PI0001928 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGACCACTTTACTAACTTCTTTTGTGCAAGGTGGCTCTGTTAAAGTTGCTAAGTGTAGGGTGTGCGGTCTAGTTGGACATCCAAATGACAAGTGCCCAGACTTAATTGAAGAAGCAAATGTCATTGGTAAGTACGATCCCCATAGTAATACTTACAATTCTGGGTGGAGAGACAACCCAAATCTAAGGTGGGGAAACGACAACCAAAGACCTTCACAAGCAACTTCCTCTTCCAATAATCAAGGTACGAATTTAGAAGATTTAGTAAAAGCTCTAGCTACAAATACCATCTCTTTTCAAAATGAAATGAAGCAACAAATGTCTCATCTCACAAGCGCAATTAGCAAGTTAGAAGGAAAAGGTAAACTTTTGGTGCAACCGGATCATGCAAACGTAAGTGCCATCTCACTTACAAGCGGTAAAATTCTAGAAACCCCTCCAAGTGAAGAAAAGGTAACTTCTAACCCTATCCTTATAGAAAATAATGATGAGACCAAGGAAGAAAAAGTGGAAACAAATGCTTTACCATCCAGTTCCAACAAAGGTAAATTTCCTATTCTTGATTTTACTCCTTATGTTCCTAAAGCTCCTTTTCCTTCTAGGTTGGCTCCCAAGAGAAAGGAATCACCCAAGGAAGAAGAACTCTTGGAGATGTTTAGAAAGGTGCAAATCAATTTGCCTCTACTTGATGCAATCCAACAAGTTCCAAGGTATGCCAAGTTTCTAAAGGAGTTGTGCACCAACAAAAGAAAAATCAAGGAGAAACCAATGGTAAGTCATAACGTTTCCACTCTTTTAAAGAATAGTATTCCGAAAAAGTAAAATGACCCCAGTATGTTTTCTCTTCCTTGCATAATAGGCAATAGACCAATTTCTCATGCAATGCTTGACTTAAGAGCATCCATAAATGTTATGTCATTTAGTGTTTATAAAATTCTAGAACTTAATAACCTGCAAAAGACAAGTGTATGCATACAATTAGCAGATAGATCTTTTATTTCACCGTTAGAAATTGTTGAAGATGTTCTAGTGAAAATAGACAAATTAATTTTTCCTGCGGATTTCTATATTTTAGAAATGAATGATGTATGTGCAAAACCTTCTCACTCAATTCTATTAGGAAGACCTTTTCTAAAAACTGCAAAAACAATTATAGATGTAGACAAAGGTTCTTTAAGTGTAGAATTTGATGGAGATGTAGTGACATTTAATATTTTTGAATCAATGAAATATCCCGATGAATGCCTATCTCTATGCTCAATAGTATTGCATGATGAAATTGATTATGCCTATTGATGATGAATTTTGTGAACAAGAAATTGTTGAAAGTAAAGAATTTGTAGAAGTAGATGAAAATTTTAATCTTGAGAAAAATAATTGTGATAATTTTTTCTTCTCTCCACAGGAAAAAGGGATCGAGCTCAAAGCTCTCCCACCAAACTTGAAGTATGTATTCTTAGGAGAAAAGAATACATTTCCTGTTATCATCTCAAAAGAACTAAACCAAAAAGAAGAAGAAAGGCTCATCGAAGTCTTGAAAAACAAAAAGAAAGCAAAAGGATGGACTTTAGAAGACTTGAAAGGTATTCCTTCTACTTTTTGCACACATAGAATAATTTTAGAGGAAGGAGCAAAAGATAAAGTCCAATCACAAAGAAGGTTAAATCCAATTTTAAAAGAAGTAGTTTTGAAAGAGATTTTAAAATTAAAAGATGCCGGAATCATTTACCCAGTCCCGGATAGTACATGGGTAAGCCCAATTCACGTAGTACCAAAAAAGACCGGGATGACTGTAATGTAAAACGATAAAGGAGAGATGATTCCGATGCGAATTCAAAACGGATGGAGAATGTGCATAGACTACCGCAAGCTCAATGAGGTAACCAAAAAAGACCATTTCCCTTTACCTTTCTTAAATCAAATGATAGAACGCTTAGCAGGAAAGTCATATTTTTACTTTTTAGATGGTTTTTCTGGATTTTACCAAATTCCAATAGCATGTGAAGATCAAAATAAAACAACTTTTACTTGTGATTATGGAACTTATGCTTTTAGGCGTATGCCTTTTGGTCTTTGTAATGCACCTGACACATTCCAACGTTGTATGATGAGCATCTTTTCTGATTTTATTGAAAAATGCATAGAAGTCTTCATGGATGATTTTACAGTTTATGGTGATAACTTTGATGCATGCTTAAATAGTCTTGAACTTATTTTAAATAGATGCATAAAAACGAACCTTGTCTTGAATTATGAAAAATGCCATTTCATGGTTTCACATGGCATAGTTTTAGGCCATTTAGTATCTTCTAAAGGAATAGAAATAGATAAAGCAAAAATCGACGTTATTCAAAAATTGCCATACCCTACATGCCTAAAATACGTTAGATCTTTTCTAGGTAGCGCCGGTTTTTATAGAAGATTTATTAAGGATTTTTCTAAAATTGTTTTACCTCTAACTTCTCTTCTTCAAAAAGACGTGCCATTTGTGATCGATGACAAATGCAAAAAACCATTCAACGAACTCAAGCGAAGGTTAGTCTCTACTCCTATTCTTCAATCTCCTAATTGGAATTTGCCTTTCGAAATTATGTGCGATGCAAGCAATCTAGCATTAGGAGCTGTTTTAGGACAAAGAGTAGATAAAAAATTGCATGCTATCTATTTTGCATCTAGAACACCAAACCAAGCACAATCAAATTACACCACAACTGAAAAAGAATTTCTTGCCATAGTTTTTGCCTTAGACAAATTTAGAAGCTATGTAATTGGTTCTCCTGTAATTGTTTACACTGATCATGCTGCAGTTAGGTATCTTGTTTCTAAAAAAGAATCAAAACCTAGGCTAGTTAGATGGGTGTTGCTTTTACAAGAATTTAACCTAACTATCAAGGATAGAAAAGGAGCCAATAATGCCATAGCAGATCACCTTAGTAGAATTGTGCAAGATCAAGAAGACATGCCTATACGAGAAGACTTTCCAGATGAGCATCTCTTTCAAACAAATCTTCCAATACCATGGTATGCCGACATTGTGAATTATTTAACAACAAGTAACTTTCCTTTAGATTTCTCTTTTTCACAAAAATCTAAATTGCATAGCGATGCCAAATATTATTTCTGGGAACCACCATATCTCTAGAAATATTGTTCAAATCAAATAATTAGAAAATGTGTTCCTAAACATGAGTATAAATCAATTCTATTGTTTTGTCACAGTCATGCATGCGGAGGTCATTTCAGTCTTAAAAGAACAGTTAGAAAAATCTTAGATAGTGGTTTCTTTTGGAAAACTCTATTTGCTGTTTCTTATGCATACTGTAAAGCATGTGAAAATTGTCAAAGAACTGGATCACTATCTAGAAGAAATGAAATGCCCCTTAACCCAATTTTAACTTGTGAAATTTTTTATGTCTGGGGTATGGATTTTATGGGTCCTTTATGGATTTTATGGGTCCTTTTCCTTCTTCACATGGATATCTTTACATATTGCTAGCTATTGATTATGTATCAAAGTGGGTTGAAGCAATCCCCACTAGGACTAATGACTCCTCTATTGTTTCAGGATTTCTAGTTTCTAACATATTTTCTAGATTTGGCATCCCAAGAGCTTTCATAAGCAATCAAGGTACACACTTTTGTAATCGCACCATTGAAACTTTGATGAGAAAATACGGAGTCCATCACCGTATTTCTACACCATATCATCCTCAAGCCAATGGACAAGCGAAAACCTCAAACAAAGAGATAAAGAATATCTTGGAGAAAACAGTCAACACAAGTAGAAAAGATTGGAGCTTACGCCTCAACGATGCACTTTGGGCATACCGAATGGCCTACAAAACTCCAATTGGTACATCTCCATTCAAACTTGTGTATGGTAAGCCTTGCCATCTCCCTGTAGAAATAGAACATAAAGCATATTGGGCAGTTAGGCAATGCAACTTATCTCTTTTAAAGGCCGGTAACAAAAGATTGCTTGATATGCTAGAATTAAAAGAATTAAGACTAGAAGCATATGAAAATTCTAGGATTTATAAAGAAAAGACCAAACTTTTGCATGATAAGAAAATCCTTAGAAAACAATTTGTAATAGGTCAAAAAGTGCTTCTATATAATTCTTCAATTAATCTCATGCCTGGAAAATTGAAATCTAAATGGATAGGACCTTTTGTTATAACTGACTTCTCTACCTTTGGTGTAGTTTCTATAAAAAGCTTAGAAACAGGAAAAATTTTCAAAGTCAATGGGCATAAACTTAAAATTTTCCACGAAGAGGAAACCGCTCAAAACAATTCAATAGAAGCCCTCTCTCTCCCCTTCTACACATAAAGCCCGAAAGTACGGTCGAGCATACGACCTTAAAAATTTGTGCTTCTTAGAGGTAGCCAGGCGTAAAATTTTTTATCGCTTTCCGTCTTTACTTCATTTTTAATTCTGTCTTTTAATCTTTAGCATCTAACAAAAAACTGAGAAATTTCAAATTTTGACATACAGGAAATTTTATCCAAAATAAATCAAAGGATAAAAAAAAAGCAGTCACTTCGCTTTAAAGCAACGCTAAAATTCTCAAAAGCCAGGGGAGTCTTTCTGTTCCTCTACTTTTTACATGCTTTCATTTTATATGCTTTGAGGACAAAGTAATCTTTTAAGTGAAGGGTGGTGGGTACAAATAAATTTGTTTTAATTGTCTTGCATTACACTTGCATGCCTTTTAGGTAGAAAACCCAAAAATGCATATAAATTTTTTTTTTTGATAATGACAAATGTCTAAATTTCTCTTGAGCTTCAAAAATACATCTTATATCATAAAAAGTATGATCAAAAAAATAAAGAGAGAAAAATATGTGATAACTCGTATTTTATACAAGTTATTGTGGTCTTTTAGGTAGAATAATGAGGATATAACGCAATAGGAAAAGAAATATTCGTAGTTATTAGCAATTATAAATGTAAAATTGTATCGCAAAGAGCAAAAGAGCAAAATGCCTGTTTTATGCGTTTTACTATGTTTTATACAGGATTTTGAGGCAAATAAGAGATGTCCACACGAGGAAGTTTCAAGCGAGGAGCTACACGAGCAACCAGGCGACCGTGAATACATGGCTATGCGGACCTGAGCTATAGCCAACCAGCTAGCCCATGTAGATGTTAGAAAAGGACACTTGGATCAATGCTGCGGGTGGCAGAAGAATTAATTAGCCGTCCAGTGTCCCGTCACATCTCGCCTCGCCTATATAAACAAAGACATCCTCTTAATTTGCGATATGCGAAATACTAGAGAGAGCGAATCCCCTTTTTCCTCCACTTCCCTTTTTCTCTGCTTTGGTGAGAACTAGTGTAGAGAGTAATTCATTTCCAACCTCAATGTATAGGCAAAAATCAGAGCCAAAGAATATGAGAAATCATATTCTGCGGCTCGGCCCCTTTCTGTGTATTGAATTTCTATATTTTAAGACATACTGTAATGTAACTTACCTGCTCGCAAGGCGGAGTGATTTATTTTTAATGAATGTCTTTTCTTACTTCCATTCGCCCATTTCTTTATCTTTCCATCGCTATTAAATATGCATGAATGATGTAGTTATAGTTGTAACGAAGAAATCGTAAAGTTTTGCGTTATGCAGTCTTGCCTAGCAGGCGGCGAGAGATAGAGATATCCTCTTCGCCGAACTTATCCTCAGCATACCTTGTGTTCGGCGAAAACGCTAGGTTTGAAATCAAACCTGTCATGCTTCAGATGATTCAGAACACTGGACAATTCGGCGGTCACCCTAGGGAGGATCCACACGAACATATTAGGAGTTTCTACTCCATCTGCGCTTCCTTCCACATGCCAGGCATCTCACCTGAAAAATTGAGATTCGCCCTCTTCCCGTTAACTCTGAGGGACGAGGCGAAGAGGTGGGCAAACGCCTTGGAAGATGGCAAGGTGGGAACATGGGATCAACTAATAGAGAAATTTATGAAGAAATTTTTCCCACCTCACGAAAACGCCAGAAGAAGGAAGGAGTTTATGAGCTTCCAGCAGAAGGATAGAGAAAACCTACATGACGCGTGGAGTAGGTTTAAGAGGATGGTAAAAGCATGCCCCGCCAATGGCATTCCTGAATGCATATTGATGGAGGTTTTCTATTTTGGGCTAAACAAGGCTACACAGCAGACTGTTGATGCTGTGTTTGTAGACGGTATGCTAAAGATCTCCTACAACCGGATTAAGGCGACGCTGGATACAATGGCTAGCAACAATGAAGAATGGGATGAAGATGATTTCGACAATCGCCGAGGAGGACGATTAAGAGGTGATGAAGGCATGGATAAGAGCGCCGTGGTGGCGTTGCAAGGACAAATGACTGCGATGAACAATCTACTTAAATCCATGGCAATATCGCAAGTCAACGCCGCAGGAGGCTCTGTGCACGCGACTAACCAAATTGATGACATGGGATGCGTGGGATGCGGCGGTCATCATAACACTGACGCATGCCCACTCAATACTGAAACTGTCGCGTTCGTAAGGAACGATCGCTTCTCCAATACTTACAATCCTAGTTGGAGGAACCATCCCAACTTTGGATGGAGAGGATCTGGTCAACAACAACAAGGGCGACATGGTGGTCAAGGTAACCATCGCAGGGAAGCATCTGACTCCCACGCGAGGTACCAAAATAATAGACCCCAACAATCCCATCATCATCAGCAACCCACCACCACTGCTCCATCCACCTCATCTATGGAAAACCTCATCCGCGAGTACATGCAGAAAAATGATGCTCTTCTCCAAAGTCAAGCTTCATCAATTCGTAATTTGGAGGTACAGTTAAGGCAGCTTGCCAGCGATTTCTCCGGAAGACCGCAAGGATCCCTCCCAAGCAATACAGAAACGCCAAATCAGGCGGGGGGATCTGGTAAAGAAAAGTGCCACGCGGTAACACTACGCAGCGGAAGAAATTTAACCATCCGCGACCCTGATGTTGGACGTAGCCACTCCAATTCTAATTCTACTGCCGAGATCGACAGCTCAAGTAAAGTTCCTACTATTGTACATTTCCCTTTAACTAATAATGTTTCTTCCTCGTAG ATGACCACTTTACTAACTTCTTTTGTGCAAGGTGGCTCTGTTAAAGTTGCTAAGTGTAGGGTGTGCGGTCTAGTTGGACATCCAAATGACAAGTGCCCAGACTTAATTGAAGAAGCAAATGTCATTGGTAAGTACGATCCCCATAGTAATACTTACAATTCTGGGTGGAGAGACAACCCAAATCTAAGGTGGGGAAACGACAACCAAAGACCTTCACAAGCAACTTCCTCTTCCAATAATCAAGGTACGAATTTAGAAGATTTAGTAAAAGCTCTAGCTACAAATACCATCTCTTTTCAAAATGAAATGAAGCAACAAATGTCTCATCTCACAAGCGCAATTAGCAAGTTAGAAGGAAAAGGTAAACTTTTGGTGCAACCGGATCATGCAAACGTAAGTGCCATCTCACTTACAAGCGGTAAAATTCTAGAAACCCCTCCAAGTGAAGAAAAGGTAACTTCTAACCCTATCCTTATAGAAAATAATGATGAGACCAAGGAAGAAAAAGTGGAAACAAATGCTTTACCATCCAGTTCCAACAAAGTCTTGCCTAGCAGGCGGCGAGAGATAGAGATATCCTCTTCGCCGAACTTATCCTCAGCATACCTTGTGTTCGGCGAAAACGCTAGGTTTGAAATCAAACCTGTCATGCTTCAGATGATTCAGAACACTGGACAATTCGGCGGTCACCCTAGGGAGGATCCACACGAACATATTAGGAGTTTCTACTCCATCTGCGCTTCCTTCCACATGCCAGGCATCTCACCTGAAAAATTGAGATTCGCCCTCTTCCCGTTAACTCTGAGGGACGAGGCGAAGAGGTGGGCAAACGCCTTGGAAGATGGCAAGGTGGGAACATGGGATCAACTAATAGAGAAATTTATGAAGAAATTTTTCCCACCTCACGAAAACGCCAGAAGAAGGAAGGAGTTTATGAGCTTCCAGCAGAAGGATAGAGAAAACCTACATGACGCGTGGAGTAGGTTTAAGAGGATGGTAAAAGCATGCCCCGCCAATGGCATTCCTGAATGCATATTGATGGAGGTTTTCTATTTTGGGCTAAACAAGGCTACACAGCAGACTGTTGATGCTGTGTTTGTAGACGGTATGCTAAAGATCTCCTACAACCGGATTAAGGCGACGCTGGATACAATGGCTAGCAACAATGAAGAATGGGATGAAGATGATTTCGACAATCGCCGAGGAGGACGATTAAGAGGTGATGAAGGCATGGATAAGAGCGCCGTGGTGGCGTTGCAAGGACAAATGACTGCGATGAACAATCTACTTAAATCCATGGCAATATCGCAAGTCAACGCCGCAGGAGGCTCTGTGCACGCGACTAACCAAATTGATGACATGGGATGCGTGGGATGCGGCGGTCATCATAACACTGACGCATGCCCACTCAATACTGAAACTGTCGCGTTCGTAAGGAACGATCGCTTCTCCAATACTTACAATCCTAGTTGGAGGAACCATCCCAACTTTGGATGGAGAGGATCTGGTCAACAACAACAAGGGCGACATGGTGGTCAAGGTAACCATCGCAGGGAAGCATCTGACTCCCACGCGAGGTACCAAAATAATAGACCCCAACAATCCCATCATCATCAGCAACCCACCACCACTGCTCCATCCACCTCATCTATGGAAAACCTCATCCGCGAGTACATGCAGAAAAATGATGCTCTTCTCCAAAGTCAAGCTTCATCAATTCGTAATTTGGAGGTACAGTTAAGGCAGCTTGCCAGCGATTTCTCCGGAAGACCGCAAGGATCCCTCCCAAGCAATACAGAAACGCCAAATCAGGCGGGGGGATCTGGTAAAGAAAAGTGCCACGCGGTAACACTACGCAGCGGAAGAAATTTAACCATCCGCGACCCTGATGTTGGACGTAGCCACTCCAATTCTAATTCTACTGCCGAGATCGACAGCTCAAGTAAAGTTCCTACTATTGTACATTTCCCTTTAACTAATAATGTTTCTTCCTCGTAG ATGACCACTTTACTAACTTCTTTTGTGCAAGGTGGCTCTGTTAAAGTTGCTAAGTGTAGGGTGTGCGGTCTAGTTGGACATCCAAATGACAAGTGCCCAGACTTAATTGAAGAAGCAAATGTCATTGGTAAGTACGATCCCCATAGTAATACTTACAATTCTGGGTGGAGAGACAACCCAAATCTAAGGTGGGGAAACGACAACCAAAGACCTTCACAAGCAACTTCCTCTTCCAATAATCAAGGTACGAATTTAGAAGATTTAGTAAAAGCTCTAGCTACAAATACCATCTCTTTTCAAAATGAAATGAAGCAACAAATGTCTCATCTCACAAGCGCAATTAGCAAGTTAGAAGGAAAAGGTAAACTTTTGGTGCAACCGGATCATGCAAACGTAAGTGCCATCTCACTTACAAGCGGTAAAATTCTAGAAACCCCTCCAAGTGAAGAAAAGGTAACTTCTAACCCTATCCTTATAGAAAATAATGATGAGACCAAGGAAGAAAAAGTGGAAACAAATGCTTTACCATCCAGTTCCAACAAAGTCTTGCCTAGCAGGCGGCGAGAGATAGAGATATCCTCTTCGCCGAACTTATCCTCAGCATACCTTGTGTTCGGCGAAAACGCTAGGTTTGAAATCAAACCTGTCATGCTTCAGATGATTCAGAACACTGGACAATTCGGCGGTCACCCTAGGGAGGATCCACACGAACATATTAGGAGTTTCTACTCCATCTGCGCTTCCTTCCACATGCCAGGCATCTCACCTGAAAAATTGAGATTCGCCCTCTTCCCGTTAACTCTGAGGGACGAGGCGAAGAGGTGGGCAAACGCCTTGGAAGATGGCAAGGTGGGAACATGGGATCAACTAATAGAGAAATTTATGAAGAAATTTTTCCCACCTCACGAAAACGCCAGAAGAAGGAAGGAGTTTATGAGCTTCCAGCAGAAGGATAGAGAAAACCTACATGACGCGTGGAGTAGGTTTAAGAGGATGGTAAAAGCATGCCCCGCCAATGGCATTCCTGAATGCATATTGATGGAGGTTTTCTATTTTGGGCTAAACAAGGCTACACAGCAGACTGTTGATGCTGTGTTTGTAGACGGTATGCTAAAGATCTCCTACAACCGGATTAAGGCGACGCTGGATACAATGGCTAGCAACAATGAAGAATGGGATGAAGATGATTTCGACAATCGCCGAGGAGGACGATTAAGAGGTGATGAAGGCATGGATAAGAGCGCCGTGGTGGCGTTGCAAGGACAAATGACTGCGATGAACAATCTACTTAAATCCATGGCAATATCGCAAGTCAACGCCGCAGGAGGCTCTGTGCACGCGACTAACCAAATTGATGACATGGGATGCGTGGGATGCGGCGGTCATCATAACACTGACGCATGCCCACTCAATACTGAAACTGTCGCGTTCGTAAGGAACGATCGCTTCTCCAATACTTACAATCCTAGTTGGAGGAACCATCCCAACTTTGGATGGAGAGGATCTGGTCAACAACAACAAGGGCGACATGGTGGTCAAGGTAACCATCGCAGGGAAGCATCTGACTCCCACGCGAGGTACCAAAATAATAGACCCCAACAATCCCATCATCATCAGCAACCCACCACCACTGCTCCATCCACCTCATCTATGGAAAACCTCATCCGCGAGTACATGCAGAAAAATGATGCTCTTCTCCAAAGTCAAGCTTCATCAATTCGTAATTTGGAGGTACAGTTAAGGCAGCTTGCCAGCGATTTCTCCGGAAGACCGCAAGGATCCCTCCCAAGCAATACAGAAACGCCAAATCAGGCGGGGGGATCTGGTAAAGAAAAGTGCCACGCGGTAACACTACGCAGCGGAAGAAATTTAACCATCCGCGACCCTGATGTTGGACGTAGCCACTCCAATTCTAATTCTACTGCCGAGATCGACAGCTCAAGTAAAGTTCCTACTATTGTACATTTCCCTTTAACTAATAATGTTTCTTCCTCGTAG MTTLLTSFVQGGSVKVAKCRVCGLVGHPNDKCPDLIEEANVIGKYDPHSNTYNSGWRDNPNLRWGNDNQRPSQATSSSNNQGTNLEDLVKALATNTISFQNEMKQQMSHLTSAISKLEGKGKLLVQPDHANVSAISLTSGKILETPPSEEKVTSNPILIENNDETKEEKVETNALPSSSNKVLPSRRREIEISSSPNLSSAYLVFGENARFEIKPVMLQMIQNTGQFGGHPREDPHEHIRSFYSICASFHMPGISPEKLRFALFPLTLRDEAKRWANALEDGKVGTWDQLIEKFMKKFFPPHENARRRKEFMSFQQKDRENLHDAWSRFKRMVKACPANGIPECILMEVFYFGLNKATQQTVDAVFVDGMLKISYNRIKATLDTMASNNEEWDEDDFDNRRGGRLRGDEGMDKSAVVALQGQMTAMNNLLKSMAISQVNAAGGSVHATNQIDDMGCVGCGGHHNTDACPLNTETVAFVRNDRFSNTYNPSWRNHPNFGWRGSGQQQQGRHGGQGNHRREASDSHARYQNNRPQQSHHHQQPTTTAPSTSSMENLIREYMQKNDALLQSQASSIRNLEVQLRQLASDFSGRPQGSLPSNTETPNQAGGSGKEKCHAVTLRSGRNLTIRDPDVGRSHSNSNSTAEIDSSSKVPTIVHFPLTNNVSSS Homology
BLAST of PI0001928 vs. ExPASy TrEMBL
Match: A0A6J1G7Q6 (uncharacterized protein LOC111451598 OS=Cucurbita moschata OX=3662 GN=LOC111451598 PE=4 SV=1) HSP 1 Score: 274.2 bits (700), Expect = 1.4e-69 Identity = 159/416 (38.22%), Postives = 229/416 (55.05%), Query Frame = 0
BLAST of PI0001928 vs. ExPASy TrEMBL
Match: A0A6J0ZX64 (LOW QUALITY PROTEIN: uncharacterized protein LOC110412945 OS=Herrania umbratica OX=108875 GN=LOC110412945 PE=4 SV=1) HSP 1 Score: 272.3 bits (695), Expect = 5.3e-69 Identity = 162/422 (38.39%), Postives = 237/422 (56.16%), Query Frame = 0
BLAST of PI0001928 vs. ExPASy TrEMBL
Match: A0A6J1EEI2 (uncharacterized protein LOC111433394 OS=Cucurbita moschata OX=3662 GN=LOC111433394 PE=4 SV=1) HSP 1 Score: 272.3 bits (695), Expect = 5.3e-69 Identity = 152/381 (39.90%), Postives = 221/381 (58.01%), Query Frame = 0
BLAST of PI0001928 vs. ExPASy TrEMBL
Match: A0A6J1EQ90 (uncharacterized protein LOC111436411 OS=Cucurbita moschata OX=3662 GN=LOC111436411 PE=4 SV=1) HSP 1 Score: 266.2 bits (679), Expect = 3.8e-67 Identity = 178/488 (36.48%), Postives = 259/488 (53.07%), Query Frame = 0
BLAST of PI0001928 vs. ExPASy TrEMBL
Match: A0A5D3DCG3 (Retrotransposon gag protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold860G00100 PE=4 SV=1) HSP 1 Score: 256.5 bits (654), Expect = 3.0e-64 Identity = 127/180 (70.56%), Postives = 153/180 (85.00%), Query Frame = 0
BLAST of PI0001928 vs. NCBI nr
Match: XP_030497803.1 (uncharacterized protein LOC115713460 [Cannabis sativa]) HSP 1 Score: 338.2 bits (866), Expect = 1.6e-88 Identity = 198/448 (44.20%), Postives = 258/448 (57.59%), Query Frame = 0
BLAST of PI0001928 vs. NCBI nr
Match: XP_030510138.1 (uncharacterized protein LOC115724905 [Cannabis sativa]) HSP 1 Score: 331.3 bits (848), Expect = 2.0e-86 Identity = 191/421 (45.37%), Postives = 247/421 (58.67%), Query Frame = 0
BLAST of PI0001928 vs. NCBI nr
Match: XP_030505184.1 (uncharacterized protein LOC115720166 [Cannabis sativa]) HSP 1 Score: 317.0 bits (811), Expect = 3.9e-82 Identity = 188/463 (40.60%), Postives = 264/463 (57.02%), Query Frame = 0
BLAST of PI0001928 vs. NCBI nr
Match: XP_017233063.1 (PREDICTED: uncharacterized protein LOC108207110 [Daucus carota subsp. sativus]) HSP 1 Score: 308.1 bits (788), Expect = 1.8e-79 Identity = 174/427 (40.75%), Postives = 251/427 (58.78%), Query Frame = 0
BLAST of PI0001928 vs. NCBI nr
Match: XP_030497851.1 (uncharacterized protein LOC115713509 [Cannabis sativa]) HSP 1 Score: 306.6 bits (784), Expect = 5.2e-79 Identity = 182/416 (43.75%), Postives = 239/416 (57.45%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
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