Research
Search
Genes / Clones
Expression
Mutants / Tg
Antibodies
Anatomy / GO / Human Disease / Chemical
Publications
Data Mining
Downloads
Data Model
AllianceMine
BioMart
Genomics
BLAST
ZFIN
Ensembl
NCBI
UCSC
Genome Browsers
ZFIN
Ensembl
Vega
GRC
UCSC
NCBI
Resources
Zebrafish Genomics
Other Genome Databases
Resources
General
The Zebrafish Book
Protocol Wiki
Antibody Wiki
Anatomy Atlases
Resources for Students and Educators
Zebrafish Programs
ZF-Health
Husbandry Resources
More...
Resource Centers
Zebrafish International Resource Center (ZIRC)
China Zebrafish Resource Center (CZRC)
European Zebrafish Resource Center (EZRC)
Community
Announcements
News
Meetings
Jobs
Alliance Community Forum
Search
People
Labs
Companies
Societies
International Zebrafish Society (IZFS)
Zebrafish Disease Models Society (ZDMS)
Genetics Society of America (GSA)
Zebrafish Husbandry Association
Support
Nomenclature
Nomenclature Conventions
Line Designations
Wild-Type Lines
Submit a Proposed Gene Name
Submit a Proposed Mutant/Tg Line Name
Publications
Guidelines for Authors
Zebrashare
Citing ZFIN
Using ZFIN
Help & Tips
Glossary
Single Box Search Help
Submit Data
Terms of Use
About Us
About ZFIN
Contact Information
Statistics
Committees
Jobs at ZFIN
Sign In
ZFIN ID:
ZDB-MRPHLNO-070118-1
CITATIONS
(22 total)
Morpholino Name:
MO1-myod1
Morpholino Symbol:
MO1-myod1
Burguière, A.C., Nord, H., and von Hofsten, J. (2011) Alkali-like myosin light chain-1 (myl1) is an early marker for differentiating fast muscle cells in zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 240(7):1856-1863
Chen, J.W., Galloway, J.L. (2014) The development of zebrafish tendon and ligament progenitors. Development (Cambridge, England). 141:2035-45
Chen, Y.C., Wu, B.K., Chu, C.Y., Cheng, C.H., Han, H.W., Chen, G.D., Lee, M.T., Hwang, P.P., Kawakami, K., Chang, C.C., and Huang, C.J. (2010) Identification and characterization of alternative promoters of zebrafish Rtn-4/Nogo genes in cultured cells and zebrafish embryos. Nucleic acids research. 38(14):4635-4650
Devakanmalai, G.S., Zumrut, H.E., and Ozbudak, E.M. (2013) Cited3 activates Mef2c to control muscle cell differentiation and survival. Biology Open. 2(5):505-514
Hammond, C.L., Hinits, Y., Osborn, D.P., Minchin, J.E., Tettamanti, G., and Hughes, S.M. (2007) Signals and myogenic regulatory factors restrict pax3 and pax7 expression to dermomyotome-like tissue in zebrafish. Developmental Biology. 302(2):504-521
Hinits, Y., Osborn, D.P., and Hughes, S.M. (2009) Differential requirements for myogenic regulatory factors distinguish medial and lateral somitic, cranial and fin muscle fibre populations. Development (Cambridge, England). 136(3):403-414
Hinits, Y., Osborn, D.P., Carvajal, J.J., Rigby, P.W., and Hughes, S.M. (2007) Mrf4 (myf6) is dynamically expressed in differentiated zebrafish skeletal muscle. Gene expression patterns : GEP. 7(7):738-745
Hinits, Y., Williams, V.C., Sweetman, D., Donn, T.M., Ma, T.P., Moens, C.B., and Hughes, S.M. (2011) Defective cranial skeletal development, larval lethality and haploinsufficiency in Myod mutant zebrafish. Developmental Biology. 358(1):102-12
Lee, G.H., Chang, M.Y., Hsu, C.H., and Chen, Y.H. (2011) Essential roles of basic helix-loop-helix transcription factors, Capsulin and Musculin, during craniofacial myogenesis of zebrafish. Cellular and molecular life sciences : CMLS. 68(24):4065-78
Liew, H.P., Choksi, S.P., Wong, K.N., and Roy, S. (2008) Specification of vertebrate slow-twitch muscle fiber fate by the transcriptional regulator Blimp1. Developmental Biology. 324(2):226-235
Lin, C.Y., Chen, W.T., Lee, H.C., Yang, P.H., Yang, H.J., and Tsai, H.J. (2009) The transcription factor six1a plays an essential role in the craniofacial myogenesis of zebrafish. Developmental Biology. 331(2):152-166
Lin, C.Y., Lee, H.C., Chen, H.C., Hsieh, C.C., and Tsai, H.J. (2013) Normal Function of Myf5 During Gastrulation Is Required for Pharyngeal Arch Cartilage Development in Zebrafish Embryos. Zebrafish. 10(4):486-99
Lin, C.Y., Yung, R.F., Lee, H.C., Chen, W.T., Chen, Y.H., and Tsai, H.J. (2006) Myogenic regulatory factors Myf5 and Myod function distinctly during craniofacial myogenesis of zebrafish. Developmental Biology. 299(2):594-608
Minchin, J.E., Williams, V.C., Hinits, Y., Low, S., Tandon, P., Fan, C.M., Rawls, J.F., and Hughes, S.M. (2013) Oesophageal and sternohyal muscle fibres are novel Pax3-dependent migratory somite derivatives essential for ingestion. Development (Cambridge, England). 140(14):2972-2984
Nord, H., Skalman, L.N., and von Hofsten, J. (2013) Six1 regulates proliferation of Pax7-positive muscle progenitors in zebrafish. Journal of Cell Science. 126(Pt 8):1868-80
Osborn, D.P., Li, K., Hinits, Y., and Hughes, S.M. (2011) Cdkn1c drives muscle differentiation through a positive feedback loop with Myod. Developmental Biology. 350(2):464-475
Paulissen, E., Martin, B.L. (2022) Myogenic regulatory factors myod and Myf5 are required for dorsal aorta formation and angiogenic sprouting. Developmental Biology. 490:134-143
Row, R.H., Pegg, A., Kinney, B., Farr, G.H., Maves, L., Lowell, S., Wilson, V., Martin, B.L. (2018) BMP and FGF signaling interact to pattern mesoderm by controlling basic helix-loop-helix transcription factor activity. eLIFE. 7
Schnapp, E., Pistocchi, A.S., Karampetsou, E., Foglia, E., Lamia, C.L., Cotelli, F., and Cossu, G. (2009) Induced early expression of mrf4 but not myog rescues myogenesis in the myod/myf5 double-morphant zebrafish embryo. Journal of Cell Science. 122(Pt 4):481-488
Seger, C., Hargrave, M., Wang, X., Chai, R.J., Elworthy, S., and Ingham, P.W. (2011) Analysis of Pax7 expressing myogenic cells in zebrafish muscle development, injury, and models of disease. Developmental Dynamics : an official publication of the American Association of Anatomists. 240(11):2440-51
Shwartz, Y., Farkas, Z., Stern, T., Aszódi, A., and Zelzer, E. (2012) Muscle contraction controls skeletal morphogenesis through regulation of chondrocyte convergent extension. Developmental Biology. 370(1):154-163
Wang, X., Ono, Y., Tan, S.C., Chai, R.J., Parkin, C., and Ingham, P.W. (2011) Prdm1a and miR-499 act sequentially to restrict Sox6 activity to the fast-twitch muscle lineage in the zebrafish embryo. Development (Cambridge, England). 138(20):4399-404
Paulissen, E., Martin, B.L. (2022) Myogenic regulatory factors myod and Myf5 are required for dorsal aorta formation and angiogenic sprouting. Developmental Biology. 490:134-143
Row, R.H., Pegg, A., Kinney, B., Farr, G.H., Maves, L., Lowell, S., Wilson, V., Martin, B.L. (2018) BMP and FGF signaling interact to pattern mesoderm by controlling basic helix-loop-helix transcription factor activity. eLIFE. 7
Chen, J.W., Galloway, J.L. (2014) The development of zebrafish tendon and ligament progenitors. Development (Cambridge, England). 141:2035-45
Devakanmalai, G.S., Zumrut, H.E., and Ozbudak, E.M. (2013) Cited3 activates Mef2c to control muscle cell differentiation and survival. Biology Open. 2(5):505-514
Lin, C.Y., Lee, H.C., Chen, H.C., Hsieh, C.C., and Tsai, H.J. (2013) Normal Function of Myf5 During Gastrulation Is Required for Pharyngeal Arch Cartilage Development in Zebrafish Embryos. Zebrafish. 10(4):486-99
Minchin, J.E., Williams, V.C., Hinits, Y., Low, S., Tandon, P., Fan, C.M., Rawls, J.F., and Hughes, S.M. (2013) Oesophageal and sternohyal muscle fibres are novel Pax3-dependent migratory somite derivatives essential for ingestion. Development (Cambridge, England). 140(14):2972-2984
Nord, H., Skalman, L.N., and von Hofsten, J. (2013) Six1 regulates proliferation of Pax7-positive muscle progenitors in zebrafish. Journal of Cell Science. 126(Pt 8):1868-80
Shwartz, Y., Farkas, Z., Stern, T., Aszódi, A., and Zelzer, E. (2012) Muscle contraction controls skeletal morphogenesis through regulation of chondrocyte convergent extension. Developmental Biology. 370(1):154-163
Burguière, A.C., Nord, H., and von Hofsten, J. (2011) Alkali-like myosin light chain-1 (myl1) is an early marker for differentiating fast muscle cells in zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 240(7):1856-1863
Hinits, Y., Williams, V.C., Sweetman, D., Donn, T.M., Ma, T.P., Moens, C.B., and Hughes, S.M. (2011) Defective cranial skeletal development, larval lethality and haploinsufficiency in Myod mutant zebrafish. Developmental Biology. 358(1):102-12
Lee, G.H., Chang, M.Y., Hsu, C.H., and Chen, Y.H. (2011) Essential roles of basic helix-loop-helix transcription factors, Capsulin and Musculin, during craniofacial myogenesis of zebrafish. Cellular and molecular life sciences : CMLS. 68(24):4065-78
Osborn, D.P., Li, K., Hinits, Y., and Hughes, S.M. (2011) Cdkn1c drives muscle differentiation through a positive feedback loop with Myod. Developmental Biology. 350(2):464-475
Seger, C., Hargrave, M., Wang, X., Chai, R.J., Elworthy, S., and Ingham, P.W. (2011) Analysis of Pax7 expressing myogenic cells in zebrafish muscle development, injury, and models of disease. Developmental Dynamics : an official publication of the American Association of Anatomists. 240(11):2440-51
Wang, X., Ono, Y., Tan, S.C., Chai, R.J., Parkin, C., and Ingham, P.W. (2011) Prdm1a and miR-499 act sequentially to restrict Sox6 activity to the fast-twitch muscle lineage in the zebrafish embryo. Development (Cambridge, England). 138(20):4399-404
Chen, Y.C., Wu, B.K., Chu, C.Y., Cheng, C.H., Han, H.W., Chen, G.D., Lee, M.T., Hwang, P.P., Kawakami, K., Chang, C.C., and Huang, C.J. (2010) Identification and characterization of alternative promoters of zebrafish Rtn-4/Nogo genes in cultured cells and zebrafish embryos. Nucleic acids research. 38(14):4635-4650
Hinits, Y., Osborn, D.P., and Hughes, S.M. (2009) Differential requirements for myogenic regulatory factors distinguish medial and lateral somitic, cranial and fin muscle fibre populations. Development (Cambridge, England). 136(3):403-414
Lin, C.Y., Chen, W.T., Lee, H.C., Yang, P.H., Yang, H.J., and Tsai, H.J. (2009) The transcription factor six1a plays an essential role in the craniofacial myogenesis of zebrafish. Developmental Biology. 331(2):152-166
Schnapp, E., Pistocchi, A.S., Karampetsou, E., Foglia, E., Lamia, C.L., Cotelli, F., and Cossu, G. (2009) Induced early expression of mrf4 but not myog rescues myogenesis in the myod/myf5 double-morphant zebrafish embryo. Journal of Cell Science. 122(Pt 4):481-488
Liew, H.P., Choksi, S.P., Wong, K.N., and Roy, S. (2008) Specification of vertebrate slow-twitch muscle fiber fate by the transcriptional regulator Blimp1. Developmental Biology. 324(2):226-235
Hammond, C.L., Hinits, Y., Osborn, D.P., Minchin, J.E., Tettamanti, G., and Hughes, S.M. (2007) Signals and myogenic regulatory factors restrict pax3 and pax7 expression to dermomyotome-like tissue in zebrafish. Developmental Biology. 302(2):504-521
Hinits, Y., Osborn, D.P., Carvajal, J.J., Rigby, P.W., and Hughes, S.M. (2007) Mrf4 (myf6) is dynamically expressed in differentiated zebrafish skeletal muscle. Gene expression patterns : GEP. 7(7):738-745
Lin, C.Y., Yung, R.F., Lee, H.C., Chen, W.T., Chen, Y.H., and Tsai, H.J. (2006) Myogenic regulatory factors Myf5 and Myod function distinctly during craniofacial myogenesis of zebrafish. Developmental Biology. 299(2):594-608
Your Input Welcome
Your Input Welcome
We welcome your input and comments. Please use this form to recommend updates to the information in ZFIN. We appreciate as much detail as possible and references as appropriate. We will review your comments promptly.
Please check the highlighted fields and try again.
Name:
Institution:
Email address:
Please leave blank:
Subject:
Comments:
Send your comments
Thank you for submitting comments. Your input has been emailed to ZFIN curators who may contact you if additional information is required.
Oops. Something went wrong. Please try again later.