ClCG01G025780 (gene) Watermelon (Charleston Gray)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CTTATTACTTGTTTTTCTTTCTGGATTTTGGGTCTCTCCCTTCACAATGGTATCCACCATGGTTCCATATTTTCTTCAACCTTTAGTTGCAGAAATAAGTGACTTTTTGGCTTTGATAAAGTGATTCTGCAGTGCATACTAATCTCCAAAGGGATGATGGGTAATAAGGTGGGAAATCTGTTCTAGGGCATGAAAACCCTTCATTCCGACTCCTCTCCATCAGAGCTCCCCCTTTGCTGATCGGTGAGTTCATTTTTACTTTATTCGCCTTTTGTTTTCCCAATTCCCCGCATATGTTTTTATTTTTACCCAATATCTGCACCACTCCACTTTAATTGATGCCTTGTTTTGCCTTCTGGGTACTGATTTCCTTTTCCCCTTTTAACTGTTTCCACCTTCCACATACTCTTGCATCTTTCGTTTTTCTGAAATGGGTCTTCTGGGTTTTCCTTCAGCGTGCCTCTTTCCCTCTCCTGCATTTTCCTCACTTACATTGTCCACTCCCATTCTTCTCTCCAAGTTTCACTCTTCCCGCTCCTTCTAATTTCTAATTATACTTGAAACTCCTCAACTAATGGAAGCTTGAAGATTGCAATAGGTTTGTTAGACTAGTTACCCAACTGACATGTTTCAGCAATATTCCACTTGATAAATTCACACGCGTATTACAATTGCCAGACTGTTTTATTAGAAGCAACAATTGTGAAAGTCGGGAACTTTGGGCTTGCCGTATTATCTTCTTTCTTGCATATGTTATCTTCTTTCTTGTAATTCTGTAATGGTCTGCGTTTTCCCTGACCGCATTTAGTTGAATTGGGAGGTTAAATTTGTTTGGATATTTGCACGTGCCTTAGTTCTTGTAGACGATTTCCATTGTCCCTATGTTCTGTTATCAAAGTTGAATGTATGCTTCTGCAATGGCATCATCTTCTCAGACAGCATGAATCTTAATTGGGGCAGAAATCTCCCTTATTTTTCTCTTTCTCTCTATGCAATAACTTTAGTAGGCTTTGATAGAATGAATTTTCATTTCTAAGAGGCCTTAATTTTTCCCTCATAGTCATTGGAGAGCTGAAAGATGGACAGGACAAGACTGGATTTAAGCTTTCATCATTCAGTATCAACACAATCAGAGGAATCTGCCTTGGACTTAGAAAGGAATGATTGCAGTCATCGTAATATGCCTTCATCAAGTCCATCACCCAGTCAATGTTTTGCTCCGGGTAGTCAGCTGTCTGAGACCAATGCTTATTTTTCATGGCCCACTTCCAGCCGTTTAAACGACGCTGCAGAAGATAGAGCAAACTATTTTGGGAACCTTCAGAAAGGTGTGCTTCCTGAAATTCTGGGCCGGCTTCCCACTGGGCAGCGAGCCACTACTTTGCTTGAGCTAATGACCATAAGGGCATTCCATAGCAAGATCTTGCGTCGTTTTAGCCTTGGAACTGCAATAGGATTCCGAATCCAGAAGGGTATGTTGACAGATATCCCTGCTATTATTGTCTTTGTTGCACGCAAAGTTCACAGGCAGTGGCTCAGTGATGTTCAATGTCTACCTGCTGCACTTGAGGTTGGAAACTCAACATATCGAGTTTTTATTTTTACCTCTATTAGAGGTTGTTCACTGAGACCTTATTTCAGTACTACCTTCAAAAAATCATTTTTGGTGCTGAGAAATCATAGAAAGATTACTAATGTCTATACTTCATGTGAGGCCCATAAATTTATTGGGCTTGAATATCTTTTCTAATATTTGGCTGGTTCTTTCATTCTTTTTCTTCTTAATTTTCCCCAAAAATGATCACTGGGGACAGGGACCTGGAGGTATATGGTGCGATGTTGACGTTGTGGAGTTCTCCTATTATGGGGCTCCAGCAGCTACACCTAAAGAAGAAGTATACACAGAGCTTGTTGATGGGCTGAGGGGAAGTGATCCAACAATTGGTTCTGGTTCCCAGGTAATTTTTTTATTTCATCATTTTCAGAAATGAAAAATTCTTGTATGCATGCTTGTTAACCGTCTAGGAAAATGCTTATCATAGTTGGTTCGTGAAAGACAGTTTCTGTAGCTTATTTTCTTATTAACGGATATGGCTGTTCGAGAGTGGACAATGATTTTTTTTAGAAAAAGAAAAAACTCCTGGATGCCTCATTTCTATAAAGTCTGGTTCTTCTACCAGGTCTTTCTCTACTCGGTCTCTGTTTTGAGTTAGAAGGTTGACGTTAATAACATACTTTTCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCAAAGGAAAATATAAATTTCTCCACCCAGAAGGTTCCAAAGAAATTCAGATTTACCCATTCTTACCATTTTCTGATTTTCATACAGATTGTCAATGAAAATTCCGTAAACCTTCCATCTTAAGATTTCTTTTATGTCGTGTATTTTATAATAGAATATACTTTCCTTCTAATTAATTCATTACTATTGCTTATAAAAATGATTTCACAATAATCAAATATTGTGATTTAAAATATTTAGAACTCTCATAAAAATTTGAAATACTTAAAACTAGATAACAACATGAAATAAATTTATTAGGGGTCGTTTGGTTCATGGCCAAGAAGCACAGATATGGATATGGAACAAAACACACACATTGATACGTCAATTTCTTAAAAAGTAGGACATGGCCTCATTGGGGACCCATTTTTCTCTTTATATACATACATATATATATAATATGTCTTAGTACCTCTTTGCAGATAAAACATGTAGGTTTAACAAAAAACAAAATATACTTCACTAAAAACATACAAAGTTAAGTCAATTGACGATATTTTTCAAGACAAGCCTCTTTCTTCGTTGGATCGTTGCTTTAGGCTGCTATTCTGGAACAATATTTCTATAATCATATATCTGCATGCTGAAGGAAATAGAGCGGTACCCTTTATGTAAATGAAATTACTCTGACAAGGTCTTGTATATCTTGAAACTTATTATGACAAAAGCTCGTTGCTGTTAGCAATGTTAGCCAAGTCTTTACTAAAATGGGAAATCAGATTTGATTTGTCGTTATATTTGCTCATTATGTACCCAAAATTCATAAATTGCAAGGAAAAGTGAATAGTTTTGTTAGCTATTGAATTTGGAGAGTTATTCCATTAGTAAAATTATCAAGAAACATCCTCCAAGAATAGTTTGTGGCAACATATTACATCAACTCTACGTGGACATTAAATTTGTGAAGATTTCATGTGTGCAACCTTGAAGAAAACTTTTACGGTCAACCTGAACACTAGCTCCAACAGTTTGTAAGTAATCTCACTCTATCATTATCAGGATAGTTAAGAAATAATAGGGTTTTTACACGGGTGGAGAGGGACCCTAGTGAGGTTTAGTCTCTCGTTTTTTTCACGTTTATTTGTGGGGTTCGGTTTTGAAGGCTTTTTGTAACTACTTTATAGGAGTTATTTTGCTTGGTTGGAGTCCCTTCTTGTAGGAGGAGTTCCTTTCTTTTGTGGGCTGGTTTTTTGTTATTCCCTTGTATTCTTTCATTTTTTCTCAATGAAATTGGTCGTTTTCATCAAGAAAAGTTCAAAAATAAATCAACTAATGTAATCTAACGATACTTTGGTTTCATAAGGTATCGATTGCCTTTAAACACAGTGCACATAATATTCAGATATTAAAGGTTATGTATTAAAGTTTACGTGAATTTAAATCTCCAAGGGCATGAAGATAAAATGTGATCTTAACTGTTGAAAAAGCACAACCATCATGGGTAGGCCTAGTGGTAAAAAAGGAGACATAGTCTCAATAAATGGCTAAAAAGGTCATGAGTTCAATTCATGGTGGCCACCTACCTAGGAGTTAATAGCCTACGAGTTTCCTTGACACCAAAATGTTGTAGGGTTAGACAGGATGTCCTGTGAGATTAGTCGAGGTGCATGTAAGCTAGCTTGGACACTCACGGATATAAAAAAGAAAAAAAAAAGGGTTGAAAAAGCACAGTTGTCGCTGCAGCAACTTTTGTTTTATGAATAACAGTTTTGTTTTTCTAGATTCTTTTTCGAACTTGATATAAAAGGAAGTGTGATGGTATTATTTTGTTAATTATTTGATGACATTTGACCAGACCTCACTTATGTTGAATCATGTGCACCATTGATGAAGGTGGTTAACCATCTGTCACCATTCCTCATCTCTTCATATCCTAAAACTCTTTACCTAGATTAAATGTTTTTAGTGGCGACTGGCAACTTGTGAGATAAAATGATCAAATAATTGTCCGCTTCGAACCCCCTTGGACTGCTTGTCTGGACTCAGCTAGAATTCTTGCTTCTTCATGGTGTTCTCTATCCAAGGCTTTTTCTAATTATTCTATTTAGGATATTAGTTGAATTGGAGTGCTTTTACAACCTTACTTGAGTAGGATCTATTCTATAGGTTGTACATATGTGTCCTTGAGTTCTAAGTTGAATTGGAGTGCTTTTATTTTCTCTGTATAACTCTGGTTTACCCTATATTGTAGTTTTATTTTTAGCTACCATTTTTTGTATTTTGAGCGTTAGTCTCTTTTCATTATATCAATGAAAGGTCTTGTTTCCTTTAAAAAAGGAAAAAAGAATTGTGCACTTTGAACCATTTTTGAAATGCCTTTGACTTATTCAAGATTATGAAAGTTAATCCTGCTCAAATCGTTGAAATGCCTTTTGTTAATGACACCTTGTTCTTGCAATGATTTTAGCAACTGATCAGTAATGATGATTTCTGTAAATTTAATGCAAGCGTTCCTACCTTTCTTTTTGAAGGAAAATTTTCCTCGAGGATACATAAGGCAATGCAAAAAAGTTTTATTGCCAATATTTTCATTAATCATGCGTCTACTTCAAGACCTTCATTTTTTCCTAACTAGATCTAACAAAGTTGCCTGGAGCAAGTTTTTGTGCTGTGCTACACTTTCCGAACCATAGGACATACAAATAAACCATAGTGGTAGGTGGACTGTAGTAGGCCGGTTATATTTTAAAAGCCATATCTTTTCCATAATGGTATGTTTTGCTTGGATTTGTTATTTAGCTATGTTTTAGTGCATTTCTTATTTATATTTCTTAGTTTGTGGTAATTGATATAATGACTTCTTGCTTTGTAGGTCGCTAGTCAAGAAACTTATGGGACTTTGGGTGCAATTGTAAAAAGCCGGACAGGAACTCGGCAAGTTGGTTTCCTTACAAACCGGCATGTTGCAGTTGATTTAGACTACCCTAGTCAGAAAATGTTTCATCCTTTGCCTCCCAGCCTCGGACCTGGTGTTTATCTGGGTGCTGTGGAGAGAGCAACGTCGTTTATCACTGATGATGTCTGGTATGGCATCTTTGCTGGAACAAATCCAGGTAATAAAAATAGTGTATTCTGAAATACACCTCGGCCTTCATGAAATTCTGCTTTTCTATCTTTTCTAGTGTAGTGGCTTAGATTGCTTCCGCATCATGGTTGCTGAAAGCCAAAATTTGTGTAAGTTGTTTTATTTAGGTTCCCCAATCATATCTTTTAGGGATATTGTGAGTTGTACAACAGTGTTTCTCTCTTTTCCTCCATATCTTATAAAATTTGTGCAAGTTATTCTTATTTTTTTATTATTTTTTTCATTGTTTCCTTTCTCAATTTTTTTTTCTTGTGTGACATGATACTGACAACTTACTTGTATATGAAGGCAGATCACATAATCAATAGCTTCATTACCACTAAGTCACGTTCTTCTCTTCACGTAGAATCTATGAGCATGTGGTTTATTGATTTTTATGGAAATCAAAGGCTGTCATTAATTAATTGGGATATTTTAGCTGCTGTGTTGGTTTGAGCGTCCACTTTCATCTTGATTCAAAACTGTTTTACTGGTATGTATATTTATATGATGAACTCTGTGCATACACATCGCAATTTGGTGCCTCCTGCAGAAACATTCGTGCGAGCTGATGGAGCGTTCATTCCATTTGCTGAAGATTTTAACATGAATAATGTCATTACATTTGTAAAAGGCGTTGGTGAGATTGGTGATGTCAACAAAATAGACCTGCAATCCCCAATCAACAGTCTTATTGGACGAAAGGTGATCAAGGTTGGAAGAAGTTCAGGCTTGACTAGAGGGACTATAATGGCATATGCCCTCGAGTATAATGATGTAAAAGGGATTTGTTTCTTCACCGACTTTCTTGTTGTTGGAGATGACCAACAGACATTTGACCTTGAAGGTGACAGTGGAAGCCTTATTCTTTTAACTGGTCAGGATGAGGAAAAGCCACGTCCAGTTGGGATTATCTGGGGAGGAACAGCTAATCGCGGTCGACTGAAATTAAAAGTTGGTCAGCCACCAGAGAATTGGACCAGTGGAGTTGATCTCGGACGCCTTCTTGATCTCCTTGAGCTTGATCTTATTACTACAAATGATGGTTTACAAGGTTTGGTTATCTTAACCAATCAGTAGAGCCATTTTAGATTTGTGGTTATTTTTTAAATTTTACCACGTTTTTAAAACAAACCAACTAGTTGCATGTGTTGATATTTGAGTGTGGTAATGCTGATGAAGTTTTGGTGTTTTATCAAATTATCATAGAAAGAGTTTATGAAGTCTTATCCAAGTCATAGATATTAAGTTGTTGAGGTTTTTTTATCTTAGATATATATTTAGTACTGGTCTGATGTCTAGCTGGGGAGGGAAAGCAATAAACATGCATGATTTTGATGTATACATGCCAATTTATAGTATGGATGGTAGAAAACCCCATTTGGTTGGGGATAGAAGAATTAGACCAATGGAACTAGTATAACAA CTTATTACTTGTTTTTCTTTCTGGATTTTGGGTCTCTCCCTTCACAATGGTATCCACCATGGTTCCATATTTTCTTCAACCTTTAGTTGCAGAAATAAGTGACTTTTTGGCTTTGATAAAGTGATTCTGCAGTGCATACTAATCTCCAAAGGGATGATGGGTAATAAGGTGGGAAATCTGTTCTAGGGCATGAAAACCCTTCATTCCGACTCCTCTCCATCAGAGCTCCCCCTTTGCTGATCGTCATTGGAGAGCTGAAAGATGGACAGGACAAGACTGGATTTAAGCTTTCATCATTCAGTATCAACACAATCAGAGGAATCTGCCTTGGACTTAGAAAGGAATGATTGCAGTCATCGTAATATGCCTTCATCAAGTCCATCACCCAGTCAATGTTTTGCTCCGGGTAGTCAGCTGTCTGAGACCAATGCTTATTTTTCATGGCCCACTTCCAGCCGTTTAAACGACGCTGCAGAAGATAGAGCAAACTATTTTGGGAACCTTCAGAAAGGTGTGCTTCCTGAAATTCTGGGCCGGCTTCCCACTGGGCAGCGAGCCACTACTTTGCTTGAGCTAATGACCATAAGGGCATTCCATAGCAAGATCTTGCGTCGTTTTAGCCTTGGAACTGCAATAGGATTCCGAATCCAGAAGGGTATGTTGACAGATATCCCTGCTATTATTGTCTTTGTTGCACGCAAAGTTCACAGGCAGTGGCTCAGTGATGTTCAATGTCTACCTGCTGCACTTGAGGGACCTGGAGGTATATGGTGCGATGTTGACGTTGTGGAGTTCTCCTATTATGGGGCTCCAGCAGCTACACCTAAAGAAGAAGTATACACAGAGCTTGTTGATGGGCTGAGGGGAAGTGATCCAACAATTGGTTCTGGTTCCCAGGTCGCTAGTCAAGAAACTTATGGGACTTTGGGTGCAATTGTAAAAAGCCGGACAGGAACTCGGCAAGTTGGTTTCCTTACAAACCGGCATGTTGCAGTTGATTTAGACTACCCTAGTCAGAAAATGTTTCATCCTTTGCCTCCCAGCCTCGGACCTGGTGTTTATCTGGGTGCTGTGGAGAGAGCAACGTCGTTTATCACTGATGATGTCTGGTATGGCATCTTTGCTGGAACAAATCCAGAAACATTCGTGCGAGCTGATGGAGCGTTCATTCCATTTGCTGAAGATTTTAACATGAATAATGTCATTACATTTGTAAAAGGCGTTGGTGAGATTGGTGATGTCAACAAAATAGACCTGCAATCCCCAATCAACAGTCTTATTGGACGAAAGGTGATCAAGGTTGGAAGAAGTTCAGGCTTGACTAGAGGGACTATAATGGCATATGCCCTCGAGTATAATGATGTAAAAGGGATTTGTTTCTTCACCGACTTTCTTGTTGTTGGAGATGACCAACAGACATTTGACCTTGAAGGTGACAGTGGAAGCCTTATTCTTTTAACTGGTCAGGATGAGGAAAAGCCACGTCCAGTTGGGATTATCTGGGGAGGAACAGCTAATCGCGGTCGACTGAAATTAAAAGTTGGTCAGCCACCAGAGAATTGGACCAGTGGAGTTGATCTCGGACGCCTTCTTGATCTCCTTGAGCTTGATCTTATTACTACAAATGATGGTTTACAAGGTTTGGTTATCTTAACCAATCAGTAGAGCCATTTTAGATTTGTGGTTATTTTTTAAATTTTACCACGTTTTTAAAACAAACCAACTAGTTGCATGTGTTGATATTTGAGTGTGGTAATGCTGATGAAGTTTTGGTGTTTTATCAAATTATCATAGAAAGAGTTTATGAAGTCTTATCCAAGTCATAGATATTAAGTTGTTGAGGTTTTTTTATCTTAGATATATATTTAGTACTGGTCTGATGTCTAGCTGGGGAGGGAAAGCAATAAACATGCATGATTTTGATGTATACATGCCAATTTATAGTATGGATGGTAGAAAACCCCATTTGGTTGGGGATAGAAGAATTAGACCAATGGAACTAGTATAACAA ATGGACAGGACAAGACTGGATTTAAGCTTTCATCATTCAGTATCAACACAATCAGAGGAATCTGCCTTGGACTTAGAAAGGAATGATTGCAGTCATCGTAATATGCCTTCATCAAGTCCATCACCCAGTCAATGTTTTGCTCCGGGTAGTCAGCTGTCTGAGACCAATGCTTATTTTTCATGGCCCACTTCCAGCCGTTTAAACGACGCTGCAGAAGATAGAGCAAACTATTTTGGGAACCTTCAGAAAGGTGTGCTTCCTGAAATTCTGGGCCGGCTTCCCACTGGGCAGCGAGCCACTACTTTGCTTGAGCTAATGACCATAAGGGCATTCCATAGCAAGATCTTGCGTCGTTTTAGCCTTGGAACTGCAATAGGATTCCGAATCCAGAAGGGTATGTTGACAGATATCCCTGCTATTATTGTCTTTGTTGCACGCAAAGTTCACAGGCAGTGGCTCAGTGATGTTCAATGTCTACCTGCTGCACTTGAGGGACCTGGAGGTATATGGTGCGATGTTGACGTTGTGGAGTTCTCCTATTATGGGGCTCCAGCAGCTACACCTAAAGAAGAAGTATACACAGAGCTTGTTGATGGGCTGAGGGGAAGTGATCCAACAATTGGTTCTGGTTCCCAGGTCGCTAGTCAAGAAACTTATGGGACTTTGGGTGCAATTGTAAAAAGCCGGACAGGAACTCGGCAAGTTGGTTTCCTTACAAACCGGCATGTTGCAGTTGATTTAGACTACCCTAGTCAGAAAATGTTTCATCCTTTGCCTCCCAGCCTCGGACCTGGTGTTTATCTGGGTGCTGTGGAGAGAGCAACGTCGTTTATCACTGATGATGTCTGGTATGGCATCTTTGCTGGAACAAATCCAGAAACATTCGTGCGAGCTGATGGAGCGTTCATTCCATTTGCTGAAGATTTTAACATGAATAATGTCATTACATTTGTAAAAGGCGTTGGTGAGATTGGTGATGTCAACAAAATAGACCTGCAATCCCCAATCAACAGTCTTATTGGACGAAAGGTGATCAAGGTTGGAAGAAGTTCAGGCTTGACTAGAGGGACTATAATGGCATATGCCCTCGAGTATAATGATGTAAAAGGGATTTGTTTCTTCACCGACTTTCTTGTTGTTGGAGATGACCAACAGACATTTGACCTTGAAGGTGACAGTGGAAGCCTTATTCTTTTAACTGGTCAGGATGAGGAAAAGCCACGTCCAGTTGGGATTATCTGGGGAGGAACAGCTAATCGCGGTCGACTGAAATTAAAAGTTGGTCAGCCACCAGAGAATTGGACCAGTGGAGTTGATCTCGGACGCCTTCTTGATCTCCTTGAGCTTGATCTTATTACTACAAATGATGGTTTACAAGGTTTGGTTATCTTAACCAATCAGTAG MDRTRLDLSFHHSVSTQSEESALDLERNDCSHRNMPSSSPSPSQCFAPGSQLSETNAYFSWPTSSRLNDAAEDRANYFGNLQKGVLPEILGRLPTGQRATTLLELMTIRAFHSKILRRFSLGTAIGFRIQKGMLTDIPAIIVFVARKVHRQWLSDVQCLPAALEGPGGIWCDVDVVEFSYYGAPAATPKEEVYTELVDGLRGSDPTIGSGSQVASQETYGTLGAIVKSRTGTRQVGFLTNRHVAVDLDYPSQKMFHPLPPSLGPGVYLGAVERATSFITDDVWYGIFAGTNPETFVRADGAFIPFAEDFNMNNVITFVKGVGEIGDVNKIDLQSPINSLIGRKVIKVGRSSGLTRGTIMAYALEYNDVKGICFFTDFLVVGDDQQTFDLEGDSGSLILLTGQDEEKPRPVGIIWGGTANRGRLKLKVGQPPENWTSGVDLGRLLDLLELDLITTNDGLQGLVILTNQ
BLAST of ClCG01G025780 vs. TrEMBL
Match: F6HFS4_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_01s0011g01870 PE=4 SV=1) HSP 1 Score: 835.1 bits (2156), Expect = 4.2e-239 Identity = 412/463 (88.98%), Postives = 438/463 (94.60%), Query Frame = 1
BLAST of ClCG01G025780 vs. TrEMBL
Match: A0A067GFG4_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g007436mg PE=4 SV=1) HSP 1 Score: 823.5 bits (2126), Expect = 1.3e-235 Identity = 409/467 (87.58%), Postives = 435/467 (93.15%), Query Frame = 1
BLAST of ClCG01G025780 vs. TrEMBL
Match: A0A067GCH0_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g007436mg PE=4 SV=1) HSP 1 Score: 818.1 bits (2112), Expect = 5.3e-234 Identity = 406/463 (87.69%), Postives = 432/463 (93.30%), Query Frame = 1
BLAST of ClCG01G025780 vs. TrEMBL
Match: V4U7L1_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10014649mg PE=4 SV=1) HSP 1 Score: 818.1 bits (2112), Expect = 5.3e-234 Identity = 406/463 (87.69%), Postives = 432/463 (93.30%), Query Frame = 1
BLAST of ClCG01G025780 vs. TrEMBL
Match: A0A061GKE6_THECC (Trypsin family protein isoform 1 OS=Theobroma cacao GN=TCM_029390 PE=4 SV=1) HSP 1 Score: 817.8 bits (2111), Expect = 6.9e-234 Identity = 407/463 (87.90%), Postives = 433/463 (93.52%), Query Frame = 1
BLAST of ClCG01G025780 vs. TAIR10
Match: AT2G35155.1 (AT2G35155.1 Trypsin family protein) HSP 1 Score: 753.4 bits (1944), Expect = 8.1e-218 Identity = 372/450 (82.67%), Postives = 408/450 (90.67%), Query Frame = 1
BLAST of ClCG01G025780 vs. TAIR10
Match: AT5G45030.1 (AT5G45030.1 Trypsin family protein) HSP 1 Score: 748.8 bits (1932), Expect = 2.0e-216 Identity = 378/469 (80.60%), Postives = 413/469 (88.06%), Query Frame = 1
BLAST of ClCG01G025780 vs. TAIR10
Match: AT3G12950.1 (AT3G12950.1 Trypsin family protein) HSP 1 Score: 617.1 bits (1590), Expect = 9.0e-177 Identity = 308/416 (74.04%), Postives = 362/416 (87.02%), Query Frame = 1
BLAST of ClCG01G025780 vs. NCBI nr
Match: gi|449433481|ref|XP_004134526.1| (PREDICTED: uncharacterized protein LOC101202735 isoform X1 [Cucumis sativus]) HSP 1 Score: 911.8 bits (2355), Expect = 5.0e-262 Identity = 453/463 (97.84%), Postives = 458/463 (98.92%), Query Frame = 1
BLAST of ClCG01G025780 vs. NCBI nr
Match: gi|659077899|ref|XP_008439446.1| (PREDICTED: uncharacterized protein LOC103484249 isoform X1 [Cucumis melo]) HSP 1 Score: 911.8 bits (2355), Expect = 5.0e-262 Identity = 453/463 (97.84%), Postives = 458/463 (98.92%), Query Frame = 1
BLAST of ClCG01G025780 vs. NCBI nr
Match: gi|778721848|ref|XP_011658364.1| (PREDICTED: uncharacterized protein LOC101202735 isoform X2 [Cucumis sativus]) HSP 1 Score: 910.6 bits (2352), Expect = 1.1e-261 Identity = 452/460 (98.26%), Postives = 457/460 (99.35%), Query Frame = 1
BLAST of ClCG01G025780 vs. NCBI nr
Match: gi|659077903|ref|XP_008439448.1| (PREDICTED: uncharacterized protein LOC103484249 isoform X2 [Cucumis melo]) HSP 1 Score: 910.6 bits (2352), Expect = 1.1e-261 Identity = 452/460 (98.26%), Postives = 457/460 (99.35%), Query Frame = 1
BLAST of ClCG01G025780 vs. NCBI nr
Match: gi|297737962|emb|CBI27163.3| (unnamed protein product [Vitis vinifera]) HSP 1 Score: 835.1 bits (2156), Expect = 6.0e-239 Identity = 412/463 (88.98%), Postives = 438/463 (94.60%), 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.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of watermelon (Charleston Gray)
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: None |