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MLC2 (Myosin light chain 2)

Organism

Danio rerio (Zebrafish)

MLC2-A,
NM_131188.2

MLC2-B
NM_001004668.1

Mohanta R., Jayasankar P., Das Mahapatra K., Saha JN., Barman HK. (2014). Molecular cloning, characterization and functional assessment of the myosin light polypeptide chain 2 (mylz2) promoter of farmed carp, Labeo rohita. Transgenic Research 23(4):601-607. doi:10.1007/s11248-014-9798-8.

Chuang HN., Hsiao KM., Chang HY., Wu CC., Pan H. (2014). The homeobox transcription factor Irxl1 negatively regulates MyoD expression and myoblast differentiation. The FEBS Journal 281(13):2990-3003. doi:10.1111/febs.12837.

Li D., Lou Q., Zhai G., Peng X., Cheng X., Dai X., Zhuo Z., Shang G., Jin X., Chen X., Han D., He J., Yin Z. (2014). Hyperplasia and cellularity changes in IGF-1-overexpressing skeletal muscle of crucian carp. Endocrinology 155(6):2199-2212. doi:http://dx.doi.org/10.1210/en.2013-1938.

Tseng LC., Zhang C., Cheng CM., Xu H., Hsu CH., Jiang YJ. (2014). New classes of mind bomb-interacting proteins identified from yeast two-hybrid screens. PLoS ONE 9(4):E93394. doi:10.1371/journal.pone.0093394.

Chen EY., DeRan MT., Ignatius MS., Grandinetti KB., Clagg R., McCarthy KM., Lobbardi RM., Brockmann J., Keller C., Wu X., Langenau DM. (2014). Glycogen synthase kinase 3 inhibitors induce the canonical WNT/beta-catenin pathway to suppress growth and self-renewal in embryonal rhabdomyosarcoma. Proceedings of the National Academy of Sciences of the United States of America 111(14):5349-5354. doi:10.1073/pnas.1317731111.

Linney E., Dobbs-McAuliffe B., Sajadi H., Malek RL. (2004). Microarray gene expression profiling during the segmentation phase of zebrafish development. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology 138(3):351-362. doi:10.1016/j.cca.2004.08.008.

Cortes F., Daggett D., Bryson-Richardson RJ., Neyt C., Maule J., Gautier P., Hollway GE., Keenan D., Currie PD. (2003). Cadherin-mediated differential cell adhesion controls slow muscle cell migration in the developing zebrafish myotome. Developmental Cell 5(6):865-876. doi:http://dx.doi.org/10.1016/S1534-5807(03)00362-9.

Gong Z., Wan H., Tay TL., Wang H., Chen M., Yan T. (2003). Development of transgenic fish for ornamental and bioreactor by strong expression of fluorescent proteins in the skeletal muscle. Biochemical and Biophysical Research Communications 308(1):58-63. doi:10.1016/S0006-291X(03)01282-8.

Wan H., He J., Ju B., Yan T., Lam TJ., Gong Z. (2002). Generation of two-color transgenic zebrafish using the green and red fluorescent protein reporter genes gfp and rfp. Marine Biotechnology 4(2):146-154. doi:10.1007/s10126-001-0085-3.

Ju B., Xu Y., He J., Liao J., Yan T., Hew CL., Lam TJ., Gong Z. (1999). Faithful expression of green fluorescent protein (GFP) in transgenic zebrafish embryos under control of zebrafish gene promoters. Developmental Genetics 25(2):158-167. doi:10.1002/(SICI)1520-6408(1999)25:2<158::AID-DVG10>3.0.CO;2-6.

Chen Z., Huang W., Dahme T., Rottbauer W., Ackerman MJ., Xu X. (2008). Depletion of zebrafish essential and regulatory myosin light chains reduces cardiac function through distinct mechanisms. Cardiovascular Research 79(1):97-108. doi:http://dx.doi.org/10.1093/cvr/cvn073.

>NM_131188.2 Danio rerio Myosin light chain 2-A
GCGGCTTCAGACTTCTCTTCTTGATCTTCTTAGACTTCACACATACCGTCTCGACATGGCACCCAAGAAGGCCAAGAGGA
GGGCAGCAGGAGGAGAGGGTTCCTCCAACGTCTTCTCCATGTTTGAGCAGAGCCAGATTCAGGAGTACAAAGAGGCTTTC
ACAATCATTGACCAGAACAGAGACGGTATCATCAGCAAAGACGACCTTAGGGACGTGTTGGCCTCAATGGGCCAGCTTAA
TGTGAAGAATGAGGAGCTGGAGGCCATGATCAAGGAAGCCAGCGGCCCAATCAACTTCACCGTTTTCCTCACCATGTTCG
GAGAGAAGTTGAAGGGTGCTGACCCCGAAGACGTCATCGTGTCTGCCTTCAAGGTGCTGGACCCTGAGGGCACTGGATCC
ATCAAGAAGGAATTCCTTGAGGAGCTTTTGACCACTCAGTGCGACAGGTTCACCGCAGAGGAGATGAAGAATCTGTGGGC
CGCCTTCCCCCCAGATGTGGCTGGCAATGTTGACTACAAGAACATCTGCTACGTCATCACACACGGAGAGGAGAAGGAGG
AGTAAACTACCTTGGAATCAAGAAAACGAAGAGAAGAACATGCATCCCTCACAGCTTAATCCTCCCAGTCTGTTGTCTGG
CCTTCTCTAACTTTTGTTTTTCTTCCTCCCTTTCTTGCTTTCTACCATCGTTGTTACTCCAAGCACTTACACTCTCCATC
TTACCAAAGACTTGTCTCGCTGGGACTGAATTGGGAGGGTGGAGAGGAACACGACCACAGTGTCTGTCGAGTGGGGACAT
TGGATTGTTTTCAATAAAATGAACATCATTTCTGTATCTCTCACATTCTCTCTTTCTCTCTGTTTCTCACTCGTTACCCG
CGACCACCTCTCTTTCATTTCAGTCAAGCTTGCATGAAAGTCGCTGCTTCTTCTGCTGCAGTCTTAGGAGTTGAAACGAA
GGCATCTATAGTTTGGGGCTGAAACATCTCTCTAGATCAATGTGGAAGAGTGCTCACTCTGAGGGGGAAAGAAGCACGAT
GGAGTGATCTCACTCTATAATAGAGGAACCAGTCATCATTCTCATTTCCTCCTCTGGTGGTTGACTAAAAAGAGAAAGAG
AAAATGAGGGTTTTGTGCTGAGTGAGTTTAGCCTCCTAAAAGCGATGCCGAGCTCATCACAGAGGGAGTGAGAGGGACAG
ACCATCCTAGGAAGAGAGGAGAGCAGGGACTGAAAGAAAACATAACCTCTTCACTCCCCCTCTCCCCTCCTCTTCTCTAT
TTCTCTGTCCATCTTTTCTTTTTTCTTTTTTTGCTTTCTGCATCTGGGCCTGCTTTGCTCTGCCAAACCTCTTCTGTAAC
CAATAAAAGACACAAACTGTGAATAAAACATCTTTTTGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA

>NM_001004668.1 Danio rerio Myosin light chain 2-B
AGTTACATCAACGTGGAGTAACTCCTAATTTGACCAACGACAAAAACCTTGAGAAATGGCACCCAAGAAAGCCAAGAAGA
GGCAGCAGGCAGAGGGCGGTAGCTCTAATGTCTTCTCCATGTTCGAGCAGAGCCAGATCCAGGAATACAAGGAGGCTTTC
ACAATCATTGACCAGAACAGAGATGGTATTATCAGCAAGGATGATTTGAGGGATGTGCTGGCAACAATGGGTCAGCTAAA
TGTAAAAAATGAAGAGCTAGAAGCCATGGTCAAAGAAGCCAGTGGCCCCATCAACTTTACTGTTTTCCTTACCATGTTTG
GTGAAAAGCTAAAGGGCGCTGACCCTGAGGATGTTATTGTGAGTGCTTTCAAAGTCCTAGACCCTGAGGCAACAGGCACA
ATCAAAAAGGAGTTCCTTGAGGAACTTCTGACCACCCAATGTGACCGGTTTACGGCAGAGGAGATGAAAAACCTTTGGGC
TGCTTTCCCTCCAGATGTAGCTGGCAATGTAGACTATAAGAACATCTGTTACGTCATCACACATGGAGAGGAGAAAGAAG
AAGAATAATTTAATCCATTAATAATCTCTCTACCTTCTCTTATTACCACACCATGTCAGTCCGTCATGGTTCATCTGCCC
TTTGAAAAAAATACTTATCTGAACTAAAGGTTTGTTGGCATTTGGGCTGAATGTGAGTGTTGTTTAACTAATATGATTAC
TTTCAATAAAATGATCTAAAATCAAAAAAAAAAAAAAAAA

GO term(s)

Gene Expression

Gene Structure

Possible Primers

Phylogeny (Gene Tree)

Synteny

Genomic Map Locations

Sequencing Methods

Gene Domains

Molecular Markers

Data input by M.Iliopoulou

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