Cla008755.1 (mRNA) 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.ATGTCTAACAAAAGTTTTTCCATGGCCTCTGTTTTCAGTTCATTGTCAGAAAGCTTCCGGAGAGTGCCTCCAATGGCAGTTCCAGCTATTTTGGATTGCCTTTTTGCTTCTACTGGGTTATCCCCATCTGAGCTTTTCGATTCGCTTCTTCAGACTTTTCCCAAAAACATTGATGTACTGCTACGAAAAATCCCACTTTGTCAATTGTAATATAATTTTGGGTTGTGAAAAAAAAAATGCAGGCAAATACATATTGACCATGGGGGGAAATTAACTTTTCATGTCTGTGATTTATTTATCTATGTGTGTTGCATCTATATATGTTGTTGTTGGTTTCTTATAGTCATGAGTTACTGTAATTTGAACTTGAGGTTGGCTGTAATTTCATCACTGCCAGCTTTAAAATTGTTTAATAATGGTGGAATGGGGTGAAAGATAATTGAAGTTGTTGTTTAAGCTGGGAAGTAATTGTTTTGGATAGGATGCTTCCACGAAGGAGGGAAAGCTTGATGCTGATCAATGTAATTACATCACATCTTTGGTCTGCGCGCTGTGCCACATACTAAAAAAAAATGGTCAGTCATCATCTGCACCCATAGTTTTCCTAATGATTGTCCTTTTAATCTTCACATAGGGTCGTGTAATTTTTTTTAGCAAGAAACAAGACTGTTCGTCAATGACAGTACTTTATACTCAATACTTTATATCTTATACTCTAGAAGTGACAACTCTACTGTCAAAATCCAATCGATTTGTTTGTCCTCTGTCAAAAAAGAAAAAAATGGAAGGGAAAGAAGTTTTACATGTCTCAGTACTCTTCTAGAGTAGGGTTTTTCAATATTATGTTGGAGTTTCTTTTGGGTCATAATGTGTGCTATTACTCCAGCTATTCAGATTAGGGGGAGGATAGAATGTTTAAGGCTGTAATGTGCTGTAAATCATATGGTCAACTGATTTAATCCTCAGGTGCTGATCCTGATGCTTTGAAGTCATTCATATGGAAAAGTTTCGTTCCTTTGATAAATAAGGCAGCTACATTGAGTCGGGAAATGCTAAATCAGGTACTATTTTTTATAAGCTTGTTTGATTTGATGATAACTGGACCTTCAATTTCCAACTATGCTAGTGCTTTATGCTAATTATCTTGTTGGCTTCATTTGTTAATATTAGGTCTCTGAATCATTCATTGATGTTGTAACTGAGATGAACTCATGGCCAATTGTTGAAGCAACCCTGATTCCGTTTTGTATAAGTTCAGCTCTTTGTTCCACGAGTGTGCTGCAAAATGTTGAGTTGGACACCTTTGAGGGTGACAGATTTCCTGTAATTTTGGGCTCAAATGTCCCTGTTCACGAACCTAGAATGGATAATCAGACGATGGATGGCTGTGGGTTCCTTCAATTACCATTAGCGTGCCATGTTTTGGCTATAATGTTAGATGCTGTCCTTTGTAATAGACAAGCACCACATACATCAGATATAGCGGTGTCAAATGGGTACCAAAAAGCTGAAGAGTTTACTGTTAAACTAATTTGGGATATTTGCAATTTATCTGAACAAATGCTCTTACATAGCTCGGATCATCGATCTTCTGCCATTTGCTACCTTCTTCCAGTAATCTTTGAAGCACTTCTTTCTCACCATTCTTTAGAGATTTCCATTCAAGGTCATGCATGTAATCTCTCCAGGTTAGGCTTACAAGTTCTTTCAACTTTATGCTTCAAACATGTAGCATGTCCTAGATTTAAGAATTCCGTTTCACCTCATTATTCTCTTAATGCACATGATTGTCTTACAGGAACCAATTCCTCATGAAAATATGGAAATGTTGCAAAAAACTATTTTCATTTGGAACTTTGGAGAGAAGAGATGCCTACAGGATTTTGTCTCTTTATTTGTGTTTTTTCCCTCACAATGAAGAGGTTGGAGGTGCTGGAATGCGTGATGACGGAGAAGAATTTGACATAAAGGCCGATAAAGATTTTTGGGATGAAATTAAAAGAGGCTTGGTACTCAAGCATGCCTTTGATTGTTTCTTGTTGATTGAGATTCATTTACTTGTATAATTAAGGATTTTAGAATGACTTAAAACAATTTTGTTTCATGTTTGTTTCTAAATGGTTGGGTTGATTATGTTTGTTTGCTGAGCCTGTTTAGGTGGATAAGGAGAGCTCGGTGAGGAAGCAATCACTACATATATTGAAGAAAGCGCTATCTTTAAATGAAAGAGTCAACACATCTACGGTTCCAAAGACAATTTCAAGTGGAAAAGATAATAATGTTCGAGGTATTACCAAAAGGGAAAGATGGGCCAATAAGGAAGCAAATTCACTGGGTGTAGGGCAAATTTGCAGCCAACATGAAATCGTTACAAATAGCCGGCAGCAACAGTGGGAAGCATTCATACTTCTTTATGAAATGCTTGAAGAATATGGTTCGCACTTGGTTGAAGCTGCTTGGAGTCACCAGGTTCATTCACATTTAATGTCTTCTCAACATTCATCATCCGTTCTCAACGTTCACACACACACACACACACACACACACACACACACAATCAGACATTTAGTCTTAGGTGGATGCCTAGCTCTTCTCTTTTAGTCTTTCATGTTGTGTATACACCTGTGTTATGTATTTTGGATGTACGGTAGTATCACTTCTGTTCTTTTTCTTCGCTAATATATAAATCAAATGAAGTCTCACCGTGACAAAGCACTGTTTAGATGAGCTATTGTGGAGGAAGCAGATTTATTGTGTCAGTACAAAAGGTTGGCAACATTAGGCATTTTTGAGTCCAAGTTCAAACGATGGAATAAACTTTTATAAGGTGACGTGTGTGTAATTTCTTGTTATGTGGATGATCAAGATTCATAACCTCCTCCTCTCTTTATGGAAAGGTGAATACTTTAAGATGAATGAAGATGGTGTTAATAGCTTTATCAGATAATGAGATAAACAATTTTTGTGGAGGTCTTCATTGAAATTAAAGGCAATTATTTTAGCTTTATCCCCGCTGATATTGAATTAGAGAATGGAAAAAGGGAGTGAAGTTTTCCAGTGAAGTTGTAGTGGTTTGCACTTGTGGATGTTTCTTCTTTGAGGCAGCCATCAGACAGTCTCTCTGATGAAGAAGGTCATTGCCTAATGACAATGTATACTAGATACTACATGTACTCATTGGATAAAAGGCATGGGTTCAACTTTTCTGGTTTTCTGTACAATAGTACTTTGGATGGGTAGAAGACAGAGGTCTGGTTTAAGAGGCAAGTGTTCGAGGTCAAATAATGTTGATATTTTTGACAGGCAGGAAAATGATAGCCCTAAAGGAGAGGCGGGCCTGGAGCATTTGCAAACTGTAAGCCCATTATAGAAGCAAGAAGTTGAATTCAACAAAGAATATCTTGCTGAAATTTGGTTTGAGAGGAACCAAAGAGTATTCCAAGACAAATCAACTCCTTGGTTGGACATATTTGAGATAGCTTGACTTAATACTTCTTCTTGATGCACCCTTTCCAGTTCCTTTGCAGATTTCTCTGTCCAAGATCTTTGCTTAAATCAGAGGACGTTCATTTTTCCAGCTTAATAGTTTATGTTTTCAGCTGCATTGTTTGTTTGTTATTTCTTTTTATTTCCATCTTGTATTGGTAGAGGTTATCTACTTGCAAATTCTAGTTTTGTTTTGCCCCATTGTATTCAGGGTGTATTTTTGTTCTGTTGGACTGCTTATTAGCCTTTGGATGTCTTTCTTTTTGTTCGGAGATGATGAGAGTGCTAAGGGGTGTCAACCTAGTTTAGATGTCCGAGTGCACTCACCGATCCTTAGGTTTTGTACTCTTGTATCCCTCTTTGTAACTTGGGCATTAGTCTCAATTCATTATTCAATGAAGAGACTTGTTTTCTTTTTTAGAAAAAGAAAAAAAAAGGTAAATAAAGTCCACAAGCTCAGACAGCTTGAAGTCAAAACCCAAGGAGTTAGACGGTTAAAAAGTAGATTGTGTAGCTCCATTGCAAGCATTAGTAGCCTGAAGATCCAGTGGGTCTTTGATAATGATGCAAGTCGGAACACCATCCAATTATCATAATTTATACGGGCTGGTTTTATCTCCACATGGTCATTTCTTTGGGTCAATACTGTCAAAGCTTTAATTTTAGAACTATAGTTTGAGGGAAACCATAGGATTTTTAAAGACAAGTCTAAAGCTTGGATGGAAAAATTCAATAAAACTATATCCAAAGCATCTCATTGGTGTTCTCTTTCTAATACGTTTGCTAATTATTCTCATAGTGATTTTTGTATAAATAGGGACATGTTTAGTTTCCTTACTAGGTTTTAAGCTCAAGTTTACTCCTGATCCCTCTTCAAGTACCACCCACAACATTCTCCCCTTTCCCAACAAACACACTATCTTTCGCTTCAGTATCAAGCACTCAACTGCCATCATTGCTTTACCATCGGATGTTGACACTGATGCCTATCTGTCTACCCCCATTTCTACTCACCTGATTCCCAATCCTTCTTCCATCTATGATCACATGGGGAAAATTGGTATGATTTTGTCCATTCTTCAACTGTTGGTTCGTTTAACCCAACTCCACATTTGATTGCTTTGACCCCTTGGTTTAGAGATCTTGGTCTTTGCATAAAGGCGATCCCAACAAAGAAACAACCCAACTGGTTTTCAGCAAAGAAAAAAGAGGCTCGAGAGAATTATGAAATCTAAAAAGCTATTTCTTATGGCAAAAAAACACAATCATTGGTTAGAAAGGGGTTTGACCCTAGATCATAAAGATTTTTTTTTGGGATGCCAACTCTGTTATTGATGGAACTCTTTCCTCTCTAGTGGGCTACATGGAGTATTGGTCATAATTGTTTTGACACATCTTCCTCAAGATTGTTGTGCTGCTTTTTTTTGGTCCAGTCTGCATTGATTGAATTTCATCTTTTTTGGATTGGCTTGTATCTTTAACTATCCTCTCCTTCTACATCCTTGATTGAATTTTTTTTTTTTCTTTTGAGTTCTGCATTTGTTTATATTTGGGTGATATCTCTATTGGGTTTATCCCTTTTGTACTTCTTGATATTTTATTCATCAATGAAATTGTTACTTATCCAAAAAGATTTTATTTCTTACTTTCACTCCCTTTGAGGTTTTTATCCTTTGAATATTTTTGTATCTTTTCATTATTTCAATGAGAAGTTTTTATCTTGTTCAAGATAGGTGTTTGAGGACAAGTGTAGTGATGTCGCTTTTGATTCCGTTTGCTTCAGGGTCCCCGAATGTCTCTCACTTTTCAAGTTTCTTTAGTTATTCCATTTTCTTGATTCATTTGGAGACCGTTTGAAATATCCAGTCTTTGGATGATGGGGGATGCGTTGTCCTCTTGTGTCGATTGTTTCATACCTGAAATTTCCTATACAAACAAGAATTTCGTGGTGTATAAACGAAGCTAATGATTGTGCCATCTAAGAAGCATAATATGGCTACCCCATCCCCGAGAAGCTTAATGTGGGTTAGGTGGGTGGTTTAGGCTTATGCTTATTTTGTAGTTTGGAATTAGTATTTAGGTGTTAACTATCTTATCGTTAGCTCAAGAAAGTTCTTTTACAAAGGGCGTGTACGTTATATGGAATAATTTAAATGTTTGGTAACCAAATGTATTTTAAACCTTGCATGTGCTCGAAAGAATTTATTATTTTGCCCTGTAATACCTAAGTTTACCCGCCAAGGGGGTATATTGTCTCTCTATTGATATTCATTTTTAATTTAACTGGGGGATAAATATTTCATTTCTCCTTTTGTCCCTACTTTTTTTATTTATTTCTAGTTTATCTAATAAATGGTATTGATTATGTTTGCTTTAATAAATCACAACCTTATTTGAATTTTATCTCTTTTCTTGGTTGTAAAAGTATGTTCTCGGGTTCCAAAACTGCTCTAATAAATCAGTTCATTATGTCAATTTGCTCATGTACAATGTGACCATCCTCAAGTCATACTGTTAGGCATGAAAATGATAGCCATTTTTCTTACCAGATAGTCATTAAAAAAAACTCAATTTGTACCCTCTACTTAGATTGGAGGGCTTTATGACCCTTTTTCCTTTTGGAACTGGAACGCCTCAAACTTTGTTCTTTGCATATTTTTAATGGATTCCTCTTATTTCTAATTAAAAAAGAACTAAATCATTGGTTAGAAAGGGGTTTGACACTAGATCATAAAAATTTCAACCTGTTTTTCATATAAAGTTTAACTAGTGGTCTCAGTGTCGTTACTAATTACCCATGTTTTCTGGCAGATATCCTTGTTACTACAAGATCCGACCTCTATTAAATTGGGCAGCTTCAGCAGTGGCATTCATCAGAACCAAATTGAAGTGTCTGGTGAAATCTTTAGTTGGTTATCAATCTTGTGGGTTCGGGGATTCCACCATGATAATCCTTTAGGTACCACTATTTTGTTCATCAGTTAATAGTATGGGTGGGCAAAATGGAACTCTTGATGAATGTCATGCATCTTTTTGTATTAAAATTTCATGAGGTTTGCTCAATGAATTTTGTCATCCCTTCTTGTTTATTGCAGTTAGATGCTTGATCATGCAGTCCTTCTTGGCCATTGAGTGGAGGGATGAAGTTCCTTGTTTAAAGTCATTGCCAGAAACTTTTATTATTGGACCTTTCATTGAAGCACTCAATGACCCTGTGCAGCACAAAGATTTCGGTCAGTTCATAATATATTTATGTCCTCTGGGCTATCTTCCTGTTTTAAGTCAGCTTGAACCTCTTATGTTGAGACAAAGGATTCTTCTTCCATTGTTAAATAATTTGCTTAAGACATTGTCCAAAGTTCGCAATTGGATGGACAATAATTTTGTGGTGGATGAAAATGAGGATTCCTAA ATGTCTAACAAAAGTTTTTCCATGGCCTCTGTTTTCAGTTCATTGTCAGAAAGCTTCCGGAGAGTGCCTCCAATGGCAGTTCCAGCTATTTTGGATTGCCTTTTTGCTTCTACTGGGTTATCCCCATCTGAGCTTTTCGATTCGCTTCTTCAGACTTTTCCCAAAAACATTGATGTCTCTGAATCATTCATTGATGTTGTAACTGAGATGAACTCATGGCCAATTGTTGAAGCAACCCTGATTCCGTTTTGTATAAGTTCAGCTCTTTGTTCCACGAGTGTGCTGCAAAATGTTGAGTTGGACACCTTTGAGGGTGACAGATTTCCTGTAATTTTGGGCTCAAATGTCCCTGTTCACGAACCTAGAATGGATAATCAGACGATGGATGGCTGTGGGTTCCTTCAATTACCATTAGCGTGCCATGTTTTGGCTATAATGTTAGATGCTGTCCTTTGTAATAGACAAGCACCACATACATCAGATATAGCGGTGTCAAATGGGTACCAAAAAGCTGAAGAGTTTACTGTTAAACTAATTTGGGATATTTGCAATTTATCTGAACAAATGCTCTTACATAGCTCGGATCATCGATCTTCTGCCATTTGCTACCTTCTTCCAGTAATCTTTGAAGCACTTCTTTCTCACCATTCTTTAGAGATTTCCATTCAAGGTCATGCATGTAATCTCTCCAGGAACCAATTCCTCATGAAAATATGGAAATGTTGCAAAAAACTATTTTCATTTGGAACTTTGGAGAGAAGAGATGCCTACAGGATTTTGTCTCTTTATTTGTGTTTTTTCCCTCACAATGAAGAGGTTGGAGGTGCTGGAATGCGTGATGACGGAGAAGAATTTGACATAAAGGCCGATAAAGATTTTTGGGATGAAATTAAAAGAGGCTTGGTGGATAAGGAGAGCTCGGTGAGGAAGCAATCACTACATATATTGAAGAAAGCGCTATCTTTAAATGAAAGAGTCAACACATCTACGGTTCCAAAGACAATTTCAAGTGGAAAAGATAATAATGTTCGAGGTATTACCAAAAGGGAAAGATGGGCCAATAAGGAAGCAAATTCACTGGGTGTAGGGCAAATTTGCAGCCAACATGAAATCGTTACAAATAGCCGGCAGCAACAGTGGGAAGCATTCATACTTCTTTATGAAATGCTTGAAGAATATGGTTCGCACTTGGTTGAAGCTGCTTGGAGTCACCAGATATCCTTGTTACTACAAGATCCGACCTCTATTAAATTGGGCAGCTTCAGCAGTGGCATTCATCAGAACCAAATTGAAGTGTCTGGTGAAATCTTTAGTTGGTTATCAATCTTGTGGGTTCGGGGATTCCACCATGATAATCCTTTAGTTAGATGCTTGATCATGCAGTCCTTCTTGGCCATTGAGTGGAGGGATGAAGTTCCTTGTTTAAAGTCATTGCCAGAAACTTTTATTATTGGACCTTTCATTGAAGCACTCAATGACCCTGTGCAGCACAAAGATTTCGGTCAGTTCATAATATATTTATGTCCTCTGGGCTATCTTCCTGTTTTAAGTCAGCTTGAACCTCTTATGTTGAGACAAAGGATTCTTCTTCCATTGTTAAATAATTTGCTTAAGACATTGTCCAAAGTTCGCAATTGGATGGACAATAATTTTGTGGTGGATGAAAATGAGGATTCCTAA ATGTCTAACAAAAGTTTTTCCATGGCCTCTGTTTTCAGTTCATTGTCAGAAAGCTTCCGGAGAGTGCCTCCAATGGCAGTTCCAGCTATTTTGGATTGCCTTTTTGCTTCTACTGGGTTATCCCCATCTGAGCTTTTCGATTCGCTTCTTCAGACTTTTCCCAAAAACATTGATGTCTCTGAATCATTCATTGATGTTGTAACTGAGATGAACTCATGGCCAATTGTTGAAGCAACCCTGATTCCGTTTTGTATAAGTTCAGCTCTTTGTTCCACGAGTGTGCTGCAAAATGTTGAGTTGGACACCTTTGAGGGTGACAGATTTCCTGTAATTTTGGGCTCAAATGTCCCTGTTCACGAACCTAGAATGGATAATCAGACGATGGATGGCTGTGGGTTCCTTCAATTACCATTAGCGTGCCATGTTTTGGCTATAATGTTAGATGCTGTCCTTTGTAATAGACAAGCACCACATACATCAGATATAGCGGTGTCAAATGGGTACCAAAAAGCTGAAGAGTTTACTGTTAAACTAATTTGGGATATTTGCAATTTATCTGAACAAATGCTCTTACATAGCTCGGATCATCGATCTTCTGCCATTTGCTACCTTCTTCCAGTAATCTTTGAAGCACTTCTTTCTCACCATTCTTTAGAGATTTCCATTCAAGGTCATGCATGTAATCTCTCCAGGAACCAATTCCTCATGAAAATATGGAAATGTTGCAAAAAACTATTTTCATTTGGAACTTTGGAGAGAAGAGATGCCTACAGGATTTTGTCTCTTTATTTGTGTTTTTTCCCTCACAATGAAGAGGTTGGAGGTGCTGGAATGCGTGATGACGGAGAAGAATTTGACATAAAGGCCGATAAAGATTTTTGGGATGAAATTAAAAGAGGCTTGGTGGATAAGGAGAGCTCGGTGAGGAAGCAATCACTACATATATTGAAGAAAGCGCTATCTTTAAATGAAAGAGTCAACACATCTACGGTTCCAAAGACAATTTCAAGTGGAAAAGATAATAATGTTCGAGGTATTACCAAAAGGGAAAGATGGGCCAATAAGGAAGCAAATTCACTGGGTGTAGGGCAAATTTGCAGCCAACATGAAATCGTTACAAATAGCCGGCAGCAACAGTGGGAAGCATTCATACTTCTTTATGAAATGCTTGAAGAATATGGTTCGCACTTGGTTGAAGCTGCTTGGAGTCACCAGATATCCTTGTTACTACAAGATCCGACCTCTATTAAATTGGGCAGCTTCAGCAGTGGCATTCATCAGAACCAAATTGAAGTGTCTGGTGAAATCTTTAGTTGGTTATCAATCTTGTGGGTTCGGGGATTCCACCATGATAATCCTTTAGTTAGATGCTTGATCATGCAGTCCTTCTTGGCCATTGAGTGGAGGGATGAAGTTCCTTGTTTAAAGTCATTGCCAGAAACTTTTATTATTGGACCTTTCATTGAAGCACTCAATGACCCTGTGCAGCACAAAGATTTCGGTCAGTTCATAATATATTTATGTCCTCTGGGCTATCTTCCTGTTTTAAGTCAGCTTGAACCTCTTATGTTGAGACAAAGGATTCTTCTTCCATTGTTAAATAATTTGCTTAAGACATTGTCCAAAGTTCGCAATTGGATGGACAATAATTTTGTGGTGGATGAAAATGAGGATTCCTAA MSNKSFSMASVFSSLSESFRRVPPMAVPAILDCLFASTGLSPSELFDSLLQTFPKNIDVSESFIDVVTEMNSWPIVEATLIPFCISSALCSTSVLQNVELDTFEGDRFPVILGSNVPVHEPRMDNQTMDGCGFLQLPLACHVLAIMLDAVLCNRQAPHTSDIAVSNGYQKAEEFTVKLIWDICNLSEQMLLHSSDHRSSAICYLLPVIFEALLSHHSLEISIQGHACNLSRNQFLMKIWKCCKKLFSFGTLERRDAYRILSLYLCFFPHNEEVGGAGMRDDGEEFDIKADKDFWDEIKRGLVDKESSVRKQSLHILKKALSLNERVNTSTVPKTISSGKDNNVRGITKRERWANKEANSLGVGQICSQHEIVTNSRQQQWEAFILLYEMLEEYGSHLVEAAWSHQISLLLQDPTSIKLGSFSSGIHQNQIEVSGEIFSWLSILWVRGFHHDNPLVRCLIMQSFLAIEWRDEVPCLKSLPETFIIGPFIEALNDPVQHKDFGQFIIYLCPLGYLPVLSQLEPLMLRQRILLPLLNNLLKTLSKVRNWMDNNFVVDENEDS
BLAST of Cla008755 vs. TrEMBL
Match: A0A0A0L1E9_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G017140 PE=4 SV=1) HSP 1 Score: 822.0 bits (2122), Expect = 4.4e-235 Identity = 430/567 (75.84%), Postives = 454/567 (80.07%), Query Frame = 1
BLAST of Cla008755 vs. TrEMBL
Match: A0A067L633_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_03491 PE=4 SV=1) HSP 1 Score: 450.7 bits (1158), Expect = 2.7e-123 Identity = 236/454 (51.98%), Postives = 309/454 (68.06%), Query Frame = 1
BLAST of Cla008755 vs. TrEMBL
Match: A0A067L633_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_03491 PE=4 SV=1) HSP 1 Score: 60.1 bits (144), Expect = 1.0e-05 Identity = 33/69 (47.83%), Postives = 48/69 (69.57%), Query Frame = 1
HSP 2 Score: 446.0 bits (1146), Expect = 6.5e-122 Identity = 233/452 (51.55%), Postives = 305/452 (67.48%), Query Frame = 1
BLAST of Cla008755 vs. TrEMBL
Match: A0A061G4V4_THECC (TRNA/rRNA methyltransferase family protein isoform 1 OS=Theobroma cacao GN=TCM_015848 PE=4 SV=1) HSP 1 Score: 49.3 bits (116), Expect = 1.8e-02 Identity = 23/42 (54.76%), Postives = 31/42 (73.81%), Query Frame = 1
HSP 2 Score: 445.7 bits (1145), Expect = 8.5e-122 Identity = 237/453 (52.32%), Postives = 301/453 (66.45%), Query Frame = 1
BLAST of Cla008755 vs. TrEMBL
Match: V4TU26_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10024446mg PE=4 SV=1) HSP 1 Score: 52.8 bits (125), Expect = 1.6e-03 Identity = 26/49 (53.06%), Postives = 35/49 (71.43%), Query Frame = 1
HSP 2 Score: 441.8 bits (1135), Expect = 1.2e-120 Identity = 234/452 (51.77%), Postives = 299/452 (66.15%), Query Frame = 1
BLAST of Cla008755 vs. NCBI nr
Match: gi|778675229|ref|XP_011650373.1| (PREDICTED: uncharacterized protein LOC101213211 [Cucumis sativus]) HSP 1 Score: 822.0 bits (2122), Expect = 6.3e-235 Identity = 430/567 (75.84%), Postives = 454/567 (80.07%), Query Frame = 1
BLAST of Cla008755 vs. NCBI nr
Match: gi|659095800|ref|XP_008448774.1| (PREDICTED: LOW QUALITY PROTEIN: uncharacterized protein LOC103490840 [Cucumis melo]) HSP 1 Score: 821.2 bits (2120), Expect = 1.1e-234 Identity = 432/568 (76.06%), Postives = 455/568 (80.11%), Query Frame = 1
BLAST of Cla008755 vs. NCBI nr
Match: gi|764591127|ref|XP_011465219.1| (PREDICTED: uncharacterized protein LOC101309934 [Fragaria vesca subsp. vesca]) HSP 1 Score: 454.5 bits (1168), Expect = 2.6e-124 Identity = 257/566 (45.41%), Postives = 341/566 (60.25%), Query Frame = 1
BLAST of Cla008755 vs. NCBI nr
Match: gi|802583423|ref|XP_012070107.1| (PREDICTED: uncharacterized protein LOC105632355 isoform X1 [Jatropha curcas]) HSP 1 Score: 450.7 bits (1158), Expect = 3.8e-123 Identity = 236/454 (51.98%), Postives = 309/454 (68.06%), Query Frame = 1
BLAST of Cla008755 vs. NCBI nr
Match: gi|802583423|ref|XP_012070107.1| (PREDICTED: uncharacterized protein LOC105632355 isoform X1 [Jatropha curcas]) HSP 1 Score: 60.1 bits (144), Expect = 1.4e-05 Identity = 33/69 (47.83%), Postives = 48/69 (69.57%), Query Frame = 1
HSP 2 Score: 450.7 bits (1158), Expect = 3.8e-123 Identity = 236/454 (51.98%), Postives = 309/454 (68.06%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of watermelon (97103)
Date Performed: 2016-09-28
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