View Summary Pdf File Gene model: GSMUA_Achr7P15100_001
IDENTIFICATION
Species Name
Musa acuminata
Locus:
GSMUA_Achr7P15100_001
Gene Model:
GSMUA_Achr7P15100_001
Description:
MacEXPA-24
Family:
Alpha Expansin
3D Structure:
2HCZ

Genome Databases:
Tair
Kegg
External Resources
GabiPD
Gene Structure:
Domain Architecture:
Peptide Sequences
>MacEXPA-24
MAFRHALAVTVALVLASSALLADARIPGVYTGGPWQTAHATFYGGSDASGTMGGACGYGNLYSQGYGVETAALSTALYNDGLRCGACFEIKCADDPRWCKGGNPSIFITATNFCPPNYALPSDNGGWCNPPRPHFDLAMPMFLKIAEYRAGIVPVSFRRVPCRKSGGIRFTINGFQYFNLVLITNVAGAGDIVRASVKGTRSGWIAMSRNWGQNWQSNAVLVGQSLSFRVTGSDHRTSTSWNIAPASWQFGQTFSGKNFRV*
CDS (Coding Sequence):
>MacEXPA-24
ATGGCATTCCGCCACGCCCTGGCCGTAACAGTCGCCCTCGTCCTCGCTTCCTCCGCGCTGCTGGCCGACGCCCGCATCCCCGGCGTCTACACCGGCGGCCCCTGGCAGACCGCCCACGCCACCTTCTACGGCGGCAGCGACGCCTCCGGAACCATGGGAGGGGCGTGTGGGTATGGGAACCTCTACAGCCAGGGGTACGGCGTCGAGACGGCGGCGCTGAGCACTGCGCTGTACAACGACGGGCTGAGATGCGGGGCCTGCTTCGAGATCAAGTGCGCGGACGACCCCCGGTGGTGCAAAGGCGGCAACCCCTCCATCTTCATCACCGCCACCAACTTCTGCCCCCCCAACTACGCCCTCCCCTCCGACAACGGCGGCTGGTGCAACCCGCCCCGCCCCCACTTCGACCTCGCCATGCCCATGTTCCTCAAGATCGCCGAGTACCGCGCCGGCATCGTCCCCGTCTCCTTCCGCAGGGTGCCGTGCAGGAAGTCGGGCGGGATACGGTTCACCATCAACGGGTTCCAGTACTTCAACCTGGTGCTCATCACCAACGTGGCGGGCGCCGGCGACATCGTCCGCGCCAGCGTCAAGGGCACCCGCTCCGGCTGGATCGCCATGTCCCGCAACTGGGGCCAGAACTGGCAGTCCAACGCCGTCCTCGTCGGCCAGTCCCTCTCCTTCCGCGTCACCGGCAGCGACCACCGCACCTCCACCTCCTGGAACATCGCCCCCGCCTCCTGGCAGTTCGGCCAGACCTTCTCCGGCAAGAACTTCCGCGTCTGA
Nucleotide:
>MacEXPA-24
ATGGCATTCCGCCACGCCCTGGCCGTAACAGTCGCCCTCGTCCTCGCTTCCTCCGCGCTGCTGGCCGACGCCCGCATCCCCGGCGTCTACACCGGCGGCCCCTGGCAGACCGCCCACGCCACCTTCTACGGCGGCAGCGACGCCTCCGGAACCATGGGTACGCCCCTTCTCGCCTCCCTCCCCTCGCCACCCACCTCCATTTTGCCTGTTTGACTCCGTCGCTGGTTGCAGGAGGGGCGTGTGGGTATGGGAACCTCTACAGCCAGGGGTACGGCGTCGAGACGGCGGCGCTGAGCACTGCGCTGTACAACGACGGGCTGAGATGCGGGGCCTGCTTCGAGATCAAGTGCGCGGACGACCCCCGGTGGTGCAAAGGCGGCAACCCCTCCATCTTCATCACCGCCACCAACTTCTGCCCCCCCAACTACGCCCTCCCCTCCGACAACGGCGGCTGGTGCAACCCGCCCCGCCCCCACTTCGACCTCGCCATGCCCATGTTCCTCAAGATCGCCGAGTACCGCGCCGGCATCGTCCCCGTCTCCTTCCGCAGGTACCTACGCCTCTTCCTCTCCCATCGTAGATCCCAACAATCACATCACCCCCTTTCAACCAGTAGTAATCCATAGTTAACGTCTTCGTTTTCTTCCCCACCACTAGTTGGACTGTCATTCTCAGGGAGGACACGACCCGCTCCCGCATTGCCTCATTCGTACCACACTTAGCTTCCTTAATTAAGCCATCGAGTGTTGTTTACCCAGTTTTGGCATGTAATTAAATCGACAACAAAGTTGCGATTGGATCACAATATAAACCAATAAGCATCATTAGAAAGACTAGAAAGATGTTGAAAGGCGCATTTAATGGTCCCTCGTTGGTGACCACATACATGACATGTTCTCCAGCCACCCAATCCCCTCCTCTCTCCCGCCCGTGACTCCTTGTCCCACCATCCGTGTCTCTCACACGCATTTTAACAAGCAAGACGCGTCCCCAAACCGCGTGAGCATGGGAGACCGTGCAGTCGACAGCGGCACGTGCCCCCCTGGCCACCCTTCACAGACCGTTCGGTTCGACGCCGTCTTCCGCCCTCCTCCACTACGATCGGACGCAATGCTCCAAGTGCTCGACGCATTGATCTGACGATGGAACTTGTGGCGCAGGGTGCCGTGCAGGAAGTCGGGCGGGATACGGTTCACCATCAACGGGTTCCAGTACTTCAACCTGGTGCTCATCACCAACGTGGCGGGCGCCGGCGACATCGTCCGCGCCAGCGTCAAGGGCACCCGCTCCGGCTGGATCGCCATGTCCCGCAACTGGGGCCAGAACTGGCAGTCCAACGCCGTCCTCGTCGGCCAGTCCCTCTCCTTCCGCGTCACCGGCAGCGACCACCGCACCTCCACCTCCTGGAACATCGCCCCCGCCTCCTGGCAGTTCGGCCAGACCTTCTCCGGCAAGAACTTCCGCGTCTGAACTCCCCCCCACCTCCACCTTATCTCCCATGGCGTCTTTATTTTGAGTGATCCCACCGCCCAACAGACGAAGAAGAAGTAGAAGGCTTGCGGGAGTTTGCACGCGTCCGAGTAGTAGTAGCAGCAGCAGCAGTAGTAATCAAGGCAGCAGTTGAAGTGGCTGCAGCTCAAAACTGGAGCGTGTAGCCCGCAGCTGCTTAACATATCATGCGTCTTAATCGTCATTTTAGCCCCGTCATAAGTGTAAGCACATCAATTCAATATTAAGTTATAAATTAGATTCAGAT