebrafish early development using a timely controlled approach. BMC Developmental Biology. 18:14
Prajapati, R.S., Mitter, R., Vezzaro, A., Ish-Horowicz, D. (2020)
Greb1
is required for axial elongation and segmentation in vertebrate embryos. Biology Open. 9(2):
Retnoaji, B., Akiyama, R., Matta, T., Bessho, Y., and Matsui, T. (2014) Retinoic acid controls proper head-to-trunk linkage in zebrafish by regulating an anteroposterior somitogenetic rate difference. Development (Cambridge, England). 141(1):158-165
Sawada, A., Fritz, A., Jiang, Y., Yamamoto, A., Yamasu, K., Kuroiwa, A., Saga, Y., and Takeda, H. (2000) Zebrafish Mesp family genes, mesp-a and mesp-b are segmentally expressed in the presomitic mesoderm, and Mesp-b confers the anterior identity to the developing somites. Development (Cambridge, England). 127(8):1691-1702
Schröter, C., and Oates, A.C. (2010) Segment Number and Axial Identity in a Segmentation Clock Period Mutant. Current biology : CB. 20(14):1254-1258
Strausberg,R.L., Feingold,E.A., Grouse,L.H., Derge,J.G., Klausner,R.D., Collins,F.S., Wagner,L., Shenmen,C.M., Schuler,G.D., Altschul,S.F., Zeeberg,B., Buetow,K.H., Schaefer,C.F., Bhat,N.K., Hopkins,R.F., Jordan,H., Moore,T., Max,S.I., Wang,J., Hsieh,F., Diatchenko,L., Marusina,K., Farmer,A.A., Rubin,G.M., Hong,L., Stapleton,M., Soares,M.B., Bonaldo,M.F., Casavant,T.L., Scheetz,T.E., Brownstein,M.J., Usdin,T.B., Toshiyuki,S., Carninci,P., Prange,C., Raha,S.S., Loquellano,N.A., Peters,G.J., Abramson,R.D., Mullahy,S.J., Bosak,S.A., McEwan,P.J., McKernan,K.J., Malek,J.A., Gunaratne,P.H., Richards,S., Worley,K.C., Hale,S., Garcia,A.M., Gay,L.J., Hulyk,S.W., Villalon,D.K., Muzny,D.M., Sodergren,E.J., Lu,X., Gibbs,R.A., Fahey,J., Helton,E., Ketteman,M., Madan,A., Rodrigues,S., Sanchez,A., Whiting,M., Madan,A., Young,A.C., Shevchenko,Y., Bouffard,G.G., Blakesley,R.W., Touchman,J.W., Green,E.D., Dickson,M.C., Rodriguez,A.C., Grimwood,J., Schmutz,J., Myers,R.M., Butterfield,Y.S., Krzywinski,M.I., Skalska,U., Smailus,D.E., Schnerch,A., Schein,J.E., Jones,S.J., and Marra,M.A. (2002) Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences. Proceedings of the National Academy of Sciences of the United States of America. 99(26):16899-903
Tai, Z., Guan, P., Wang, Z., Li, L., Zhang, T., Li, G., Liu, J.X. (2019) Common responses of fish embryos to metals: an integrated analysis of transcriptomes and methylomes in zebrafish embryos under the stress of copper ions or silver nanoparticles. Metallomics : integrated biometal science. 11(9):1452-1464
Teraoka, H., Urakawa, S., Nanba, S., Nagai, Y., Dong, W., Imagawa, T., Tanguay, R.L., Svoboda, K., Handley-Goldstone, H.M., Stegeman, J.J., and Hiraga, T. (2006) Muscular contractions in the zebrafish embryo are necessary to reveal thiuram-induced notochord distortions. Toxicology and applied pharmacology. 212(1):24-34
Topczewska, J.M., Topczewski, J., Shostak, A., Kume, T., Solnica-Krezel, L., and Hogan, B.L. (2001) The winged helix transcription factor Foxc1a is essential for somitogenesis in zebrafish. Genes & Development. 15(18):2483-2493
Topczewska, J.M., Topczewski, J., Szostak, A., Solnica-Krezel, L., and Hogan, B.L.M. (2003) Developmentally regulated expression of two members of the Nrarp family in zebrafish. Gene expression patterns : GEP. 3(2):169-171
Veldman, M.B., and Lin, S. (2012) Etsrp/Etv2 Is Directly Regulated by Foxc1a/b in the Zebrafish Angioblast. Circulation research. 110(2):220-229
Verhoeven, M. (2009) Bmp signaling is at the heart of vertebrate left-right asymmetry. Thesis. :130p
Wanglar, C., Takahashi, J., Yabe, T., Takada, S. (2014) Tbx Protein Level Critical for Clock-Mediated Somite Positioning Is Regulated through Interaction between Tbx and Ripply. PLoS One. 9:e107928
Windner, S.E., Doris, R.A., Ferguson, C.M., Nelson, A.C., Valentin, G., Tan, H., Oates, A.C., Wardle, F.C., Devoto, S.H. (2015) Tbx6, Mesp-b and Ripply1 regulate the onset of skeletal myogenesis in zebrafish. Development (Cambridge, England). 142(6):1159-68
Woods, I.G., Wilson, C., Friedlander, B., Chang, P., Reyes, D.K., Nix, R., Kelly, P.D., Chu, F., Postlethwait, J.H., and Talbot, W.S. (2005) The zebrafish gene map defines ancestral vertebrate chromosomes. Genome research. 15(9):1307-1314
Yabe, T., Hoshijima, K., Yamamoto, T., Takada, S. (2016) Mesp quadruple zebrafish mutant reveals different roles of mesp genes in somite segmentation between mouse and zebrafish. Development (Cambridge, England). 143(15):2842-52
Zhang, L., Kendrick, C., Jülich, D., and Holley, S.A. (2008) Cell cycle progression is required for zebrafish somite morphogenesis but not segmentation clock function. Development (Cambridge, England). 135(12):2065-2070
Zhang, W., Scerbo, P., Delagrange, M., Candat, V., Mayr, V., Vriz, S., Distel, M., Ducos, B., Bensimon, D. (2022) Fgf8 dynamics and critical slowing down may account for the temperature independence of somitogenesis. Communications biology. 5:113
Zhang, W., Scerbo, P., Delagrange, M., Candat, V., Mayr, V., Vriz, S., Distel, M., Ducos, B., Bensimon, D. (2022) Fgf8 dynamics and critical slowing down may account for the temperature independence of somitogenesis. Communications biology. 5:113
Prajapati, R.S., Mitter, R., Vezzaro, A., Ish-Horowicz, D. (2020)
Greb1
is required for axial elongation and segmentation in vertebrate embryos. Biology Open. 9(2):
Ban, H., Yokota, D., Otosaka, S., Kikuchi, M., Kinoshita, H., Fujino, Y., Yabe, T., Ovara, H., Izuka, A., Akama, K., Yamasu, K., Takada, S., Kawamura, A. (2019) Transcriptional autoregulation of zebrafish
tbx6
is required for somite segmentation. Development (Cambridge, England). 146(18):
Keskin, S., Simsek, M.F., Vu, H.T., Yang, C., Devoto, S.H., Ay, A., Özbudak, E.M. (2019) Regulatory Network of the Scoliosis-Associated Genes Establishes Rostrocaudal Patterning of Somites in Zebrafish. iScience. 12:247-259
Tai, Z., Guan, P., Wang, Z., Li, L., Zhang, T., Li, G., Liu, J.X. (2019) Common responses of fish embryos to metals: an integrated analysis of transcriptomes and methylomes in zebrafish embryos under the stress of copper ions or silver nanoparticles. Metallomics : integrated biometal science. 11(9):1452-1464
Ishimatsu, K., Hiscock, T.W., Collins, Z.M., Sari, D.W.K., Lischer, K., Richmond, D.L., Bessho, Y., Matsui, T., Megason, S.G. (2018) Size-reduced embryos reveal a gradient scaling based mechanism for zebrafish somite formation. Development (Cambridge, England). 145(11)
Kinoshita, H., Ohgane, N., Fujino, Y., Yabe, T., Ovara, H., Yokota, D., Izuka, A., Kage, D., Yamasu, K., Takada, S., Kawamura, A. (2018) Functional roles of the Ripply-mediated suppression of segmentation gene expression at the anterior presomitic mesoderm in zebrafish. Mechanisms of Development. 152:21-31
LLeras Forero, L., Narayanan, R., Huitema, L.F.A., VanBergen, M., Apschner, A., Peterson-Maduro, J., Logister, I., Valentin, G., Morelli, L.G., Oates, A., Schulte-Merker, S. (2018) Segmentation of the zebrafish axial skeleton relies on notochord sheath cells and not on the segmentation clock. eLIFE. 7
Pinto, R.A., Almeida-Santos, J., Lourenço, R., Saúde, L. (2018) Identification of Dmrt2a downstream genes during zebrafish early development using a timely controlled approach. BMC Developmental Biology. 18:14
Lin, C.Y., He, J.Y., Zeng, C.W., Loo, M.R., Chang, W.Y., Zhang, P.H., Tsai, H.J. (2017)
microRNA-206
modulates an Rtn4a/Cxcr4a/Thbs3a axis in newly forming somites to maintain and stabilize the somite boundary formation of zebrafish embryos.. Open Biology. 7(7)
Deshwar, A.R., Onderisin, J.C., Aleksandrova, A., Yuan, X., Burrows, J.T., Scott, I.C. (2016) Mespaa can potently induce cardiac fates in zebrafish. Developmental Biology. 418(1):17-27
Yabe, T., Hoshijima, K., Yamamoto, T., Takada, S. (2016) Mesp quadruple zebrafish mutant reveals different roles of mesp genes in somite segmentation between mouse and zebrafish. Development (Cambridge, England). 143(15):2842-52
Diotel, N., Viales, R.R., Armant, O., März, M., Ferg, M., Rastegar, S., Strähle, U. (2015) Comprehensive expression map of transcription regulators in the adult zebrafish telencephalon reveals distinct neurogenic niches. The Journal of comparative neurology. 523(8):1202-21
Li, J., Yue, Y., Dong, X., Jia, W., Li, K., Liang, D., Dong, Z., Wang, X., Nan, X., Zhang, Q., Zhao, Q. (2015) Zebrafish foxc1a plays a crucial role in early somitogenesis by restricting the expression of aldh1a2 directly. The Journal of biological chemistry. 290(16):10216-28
Windner, S.E., Doris, R.A., Ferguson, C.M., Nelson, A.C., Valentin, G., Tan, H., Oates, A.C., Wardle, F.C., Devoto, S.H. (2015) Tbx6, Mesp-b and Ripply1 regulate the onset of skeletal myogenesis in zebrafish. Development (Cambridge, England). 142(6):1159-68
Akiyama, R., Masuda, M., Tsuge, S., Bessho, Y., and Matsui, T. (2014) An anterior limit of FGF/Erk signal activity marks the earliest future somite boundary in zebrafish. Development (Cambridge, England). 141(5):1104-1109
Bajard, L., Morelli, L.G., Ares, S., Pécréaux, J., Jülicher, F., Oates, A.C. (2014) Wnt-regulated dynamics of positional information in zebrafish somitogenesis. Development (Cambridge, England). 141:1381-91
Junker, J.P., Noël, E.S., Guryev, V., Peterson, K.A., Shah, G., Huisken, J., McMahon, A.P., Berezikov, E., Bakkers, J., van Oudenaarden, A. (2014) Genome-wide RNA Tomography in the Zebrafish Embryo. Cell. 159:662-75
Retnoaji, B., Akiyama, R., Matta, T., Bessho, Y., and Matsui, T. (2014) Retinoic acid controls proper head-to-trunk linkage in zebrafish by regulating an anteroposterior somitogenetic rate difference. Development (Cambridge, England). 141(1):158-165
Wanglar, C., Takahashi, J., Yabe, T., Takada, S. (2014) Tbx Protein Level Critical for Clock-Mediated Somite Positioning Is Regulated through Interaction between Tbx and Ripply. PLoS One. 9:e107928
Hayes, M., Naito, M., Daulat, A., Angers, S., and Ciruna, B. (2013) Ptk7 promotes non-canonical Wnt/PCP-mediated morphogenesis and inhibits Wnt/beta-catenin-dependent cell fate decisions during vertebrate development. Development (Cambridge, England). 140(8):1807-1818
Lackner, S., Schwendinger-Schreck, J., Jülich, D., and Holley, S.A. (2013) Segmental assembly of fibronectin matrix requires rap1b and integrin alpha5. Developmental Dynamics : an official publication of the American Association of Anatomists. 242(2):122-131
Choorapoikayil, S., Willems, B., Ströhle, P., and Gajewski, M. (2012) Analysis of her1 and her7 Mutants Reveals a Spatio Temporal Separation of the Somite Clock Module. PLoS One. 7(6):e39073
Cutty, S.J., Fior, R., Henriques, P.M., Saude, L., and Wardle, F.C. (2012) Identification and expression analysis of two novel members of the Mesp family in zebrafish. The International journal of developmental biology. 56(4):285-294
Veldman, M.B., and Lin, S. (2012) Etsrp/Etv2 Is Directly Regulated by Foxc1a/b in the Zebrafish Angioblast. Circulation research. 110(2):220-229
Goody, M.F., Kelly, M.W., Lessard, K.N., Khalil, A., and Henry, C.A. (2010) Nrk2b-mediated NAD+ production regulates cell adhesion and is required for muscle morphogenesis in vivo: Nrk2b and NAD+ in muscle morphogenesis. Developmental Biology. 344(2):809-826
Herrgen, L., Ares, S., Morelli, L.G., Schröter, C., Jülicher, F., and Oates, A.C. (2010) Intercellular Coupling Regulates the Period of the Segmentation Clock. Current biology : CB. 20(14):1244-1253
Ozbudak, E.M., Tassy, O., and Pourquié, O. (2010) Spatiotemporal compartmentalization of key physiological processes during muscle precursor differentiation. Proceedings of the National Academy of Sciences of the United States of America. 107(9):4224-4229
Schröter, C., and Oates, A.C. (2010) Segment Number and Axial Identity in a Segmentation Clock Period Mutant. Current biology : CB. 20(14):1254-1258
Lee, H.C., Tseng, W.A., Lo, F.Y., Liu, T.M., and Tsai, H.J. (2009) FoxD5 mediates anterior-posterior polarity through upstream modulator Fgf signaling during zebrafish somitogenesis. Developmental Biology. 336(2):232-245
Verhoeven, M. (2009) Bmp signaling is at the heart of vertebrate left-right asymmetry. Thesis. :130p
Kawamura, A., Koshida, S., and Takada, S. (2008) Activator-to-repressor conversion of T-box transcription factors by the Ripply family of Groucho/TLE-associated mediators. Molecular and cellular biology. 28(10):3236-3244
Moreno, T.A., Jappelli, R., Izpisúa Belmonte, J.C., and Kintner, C. (2008) Retinoic acid regulation of the Mesp-Ripply feedback loop during vertebrate segmental patterning. Developmental Biology. 315(2):317-330
Zhang, L., Kendrick, C., Jülich, D., and Holley, S.A. (2008) Cell cycle progression is required for zebrafish somite morphogenesis but not segmentation clock function. Development (Cambridge, England). 135(12):2065-2070
Akanuma, T., Koshida, S., Kawamura, A., Kishimoto, Y., and Takada, S. (2007) Paf1 complex homologues are required for Notch-regulated transcription during somite segmentation. EMBO reports. 8(9):858-863
Hamade, A., Deries, M., Begemann, G., Bally-Cuif, L., Genet, C., Sabatier, F., Bonnieu, A., and Cousin, X. (2006) Retinoic acid activates myogenesis in vivo through Fgf8 signalling. Developmental Biology. 289(1):127-140
Teraoka, H., Urakawa, S., Nanba, S., Nagai, Y., Dong, W., Imagawa, T., Tanguay, R.L., Svoboda, K., Handley-Goldstone, H.M., Stegeman, J.J., and Hiraga, T. (2006) Muscular contractions in the zebrafish embryo are necessary to reveal thiuram-induced notochord distortions. Toxicology and applied pharmacology. 212(1):24-34
Kawakami, Y., Raya, A., Raya, R.M., Rodriguez-Esteban, C., and Izpisúa Belmonte, J.C. (2005) Retinoic acid signalling links left-right asymmetric patterning and bilaterally symmetric somitogenesis in the zebrafish embryo. Nature. 435(7039):165-171
Kawamura, A., Koshida, S., Hijikata, H., Ohbayashi, A., Kondoh, H., and Takada, S. (2005) Groucho-associated transcriptional repressor ripply1 is required for proper transition from the presomitic mesoderm to somites. Developmental Cell. 9(6):735-744
Kawamura, A., Koshida, S., Hijikata, H., Sakaguchi, T., Kondoh, H., and Takada, S. (2005) Zebrafish Hairy/Enhancer of split protein links FGF signaling to cyclic gene expression in the periodic segmentation of somites. Genes & Development. 19(10):1156-1161
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Additional Citations (13):
Gaudet, P., Livstone, M., Thomas, P., The Reference Genome Project (2010) Annotation inferences using phylogenetic trees. Automated Data Submission.
ZFIN Staff (2006) Curation of Ensembl Database Links. Automated Data Submission.
ZFIN Staff (2003) Curation of orthology data. Manually curated data.
ZFIN Staff (2002) Curation of NCBI Gene Data Via Shared RNA Sequence IDs. Automated Data Submission.
ZFIN Staff (2017) Curation of PANTHER Gene IDs. Automated Data Submission.
ZFIN Staff (2003) Curation of VEGA Database Links. Automated Data Submission.
ZFIN Staff (2013) Semi-automated association of ENSDARG identifiers with ZFIN genes for the ZMP project. Semi-automated Curation.
ZFIN Staff (2002) Gene Ontology Annotation Through Association of InterPro Records with GO Terms. Automated Data Submission.
ZFIN Staff (2007) Microarray Expression to Gene Association in ZFIN. Semi-automated Curation.
ZFIN Staff (2017) Curation of Alliance of Genome Resources Database Links. Automated Data Submission.
ZFIN Staff (2023) Automated Curation of UniProt Database Links. Automated Data Submission.
ZFIN Staff (2020) Addition of links from ZFIN to Expression Atlas. Semi-automated Curation.
ZFIN Staff (2004) ZGC Data Curation and Association in ZFIN by ZFIN Staff. Semi-automated Curation.
ZFIN Staff (2023) Automated Curation of UniProt Database Links. Automated Data Submission.
ZFIN Staff (2020) Addition of links from ZFIN to Expression Atlas. Semi-automated Curation.
ZFIN Staff (2017) Curation of PANTHER Gene IDs. Automated Data Submission.
ZFIN Staff (2017) Curation of Alliance of Genome Resources Database Links. Automated Data Submission.
ZFIN Staff (2013) Semi-automated association of ENSDARG identifiers with ZFIN genes for the ZMP project. Semi-automated Curation.
Gaudet, P., Livstone, M., Thomas, P., The Reference Genome Project (2010) Annotation inferences using phylogenetic trees. Automated Data Submission.
ZFIN Staff (2007) Microarray Expression to Gene Association in ZFIN. Semi-automated Curation.
ZFIN Staff (2006) Curation of Ensembl Database Links. Automated Data Submission.
ZFIN Staff (2004) ZGC Data Curation and Association in ZFIN by ZFIN Staff. Semi-automated Curation.
ZFIN Staff (2003) Curation of VEGA Database Links. Automated Data Submission.
ZFIN Staff (2003) Curation of orthology data. Manually curated data.
ZFIN Staff (2002) Curation of NCBI Gene Data Via Shared RNA Sequence IDs. Automated Data Submission.
ZFIN Staff (2002) Gene Ontology Annotation Through Association of InterPro Records with GO Terms. Automated Data Submission.
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