MELO3C020240T2 (mRNA) Melon (DHL92) v3.5.1
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.ATGGAAACTGAAGGAAGTTTTGGAAGCCTGCTGAGATGGGCGGCCGATCATGGAATTTCAGATTCTATCGATCAGCACACTTCACGTTCTTGTTTGGGTCGTTCTTTGTGCGTTTCTTTCTTCCCTGATTCCGGCGGGTATGCTTCGATTTCTCGTTTTCTAGTTACATCACTCTTTTTCTTTTCTTTCGTCGCTTGTAAGTTGTTCATTTCGAAGGAAATTGTGCTTCAGGAGAGGTTTAGCCGCTGTTCGTCAGCTTAACAAAGGAGAGTTAATACTGAGAGCTCCAAAATCTGTCTTGTTGACCACCCAAAGTTTGTCGTTGGAAGATGAGAAGCTCGCAATGGCTCTAAAGATATTCCCATCTCTTTCTTCTACACAGGTTATTCCCTTGCTAACCTAATTTGCGCGAACTTTTGTTGGAAAGTAGGAGAGCTAGGAAGAAATTTGGGTGTTTAGGGCGCCAGCTTGAGTTATGATGTAATGACTCGACTTTCTACCACGTTCTAGAAGGACTCTACTACGTGTATGTATAACTTGAAAATAGATCTCTTGCAAATTCTAAAACAGAACATTTATTAAATTACGAGCGAAATCCTTGCTACCCCTTATCTAGTTTTTTTTATGAGAAATCATAACTTTCATTGAGAAAAAAATGAATGGATACAAGCGATACAAATAAATCAGCCCTAGAAAAACACCCCAGCTAAGAGAAGGGGACCAACAAAGAAGGATATCACCTACGGAATAATTACAAAAGGACTTTGAAATCGAAACCCAAAGGGACATGTGAAATCTAATAAAAAACCAAACCTCAATAGAATCCCTTTCCCTTTCATGAAACACACGACCATTCCTCTTCCCTCGAATGTCCTATAAGATAGCACACACCCCAACGATCCATAAAAAAAAAACCCCTTTCTCTAAAAGGTGGATGGAGGAGGAACTCTTGATCGTCGTATGAACTCCTCTAAGACCGACATGGCTCACACCAAAATCCTAAAACAACATACTTAACAAAGCACGCACATAATGGCAATCCGAAAAGAGGAGATCAAGATCTTCCTCCACCCACTGACAAAGCAAGCAGCAAAAATGCCTAACAAGAGAAAGATCTCCTCCTCACAAGCCTATCCACAGTGTTAACACAACCCAGCAGAACTTGTTAGGTGAAGAACCTAACTTTCATAGGAACCTTGGTCCTCCAAACCACATTAAAAACATACTCCCTAGAGTGGGAGGGATCCAATAACAAACTAAAGAAAGATTTACTTGAGAATCCCTGACTTGGTTTAGGACTTCAAACATGAATGTCCCCTCGTTCCCTTCATAAGATTGACCCCCTCAACCAGAGAAAGAAAAGAGACCCCCTCTGTCGTTTTCCTATTAGTCAAATTGTGACAGAACCCGAAAGAGTAGGATAAAGAGTCAGACTCGAGGGGAAAGCGCCAAAGCCACTTCGCCAACAAGGCTCTGTTGCAGAGACTTAGATTATCGGTCTCTAAACCCCTTCCTCATAAGGCGCCCCACCGTATTCCGATTAACTAGTAGGAGGCGTGACTATATTCCTCCTCACTCTAGAAGGATCAACTATGTTTCCTTCCACACCTTTATAAATAATCCCACTTAAAACATCCACAACCAATAAGAACATGGGAGGTATAGAGGATCCCCTTGTCTTAACCATCTAGAGGCTTGAATATATCCTATGGGGGTACCACGAATACAAATAGAATACTTCACATTCCTCATATTCCTCACACACCTCCACATCCACATTCTCCATTTATAGCCAAACCCTTTTTTCATCATAACTCTATCAAAAAAATTCCAATCCACATGATCGTATGCCCTTTCAAAATCAAGTTTAAGCAACACACCTTTTTTCCTAGGTCTGTACTCCTCGATTGCTTCATTAGCAATAAGGACGATCCAGGATTTGCCTTCCCACCGCAAAGGCACCTTGGGCCTTAGAAATAGTAGATGAATAACTTTCCTTAAACGACTAGCAAGAACCTTAGCCAAAATCTTATAAACACCGGTAATAAGACTAATAGGCCTAAAATCCTAACTCTGTCCGCACCATCCTTTTTGGGAATCAAACATATGAAGATTTCAACCAGTGAACTATTTAAAATACCCTCTAAATCACCTTTGACTAGACTCCAATTGTTTTGATAGAAAGCCATAGAAAGGTCATCCATCTATGGAGATTAGTTTCTATCGTAAAAACAACTGTTTTAATCTCTTCCATGGTAGAAGGCCTCACCAAATCCTCATCCTCCCTAGCCAAAGTAGGGCTCCAATCAATACCTTCCACAAACGGTTTGGCCCTAACTTCAGGGCTATAAAGATTTGAGAAGAACTTAATGATTTCCTCCTCAATAACCTTGCCATCTCTTGAACTCTCCCCATTGTTTAAACACAAAAGGTCTATGTGGGTCCTGCATATAGTCAACTAATCATTTATGGCTATCTAGTGAATAGTTTAACCTAACTTGACAAGCATCTGGTGGCCTGAAGGCACACAAAAACAGTAGGGCACCCGTCGGCACTCGGTAACATAGTAGGAAAACTCGTCGGTCTCTGATAACATAGTAGGAAATTTGTCGGCTTCCAATAACATAGTAGTGTAAGGAGGGTAAACCATCACCTCATGACTTATCATAAAACATGCTTATTAAATACATCTCACAACATATAAACATATATGACCAACCTCATGCTCACAAGTGGCTCAACTCATAATAGTTATTGTGCTTCTCCATATCAGGCAAACAGATTAATTAAATCATGTTGTCTAAATTGTCTGGCTCAAGGGCAGTTCCGATAGTAAGGTTACTTACCTTGAAATTAGGTCCAAAAATATTATCATGATGATAACCTCCAACAAAAAAAAAGTCTCGAATGAGATTAATTAAATCATGTTGTCTAAATTGTCTGGCTCAAGGGCAGTTCCGGTAGTAAGGTTACTTACCTTGAAATTAGGTCCAAAAATATTATCACGACGATAACCTCCACCAAAAAAAAAGTCTCGAATCAAACCTAGAACACGAGTTTCAAACTTAGATTAAATATCTAGAGCCCAAGTCCTATCGAAGAACCAACCAGAAACATCCGAACAATTTTTACCCAAAGCGTGGCTTGAACTAAAACACGTGCTAACAATCTCCTAAGTCAATCATGAACCAACGACGCCCACAAAACCAACCTTTCACTCCGCTTCACAGCACATTAAATTTCTTCAAAATTCCAATTTAAAACCAAACTAACAATGATAAAGTGAGAATTAGCCCACAAACTTTATAGGTATTCAAAACCTATCAATAATAACTCATAAGCTTACCAAAACCTTGCTCGAACTAAAGGGACAGGATCTCAATCTCTAACAAAAGCTCCCCATTAACCTTCAAATATCATGAGAAACATGATTTTAGACCCAATACATATAGTGGGTGTTCAAGAACCAACCAAGGATAAAAGATACCAAAAACTTACCTCAAACCTCAAGATTCCAGCGACTGGATGGAGGGAAACTTGGCTGAAGAGGATTCCGTTGATGAATGGCAGTTGAATGGCGCATCGGATAGCGGATTGACGGTTAAAACAAACTGCTGCACAAGAAGCTTCAGTCGATGGGTGCCTGGTGTCATGGGCATACTTGTCCAAGGTGTTGTTTGCCTATGGCCGTATGCCCGAATACCCCTAAATCGCTTTGTCTTTATGTCTTATAAGTAGTTTAGTCTATTTATTTCGTTTTCGTGTTGTCGAGCCACAGTGTGACATTCCGGTTTTTTCATATGCAAGCGTGCCAAGGCCAAAAATCTCAATATGTACTATAGGGGGTAGCACACTACTTGAACTCCAGCTCAAGCCTTGTCGCACTCTTTGCAATCTAAGCTATTTTCTTTGCAATTGACAGTCTTCAATGCTTTCTGTTATGATGTTTTCAACGATTTATTTTCTCTCTCCCGTTTTATAAAACAATTTTCCCAAGAACGTGGAGGGAGACTACATCATACCGCGAGTTTGTCTGCGGGTTTCGAATATTTAACGGCTGACTTGTTGATCGGCATAACAAGTGCCGCGCAATCGTGTTTGAAAGGTTACGATTGTGACACCTGGCACGCACACTTTCCAATATGTGACTTAAAAGGGTATAGATAATTACTTTTAAACCATAATTTCTTTTAATAAAGGAATAAATTTTCTCTTCCATGAACGGGATGTAAGCGTAATATACTTAAATCCAAATCTCTCTCTTAGGGTGAAATAAATAAAGGAAACATACTACTTCCTTTTCCTTAGCCCACTTTGAAATAAAAAATAAATCCAACCTTTCAATCTTTCAAATTAAATTCAATTTCTATCAATTGAATTAAATCCATAACCTTTATAAAAAACCCAATATTCAAATCTTTTCCACTTATTCTTTCCAAAACAAACCTTTAAGTCTATTTCAAAATTGAATCTAATTCAATTTTAACTCCAACATTTAAAATGTAAGCAATGATTAAATTTTACCTAGGAAATTAGGGGATGTCACATATGAAGTTTGAAGTAAATATGTTGGAATTAGAAAGTTTTTTTTGGCTCTGGTGCTCTTCTCTTGAACTTGATTCTTCATGGCGTAGGATATTGTGAGTAAGCATGGCATCTATCCTTTTGAATGGACAACGATAGGGGTTAAAGGCACACACCAATATCCTTGGAAGGATATCTCTTTCGAGCTTCCTACTTTCTCTCAGTTTACTCATTGCTTTGTGGGGGATGGTAAGGACACGTAATTTTGGGAGGATCAATGGGTGGGGGAGAATTCCATTTGTTCTTTATTTCCACATCTTTATCATTTATCTTCTTCCAAAAAAAAGTATGATATTGGATCTTTTGGTTGGGTTCGAGAATTTTGTGTCTTTCTTTGGGGTTTTGTCGTAATTTGACCAATAGAGAAACTTTGGAGGTGACCTCTCTTCTTTCTTTGGTTGAAGGGTGTAGTTTAGGGGGGGGGGGGGGTTGGAATCCTAATCCAATTGAGGGTTATATGTGTAAATCCTTGTTTGGTCTACTGGATCCCCACCCCCTAGGAAGTCGCCTTTTGATGCGTCTGGAGGACGAAGGTTCTTAAGAAAGTTAGGTTCTTTATTTGGCAATTCTTGCTTGGTCGGGTTAACATTGTTGATAGGCTTCTTAGGAGGAGGACTTCACTTGTTGGGCCTGTTTGTTGCATGCTTTGTTGGAAGGCGGAGGACGATTTTGATCATCTTTTTTGGGATTGCCATTACGTGCGGGCTGTGGGAAGTTCTTTTTAACTTTTTTTTTTCTTTTAGGAGTTTGGTGTTAGTTATGCCGGCCTTCGGAGTGGTAAAGCAACGATTGAGGAGTTCCTCCTCCATCTACCCTTCAAAGACAAAGGGGTTTTTCTATGGCTTGTCGAGGTGTGTGCCGTTAGCTTAGACATTCGGGGTGAGAGGAACGATCTGGTGTTTTGTGGTAGTGAGAGGGAGAATAGTGAGATTTGGACGTTGGTTGGATTTCACGTGTCTCTTTGGGCTTCAATTTAAAGACCTTTTGCAATTATTCAATTGGGTAACATTTTACTTAGTTGGTCCCTTTCTTTTAGTAGGGGTGTTTTGGTGGGATGGTTATTTTGTATGCTCTTGTATTCTTTCATTTTTTCTCAATGAAAGTTGTTTTCATTAAAAAAAAAAAAACGATGGAGTTCTTTAATAAATCTGCAAAAGAGAGAGAACGGGAAAAATGGAGTTTCTCGACAAATGTGTAAACTTTAAGGCTAAACACTATTGAAGTTGAGTTATTTGACACCAACTTAATGAAGTTGGTGGGTGAAACACCCCTTTTAAGAAGAGCAAACTTGAGAACATCTCAATCTCATCACATAAAAATGAATTGAAGTATTTCAAAAAAAGAAGTAAAAATGATCTATCATCTGGCATTTTATAATTGGAAAACTTGGTGGGTTGCACAAAGATAGGTGCGACCTGGGATGTACCCTAGTATTTTCTATTTAAGATTTACAAGCCTGCAGCCACCTGAATGGAAAAAGAGGAGATCTTTATACATGAATGACCATAGGTATGCTTAAAGATGTTTTATATTCCATTCTATGTTAATGTTTGAATATCCTTAGTGCAACTGGGATAGATATCTAAAACCAAATGGATCCTTTTCAGCACACTGGGATAACTCGATATCCTCTTGCTCCATAACTTTTAGAAGGCTTCTTAAAGATAAAGAGATTCTGGATTTTCAAAATTTGATGGCTCAACTGTCAATTCAAAGAGTTTAGGACAATATTGATAGAAGGTTATGGTCTTTGGAAGCTTCTGGCAATTTCTCGGTCAAATCTCTCACAGGACACCTCTTTGCTTCATCTCTTTTGGATAGACCTTTACAAAGCTTTGTGGGAATCTAAATGCCCGAGAAGAGTAAACATTCTTATATGGGTTATGATGTTGGACTTCTAAACTGCTCTTTAGTCATGCAAAGAAAGTTACCAAACAGCTGCCTATCATCCTCAATGTGCCCACTGCGAAGCAAGAAGGAGAAGATTTGCAGCGTTTGTTCTTTTCCTGTTCCTATTCTGCTAATTATTGGTGGAAGTTCTTCTCAATATTTGAAGTTGCATGGGTTTTTGGAGAATCTTTTAGCCTAAATGTACATCAAGTTTTGTTGGAGCCCATTTTAAAGAAAGGACCGGGACTAATTTGGGCAAATTTATCAAAGGCTGTGTTGGCAGTAATTTGATTTGAACGAAATCAACAGATCTTTCGTGATAAGGTGATGTATTGGTTAGACTGCTTTGAGATAGCTAATAGGAATGCTGCAGCTTGGTGTACTTTATGGATCATGGGAAGCCATCTTCTTCATGACTCATGTTTTTACAGCCATCATTGAAAGCTCTTTGTCCTCACTTCTTCAGGCCATTCATGCCTTATTTGTGCTGTTTTCTTGTTTCTTATTTTAGTTGCTTTACAGTCCCTACTTGTTGTATTCTTGTAAGATTTTATTATGCATCTTGGACTGTAACTTTTTTTTGGATATGATGAGGGCGCTTCAACCTAGTTGAAACGTTTAGGTGTGCCTGCTGATTTTTTGGTCTCTTTTTGTTTTCGCTCTCTGTATAAACCTTTTGTACTTTGATTTTTATTTTTATCAATAAGGAGGCCGGTTTCCTTTTTTAAAAAAACAAACATTACACCTTTTCTCTTGTTAGTTCTAAAGGTGTACTGATTAATTTCACAATCCCTCCCCCTACTCAAATGCAGAAGTTGACCTTTTGTTTGCTCAATGAGATTAGTAAAGGAGCTAGTTCTAGGTGGTTTCCTTACTTAAAGCATTTGCCCCAGAGCTATGACATACTGGCAACCTTTGGAGAATTTGAAAAGCAAGCCCTGCAGGTTCAATTTTCCGTTTGTGGCAATTTGATTTATTTCTTAGGATCATATTCCTATTCGTGAATCGTATTCAGTGAGGATATTTTACATGTGTTTTTGACATTTGTTTTATAGTAAAATAGTTAAAGTCATTAACAGGTTGATTATGCTATCTGGGCAACGGAGAAGGCTGCTTTGAAGTCTCGTATGGATTGGAGAGGAGTCAAAGGACTGATGCAAGAATCCAATATTAAAAACCAACTCCAAACATTCAAGGCATGGCTTTGGGCTTCTGCAACTGTAAGCACACTGGATTCATGCTAGAAGATTTGTATTGCATGGTTAGATTGGACCTGGATTTTAAAATTTATTTTTATTTTTGGTAAGAAACCAAACTTTTATTGAGAAAAAAAATGAGTGAAAGAGGGCCCCAAACTAACTTTGAAAAGGGTTCCAATCTAACAAATGCCAAATTCTTAATTACTATATAGAATTAACAGACATTTTCTTATTAGTTATTACCCAGAACCTGGGCTTAGGTTTCAATTTTCTTTTAATAGTTAATTAATTTGTTTGTTTGGTGAAAAATTTATGGTTTACCTATCCAAGGTCACTGCAAGTATGCTTTTCTTATCGAGGAAAAATTCCACTAATTGACACCCATTTGCTGATTATCTATTCTTCCATTACCCACTACCTTGTAGTTGTAGTCCTGTACACATTTCCCATTACCAGCCAGTAAGCATAATTAAGACTCCTATTCTACCTAATGTGCTCTCTCTCCCATCCGACCTTGCTCTCCTTCTATCGTCCTATCCCATTCACTTAAGGTCCCCCTTAACTTAGGTATTCTTTGTCTCAAACTACTGTCATTGAACTTTGGTGATATATAAAGGGACCTAATTATTGAAGTTGAGGGTGGATGTTTATAGATGAAGAAAAACCAAAACTCTCTAGGATTGGAAAGGATAACTTTTCCTCCCATCAATATATGGGGCCCTCTCGTTGATTAAAAATTGCTATGTAGACATGCTCCTCCACTAGAACTCTATAGTGAGGATTATGTCTTTGCATTGAATAAATCTCCTATAGGAAAGAGACTACTGTTGAGATCATTAAGCTGAACTCAAAGACACATTTTATTCCATGTAGGTGAGAATTATTAAGGTCAGTTCTTCTCCTTTTTAAAGATTACCCTTGTGCCACCCTGCATCTAATAGTTCATTGTTTTCCTTGACTTGTCAAGTGGAAGTTGCTTGCACAGAGGCTTTTGGATCATCCCAAACAAGAATACTTGGATGCTCCTTCAAGCACGATTACATTTTGTACTCACATCACTTTCAAAGTCCCCATAGCTTTTTGTTGCCATAGAATAGAACTATTGAATTCATTCTCTTTTCTATGAATGTGAATTGTTGAGACTCGAGAACTTGTTTTGTAATTTTCTCTTAGCCCTTTTTTTGGAGGATATATTTTTCACCTCACCTGTATCTATTTTTCTTATGGAAAAACAAGTGTTTCTTTGTCTTATGCGTTGTATGATGAGTCCAAATATGAGCGTGGTTTGGTCTGATGTAAATTTTTTCAATCTTAATCTCAGTTTGTTGA ATGGAAACTGAAGGAAGTTTTGGAAGCCTGCTGAGATGGGCGGCCGATCATGGAATTTCAGATTCTATCGATCAGCACACTTCACGTTCTTGTTTGGGTCGTTCTTTGTGCGTTTCTTTCTTCCCTGATTCCGGCGGGAGAGGTTTAGCCGCTGTTCGTCAGCTTAACAAAGGAGAGTTAATACTGAGAGCTCCAAAATCTGTCTTGTTGACCACCCAAAGTTTGTCGTTGGAAGATGAGAAGCTCGCAATGGCTCTAAAGATATTCCCATCTCTTTCTTCTACACAGAAGTTGACCTTTTGTTTGCTCAATGAGATTAGTAAAGGAGCTAGTTCTAGGTGGTTTCCTTACTTAAAGCATTTGCCCCAGAGCTATGACATACTGGCAACCTTTGGAGAATTTGAAAAGCAAGCCCTGCAGGTTGATTATGCTATCTGGGCAACGGAGAAGGCTGCTTTGAAGTCTCGTATGGATTGGAGAGGAGTCAAAGGACTGATGCAAGAATCCAATATTAAAAACCAACTCCAAACATTCAAGGCATGGCTTTGGGCTTCTGCAACTTGGAAGTTGCTTGCACAGAGGCTTTTGGATCATCCCAAACAAGAATACTTGGATGCTCCTTCAAGCACGATTACATTTTGTACTCACATCACTTTCAAAGTCCCCATAGCTTTTTGTTGCCATAGAATAGAACTATTGAATTCATTCTCTTTTCTATGAATGTGAATTGTTGAGACTCGAGAACTTGTTTTGTAATTTTCTCTTAGCCCTTTTTTTGGAGGATATATTTTTCACCTCACCTGTATCTATTTTTCTTATGGAAAAACAAGTGTTTCTTTGTCTTATGCGTTGTATGATGAGTCCAAATATGAGCGTGGTTTGGTCTGATGTAAATTTTTTCAATCTTAATCTCAGTTTGTTGA ATGGAAACTGAAGGAAGTTTTGGAAGCCTGCTGAGATGGGCGGCCGATCATGGAATTTCAGATTCTATCGATCAGCACACTTCACGTTCTTGTTTGGGTCGTTCTTTGTGCGTTTCTTTCTTCCCTGATTCCGGCGGGAGAGGTTTAGCCGCTGTTCGTCAGCTTAACAAAGGAGAGTTAATACTGAGAGCTCCAAAATCTGTCTTGTTGACCACCCAAAGTTTGTCGTTGGAAGATGAGAAGCTCGCAATGGCTCTAAAGATATTCCCATCTCTTTCTTCTACACAGAAGTTGACCTTTTGTTTGCTCAATGAGATTAGTAAAGGAGCTAGTTCTAGGTGGTTTCCTTACTTAAAGCATTTGCCCCAGAGCTATGACATACTGGCAACCTTTGGAGAATTTGAAAAGCAAGCCCTGCAGGTTGATTATGCTATCTGGGCAACGGAGAAGGCTGCTTTGAAGTCTCGTATGGATTGGAGAGGAGTCAAAGGACTGATGCAAGAATCCAATATTAAAAACCAACTCCAAACATTCAAGGCATGGCTTTGGGCTTCTGCAACTTGGAAGTTGCTTGCACAGAGGCTTTTGGATCATCCCAAACAAGAATACTTGGATGCTCCTTCAAGCACGATTACATTTTGTACTCACATCACTTTCAAAGTCCCCATAGCTTTTTGTTGCCATAGAATAGAACTATTGAATTCATTCTCTTTTCTATGA METEGSFGSLLRWAADHGISDSIDQHTSRSCLGRSLCVSFFPDSGGRGLAAVRQLNKGELILRAPKSVLLTTQSLSLEDEKLAMALKIFPSLSSTQKLTFCLLNEISKGASSRWFPYLKHLPQSYDILATFGEFEKQALQVDYAIWATEKAALKSRMDWRGVKGLMQESNIKNQLQTFKAWLWASATWKLLAQRLLDHPKQEYLDAPSSTITFCTHITFKVPIAFCCHRIELLNSFSFL*
BLAST of MELO3C020240T2 vs. Swiss-Prot
Match: SDG40_ARATH (Protein SET DOMAIN GROUP 40 OS=Arabidopsis thaliana GN=SDG40 PE=2 SV=1) HSP 1 Score: 209.1 bits (531), Expect = 5.2e-53 Identity = 103/180 (57.22%), Postives = 132/180 (73.33%), Query Frame = 1
BLAST of MELO3C020240T2 vs. TrEMBL
Match: A0A0A0L7L4_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G307670 PE=4 SV=1) HSP 1 Score: 340.9 bits (873), Expect = 1.3e-90 Identity = 169/187 (90.37%), Postives = 176/187 (94.12%), Query Frame = 1
BLAST of MELO3C020240T2 vs. TrEMBL
Match: G7KFS1_MEDTR (SET domain group 40 protein OS=Medicago truncatula GN=MTR_5g076640 PE=4 SV=2) HSP 1 Score: 217.6 bits (553), Expect = 1.6e-53 Identity = 117/208 (56.25%), Postives = 143/208 (68.75%), Query Frame = 1
BLAST of MELO3C020240T2 vs. TrEMBL
Match: A0A061EFC1_THECC (SET domain group 40, putative isoform 1 OS=Theobroma cacao GN=TCM_017553 PE=4 SV=1) HSP 1 Score: 216.9 bits (551), Expect = 2.8e-53 Identity = 114/201 (56.72%), Postives = 140/201 (69.65%), Query Frame = 1
BLAST of MELO3C020240T2 vs. TrEMBL
Match: A0A166I4T1_DAUCA (Uncharacterized protein OS=Daucus carota subsp. sativus GN=DCAR_003403 PE=4 SV=1) HSP 1 Score: 215.7 bits (548), Expect = 6.2e-53 Identity = 115/205 (56.10%), Postives = 140/205 (68.29%), Query Frame = 1
BLAST of MELO3C020240T2 vs. TrEMBL
Match: R0HBD7_9BRAS (Uncharacterized protein OS=Capsella rubella GN=CARUB_v10002957mg PE=4 SV=1) HSP 1 Score: 213.4 bits (542), Expect = 3.1e-52 Identity = 106/180 (58.89%), Postives = 136/180 (75.56%), Query Frame = 1
BLAST of MELO3C020240T2 vs. TAIR10
Match: AT5G17240.1 (AT5G17240.1 SET domain group 40) HSP 1 Score: 209.1 bits (531), Expect = 2.9e-54 Identity = 103/180 (57.22%), Postives = 132/180 (73.33%), Query Frame = 1
BLAST of MELO3C020240T2 vs. NCBI nr
Match: gi|659114359|ref|XP_008457030.1| (PREDICTED: protein SET DOMAIN GROUP 40 isoform X2 [Cucumis melo]) HSP 1 Score: 375.6 bits (963), Expect = 6.7e-101 Identity = 187/187 (100.00%), Postives = 187/187 (100.00%), Query Frame = 1
BLAST of MELO3C020240T2 vs. NCBI nr
Match: gi|659114357|ref|XP_008457029.1| (PREDICTED: protein SET DOMAIN GROUP 40 isoform X1 [Cucumis melo]) HSP 1 Score: 369.4 bits (947), Expect = 4.8e-99 Identity = 187/192 (97.40%), Postives = 187/192 (97.40%), Query Frame = 1
BLAST of MELO3C020240T2 vs. NCBI nr
Match: gi|449456212|ref|XP_004145844.1| (PREDICTED: protein SET DOMAIN GROUP 40 [Cucumis sativus]) HSP 1 Score: 340.9 bits (873), Expect = 1.8e-90 Identity = 169/187 (90.37%), Postives = 176/187 (94.12%), Query Frame = 1
BLAST of MELO3C020240T2 vs. NCBI nr
Match: gi|700202665|gb|KGN57798.1| (hypothetical protein Csa_3G307670 [Cucumis sativus]) HSP 1 Score: 340.9 bits (873), Expect = 1.8e-90 Identity = 169/187 (90.37%), Postives = 176/187 (94.12%), Query Frame = 1
BLAST of MELO3C020240T2 vs. NCBI nr
Match: gi|694389957|ref|XP_009370581.1| (PREDICTED: protein SET DOMAIN GROUP 40 isoform X1 [Pyrus x bretschneideri]) HSP 1 Score: 223.4 bits (568), Expect = 4.2e-55 Identity = 114/184 (61.96%), Postives = 137/184 (74.46%), 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 melon
Date Performed: 2016-09-28
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