Tan0020259 (gene) Snake gourd 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.ATGTTAGAAAGGAATCTAGACCTCGAGCAAGAGAATGAGAAGTTACGTCGAGAAGTTAGTCACTTAACTAACCTAACAGCTCGAACTAATAAAAAGCTTGACGAAGTAGAAAAAACCTCAAAAGATCGATCCAAGCGGGAAAGAGATTATGATGAGGAAAATAAGAGGTTGAACAAGGAAAATCACACATCGAGGAACCAAAACACAAAGACTACGAAGGAAGGTTCACCTCTGAGAAGACAAGATCGAGACTTTGTAGAAGCTAAGGAGACCCTCATGAAGCTGGTTAGCGAGTTGAAAGAACTCGTTAATAAGCGAGAAGTACAATTCGTTGAGTTTGAGCAAGCTAATAATACCCTGCGCCATACTTTGGACGATTTACATATGAAACTGAACGATCAATCAGAGGAGTATGAAATTATGAGGAACTGTGCAAGTTCACTGGACCGCCAACTGAAGGCTTGTCAAATATCAAGCGAGCAGTTATTAATTCAAAAGGAGCAATTGGAACAACAGTGTCATACAATGAGAGAAGACAATGATGTCTTGAGAAGTGACCTACAAAGGATCATCGAAAAAGTGAACCAAACAATGCGTACAATCGCGATAATGGCTAGAAGAGCTCGAGGATTTGCAGAATGGGCAAGGGATTTGCGAAGGAGTACTTCCCCAATGACATCAAATGCGGATGAACTATATGAGTTTCTAGGGATGATCAGTAGAGACCTTCGATACTTTGGTCACTTTCATTAAATGTTCCCTTTCCCAATTTCGTATTTTCTATTTTATTCTTTCCTAGTTAATTTGTAATTTTCTTTCAATCGTCAATAAAATAAAGTTCATTAGTTCATGCATCATGGGTTTTTTTTTTATCATTCTGAATTTTAAATCATACTTCAGAGTTGTCAAAATAGCTCGATCACCACGAATCTGCCATACCCATGCCACTAGATACAGAAGAAGAATTATGGAAGAACAAAGCTTAGAAATGGAAAAAACGAGGAAAGATATCGAGGAATTACGAGGGAAGCTAGATGCCATTCTTATCCTTTTGGAAAAGGGCAAGACAACAATCTGAAGGGAATCGAGTCCCGCAGCTGAAGCGATTGTGAATTGCGCGTTCTCAATTTAGTTACAATGATTTCATTCAAGAACGAAACAAACTAGATTAAGCATATAAACATAATATAGACATCAAGAAATGTTACCTTTGAAGAACTCTTTCTTCAAGTTTTCCTCCTCTCCCACGATCAAGATCTCAGCAACACAAACTCGAACGATCACCGACACTACCACCGATTCTTCTCCGTTGTTCTCTAGGTGAGGGAGGAAGGTGGGTTCCCTTTAGGAGAGCTGAGGTGTTGTGAGAGAGAGGTTTGTGTTTTGGAACTCTTCCAACAATAGAACAAAAGCTTAGGTTAACTGACCTAGTTGCATCTCATGCAACTATATATATAAGGAGATAGGGATGGAAATTACCATCCTATCCCTCTTTTATTCTCTCTTTAGTATATACTTAATATGTGAATCCAATTCACATTAAAACTATATATTATATCAATTATATCACATATAATTGATATGACATCTCATATATGAAATTGAACACTTCAATTTCATTCCTAACTTTATACCCTCAATATTACCATGTTGAGCAAACGGAGGGACCTAATGGACCTACAGTTCATGAGCTCCAATGATATGAGATTAACTGATCAAACTCTTTGATTCAGTTAATCAATATTCATTAACTACAAATCACTGCACTATAGACTTGTAGCTGCACTCTCCTCACTGTAGATTATATTGTGTCCATTTATATAATCATTACCCATGAGTCGACCATTCACAGGTTGTTCGTAATCACGACTGGGTCAAATTACCGTTTTACCCATATGATTACCTCTTTGCTCCTTAAGCACCATTGATACTTTAATGAACAACAAGTCTACGGTCCTACCATAGACTCATACCCTCATAGAGGGCGGGGCCCCGTTGTTCAAGACTTGGAGTCAGTTCTTAAGGGAATAACCTATCTAATTCCTTAGTGTAGAAATAAGTGAATTCCATCTTACATAGTTAAGTCCCCAGCTACCTACGAGATTCTGTCCCTGAGAAGGTAGGCTTAGTGAGTCGGCTACAGGCCACTCTCACCCATACCAGTCTAAGGACAAACCCCTATAAGAAGGAGTTCTTAACTTGCTCAGGATTCAAGTCGAGTCACTAATGATCATCTATAAATTACTAGTCTTATCCTGTTAACGGTGTTACACTGGTTAGACTAATAATTTGCGGTCTGGTCTTGTATGAACTCTTCATACAGGATGCCCTACTCGCATGTCAACTACATGAATGAGTTGGATTACCGCATTTGTACTAATTACTGAAGGGATTTTGAATTCCCGCAGCGGAAGACGTTGTGAAACGTCGTTGATCCGTTGTGTAATTCCTATCTTAAAATTGAATCTATCTCATAGATCCTAGGCTAAACATGCAAAGAAGAAGAAGTAAACAGTAAGTAATAGATATTAACCTCTTGAAGAACTCTTCTTCAACATTTTCTCCTTCTCCGGTCACGATCTCTCTCGATCCGACGTTCTCCTCGAACACGAACCTCGATCCGAACAGGGAGACACCTCCAAAGGGTCTTCTCGGTTGTTCTCGGGAGGTTGAGGGAGAGTAGGTGGGACTCCCTTTGGTTTTGGGTGAGGAGAGAATTAGAGAGAATTGAGAGAGTTCTAGAGAGAAAACATTTGCTCTCTTTGGATGGAAATCCAAAAAATGGCAAATGGCATACCAAAGGCTTCTTGCAAAGCCTTTAAATACTATTGTGTGATGGAGTTAAAACCTCCACCAAATCACAATTTTACCACAACCATATAATATACAAATCACATTTGTATATTATATAATATAAGATATCTCATACCTTATTATACAAATCTCATTTGCATAAATGTGGAATTATAAATTGAATCACATTCAATTTAATTTCTCTCAATTCAATTTCTCCAATTAGCACTAATTAATCAATTAGGCTATACTATAGTTTATTATGAATCTCATTCACATCAAACTATATATTATGTCATCTATATCTCATATAAATGACATAAATACCCAAATAATGAATTTGAACACTTCAAATTTACACCAAATCAGAAACCCTCAATTTGTCCAATTTGAGCCAACCGAGGGACCTAATGGACCTACACGTGACGAGCTCCAATGATCCGGAGACTAACCTGTCAAACTCTTTGACCCGGTTATTCAACATTCATTAGCTACGGTAACACTCCACTAAAGCCCGTAGCTACACTCTCATCACTGTAGGACAAGTTGTGTCCATTGATGTAACCAATACCCATGAGTCGACCCTTCACAAGTTGTTCGTAGTCACAGTTGGGTCAAATTACCGTTTTACCCCTATGTCTACATCTTGCTCCTTAAGTCTCACTGCTCCTCTAATGAACAACTACGTTGCATGGTCCAACCATAAACAACAACCCTCTCAGGCCAATGAGAGAGTGGGGCCCCGTTGTTCAAGCCCTGGAGACAAACACTTAAGGGAACAACCCTCTAGTTTCCCTAAGTCTGAACGAGTGAATTCCTTCTTGCGTAGTCAAGTTCCCGGCTCCCACGTGGTCCCCGCCGCCCGAAGATAGGCATATTGGGCGAGCAACGGTGGCCACCCTCACCCGTACTAGTCAAAGGGACGGACCCCGCATGAGCGAGTCCGAACACGCTCGTGGATTAAGGTCGAGTCACTAATGGTCATCTACGAATTTATTAGCTCTATATCATTAACGGTGTTACATCGCAAGTCTAATAATTCACGATGCAGTCTTATACAATCTCATTGCATAGGATGCCCCCACTCGCATGTCAACCACATGAACATGAACGAGTCGATCACCTCGTTTGTATCTAATACAAAGCGGCCGCATCCACAAGTGTATCCGAGGATTAGGTCTCCAACCCTATCCATATATCGTAGACCGTTCGGGTCATTAACTCGAACGTGATCCTCCCTGTGTGTCCACTACACACCGTTCAAGTTCTTAGTTCTCTCATAAATACAATGACCCTAGAGCTTAGTTTATTGGATTAAGTTTATGAAAAATGCGAGACACAAAGTTGAAATAAATAACTCTTATTCATTTACAACTTGGAATATTACAAACTACACGAGATGAGGACATACATCCCAACAATTACAAAGTGGGTCGCATCCATGGTGTTACCAGAATTAGGTTTCCAACCTTATTCTTATACCATAGACCATTTAGGTTATATTCTTGATCACAATCCAAATAGTGTCCACAACACTAATAATCAAGATATATATATTATGAAGATATATGTTATAACCTTGGAGCTTAGTTTATTGGATTTATAAAGCAAGACTGTAATTTTATCAAAACAAATAACTCTTTATTTAATTGATCAAAATTACACAAGTTTAGGGCATACATCCCAACACAATCGATGTTGCTCAACCTAGCAAAGTAGTTAACGATCCTCTCAGGGTTAATTTTACCCCGGAATATACGACGTACAAGCCTTTGTACGTCATCCTGGTAGAGCAAATTTTGTTCCCTTTTAAGACATAACATGCTCCTACAAGTGGCCAAACTGGAACTTCAATCTATAAGGAAGGACCATCGAGGGTAACTGTTACTGGTCCCAATCTTGACAATCCAGAAGTCAAGAAGGGATTGACTGGGGGTGAGAATGTCTCATCTGACGAGAAGCTTGAGGTATTAGAAGAAAGGTTGAGAGTAATCGAAGGTACTGATGTATTTGGGAACATAGATGCTACTAATCTGTGTTTAGTGCCAGACGTGGTACTCCCACCAAAATTCAAGGTACCAGAATTTGAGAAATATGACGGAACGTCCTGCCCCAAAAATTATCTTATTATGTATTGCAGAAAAATGGCAGCGTATGTTCAAAATGATAGGTTATTAATTCATTTGCTTTAAAGATAGTTTGACTGGCCCAACATCTCGTTGGTATATGCAATTGGATAGTGCACATGTCCGTTCGTGGAAAAACTTAGTTGATTCATTTTTAAAGCAGTACAAACACAATCTAGACCTTGCTCCTGATCGACTAGATTTACAACAGATGGAAAAAAAGAGTGATGAAAATTTTAAAGAATACGCTCAAAGATGGAGGGATACTACTGCTCAAGTACAACCTCCTTTGGCGGATAAAGAGTTGTCAACCATGTTCATCAATACCCTAAAGTCTCCATTTTATGATCATATGATAGGGAGTGCTTCAACGAATTTCTCAGACATCATGACGATTGGGGAAAGAATTGAGTTTGGAATCATGCACGGTAGGATGAGTCAAGCCATAGAATCTTTAACAACCAAAAAATGATCCACTTTGAAGAAAAAGGAGGGAGATGTATAGATGATAGGAAAGGTGGGGAAATTTCCTCAATAATCCCATCAACAGATGTCGTAGTACCCCCCAGGTTATTATCCACCCTCTATGGATATTATCCATATCAAGTAAATAGTGCATCTGCTCAATATGTTCCTTACTCAAGCCAAGGTCCAAGACCAATAATGAATCAAGGTTTCCAGCCTCATAAGCAGCAACAGGTGGTCACCTCTGGACAACAGAGCAACAAAGTAACACAGAAGCCTTAGTTTGAACCTATTCCAATGACATATACAGAACTTTTACCTCAGCTGTTCCAGAATCTGCAATTGACACTTAAGCCCTTACGACCTTTGCAACCCCCCCTATCCAAGATGGTATGATCCGAACGCTCATTGTTACTATCATGCAGGAGCTGCTGGGCATACGACAGAAAATTGTACCGCCTTGAAGTATAAGGTTCAAGAGCTCATCAACACAGGATGGTTAAATTTTAAAAAAGAAGAGGGGTCCAACGTCAATAAGAATCCCTTGCCTAATCACCAAGTAAATGCGATAGAACATCAGAGTGTTGATGCAAAAGCACAGGTTTCAACAGTTGTGACCCCGATGGAAAAACTTTTCAAAATTCTGCTTGCTAATGGTTATGTATCTATAGAATACTTATGCCCAGATTCTACTCAAGAAGAATATAATGATAACTTGACTTGTCCATTTCACGCTGGGCAAAAGGTCATTCTTTGGATCGACGTCACCACTTTCGCAAGAGGGTCCAAGAATTGATGGACATGAAGGTTCTTACTGTTGCACAATCTCGTGGCTTTGATCCAGATAATGAAGTGGGCACTATAGAAGGACTTTCCTCTAAAAAGGTTGGTTTAAATGTGTCTTTTAAGCCTCTCACAATCTTTTATCGTGAAAAGCCCACCCTACCTGCTACTGATCTGAAGCTAATCACCATCCATATGTCAGCTCCTTTTTAAATGTTAGAAAGGAATCTAGACCTCGAGCAAGAGAATGAGAAGTTACGTCGAGAAGTTAGTCACTTAACTAACCTAACAGCTCGAACTAATAAAAAGCTTGACGAAGTAGAAAAAACCTCAAAAGATCGATCCAAGCGGGAAAGAGATTATGATGAGGAAAATAAGAGGTTGAACAAGGAAAATCACACATCGAGGAACCAAAACACAAAGACTACGAAGGAAGGTTCACCTCTGAGAAGACAAGATCGAGACTTTGTAGAAGCTAAGGAGACCCTCATGAAGCTGGTTAGCGAGTTGAAAGAACTCGTTAATAAGCGAGAAGTACAATTCGTTGAGTTTGAGCAAGCTAATAATACCCTGCGCCATACTTTGGACGATTTACATATGAAACTGAACGATCAATCAGAGGAGTATGAAATTATGAGGAACTGTGCAAGTTCACTGGACCGCCAACTGAAGGCTTGTCAAATATCAAGCGAGCAGTTATTAATTCAAAAGGAGCAATTGGAACAACAGTGTCATACAATGAGAGAAGACAATGATGTCTTGAGAAGTGACCTACAAAGGATCATCGAAAAAGTGAACCAAACAATGCGTACAATCGCGATAATGGCTAGAAGAGCTCGAGGATTTGCAGAATGGGCAAGGGATTTGCGAAGGAGTACTTCCCCAATGACATCAAATGCGGATGAACTATATGAGTTTCTAGGGATGATCAGTAGAGACCTTCGATACTTTGGTCATTCTTTGGATCGACGTCACCACTTTCGCAAGAGGGTCCAAGAATTGATGGACATGAAGGTTCTTACTGTTGCACAATCTCGTGGCTTTGATCCAGATAATGAAGTGGGCACTATAGAAGGACTTTCCTCTAAAAAGGTTGGTTTAAATGTGTCTTTTAAGCCTCTCACAATCTTTTATCGTGAAAAGCCCACCCTACCTGCTACTGATCTGAAGCTAATCACCATCCATATGTCAGCTCCTTTTTAA ATGTTAGAAAGGAATCTAGACCTCGAGCAAGAGAATGAGAAGTTACGTCGAGAAGTTAGTCACTTAACTAACCTAACAGCTCGAACTAATAAAAAGCTTGACGAAGTAGAAAAAACCTCAAAAGATCGATCCAAGCGGGAAAGAGATTATGATGAGGAAAATAAGAGGTTGAACAAGGAAAATCACACATCGAGGAACCAAAACACAAAGACTACGAAGGAAGGTTCACCTCTGAGAAGACAAGATCGAGACTTTGTAGAAGCTAAGGAGACCCTCATGAAGCTGGTTAGCGAGTTGAAAGAACTCGTTAATAAGCGAGAAGTACAATTCGTTGAGTTTGAGCAAGCTAATAATACCCTGCGCCATACTTTGGACGATTTACATATGAAACTGAACGATCAATCAGAGGAGTATGAAATTATGAGGAACTGTGCAAGTTCACTGGACCGCCAACTGAAGGCTTGTCAAATATCAAGCGAGCAGTTATTAATTCAAAAGGAGCAATTGGAACAACAGTGTCATACAATGAGAGAAGACAATGATGTCTTGAGAAGTGACCTACAAAGGATCATCGAAAAAGTGAACCAAACAATGCGTACAATCGCGATAATGGCTAGAAGAGCTCGAGGATTTGCAGAATGGGCAAGGGATTTGCGAAGGAGTACTTCCCCAATGACATCAAATGCGGATGAACTATATGAGTTTCTAGGGATGATCAGTAGAGACCTTCGATACTTTGGTCATTCTTTGGATCGACGTCACCACTTTCGCAAGAGGGTCCAAGAATTGATGGACATGAAGGTTCTTACTGTTGCACAATCTCGTGGCTTTGATCCAGATAATGAAGTGGGCACTATAGAAGGACTTTCCTCTAAAAAGGTTGGTTTAAATGTGTCTTTTAAGCCTCTCACAATCTTTTATCGTGAAAAGCCCACCCTACCTGCTACTGATCTGAAGCTAATCACCATCCATATGTCAGCTCCTTTTTAA MLERNLDLEQENEKLRREVSHLTNLTARTNKKLDEVEKTSKDRSKRERDYDEENKRLNKENHTSRNQNTKTTKEGSPLRRQDRDFVEAKETLMKLVSELKELVNKREVQFVEFEQANNTLRHTLDDLHMKLNDQSEEYEIMRNCASSLDRQLKACQISSEQLLIQKEQLEQQCHTMREDNDVLRSDLQRIIEKVNQTMRTIAIMARRARGFAEWARDLRRSTSPMTSNADELYEFLGMISRDLRYFGHSLDRRHHFRKRVQELMDMKVLTVAQSRGFDPDNEVGTIEGLSSKKVGLNVSFKPLTIFYREKPTLPATDLKLITIHMSAPF Homology
BLAST of Tan0020259 vs. NCBI nr
Match: TYK18656.1 (girdin-like [Cucumis melo var. makuwa]) HSP 1 Score: 145.6 bits (366), Expect = 7.6e-31 Identity = 98/249 (39.36%), Postives = 146/249 (58.63%), Query Frame = 0
BLAST of Tan0020259 vs. NCBI nr
Match: XP_031738551.1 (LOW QUALITY PROTEIN: uncharacterized protein LOC101203611 [Cucumis sativus]) HSP 1 Score: 144.1 bits (362), Expect = 2.2e-30 Identity = 95/248 (38.31%), Postives = 152/248 (61.29%), Query Frame = 0
BLAST of Tan0020259 vs. NCBI nr
Match: KAA0036949.1 (girdin-like [Cucumis melo var. makuwa]) HSP 1 Score: 141.7 bits (356), Expect = 1.1e-29 Identity = 95/249 (38.15%), Postives = 147/249 (59.04%), Query Frame = 0
BLAST of Tan0020259 vs. NCBI nr
Match: TYK23632.1 (girdin-like [Cucumis melo var. makuwa]) HSP 1 Score: 140.6 bits (353), Expect = 2.4e-29 Identity = 92/248 (37.10%), Postives = 146/248 (58.87%), Query Frame = 0
BLAST of Tan0020259 vs. NCBI nr
Match: KAA0062685.1 (girdin-like [Cucumis melo var. makuwa]) HSP 1 Score: 138.3 bits (347), Expect = 1.2e-28 Identity = 90/247 (36.44%), Postives = 143/247 (57.89%), Query Frame = 0
BLAST of Tan0020259 vs. ExPASy TrEMBL
Match: A0A5D3D533 (Girdin-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold390G00200 PE=4 SV=1) HSP 1 Score: 145.6 bits (366), Expect = 3.7e-31 Identity = 98/249 (39.36%), Postives = 146/249 (58.63%), Query Frame = 0
BLAST of Tan0020259 vs. ExPASy TrEMBL
Match: A0A5A7T6E2 (Girdin-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold86G00290 PE=4 SV=1) HSP 1 Score: 141.7 bits (356), Expect = 5.3e-30 Identity = 95/249 (38.15%), Postives = 147/249 (59.04%), Query Frame = 0
BLAST of Tan0020259 vs. ExPASy TrEMBL
Match: A0A5D3DJ95 (Girdin-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold4336G00010 PE=4 SV=1) HSP 1 Score: 140.6 bits (353), Expect = 1.2e-29 Identity = 92/248 (37.10%), Postives = 146/248 (58.87%), Query Frame = 0
BLAST of Tan0020259 vs. ExPASy TrEMBL
Match: A0A5A7V9X6 (Girdin-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold1576G00140 PE=4 SV=1) HSP 1 Score: 138.3 bits (347), Expect = 5.9e-29 Identity = 90/247 (36.44%), Postives = 143/247 (57.89%), Query Frame = 0
BLAST of Tan0020259 vs. ExPASy TrEMBL
Match: A0A5D3DK34 (Girdin-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold250G00110 PE=4 SV=1) HSP 1 Score: 131.3 bits (329), Expect = 7.2e-27 Identity = 88/248 (35.48%), Postives = 149/248 (60.08%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
|