Cla009155 (gene) Watermelon (97103) v1
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTGTCGGTTGTGCAGGGTGGTTCTGGTATGCCGTCGGGAGAACTTCTACAATGCTTCCTCAAACAGAGGGAGAAGTCCATGTTTGCTAGTGAAGAACTGATGAAAAATGGAAATGTGTTGCATGATAGAACTGAAAGTCATGCTCCTCGTCTTTGCAGCCCTTCAGTAGTTTGTTCACCTAATGCAACTCTTCCGGGATCTTATTTCTCAAGCAATCATACTTTGAACAAATCAACTGAATCAGGCGACAATATGGAACTTAAAGAAGATAAGATCTACTTAATGGAAAAGGTAGCTACAGAATTAGGATCACGGCCTTTGACTGATCATGTTCCTAAAGCAAATTTACTGAGTTCCACGAAAGTGAAGGATGAACCTTATGATCATGTGGATGACTGCAACATGGATATGAAAAATGTCTTCAGCAACACTGTGTCAATAAAGAGTGAAACAACCATTCCCGATGAACATTATGAAAATAAGTTAGACAATATGCGATTGCAAGACCGAATGAAGTTTTTCTCTTCTCGGAAGGTTTTTGATTTTACATCTATGGATTCTGAGCATCCAAAACCTTCTGACCCTGGATGCAGCATTCTTGTTTCAGAACCTGCTAGTTTAATGAACATTAAACGGAGACGCAAATGGAAGAAAACTGCCACGTATGTACTTGGAATTTTACATTTGAAAGTTGGTATTTTATCCCCCCCCCCAAAAAAAAAAAAAAACTGTCCTGTGTTTTTTCGATCTCTTTAAGATGTTATACATGTCATTTTATTTGCAGGAATTCAATTGAAACAGCACTGGAGGAGGATGCTCCTGGCCTTCTCCAGGTATTAATATCATGTGTCACTCAACTGTGCTTGCGAATTTGGATTGTATTCTATTGTGATGTTGCATTAGTCTCTTTTCATTTAAAATAAAAAAAATATAAAAATAAAAAATTAGTCTTTTTTCATTTACTTAATGAAAAGTTTTGTACCCTTTTCAAAATTTTTTTGCATTGTATTCATTCTAGTTTCATTGGCAGATACTTGTTGACAAAGGCATACAAATTGATGAGATCAAGCTTTATGGGGAGATAGAAAGTGATGATGATCTAGATGAGTCTTTTAGTGAAGACAGGTTTGGGGAGCTTGAAGATGTGATATCAAGGGTGAGCAATGACACATGATTTTAACTATTTCTACTTTTTTCCTATGAATCTTTCATAAAGGAAAGTCTCATGTATGTCTTGATAAATTCATGATCTTGTTTCAACCCAAGGTTTTTCCTTTATGGGCTATATGCTGTAGGCTTTTCTAGCCATAAGCTTTCAGTACCTACACCTACGATATTTTTTGGACTTGGGAAATGAAGACCCTTGGATGATAATTAATGCTTCTCCCCTAGGGTTTTTAAACGTATCAAACATATGGTTTTCTAGACCACAAAACACAAGTTTCCTAATGTCATGAGGGAGAGGTTTATAATATATTACTTAATTAAATAATATATATTTTTTAAGATTTAATATTTGTAATGAACCGTGTATTTTTGCTTGAGTGGCTATTTCTTGGAGTATCTTAGGCTTTCAAATAATGGTAGGAAGGGTAACATGAAGATCCCTGTAATTCTAAATAAAGGGTGGTCAGATTCTAGTCTTTGCTCGAGAAGTTTGTGAGGAAGCTTTTCTAGTACTCCCAGACCTTTTTTTGAGGATGAAGATATGGTGAAATTGTTGTGCATTAAGAAGCTTATGTAGGTAAAGGAGATGTTATTTTTAACTTTGGAAGGAGAAATGCTACTGTTCAGTGGAAGATGTCGCAGGTTCCTTGCCATGACTGGATTAAATGTGGGAATTCTCTTCTTGATGTTGGAATATTAAGCATTTAAGCAATAATCATATATGTGATTTCAGTGCTGGTTTTGCAACATTTGCTTGGAAAATGGTCAGGAAGACAAAGATGGATTTTATGGAGGATGCCATCAAAGTGAAGGACAGTTACTATGGTTCCACCACACCAGAGGTGTAGTTGTTGTAGTTGGATGGCCCGGATTGTGGGTCTTCTAACACCTGGTTGGTATGTAGTTGAACACCAAAGTACTTCAAAGGAGGTGGCTACAGCTTTTGATGAATTCATGTTGTTACCCAGTGGATAATTGGCTAGAGTGAAATATTATCTTAGAGCATATTTTTTAAGGAAAATGGTCTGATTCTCGAAAGAATTATGTAAAGGTTTTTGAATGTAATTGCCTTGTGATTCTTTTCAACAATGTTTCTTAATAGGAACATTCTCCCATGGTTTTACATTTGATGGTGGTGTTTTCTTTGCAGACATCAAGATAGGATCTTGATCATCTCTATCTTGATCATCATTTGCGGAGTGTTTGTTTTCTTTCTCCATTTGGAGTTCTTTTAGTTTGTTTCGGGCTTCCATGGTGTGTAATGGAGTTTTCTAAGGCATCTTGATGCACTCTCATTTCTGGATAAAGGGAAAGTCTTGTGGCAGGCTCTTCATTTTACTATACTGTGGAAAACGTGGTTCAAGATAAATTGTAGGATTTTGAGAGAGATTGAGATGTCTTTGGAGGAAGTGTGAGATTTAGTGTATTTTTATGTGTTCCCACTAGTCAGATGACTCAGATTTTTTTTGTAATTATTAGTTTGGTATCATTCTTTAGATTGGAGTCATTTCTCAATGAAAGCTCAGTTTCCTACCGGAAAAAAAGAGAAAAATTGTTGTACCAGGAGGTACTGGTTATTTTTCTTTGCTTCCAAAATTTCAAAATTTTCATTCCATTAGGGTTCTTCCTTCAAATCATTTAAGGTTTGAAGTTCGGATGGCCATTTTAGGACAGCAATTAACTGTTGGAATCTTGATTATGAATCTTGGGACCTTGGTTTGAGGTGCAATCTTAATGAAGCAAAGATTCTTGAATGGTCTATTTTGCGGACTTTGCTACAGCCCCCTAATAGACCCTTGGTGGATGATTCATGGAAATGGAACAATACCAAATCACTCACCCAACACCTTGCCTCATGTGGTAATGAATAGAATGCTGCTCTTTATAAAAATATTTGGAGAGGTCTCATCCCAAAAAGGATTTGGTTCTTTCTTTGGGAGGTTAGTCATGGAAGCATTAGTATGGCTGATGTTCTTATCAAAAAGGCTCCTTGGATTGTGTCTGCACCAAGTTGGTGTGTTCTCTGTCACCATAGTGGTGAAGCCATTATGCACATTCTGGTATTATGTGATTTTGCCCAATCTTTTTGGATGAGGATCTTATCCCTGCTTCAACTATCATATGGTTTCCTAATGACCCACTCATCCTCTTGAATAGGATTCTTATTGGCCATCCATTTAAGATGAGAAAGCTATTATGTGAACCTACAATCATCAAAGCCTTCTTTTGGCTTGTTTGGAAAGAATGGAGTCATCGTATCTTTGAAGATGGAGAAATGGAATTCATTCAATCTTTTGATCACCTATTGTTTGCATCTCTTTCATGGTGTAAATTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTGATTACAATCTTACATCTCTTATATCTAAACAATGAAAATAGATGGCGAGTGCCTAATTGAATTGATCGGGTCATGTAGGAACAAGGTTCAAGTCTACCAGTTTGTTAGGATGCCTCAGCTGCATAAATCATTGCACTTCCACTTGACACCTATCGTGATGATAAATGACTCATCTCGCCGTGACCTTCTCTTGAATTCTCAAAACTTTTGTTGCTCCATCTCGCACAGAATAACATTATGTAATCTCTCACTATTGCTCTTTTGTAATTTCATACCATCAATGAAATTATAATAGAATGTTTCTCATAAAAGAAAATTTACTCTCACCCCTTATACAATTGTATGAGGGAGAGTGTCTCAAGATTAACCAACCTGTACGTCATGTCATTGGAGGATTTGCACGTTTGGGGCTCACACATCACTGGTTTGTTCTATTCCTGCGCTGTGTGCTGATACGTGTGTGGGCAGAATGGAACTTTGTTGGTATTAGAAAAGCAGTGAGGAAATTTGGTATAATACCACCCTCTCACTGTACTTAATATTTATTCTTATCCTTATTAAGTTTCTCCGACGTCACTTCTTTGAAATTACCAACTAGAAAGGACTTTTGTTTTTCTCAATTTTGTTCGTATTTCAATGTTGATATTGGTTTGTTATCCAAGAAGAAAATTAGAACCTTTTATTTGATAATTTTGGTTGGTTTCTAGTAGTTAGTACTATGCTTTTTGGTTGCTGGTTGGGATTTTTTGTCAGTTTGTCCAAGAACTCTATCTATACCCTGAAGTAATTGTTTCACCATGTGGTAACAGCTTTTTTCTCAACGCCATTCCTTTTTGAAGTTTCCCTCTATAAGATGCATGAAAAATTCAAGAGCAAGCTATTGCTTAGCTTGTCTAGTTTCACTCATTGAGCAGGTAACATTATTATTATTATTTTTTGACAATGATTAATATTCTTATTGTTACGATCTTTTGGTCTCTGCTATATATGCCAAAAAGATCTTATTCTCTTCCAACCCCTGCTTAAACTTTGTAATGGTCCAGTTTATTCCTCCCTGATGATTTACATTTGTTGTTCAATCTTTTTTAGACGAGATATCTTCATTTCCGAAACTGGCCTGTCGAATGGGGGTGGTGCCGGGATCTCCAGTCTTTTATATTTGTATTTGAGAGACATAAAAGGTGCATTTAATATAATTTGTATCTTTATGAACTGATTTCTGAGATATTGATGGTGCTGCATTTGAGTGCAGAATAGTGATGGAACGCCCTGAGTATGGCTATGCTACATATTTTTTTGAGCTTGTGGATTCCGTACCCATCAACTGGCAGATAAAGCGGTTGGTGATTGCTATGAAGCTTACGAGTTGTAGCAGAATTTCACTACTTGAGAACAGACCATTATTGGTAATAAATTTAGTAATCGCAATTCATTTGTCTCATATATCTTGTTGTTCTTATTCTTCCTCTTATTATTATTACTACAGAGAAAAAAAATCATTGAGGAACGAAATATATAAGTATAAAAAGGCCACCAAAGCCGAGGTGTTAGAATAAAGCTTCCGTTTGGATTTAGATCATGAAAATAGGATAATTTCTAGAAAGACTAAAAAATTGGAGTTCAATTGTTTGTTTGTTTGTTTTTTTTTTTTTTTTTTTTTTTTTTCCATTCTTTTGTTTACTGCTATATGACAATAAGAATTTAGTAGTCTCAAAGCCCTAAATTTTTAAGGGGAATGAGAATTAGTGAGATATTCCAAAAAGAAATCGAGTGATGCACCTGTGAGAATTGAGTGAGATGGAACCAGAGATCAAATAGTCTTTCTTCGCTAGCTCCACCTGTGTTAAACTCAGCATGGGCTATTAGAATGCTATTGAGCAACACTGTGATCTTGCTCTGCTCCACTTCCTGATAACCCAATAATAAATCAAATTGAGACCTACAAGGAGAGGGTCCCAGGAAGGAAGAAGCTAGAGTTTGCTTTGTCTTCTGCTATATTCAACAAAACTATGGCCTTGGATTCAGCAAAGGAGATATGAGAGTTCCTTAAAGGTGGGTATGACGAAGATGAGAGGATTAAGAGTGTGAAAGTGTTGAACTTGGGGAGGGAATTCAAGAAAATGCAAATGGAGGATTCTGAATGGGATTCAAGAGTACTTAGACAAGTTGATTGAGATTGCTAAAAAGACGAGTATTAGGAACTGATTTATGTTATATTAAATAAAGATTGGTTCCAAGATTCTGGTTCCAGTGTCTGCCTGTCTGGGAGGTATGAAGCAACGATTGGTTCCTTAAAAAAATACTAAGGTCTTTCTGAACTCAGAGTGATAGAATTAGTCAATGCTTTTAGCACAAGAGCAGAGGAAGTTGGTGAGGCAAGAAGAAACCATTAAGGGGACAATAAAAGTCAGAATGTTGCAAAGAGAGAGAAGGTGGAAGAAAGAAGAAGTGGAGAAAGAAAAATGGAAGTGGCAGTAGTAGCTCAGACACTGTTGGAAAGGATGTTGGAAGTGCAGGGTTCAGCAAGGGCTGTGCACGCAAGCTCTTTAGGAAGCATCCACACTTTAGATTCTGGAGAAGACAAATGTGAAGTGTAGATGGTGTCATTTAATGATGTACATTAAGAGGTTCTGTAAGGAAACTTAATCTTTCCTTGTATTTTGAGCAATAGCCTCTTTCATTATGTCAATGAAAAGTTCTGTTTCTGTTTCAAAAAAAAGTGGTTCCATAAGGAAACTTAACAAGGTGGAGCACATGTTGCTGGACAAGAAGAAGATTAGTTCTTTGTGGCTGGTTGTTTCTCATTGGTCAGATATTTGGTTAGTTGATAGTGTGTATACTGATCATATGACAAGTGACAAGGAGTCGTTTTAAGACCTTGACAAGTCTTCTAACCAAGGGTGAAGATAGAGAATGATATCTAGAAGTGGAGGGGAAGGGCATATTGTGAATAGTGAGTTGTGCAGGAACGAAGTTGATTATTGAAGTGTTGTTGGTTCCTAAGGTTGATCAAAACTTGTAAGTGTTGGTCAACTAGTAGAGAAGAGATTTAGAGTGTTATTTGAAGAAGAGATTTAGGAATGCTGACTGCATATCCAGCTCATACACATGAGGTTCTTATTGTTGTACAGCAGTAAACAAAAAAGTCGTCTTCTAAGACCTAAATCCCAATGCTCAAGTTTTTTTTTTTTTCTAGCAATCTGCAATGGTGGCCTCTTCATAATTTTTTTGTAAATCTCTGAAACATAACCTAAACGGTGTTTTCCTCCAATCATTTGTCTTTCCAAAATTTGTTTTTCCTCCCTTGCTTAGCTTTGAAGTCCAGAAAATGGGAGAAGAAAGCACGATTTCTTGCTATGTCAACCCCAGTCTACCTTGGGAGAGAGTTTTCCAACTTGGGGTTCTCACAATAAATACTTGAAATCACATTCTTCCACCGATCATCTTCCTTCGGAGTAAATCTCCAGGGCATTATTATTTGTTTTTTTTTTCTTGTGACAAGTCCTAATCCCTAGTCCTTATTGAAGGGGAAAAATACCGTGTTAAAATATAAGTTCTCATAGGGATGCTATTATGAATCCATTCTCTGTTTGTGATTTTCTGGTTAGTCCTTGTATTTCGAAATAATACACGAGTTTTAAAAGGTGCAATTAAGCTCTTAGATGCCATAACAACGGCTTTCTACCCTTTAATATTGAGTCTTCATTTGTCTGTGCAAGGTTGGGGAAGATTTGACCGAAGGTGAGGCAGGGGTTTTATTGAGCTATGGATGGACGCCAAATAGTGGCTTGGGTACAATGCTGAACTACCGTGACAGAGTCGTTCACGATCGGAATAATGAGGACATCTCGGAATGGAGATCAAAAATAGGGAAGCTACTGATGAATGGTTATAATGGAGGAGCTCTTGTGCAAGAAAATACTTCAAAGAAGGTTGCAGAATACAGCAGTTCTCAAACCACACAAGTTAAGCTGGAACTCTGA ATGGTGTCGGTTGTGCAGGGTGGTTCTGGTATGCCGTCGGGAGAACTTCTACAATGCTTCCTCAAACAGAGGGAGAAGTCCATGTTTGCTAGTGAAGAACTGATGAAAAATGGAAATGTGTTGCATGATAGAACTGAAAGTCATGCTCCTCGTCTTTGCAGCCCTTCAGTAGTTTGTTCACCTAATGCAACTCTTCCGGGATCTTATTTCTCAAGCAATCATACTTTGAACAAATCAACTGAATCAGGCGACAATATGGAACTTAAAGAAGATAAGATCTACTTAATGGAAAAGGTAGCTACAGAATTAGGATCACGGCCTTTGACTGATCATGTTCCTAAAGCAAATTTACTGAGTTCCACGAAAGTGAAGGATGAACCTTATGATCATGTGGATGACTGCAACATGGATATGAAAAATGTCTTCAGCAACACTGTGTCAATAAAGAGTGAAACAACCATTCCCGATGAACATTATGAAAATAAGTTAGACAATATGCGATTGCAAGACCGAATGAAGTTTTTCTCTTCTCGGAAGGTTTTTGATTTTACATCTATGGATTCTGAGCATCCAAAACCTTCTGACCCTGGATGCAGCATTCTTGTTTCAGAACCTGCTAGTTTAATGAACATTAAACGGAGACGCAAATGGAAGAAAACTGCCACGAATTCAATTGAAACAGCACTGGAGGAGGATGCTCCTGGCCTTCTCCAGATACTTGTTGACAAAGGCATACAAATTGATGAGATCAAGCTTTATGGGGAGATAGAAAGTGATGATGATCTAGATGAGTCTTTTAGTGAAGACAGGTTTGGGGAGCTTGAAGATGTGATATCAAGGGTTGGGGAAGATTTGACCGAAGGTGAGGCAGGGGTTTTATTGAGCTATGGATGGACGCCAAATAGTGGCTTGGGTACAATGCTGAACTACCGTGACAGAGTCGTTCACGATCGGAATAATGAGGACATCTCGGAATGGAGATCAAAAATAGGGAAGCTACTGATGAATGGTTATAATGGAGGAGCTCTTGTGCAAGAAAATACTTCAAAGAAGGTTGCAGAATACAGCAGTTCTCAAACCACACAAGTTAAGCTGGAACTCTGA ATGGTGTCGGTTGTGCAGGGTGGTTCTGGTATGCCGTCGGGAGAACTTCTACAATGCTTCCTCAAACAGAGGGAGAAGTCCATGTTTGCTAGTGAAGAACTGATGAAAAATGGAAATGTGTTGCATGATAGAACTGAAAGTCATGCTCCTCGTCTTTGCAGCCCTTCAGTAGTTTGTTCACCTAATGCAACTCTTCCGGGATCTTATTTCTCAAGCAATCATACTTTGAACAAATCAACTGAATCAGGCGACAATATGGAACTTAAAGAAGATAAGATCTACTTAATGGAAAAGGTAGCTACAGAATTAGGATCACGGCCTTTGACTGATCATGTTCCTAAAGCAAATTTACTGAGTTCCACGAAAGTGAAGGATGAACCTTATGATCATGTGGATGACTGCAACATGGATATGAAAAATGTCTTCAGCAACACTGTGTCAATAAAGAGTGAAACAACCATTCCCGATGAACATTATGAAAATAAGTTAGACAATATGCGATTGCAAGACCGAATGAAGTTTTTCTCTTCTCGGAAGGTTTTTGATTTTACATCTATGGATTCTGAGCATCCAAAACCTTCTGACCCTGGATGCAGCATTCTTGTTTCAGAACCTGCTAGTTTAATGAACATTAAACGGAGACGCAAATGGAAGAAAACTGCCACGAATTCAATTGAAACAGCACTGGAGGAGGATGCTCCTGGCCTTCTCCAGATACTTGTTGACAAAGGCATACAAATTGATGAGATCAAGCTTTATGGGGAGATAGAAAGTGATGATGATCTAGATGAGTCTTTTAGTGAAGACAGGTTTGGGGAGCTTGAAGATGTGATATCAAGGGTTGGGGAAGATTTGACCGAAGGTGAGGCAGGGGTTTTATTGAGCTATGGATGGACGCCAAATAGTGGCTTGGGTACAATGCTGAACTACCGTGACAGAGTCGTTCACGATCGGAATAATGAGGACATCTCGGAATGGAGATCAAAAATAGGGAAGCTACTGATGAATGGTTATAATGGAGGAGCTCTTGTGCAAGAAAATACTTCAAAGAAGGTTGCAGAATACAGCAGTTCTCAAACCACACAAGTTAAGCTGGAACTCTGA MVSVVQGGSGMPSGELLQCFLKQREKSMFASEELMKNGNVLHDRTESHAPRLCSPSVVCSPNATLPGSYFSSNHTLNKSTESGDNMELKEDKIYLMEKVATELGSRPLTDHVPKANLLSSTKVKDEPYDHVDDCNMDMKNVFSNTVSIKSETTIPDEHYENKLDNMRLQDRMKFFSSRKVFDFTSMDSEHPKPSDPGCSILVSEPASLMNIKRRRKWKKTATNSIETALEEDAPGLLQILVDKGIQIDEIKLYGEIESDDDLDESFSEDRFGELEDVISRVGEDLTEGEAGVLLSYGWTPNSGLGTMLNYRDRVVHDRNNEDISEWRSKIGKLLMNGYNGGALVQENTSKKVAEYSSSQTTQVKLEL
BLAST of Cla009155 vs. TrEMBL
Match: A0A0A0KNC1_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G426400 PE=4 SV=1) HSP 1 Score: 427.6 bits (1098), Expect = 1.6e-116 Identity = 222/279 (79.57%), Postives = 239/279 (85.66%), Query Frame = 1
BLAST of Cla009155 vs. TrEMBL
Match: A0A0A0KNC1_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G426400 PE=4 SV=1) HSP 1 Score: 162.9 bits (411), Expect = 7.3e-37 Identity = 82/98 (83.67%), Postives = 86/98 (87.76%), Query Frame = 1
HSP 2 Score: 144.8 bits (364), Expect = 2.0e-31 Identity = 98/262 (37.40%), Postives = 141/262 (53.82%), Query Frame = 1
BLAST of Cla009155 vs. TrEMBL
Match: A0A072UGH0_MEDTR (Uncharacterized protein OS=Medicago truncatula GN=MTR_5g078170 PE=4 SV=1) HSP 1 Score: 144.8 bits (364), Expect = 2.0e-31 Identity = 98/262 (37.40%), Postives = 141/262 (53.82%), Query Frame = 1
BLAST of Cla009155 vs. TrEMBL
Match: G7K1N9_MEDTR (Uncharacterized protein OS=Medicago truncatula GN=MTR_5g078170 PE=4 SV=2) HSP 1 Score: 144.8 bits (364), Expect = 2.0e-31 Identity = 98/262 (37.40%), Postives = 141/262 (53.82%), Query Frame = 1
BLAST of Cla009155 vs. TrEMBL
Match: G7K1N9_MEDTR (Uncharacterized protein OS=Medicago truncatula GN=MTR_5g078170 PE=4 SV=2) HSP 1 Score: 121.7 bits (304), Expect = 1.9e-24 Identity = 58/90 (64.44%), Postives = 68/90 (75.56%), Query Frame = 1
HSP 2 Score: 144.8 bits (364), Expect = 2.0e-31 Identity = 98/262 (37.40%), Postives = 141/262 (53.82%), Query Frame = 1
BLAST of Cla009155 vs. NCBI nr
Match: gi|659121212|ref|XP_008460549.1| (PREDICTED: uncharacterized protein LOC103499334 isoform X4 [Cucumis melo]) HSP 1 Score: 603.2 bits (1554), Expect = 3.0e-169 Identity = 306/366 (83.61%), Postives = 324/366 (88.52%), Query Frame = 1
BLAST of Cla009155 vs. NCBI nr
Match: gi|659121194|ref|XP_008460540.1| (PREDICTED: uncharacterized protein LOC103499334 isoform X1 [Cucumis melo]) HSP 1 Score: 447.2 bits (1149), Expect = 2.8e-122 Identity = 227/280 (81.07%), Postives = 243/280 (86.79%), Query Frame = 1
BLAST of Cla009155 vs. NCBI nr
Match: gi|659121194|ref|XP_008460540.1| (PREDICTED: uncharacterized protein LOC103499334 isoform X1 [Cucumis melo]) HSP 1 Score: 162.9 bits (411), Expect = 1.0e-36 Identity = 82/98 (83.67%), Postives = 86/98 (87.76%), Query Frame = 1
HSP 2 Score: 427.6 bits (1098), Expect = 2.3e-116 Identity = 222/279 (79.57%), Postives = 239/279 (85.66%), Query Frame = 1
BLAST of Cla009155 vs. NCBI nr
Match: gi|778702638|ref|XP_011655236.1| (PREDICTED: uncharacterized protein LOC101212787 isoform X1 [Cucumis sativus]) HSP 1 Score: 162.9 bits (411), Expect = 1.0e-36 Identity = 82/98 (83.67%), Postives = 86/98 (87.76%), Query Frame = 1
HSP 2 Score: 427.6 bits (1098), Expect = 2.3e-116 Identity = 222/279 (79.57%), Postives = 239/279 (85.66%), Query Frame = 1
BLAST of Cla009155 vs. NCBI nr
Match: gi|700195886|gb|KGN51063.1| (hypothetical protein Csa_5G426400 [Cucumis sativus]) HSP 1 Score: 162.9 bits (411), Expect = 1.0e-36 Identity = 82/98 (83.67%), Postives = 86/98 (87.76%), Query Frame = 1
HSP 2 Score: 427.6 bits (1098), Expect = 2.3e-116 Identity = 223/282 (79.08%), Postives = 240/282 (85.11%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
This gene is associated with the following unigenes:
Analysis Name: InterPro Annotations of watermelon (97103)
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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