Cla97C01G010920 (gene) Watermelon (97103) v2.5
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGCTTTTCTGTTCCTAACGCAGGGTTAAGAAGAAAAGAAGCACAAACAACCAAGTACGAAGAGATGAAGCTGCTGCGAGAACAAGTGGAAACCCATGCGTCGAGCCTATGCGTTGAGACCATGCGTCGAGAAATAGTAGACACAGATGCATGCTCAAACAGCTGTCATGTCATTATGAAAAAGTACAACAACCTATCAGATCATGGCAGAACAAATAGGCTGACAATCTAAAAAGTCTATGCAGCGTGGCTGAAATTTAATGCAAAGGTGTCAATCATCATGATATCAACTTTTTGACGCCTATAAATAGCCTAAAAGCTTCTCCAAGAAAAGAGAGGAAGAGAAACCAATTCAAGAGGCGAAAGCTCTGCATAGTTTCTCCCTCACTATAACCAACCTCCATTTTGAGCTCTTCTGAGAGAAGGATTCTGAGCACCTTCAGTGTCGTCTCCCAGTGAGTGAGAACTTAAACCCTATGGAATCTATGTATCAGATAGCAACCATCTCAAGCCTCCATGAAGCAAGACGTTGCCAGTGGCGGCTTGATGCCTTTCATTTATGTTTCATCTCCATTTCTCTCCTTCTTGCTTATATTTTGTTAATGACATTCGAGAGAATGATTTATTTTCTTAATATGAGTTTGATTGACTATTATCTTCCATCTATTTCCGTATTAAATACTTTATACCATGTTGTTTGAATGCTAAATGAGTTAGATGTTAAAAGTTAGTTTTTCTTGAGAAATTTTGGGTATGTTACATCTTGATTAATGCATATCTTTAGCTTGCATAACTTTGTCTGACAAACAAACGTAGTAAGCATGACTATCGAGCTTGAGAGAGTGGATAGTTAATCTTTAGCATTTATTAAGACTAGATGAGTTGCAGGGATGTAGTTCATCTTTTGCCAATGCAAACTTACCATGCCCTCTTAGAGATAAGATTAATGTGGCGTCGAAACATCGAGAGATTGATTCACAAACGCAGTTTGTAGGTATGTAATTATACTTAGAAAGTTTAGGTAACAACTAGCTCTTGCATTAACTCTTTTTCTATCGCATGGTTCCATTCATTCTCAACGCATGCTATCTGACGCTAAATGACATATGACTAACCATCGCCACGTCCACGTCATTATTAGTAGTAGGAAATTATTTTCATTCTTTATGTATAGTTTTAGACACATACAACCAACAAATGCACATAATACATGTATAGTTCACCGCATAGTCAAGCATCTAATCTCAACGCCTAGTTATTACAAATCCCTGCGTTCGACCCTAGACTCACCAGGAAACCTATAAATGCTTATACTTGGGCTTTTTATAGGAAAACTTGTTTAATCATGATCACATTTAGAATAATTCTCGACGCATCCTTGTACGAAAATGATAAATCTATTTTTGTGCAACAAGCTAAGAAACATAATTTGATTCGAACAGAAATTCAAACGAACAACTACTTGAATTATTTTGGTTAATTGTTTGAATTTTGAGTCTTAATTGGTTTGGCGTTGAGAAAATAATTCTATTTAAGATAAATGTGATAAGAGATTGAGTTAATACAATTGGTGGAGAATTGAATTTAGTTTTGATATTTAAAGGTTGGATTCAATTCGAAAATTTGGAATTGTTAAGTTATCGTTAAATTATTTTGAAAATTTGGGTTAAGTTGATGGAATTGTTGGTTAGGAATAAATTATTTTGGTGTTTGGAGAATAATTTGTTTTGATGGGAAAAAATTAAATTAAGTAGGTTTTTTTTATTGTGTTAGGTATATATATATATATAAAGTAAGCGTCGAAGTGTGTGCAAAAAAAAAAACTCTTTTCCTTTTCCTTTTCCTCTTTAATGGCGTGTTCTCTCTCTCTGATTTTTTTCTCTTTTCCTATGTGTGAGCCGCGCAACTCTTCCTCTCCCTCGTCTAACTGTTTGTCCTCAGCAAGGTCAAGTTAGGCTTTGACAAGATTGTGGTAAGATTAAGGTGAGTTTGTGGGTTTGTTGTAGATTTTTGGTTGGAGGAGCAATTTGGGTAAAGTGTTATAGCTCTTAAAAGTATAATGAACAGTTGGGAGTTAGTTTTTAATAATGAGATTATTTGCAATTGTGTTTTAGGATTTGGGCCCAAGAAGTTTTTCGAGCTAAGAAAGTTGGATTAGCTTGTTCATTTGAGGTAAGCAATTTAGTTACTCAAACATGTTGGTTTTTCTAGGCTACCTAGAAGTTATTTGGCTACCTATGAGTTAATTTATCTGCCTGCAAGTTTTGTGACTACGAGGATATATGAGCATGATGATGTTGTATGAGAGGTATTATGAATCTATGATATGGGACTTTTATGTATTTTACCAATTGTGCATGTTAGTGATAGTTATTCTCCTACGTTGGTAGTGTGTCCACCATAAGTTTTATATTCTTTCGGGATCAGTAGAGGTTTGTGTTCCTTTGAGATCACCAAAGGTTTTGTGTTCCTTTGGGATCACTAGATGTTTTGTGTTCCTTCAGGATACACCAGAGGTAAGTGTCTCCTATGGGATTCACTAGAGCCTCGTGGACACTATTTGCCAACCGTAGAACGAATTTAACTAATCACTCAAACAGGTGAAGTGTAAAAAGTAGAAATATGCATGTCCTATTAGCATTTATTGAGTATAAATGCATAGCCTGACTTCGGTAGTGGGGTTACTTACTGAGTAATTTATATACTCACTCTTTTCTCATGTATGTTTTCTAGGTAAGGGAAAGGAGGCGTCGGCGAATGACAAGAAGAATCCTTTTGGGGTGTCATGAGACCCAAAGTAGCTTCCGCATAGTTTTCATATTTTAAATTGGTCTTTGATGTGTAAACTGTTTGAATTTGTTTTGAGATACATTGTTGTGGTTTTCCATTCAAGCATGATTTTTTTCTTTAGGGGTACCCCAAACTAAGGTGTTTTATTTTATTGAGCTTATGTTTAAAAATTAGAGTATTAATTTTACCAAATGATCAAATTTGATTCATCTATTTTGCGAAGTGTCATTTCAAAGTTGAGCATGTATTGAGTAATGATCCGGTTAGTGAGTTTGATTAGTCGGGTCGTTACAAGTTTTTTATATTTTGAATCCTTTCAAGAAATCAAAGAATGCGATTGTACGCTTCTACGGGGATTCAATTCCCTTCAGTTTTCACATCAGTCACTTTTCATCTTCCTCAAAAACTAAACCCCTTTTCTCACATCAATCCTTCCAGCATTGAATGAATAAACAAAAACTCTCCTACTATCCACGATAATCCCAACAAAGAAGTAAAACCTCTTCCATCTTTCCATCTTCAAGGTACTCTACCATAGACTCTTTCCATTAAAACCACAAGGAAATCTACTGAAATTTAGAAGATTCAGACGAAAAAAAAATCAAAATATGAGAGCGAGATCATCAATTAGAGGTGCTTTGATCATCCTTATGAAGGAAATCTTTAATATACAACTTCAAGCGCTCGAAACGTATGCATTATTGTTTCGACAACAATCCCAACTCCTTAAATCTACAACCATAATACATCAAGTTTACCCCCAATGAAATATGAGAGGTGACACATGAAGAGAATGAGAGGGAGAGGGAGAGAGATGACATGTGACTTACCCACAATGGCTCGTGGTCATTGGTGTAGTGGTTGATGACAAGCGGGAATCGTCAGAGGGTAATAGCTGATGGTGGCTGGTTGTAGGTTGTAGGTTACGCGAAGGAGAAGATGGGGAGAAGATGGGGAGAAATAATAAATTTGACTATGGTCGTTTGTAGTCTATTTAAAGAAATATAAGGCTGATCTTGTTGATAAAGATAATTAATTATGAAATAAACACTCTATTCATGTTTAAAAAAAAATCATAATAAATATAATGGTAAAGCCAAATTTAAAAACAAGAAGAATTGGTGAGAAACAAAATAGATATATAATAATAAATAGGCTAAAATACCATTTTGGCCCCTATGCTTTGTAATTTGTTCAATTTTAGTCCATTTACTTTCAAATGTTCAATTTTAGTCCTTTTACTTTCAATAAATCTTAAATTTAGTCTCTTGAAGTTAAATTTTATCGAAATTGATTAAATAATCACAATAATTTTCATGCAAAGAAACAGTGAATGTTTTATAAAAAAATCACAGTGAAAATGCTAATAAAAAATAAAAGGTAATGAAAAAATCCACAACAAAGTGGTAGTAGGGACTAAATATAAGACTTATTGAAAGCATGACTAAAATTGAACATTTGAAAATATAGGAATTAAAATTGAACAAACTCTAAAATATAGGGACCAAAATGATATTTTAACCTAATAAATATAAATATAAAAATAATTCAAAACATGTGGGCTTTAGTTAAGATTATAAGAAAATATAATATAAATAACAAAACAATTAATATATATCAGTTAGATAATTAATATAATATGATATTTAAAATTTTTTAAATTAAATCTTGAAAGATGATGTTAGTTGAATATCCCTTATATCATCTAGTCCAAATTTACTCCATAATAGGATTAATATTAATATATATATTTTAGTACAAACTAGGTGGAGGTGTGAGAATTTAAACCATGAACCTCTTGATCTTCATGAGGTAGAGATGCCAATTGAGTTGAACTCTTGTTGGTGTATTGATATTAATCAATAAAGAAATTATATGGTAATGTAATATTAAAAGTATGTTTGGGAGTGATTTTAAAATGACTAAAATCATTTTTGTCATTTTTAAAATTGTCGCAAAACATATTTTTAATCATTTAAAACTAATTTTGATGATATAAAAGTTGCATAAAAGTATAAAATTGAAAACTAAATTAATTTTGACTGATTAAAAAATGGAAATTATTTTAAATTACAAAACTATTGAAAATACAAATAATAGCAAAATATCATAGTGTATCTACGATAGACAACAGACTACTATCTGTGTCTATCATGACACAGATAGACACAAATAATAGTAAATTGTGGTCTATTGCAGATAGACAGTGTAATTTTGTTATATTTGAAAATATTTTGATTCATTTTTCTATATCTGAAAACAACTCGATTAAAAATGAGTTTATAAGTGATATTAAAAATGACAAAAGTGATTTAACAATTTTAAAATCACTCCAAAACATGCACTAATTAAAAGATTAAATTATGATATAATAAAGTAATAATATTACAACGTCAACGCCAATTTTGAAGACCAACTTTGAAATATTACTCATTACAAAACTTATAATTTTAATATTCTATCAATAAAGTTAACAAAAGCCACTTTATGTTTATAAATACTTTAGCTCATTTTACTATATTTGAAAATAACTATAAAATTTTGCTATATTTAATAATAAATGTCTAATAATAAATGATAAATAAACTGACATTTTGTTATATTTATAAATATTTTAACTCATTTTGCTATATTTGAAAACAATTATAAAATTTAATTATATTTTTGAAAAATTATTATAAATAGAAAAATATCAAACTATTTACAAATAGAAAAATTTCATTGTCTATCAATGATAAATAGACTTCTATTGCTCAAACGATAGAATTCTATCGTGGTTAACTGCTAATAGCAATAAAATTTTTTTTATATTTATAAATAGTTTGGACTCATTTTGCTATATTTGGAATCATCTCTATTATTATTATTATTATTATTTATAAATAGAAAGAAGAAAAAAAGATCAAAGAAAAACATTGTTTCTCTCTCCTTTGACCCAATTGAGAGAGAGAGGACTTGGACTTGATGGTGGACCCTGCTTCTGGTGTTGACCACTCTCCTTCCCTTCCCTTTCTCTTTCTGTGTCTGTCTTTCAAACCAAACGACGGTATTTGTCCTCTGTATTTATAATCATGTAAGAAGGCGTCACAACACAATTTTCATTTTTTATTTCTATTTTTTTTTACAATAAATAATTATTTATAATGAAATTTGAGTGAAGAACAAAAACCCAAGTTGTTGTTTTTTTGTTTTGTTTTGTTTTGTTTTTTTTTTTTTTTTTTTAAATCTTTTATTTGGTGGGTGGTATATAGCATTCTGATTTTCCTCCTTGATTTTTCCCACCGAAGAACAACAACAAATGGGGATCGGTTCTGAGGAGGCGATCCGGCAGCTCCGAGCTTTGATGGATCAGGGTTAGCTTCTAAATTTTTTTTCTTCTTCCCTACACTTTAACTTTTGTTTTATTTTGTTTTGTTTTGTTTTTTAAGCTCCTCTTTGATTTTTCTTTCTCTTCCTCTCTCTTTCCCCCCTTTTTCTCTTTGCTGTTTTGTTTAATGCCAGTTGAGGAGCGATTGAAGTGCACTTTTCAGGTTCGCATTCTCTTTATCCTCTGTTTTTCGGTCCGATCTGTGTGTTTTCTACCAGTTTCAACTTTCAACTGCTTCATTGTTGCTTTATTCTTATTCTTTTGAGTTTGTTTCTTATTCTTGAAGTGGGTTTCTGGTTTTTGCCCCTAATTCCATGTACTTGAAGAAAGGGAAGATTAAGTGTTCATTTTCTGGACTCTGTTTGTTGACCCCAAGTTACAATCGTCACTGGTTGGGATTTATTGCTTTGAGGGATCAGTGAGTTAAAAGTTGGAAAATATTTGGATGCTTCTTTGTAAAAGAAATATAATTAGCTAATTTACTGTGATGTAAGAAGTTTGAAGCTATATAGTGAGGAGGAGACCTGTCGGCTGGTTCTTTCCAGCAATTGGCTGACCTTGTTGACATTTGATTTGGGATTGTTTTATGTACTCATGGTGTTGGTTGATCTCTTCCCAATTGATTCTGTGTAGTTTATTTATTTAGTTTGTTTTGGAATGCAACAACATTTGAGGGTGGAAATTTGAACCTTTGACCTCTAGATCGAAAGTCTATGCCTTTGCTCTTTTGCTACGTGGAACTATTTAACTCATTCATGTGGAAGATTCAAAGAAAATTGGGGTTGGGTGAATTATGGGATCAAACTCAACCTGCTAACGAGTCTGATGAACTTATCCAGTTTTCAATTGATTTAAGATGTGATTTGCCTGTTCTTTTCTTCTCATATTTCTTCATTTCTCAGGATGACTAGAGCGTGTGGTAATTTAGCTATTTTTATTAAGTACCAACAGCTCTTGATGATCTCTCTGTATGATTGCAGAATGTTCATCAAGGCTATCTAACAGAAACTTTGGAGCGATTTCTGAAGGCGCGGGAATGGAACGTTAGCAAAGCCCACAAAATGGTTAGACATGGTTTACTAGTTTACTAATATTCTTAAAGTACTGATCCATATGTTGTGCTCATCTTGATGTATCCTTTCTGATGTTGCAGTTGGTAGATTGTTTAAACTGGCGAGTAGACAATGAAATCGACATGATGCTAACAGTAAGTATTTATTCTGCTGAGCAATTGAGCTTCCTGCATGGTCAATTGTTCTCATTGCTCTTTCTATACAGAAACCTATAGTTCCTGTCGATGTTTACAGAGCGGTTCGTGATTCTCAGCTCATAGGTCTTTCAGGTTATTCAAGAGAGGTGTGTACTATATATTCTTCAAAGTGGTTGAAATTAGGTTTTGGTTCTGAAACTTACTTTTTGTTTCGTTCCTTCAAGATCTTGCTAAGAGTAAGGGCTACATGATCAATTTATTTAAAAGTAGTTAAAACGACCAAAAGGGGGACTATGAAGGAAACTTAATACAATCTAGCACATTCCGTCCTTGCTCTTTCCTTCCTTTTCCTTTCCATATCAATATGTGTTTTCTTTCTTCTAGGGCCTACCAGTCTTTGCCATTGGTGTGGGACTCAGCACATTCGATAAAGCATCTGTGAGTACTGTTGTGGAAAATATATAGTTTTGGGCTAATAAACAGATCTTCTCTGCATTTAAGAATTGTCTTAGTTTGGTTTTTATTCTTCTTTTGTTTCTGTTACAGGTTAATTACTATGTGCAGTCACACATTCAAATCAATGAATATCGGGATCGCGTAATCTTGGTGAGCTTTAGAGTTACGGACCTATGTTTCTCATCTATGTTTCCTTAGGCACTGTGTTGACCTTAAAACTCTCTGTAGCCTTCTGCATCGAAAAAGTATGGGCGACCTATTACGACTTGTGTGAAGGTTTTAGACATGACTGGTTTAAAATTGTCAGCGCTGAGCCAGATCAAGGTAAAAGCACTTTAAAGTCTAACATTTGAGTTTAATTTCTTCAAAACGATGATTCAGAGTTTGAACATAACTTTTTTCACTACCTGATATATATATATTGGTGGAACTTATGACTTCTTCCATATTCAGCTCCATTTGTACTTGTGTTTTGCAGTTGTTAACAATCATATCAACCATTGATGACTTGAACTATCCAGAGAAGACGAATACGTATTTCATAGTAAATGTCCCCTACATATTTTCATCTTGTTGGAAGGTAAGTTTAGATGTATATATATAGTCTCATAAAATATACTTCCAAGCTCTTAATAGAACTTCTCTGAATTGTTAACTTGAAGATATTTCTATATCCTGTTAAACACAAAAGGTATCTCATGTTTGCGTTTAATTTGTATACCTTGCAGGTAGTTAAGCCTCTGTTGCAGGAAAGGACTAGGAAAAAAATACAAGTTTTATCAGGTAGTGGAAGAGATGAACTGCTGAAGGTAAATTGATTTTGATTATTTGTTCCGAAATTATTAGGTTTGTATAAATTGAATCTAAACTTGATCAATAATGTAATAAATATAATATCCTCTTCAAAACCAATCTAGAAAAATGTCTATAAATTAACTAATAAATACCAAAAATTCAACCAACAAAATACCCAAAATTTAATAGCCAAATGGAGCTAACCACGTAATCAAACAACTAACAAAGTGCTCTAAGACAACTCCATAACGTAAACACAACCATTAATGGTCTCCTTGCCCACCAAACTTTAAGGTTGTTTGATTCACCCAAGTACATAGGTTAAATTTGAACGCTTGTAATTGGTCGTAAATAGTTGAAACTACTATAAATAATCTCATCTACCAACAAAAGCTAGCAAACCAAGCTACAAATTCTACTCAGCTTGTAACTTGTGAAAATACATGTCTGTTGTCTAATGTAAGATGGATTTAATTTTAATGAAAATAAACTGAGTTCGAATTATATACCACCTGTGTGATTCGATGTCTTTGATTCATTCTTGTTCGATAACAAGGTTGATTTTTATGCTTCATGTAGATAATGGACTATTCATCCCTACCACACTTCTGCAAAAGAGAAGGCTCTGGATCATCGCGTCATTCATCTGATGGAGCTGAAAATTGCTACTCTTTGGACCATCCCTTTCATCAACAACTCTACAACCATATCAAGGAGCAAGCAGTTCAGGAATCTTCAAGACCGATCAAACAGGGATCTGTTCATGTGAGTCTACCTGAACCAGGTGCAGAAGGAACTGAAATTGTCAAAACCATTGAGTTAGAGTTGCACAAGTATGGGAACGGGAATGCGAAAGGATTATCTAATTCGCTAGGCAGTCTGAGAATTTGAATGAGCTTTTCTGTTCCTAACGCAGGGTTAAGAAGAAAAGAAGCACAAACAACCAAGTACGAAGAGATGAAGCTGCTGCGAGAACAAGTGGAAACCCATGCGTCGAGCCTATGCGTTGAGACCATGCGTCGAGAAATAGTAGACACAGATGCATGCTCAAACAGCTGTCATGGATGTAGTTCATCTTTTGCCAATGCAAACTTACCATGCCCTCTTAGAGATAAGATTAATGTGGCGTCGAAACATCGAGAGATTGATTCACAAACGCAGTTTGTAGAACAACAACAAATGGGGATCGGTTCTGAGGAGGCGATCCGGCAGCTCCGAGCTTTGATGGATCAGGTTGAGGAGCGATTGAAGTGCACTTTTCAGAATGTTCATCAAGGCTATCTAACAGAAACTTTGGAGCGATTTCTGAAGGCGCGGGAATGGAACGTTAGCAAAGCCCACAAAATGTTGGTAGATTGTTTAAACTGGCGAGTAGACAATGAAATCGACATGATGCTAACAAAACCTATAGTTCCTGTCGATGTTTACAGAGCGGTTCGTGATTCTCAGCTCATAGGTCTTTCAGGTTATTCAAGAGAGGGCCTACCAGTCTTTGCCATTGGTGTGGGACTCAGCACATTCGATAAAGCATCTGTTAATTACTATGTGCAGTCACACATTCAAATCAATGAATATCGGGATCGCGTAATCTTGCCTTCTGCATCGAAAAAGTATGGGCGACCTATTACGACTTGTGTGAAGGTTTTAGACATGACTGGTTTAAAATTGTCAGCGCTGAGCCAGATCAAGTTGTTAACAATCATATCAACCATTGATGACTTGAACTATCCAGAGAAGACGAATACGTATTTCATAGTAAATGTCCCCTACATATTTTCATCTTGTTGGAAGGTAGTTAAGCCTCTGTTGCAGGAAAGGACTAGGAAAAAAATACAAGTTTTATCAGGTAGTGGAAGAGATGAACTGCTGAAGATAATGGACTATTCATCCCTACCACACTTCTGCAAAAGAGAAGGCTCTGGATCATCGCGTCATTCATCTGATGGAGCTGAAAATTGCTACTCTTTGGACCATCCCTTTCATCAACAACTCTACAACCATATCAAGGAGCAAGCAGTTCAGGAATCTTCAAGACCGATCAAACAGGGATCTGTTCATGTGAGTCTACCTGAACCAGGTGCAGAAGGAACTGAAATTGTCAAAACCATTGAGTTAGAGTTGCACAAGTATGGGAACGGGAATGCGAAAGGATTATCTAATTCGCTAGGCAGTCTGAGAATTTGA ATGAGCTTTTCTGTTCCTAACGCAGGGTTAAGAAGAAAAGAAGCACAAACAACCAAGTACGAAGAGATGAAGCTGCTGCGAGAACAAGTGGAAACCCATGCGTCGAGCCTATGCGTTGAGACCATGCGTCGAGAAATAGTAGACACAGATGCATGCTCAAACAGCTGTCATGGATGTAGTTCATCTTTTGCCAATGCAAACTTACCATGCCCTCTTAGAGATAAGATTAATGTGGCGTCGAAACATCGAGAGATTGATTCACAAACGCAGTTTGTAGAACAACAACAAATGGGGATCGGTTCTGAGGAGGCGATCCGGCAGCTCCGAGCTTTGATGGATCAGGTTGAGGAGCGATTGAAGTGCACTTTTCAGAATGTTCATCAAGGCTATCTAACAGAAACTTTGGAGCGATTTCTGAAGGCGCGGGAATGGAACGTTAGCAAAGCCCACAAAATGTTGGTAGATTGTTTAAACTGGCGAGTAGACAATGAAATCGACATGATGCTAACAAAACCTATAGTTCCTGTCGATGTTTACAGAGCGGTTCGTGATTCTCAGCTCATAGGTCTTTCAGGTTATTCAAGAGAGGGCCTACCAGTCTTTGCCATTGGTGTGGGACTCAGCACATTCGATAAAGCATCTGTTAATTACTATGTGCAGTCACACATTCAAATCAATGAATATCGGGATCGCGTAATCTTGCCTTCTGCATCGAAAAAGTATGGGCGACCTATTACGACTTGTGTGAAGGTTTTAGACATGACTGGTTTAAAATTGTCAGCGCTGAGCCAGATCAAGTTGTTAACAATCATATCAACCATTGATGACTTGAACTATCCAGAGAAGACGAATACGTATTTCATAGTAAATGTCCCCTACATATTTTCATCTTGTTGGAAGGTAGTTAAGCCTCTGTTGCAGGAAAGGACTAGGAAAAAAATACAAGTTTTATCAGGTAGTGGAAGAGATGAACTGCTGAAGATAATGGACTATTCATCCCTACCACACTTCTGCAAAAGAGAAGGCTCTGGATCATCGCGTCATTCATCTGATGGAGCTGAAAATTGCTACTCTTTGGACCATCCCTTTCATCAACAACTCTACAACCATATCAAGGAGCAAGCAGTTCAGGAATCTTCAAGACCGATCAAACAGGGATCTGTTCATGTGAGTCTACCTGAACCAGGTGCAGAAGGAACTGAAATTGTCAAAACCATTGAGTTAGAGTTGCACAAGTATGGGAACGGGAATGCGAAAGGATTATCTAATTCGCTAGGCAGTCTGAGAATTTGA MSFSVPNAGLRRKEAQTTKYEEMKLLREQVETHASSLCVETMRREIVDTDACSNSCHGCSSSFANANLPCPLRDKINVASKHREIDSQTQFVEQQQMGIGSEEAIRQLRALMDQVEERLKCTFQNVHQGYLTETLERFLKAREWNVSKAHKMLVDCLNWRVDNEIDMMLTKPIVPVDVYRAVRDSQLIGLSGYSREGLPVFAIGVGLSTFDKASVNYYVQSHIQINEYRDRVILPSASKKYGRPITTCVKVLDMTGLKLSALSQIKLLTIISTIDDLNYPEKTNTYFIVNVPYIFSSCWKVVKPLLQERTRKKIQVLSGSGRDELLKIMDYSSLPHFCKREGSGSSRHSSDGAENCYSLDHPFHQQLYNHIKEQAVQESSRPIKQGSVHVSLPEPGAEGTEIVKTIELELHKYGNGNAKGLSNSLGSLRI Homology
BLAST of Cla97C01G010920 vs. NCBI nr
Match: XP_008464298.1 (PREDICTED: phosphatidylinositol/phosphatidylcholine transfer protein SFH1-like isoform X1 [Cucumis melo]) HSP 1 Score: 651.7 bits (1680), Expect = 4.3e-183 Identity = 327/338 (96.75%), Postives = 331/338 (97.93%), Query Frame = 0
BLAST of Cla97C01G010920 vs. NCBI nr
Match: XP_038895079.1 (phosphatidylinositol/phosphatidylcholine transfer protein SFH11-like isoform X1 [Benincasa hispida]) HSP 1 Score: 649.0 bits (1673), Expect = 2.8e-182 Identity = 327/336 (97.32%), Postives = 330/336 (98.21%), Query Frame = 0
BLAST of Cla97C01G010920 vs. NCBI nr
Match: XP_011654745.1 (phosphatidylinositol/phosphatidylcholine transfer protein SFH1 isoform X1 [Cucumis sativus] >XP_031746000.1 phosphatidylinositol/phosphatidylcholine transfer protein SFH1 isoform X1 [Cucumis sativus] >KGN64990.1 hypothetical protein Csa_022879 [Cucumis sativus]) HSP 1 Score: 643.3 bits (1658), Expect = 1.5e-180 Identity = 322/336 (95.83%), Postives = 329/336 (97.92%), Query Frame = 0
BLAST of Cla97C01G010920 vs. NCBI nr
Match: XP_022973149.1 (phosphatidylinositol/phosphatidylcholine transfer protein SFH1-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 641.0 bits (1652), Expect = 7.5e-180 Identity = 316/334 (94.61%), Postives = 327/334 (97.90%), Query Frame = 0
BLAST of Cla97C01G010920 vs. NCBI nr
Match: XP_022927492.1 (phosphatidylinositol/phosphatidylcholine transfer protein SFH1-like isoform X1 [Cucurbita moschata]) HSP 1 Score: 637.9 bits (1644), Expect = 6.4e-179 Identity = 317/338 (93.79%), Postives = 328/338 (97.04%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy Swiss-Prot
Match: P46250 (SEC14 cytosolic factor OS=Candida albicans (strain SC5314 / ATCC MYA-2876) OX=237561 GN=SEC14 PE=2 SV=1) HSP 1 Score: 85.1 bits (209), Expect = 2.1e-15 Identity = 65/213 (30.52%), Postives = 108/213 (50.70%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy Swiss-Prot
Match: Q75DK1 (SEC14 cytosolic factor OS=Ashbya gossypii (strain ATCC 10895 / CBS 109.51 / FGSC 9923 / NRRL Y-1056) OX=284811 GN=SEC14 PE=3 SV=2) HSP 1 Score: 83.6 bits (205), Expect = 6.1e-15 Identity = 58/209 (27.75%), Postives = 102/209 (48.80%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy Swiss-Prot
Match: P24280 (SEC14 cytosolic factor OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=SEC14 PE=1 SV=3) HSP 1 Score: 83.6 bits (205), Expect = 6.1e-15 Identity = 68/243 (27.98%), Postives = 114/243 (46.91%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy Swiss-Prot
Match: Q03606 (CRAL-TRIO domain-containing protein T23G5.2 OS=Caenorhabditis elegans OX=6239 GN=T23G5.2 PE=4 SV=3) HSP 1 Score: 83.2 bits (204), Expect = 8.0e-15 Identity = 72/253 (28.46%), Postives = 119/253 (47.04%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy Swiss-Prot
Match: Q8R0F9 (SEC14-like protein 4 OS=Mus musculus OX=10090 GN=Sec14l4 PE=1 SV=1) HSP 1 Score: 82.8 bits (203), Expect = 1.0e-14 Identity = 80/272 (29.41%), Postives = 122/272 (44.85%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy TrEMBL
Match: A0A1S3CL53 (phosphatidylinositol/phosphatidylcholine transfer protein SFH1-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103502218 PE=4 SV=1) HSP 1 Score: 651.7 bits (1680), Expect = 2.1e-183 Identity = 327/338 (96.75%), Postives = 331/338 (97.93%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy TrEMBL
Match: A0A0A0LSW3 (CRAL-TRIO domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G172610 PE=4 SV=1) HSP 1 Score: 643.3 bits (1658), Expect = 7.4e-181 Identity = 322/336 (95.83%), Postives = 329/336 (97.92%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy TrEMBL
Match: A0A6J1IDQ0 (phosphatidylinositol/phosphatidylcholine transfer protein SFH1-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111471662 PE=4 SV=1) HSP 1 Score: 641.0 bits (1652), Expect = 3.7e-180 Identity = 316/334 (94.61%), Postives = 327/334 (97.90%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy TrEMBL
Match: A0A6J1EHB6 (phosphatidylinositol/phosphatidylcholine transfer protein SFH1-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111434301 PE=4 SV=1) HSP 1 Score: 637.9 bits (1644), Expect = 3.1e-179 Identity = 317/338 (93.79%), Postives = 328/338 (97.04%), Query Frame = 0
BLAST of Cla97C01G010920 vs. ExPASy TrEMBL
Match: A0A6J1CM77 (phosphatidylinositol/phosphatidylcholine transfer protein SFH1-like OS=Momordica charantia OX=3673 GN=LOC111012577 PE=4 SV=1) HSP 1 Score: 631.3 bits (1627), Expect = 2.9e-177 Identity = 309/334 (92.51%), Postives = 326/334 (97.60%), Query Frame = 0
BLAST of Cla97C01G010920 vs. TAIR 10
Match: AT5G47730.1 (Sec14p-like phosphatidylinositol transfer family protein ) HSP 1 Score: 487.3 bits (1253), Expect = 1.3e-137 Identity = 242/327 (74.01%), Postives = 275/327 (84.10%), Query Frame = 0
BLAST of Cla97C01G010920 vs. TAIR 10
Match: AT1G55840.1 (Sec14p-like phosphatidylinositol transfer family protein ) HSP 1 Score: 475.7 bits (1223), Expect = 3.9e-134 Identity = 227/321 (70.72%), Postives = 275/321 (85.67%), Query Frame = 0
BLAST of Cla97C01G010920 vs. TAIR 10
Match: AT1G55840.2 (Sec14p-like phosphatidylinositol transfer family protein ) HSP 1 Score: 449.9 bits (1156), Expect = 2.3e-126 Identity = 214/293 (73.04%), Postives = 252/293 (86.01%), Query Frame = 0
BLAST of Cla97C01G010920 vs. TAIR 10
Match: AT5G47730.2 (Sec14p-like phosphatidylinositol transfer family protein ) HSP 1 Score: 415.2 bits (1066), Expect = 6.3e-116 Identity = 204/272 (75.00%), Postives = 232/272 (85.29%), Query Frame = 0
BLAST of Cla97C01G010920 vs. TAIR 10
Match: AT5G47730.3 (Sec14p-like phosphatidylinositol transfer family protein ) HSP 1 Score: 415.2 bits (1066), Expect = 6.3e-116 Identity = 204/272 (75.00%), Postives = 232/272 (85.29%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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