PI0004530 (gene) Melon (PI 482460) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CCACCGGTTACCCTAAGCCACCACTAAAATACTCATCTAAAAACTCAAAGTTTGAAAATAAAAGAGACTAAGAAAGGCCAGCCAAGTTTTATCCGTTCTATATCCTCCTCTGTTCTCATTTGAATCGCCCAAATGGCAATGGCTTCAGCTCTGGCCCTCAATGGAGTCAAATTGGCTACGACTTCTCCAGCATATGTGGAGACCAAGGCTGCAAACGACACCAAGACTTTCTTATCGGAGCTCTCCCGCCAATTCTACACCCTTACTTGCGTCTCCCGCACCGGCAGTAGTACTGCGATCAAGGTTCACGATCACTCCATTCCCAGGACACAACAGCTAATCGCTACGTCTCTTTCTGGTGGGCATTTCTCCATCCTTATCTTCCCTCTTTCAATTCTTTTGTTCCCATTTAATTTTTTGCATTTTCTGGCCATTTTGTTACTTTCATTGCTTCCAATTGAGTATAATTGGATGTGTATGTCTCTTGGGTAAGTGATTTTAGAGGTTCCCCTAATTTCTATGTAGTCTTTTTGGTTTAAAATTAAGGTATAATTTCAGTTGTGTTTGCTTCTCCTTTCTCTGAATTTGCTAGGAAATCTAAAATGGGAAAGCTATTTTTAACTTTTGTTTGTGTTCGATCCCAGTCCAAAGTGGTTTTGAAATTACTAAGTACATAATATACTTTAGACAAACACTTGATTAGTTTTTCTCGAAGAAGTACCATCTCAAAATCATCTATCTAATCCACCCTGAACGGGTGTATTTAGGGGTGCTTTTAAAATAGGCGCTCAATAGTTAATAACTCTAATGTTTGGTTCTATCCTTTTCTAAGTATTTTTTAGATGCTTCAATCAAGCACATAAACTAAAACTAAATGCTTTCTTACTGAACAATTTAAAGTGCTTTTTGACTTTTTTACAACCATGTTTGAGTTACTTTCAAACATGACTGAATTAGGATGGCGTGCTTCTGGCCACTTTCTAAGTATGCCCCCTACTCTTCCCTGTTTAACAGCCTTGGCTGTTTGTAACTAGCAGATGAACATGGCCAGGCTACCTTATAATTCAAACTAGTGCTTGTTAGTAAGGAAGGTATACAATTGCCCCTTCTTTTCCCAGAAGAAGATGAACTTGTTCTTCTTATGAACCAAAAATGTTTTGCTAGGATTCAAGCCGTCAAGAACTAGACTATGGAGTATTTTCTTCATGGTGCAAGATCAGCTTTTCCAATTTTTCCCCCATCCTTTTCTGTTTGGCAAGAGGGTATTTTATACAACTCAACTCCTTGCATAAGATTAGTCTACTGTTTTCTCTAATAACATGTTTGATAACCTGTTGGTTGGTCACCCTTTCCATGGACCTAAGCTGGCTATCACTCAGGCTTTTACTTGGATTCTTTGGGGCGGAACTCAATAAGCGCCTTTTTCGGGACAAAAGCTTCAGTTTTGAGCTTTTCACGGATGCTGTTATTTCTACTGCCCTGTTCTGGTGCAAATATAAGCACCCTTTTAAGCTTTTAAGTCTTTCTTATCTTGTCGCTTATAGGCGTTCTTTCATGTAATCAACTTTGGGTGTGTTGGGCTCTGCCCGGTATAAATGTTTCTTTTTCTAAAAAAATTCTTGCATAAGAGTAAAAAGAGCCTGTTCCTTCTCTTTTCTTTTCCCTAAAAATTGATTGCTTGGAATGGAATTCATGGATTTAGATGATGAATATTCTTTTTCTTTTGTTGGATTTTACATAGGTGTTAAGAAGAGGAGAATGGTACGCGAGGACACCTACATGTTATCTTATGGTGGGTCAATCTTACATTCACCACCTCCAAAACCATTTTCACACAAACTCCCAAACTGTTTTGATTCTAGGCCTCTTTTTATGAAGGTCAGTTACCAGTACTCTGTAGATTTGGATAAGGACTCCAAAAACGTCATAAGCCAATTATAAATGACCTTACTTGAACTGGATATGTTCTATAGATTATACAATTGTGTTCTTGAGTTCTAGAGGAAAGATATAGTTGTGCTATAAATGGCCTAATGATCATATAAGCAATTTCTCCTACACCAAGAGACATTAACTTCACTGATCTCTGCATGAGGGACCAATCTTTCTCATACCTATTTTATTGCCAAATCCATCCACCACAACCAAATTTTGTTTCCTTTATTCCAGATGCGCAATGCTGGAGTTGTTATCCACAGTCATAGTAAGGAATCCTATCTTGTACCACTGAGGAACCATCATCAGGTACGGTCAAACTCATGGCATAAAAAATTAAACAAATTCTAAATTTTAATCAGGGTTTTCCAAGTCAAAGTTGTTTCATGAAACGGTCAAATGGAAATCAGTTTCACTTTCTGTACTGTTGTTGGATTAACTGGCATATATAGCATTGCTAAATGTCAACTAGCAGATAAGGATTGAATGAAAAGGTTCTTCCATACTACAACCTAGAAAGTTAAAATTGGATGAAGATTAAATATTTTCAGATTGGTAGTTTATTACTAAAGAATTTTACAACATTTTCTTGATTTTACATATCTGTCTGGAGAGTGTTTTCTAGTCTATATGGCTCTTATACAGCTTGAGTGATTCCGGATTCTCTCTTCTCTTGTACATTTTATGATTACAGTGTCTTTTTTATTAAACACAATAACTATAGTTGTGGCATTGATAAGGAGCGGGTTTGTTTTTGTGATTTTGCACCGTAAATTGCAAGGTTATTCAGCACTGTATATACCTTCTATTGTCCCCTTGTGTCTTTTAAAATAATTCTAACAAGTTCCTTTGAACTTTGTAGACGATGAAACCTCCGACTTTGTACAATTTCAAGAAATGGATTGATTCTGTCTTAATCATTCATTTTTTGCAGTTTAATCAATAACTTAATTTTACAGGCTGATTGTTATCACTATCTCTTTGATGCTGCTATTAAGCTTCATCAAATAGGCATTGATTAGTCTTCTCCAACTCAGGGTCGGATTGGGAGCGTCAAAGGAATTTCAAGCAACATTTCTGTTAAGGCCGGGGCTCAAGGTTTAGACAATAAAAATGAATCGTTGCCAGTGAGTTAAATTGCACCCTTTTTAATTGGGAAGCTTAAGATTTGAGGTTTTAGTTTTTCATTCTTTTCATTTCCCTTTGAGGTATGCCATTTTTGTATCTGGGTTAGGAGTTTTTGTTTATAGTTGGAGCTAGACCGATTTGTGGTTCATTTTTCATTTATATTTTGGATGCAGCGTTGCATAGTTCTTGATATTGAAGGGACTACTACTCCAATCTCTTTTGTTACTGACGTCCTCTTTCCATATGCTCGTGATAACGTTGGAAAGCATTTGATTTTAACATATGAAACTGGAGAAACTCAAGATGACATCAAGTTGTTGCGTTCACAAGTAAGATTGTTTTGTTATGTTGCAATCGGTAAAATGTTTATTCTGTTTACACTTTACAGTACTTACCTGTGCATTGCCAATCTTAATTAAACCAGAAAACAGCCTGCACGCTATGGGAGTTGAGAGGCTATCTGGGAGTTGTTTTTTGAAATTTATGTTTATCAATAAAAATCTTTTTAGGTTGAAGAAGACTTGGAAAAAGGAGTTGCTGGAGCTGTGCCTATTCCTCCTGATAATGCTGGGAAAGAGGAAGTCATTGCAGCATTAGTTGCTAATGTTGAAGGAATGATAAAAGCTGACCGCAAGATAACTGCCTTGAAACAATTGCAGGTAAGCAAGTAAAAATAATTCTCTAATTACCTTACTGCAATTCATTTGGCAGATTTTCTGAGTGAGCTGACTTCTAGCTATGCAGGGTCACATATGGAGAACAGGATTTTCAGGCAATGAATTGGAGGGAGTAGTTTTTGACGATGTGCCAGAGGCTCTCGAGAGATGGCATGCTTCGGGCATTAAGGTAATTCTCTCTCCCCTCTTGATTCTTGTTAAAACCTGTACAAGTTGCTATTTGAGATAAACTAGGGAAAGGTCCTTCAATGCTCTTATTCCCACACTAGATTTAGACCAAACCCTCGGTTGGTTGGGGCACCAACTAAAAGTTGGTCAAATGGGTTATTAGAGCTCACTCCATGTTTGAGGTACCAACTATAATAATGGTTTGTACAACTATTTATAACCTACAATTAAATATAGTAAATACTATTTCAAAACCCTCATTGCTACAGTATTTACTAGTTTTCTCTCATCCTCTCTTTTCTTCTTTGCTACAGTGTTTTCTATTTCCCATCCAAACAAAAATAGTTTATATCCAAACACAAACTATTATAACCAGACTAAAATAGTATTTGCCCCAACCACTAACTATTATAACCTACGGATTATTATAACTTAAGGACTATAATAACTACTCACTATAATAACTAACTCAGCATCCCAAACGCCCCCTAGATGTTTAGATCCCGACTCAAATCTTGCTTTAATAGAAGAAGAAATCAACCTTTTTCAACAAATTATTGACCCAAGTAAGGAAGAGATGATGTAATTACCAATAAGATCAAAATGATTTGAATCTTTCTTGATTTCTTCCAATTCAGTGATTCAAGATTTGAATCCAGTCCTTTAAATCACATTGGTATGTAGAGAAGACTAAACTCAAGCTTACTTAAATCACTTTGAAGCAGAACTTTTGCAGATGTGCTCTCAATTTTCCTCACAATGGAACCTATTTAGGGAAAACTACATTAAGTTATTAGACGAGAGTCTGAGACGGATGATTTTATACTTGGGTTAGTAGATGACAGCCCTGTCTAATAAAAGATGTCTTGTGATTGATTTGCCTTCATTCTCAGGATCTCCTAACTAGAATTAAGAATGTAAGGCCCCTAGTTAGGAAAATAGTAGGATTGTTAGTAGAGTAATTGAATCAATTTTAGGAGGGGCATATTAGTAATTAGTTAGTAAGTTGGTTAGGTTATTTTGCTATAAATAGAAGGAGAGGGGTTGGGGAAAAGGGTGGAGAATTTTGAGTTGAAGAAGCTGTTTGGGAGAGGGAGGCGCTCTCGAATCTGCCCATATCTTTTCCTTTTATTTATCCTTCCGTTCTTGTTCTTTTCTTTATGAACTTGTTTGCTTAACGAACTCTTAAGAGCTTGTTTGTTCTGTGTTTGACTCATCTCAGGTTATCTGGAAATATATTGCCATTGTGGCTTGTTCTTCTTGTCTCTTGTTGGCTATTTTCTGAGTGCAGTGGTTAGATGCCTAACAAACTAAGATCTGGAATATATTGAAAAATAAAGGAACAACTACGAGATCACTCCACAAAATTCTCCCTATACTCACTAGTCACTTACCCTCCTATTTATAACAAGATTCATCAACTTCCAATCTAATTACCCCTGTAACCCATACTGATATTCTTATCCAGTACCTTACAGAAGTCTAGTGATATTTGAACAAAATTTCTGCAACAGATATTATGAACCAAAAATAACTTCAAGCATTTCTGAGATGAACAGGTGTACATATACTCGAGCGGGAGCAGGTTGGCACAAAGGCTTATATTTGGAAAGACTAATTATGGTGATCTAAGAAAATACCTATCAGGATTCTTTGACACTGCTGTGGGGTAAGCAATTGCTGCTCTTTTGTTTTCCATGTTTTAATCATACTCAATATCACAAACATGATGGTGGAACTGCTCTTGTATCTTAGAAACAAAAGAGAAACAAGCAGTTATGTTGAGATTTCAGAGTCTGTTGGAGTTGATACACCATCAGAGATATTGTTCATCACAGATGTCTGTCAGGAAGCTGTAGCAGCAAAAGCAGCAGGTAATGAGTCTCTACTTTAAGCTATTCTTTGTTAGTTTATGTAAGGAAAATGAATAAATCCATCTGTGCTATAACCGAACTGCATTTGGCTGAAATGTTCTCTTTAAAGTGATCATATAAAGTTCTAAAAGAATTGCAAATTTACTAATTTCATACTTATTCGAATGCAATCTACTACGACGTTTCAGGGCTGCAGGTGGCGATCTCAATCCGACCAGGAAATGGTCCACTGCCTGACAATCACGGATTCCAGACAATCACTTCCTTCTCAGAAATCTGAAATGGGAAACTACATTTTGTAATTACATCCAAAGAATCCTGAAAATGATCAATAACATCACAGCTTGACTCTTATCCAAAAAAAACATCACAGCTTGACAATTTACCCCGAGAGACTGTTCCATTCAGCAAGTTTCCCCCATTTACTCCCTCTCTTGGCGATTGTTGTTCAAAGTTTGAACTGTAGAAATATTTTTTTGTTTGTACAACAGTAGTTCTACTTATCTTGTCTTGGTCAAACCTATGTAATTTAATAAAAGTCGGTCCAAAATGCCAATCTTTCACTTTTGAAGTATTGGAAGTAAAGCAAATAACAGATAATATGGCCCATTTAGCATCAAGTTTCAGTAGGGTTCGTTGGGTATTCCTTAGGAAATCTATTTAACTACATCCAAATCACCAATTCAACAAGTGTTTGAGCCCCCCACCGGTTACCCTAAGCCACCACTAAAATACTCATCTAAAAACTCAAAGTTTGAAAATAAAAGAGACTAAGAAAGGCCAGCCAAGTTTTATCCGTTCTATATCCTCCTCTGTTCTCATTTGAATCGCCCAAATGGCAATGGCTTCAGCTCTGGCCCTCAATGGAGTCAAATTGGCTACGACTTCTCCAGCATATGTGGAGACCAAGGCTGCAAACGACACCAAGACTTTCTTATCGGAGCTCTCCCGCCAATTCTACACCCTTACTTGCGTCTCCCGCACCGGCAGTAGTACTGCGATCAAGGTTCACGATCACTCCATTCCCAGGACACAACAGCTAATCGCTACGTCTCTTTCTGGTGTTAAGAAGAGGAGAATGGTACGCGAGGACACCTACATGTTATCTTATGGTGGGTCAATCTTACATTCACCACCTCCAAAACCATTTTCACACAAACTCCCAAACTGTTTTGATTCTAGGCCTCTTTTTATGAAGATGCGCAATGCTGGAGTTGTTATCCACAGTCATAGTAAGGAATCCTATCTTGTACCACTGAGGAACCATCATCAGGGTCGGATTGGGAGCGTCAAAGGAATTTCAAGCAACATTTCTGTTAAGGCCGGGGCTCAAGGTTTAGACAATAAAAATGAATCGTTGCCACGTTGCATAGTTCTTGATATTGAAGGGACTACTACTCCAATCTCTTTTGTTACTGACGTCCTCTTTCCATATGCTCGTGATAACGTTGGAAAGCATTTGATTTTAACATATGAAACTGGAGAAACTCAAGATGACATCAAGTTGTTGCGTTCACAAGTTGAAGAAGACTTGGAAAAAGGAGTTGCTGGAGCTGTGCCTATTCCTCCTGATAATGCTGGGAAAGAGGAAGTCATTGCAGCATTAGTTGCTAATGTTGAAGGAATGATAAAAGCTGACCGCAAGATAACTGCCTTGAAACAATTGCAGGGTCACATATGGAGAACAGGATTTTCAGGCAATGAATTGGAGGGAGTAGTTTTTGACGATGTGCCAGAGGCTCTCGAGAGATGGCATGCTTCGGGCATTAAGGTGTACATATACTCGAGCGGGAGCAGGTTGGCACAAAGGCTTATATTTGGAAAGACTAATTATGGTGATCTAAGAAAATACCTATCAGGATTCTTTGACACTGCTGTGGGAAACAAAAGAGAAACAAGCAGTTATGTTGAGATTTCAGAGTCTGTTGGAGTTGATACACCATCAGAGATATTGTTCATCACAGATGTCTGTCAGGAAGCTGTAGCAGCAAAAGCAGCAGGGCTGCAGGTGGCGATCTCAATCCGACCAGGAAATGGTCCACTGCCTGACAATCACGGATTCCAGACAATCACTTCCTTCTCAGAAATCTGAAATGGGAAACTACATTTTGTAATTACATCCAAAGAATCCTGAAAATGATCAATAACATCACAGCTTGACTCTTATCCAAAAAAAACATCACAGCTTGACAATTTACCCCGAGAGACTGTTCCATTCAGCAAGTTTCCCCCATTTACTCCCTCTCTTGGCGATTGTTGTTCAAAGTTTGAACTGTAGAAATATTTTTTTGTTTGTACAACAGTAGTTCTACTTATCTTGTCTTGGTCAAACCTATGTAATTTAATAAAAGTCGGTCCAAAATGCCAATCTTTCACTTTTGAAGTATTGGAAGTAAAGCAAATAACAGATAATATGGCCCATTTAGCATCAAGTTTCAGTAGGGTTCGTTGGGTATTCCTTAGGAAATCTATTTAACTACATCCAAATCACCAATTCAACAAGTGTTTGAGCCCC ATGGCAATGGCTTCAGCTCTGGCCCTCAATGGAGTCAAATTGGCTACGACTTCTCCAGCATATGTGGAGACCAAGGCTGCAAACGACACCAAGACTTTCTTATCGGAGCTCTCCCGCCAATTCTACACCCTTACTTGCGTCTCCCGCACCGGCAGTAGTACTGCGATCAAGGTTCACGATCACTCCATTCCCAGGACACAACAGCTAATCGCTACGTCTCTTTCTGGTGTTAAGAAGAGGAGAATGGTACGCGAGGACACCTACATGTTATCTTATGGTGGGTCAATCTTACATTCACCACCTCCAAAACCATTTTCACACAAACTCCCAAACTGTTTTGATTCTAGGCCTCTTTTTATGAAGATGCGCAATGCTGGAGTTGTTATCCACAGTCATAGTAAGGAATCCTATCTTGTACCACTGAGGAACCATCATCAGGGTCGGATTGGGAGCGTCAAAGGAATTTCAAGCAACATTTCTGTTAAGGCCGGGGCTCAAGGTTTAGACAATAAAAATGAATCGTTGCCACGTTGCATAGTTCTTGATATTGAAGGGACTACTACTCCAATCTCTTTTGTTACTGACGTCCTCTTTCCATATGCTCGTGATAACGTTGGAAAGCATTTGATTTTAACATATGAAACTGGAGAAACTCAAGATGACATCAAGTTGTTGCGTTCACAAGTTGAAGAAGACTTGGAAAAAGGAGTTGCTGGAGCTGTGCCTATTCCTCCTGATAATGCTGGGAAAGAGGAAGTCATTGCAGCATTAGTTGCTAATGTTGAAGGAATGATAAAAGCTGACCGCAAGATAACTGCCTTGAAACAATTGCAGGGTCACATATGGAGAACAGGATTTTCAGGCAATGAATTGGAGGGAGTAGTTTTTGACGATGTGCCAGAGGCTCTCGAGAGATGGCATGCTTCGGGCATTAAGGTGTACATATACTCGAGCGGGAGCAGGTTGGCACAAAGGCTTATATTTGGAAAGACTAATTATGGTGATCTAAGAAAATACCTATCAGGATTCTTTGACACTGCTGTGGGAAACAAAAGAGAAACAAGCAGTTATGTTGAGATTTCAGAGTCTGTTGGAGTTGATACACCATCAGAGATATTGTTCATCACAGATGTCTGTCAGGAAGCTGTAGCAGCAAAAGCAGCAGGGCTGCAGGTGGCGATCTCAATCCGACCAGGAAATGGTCCACTGCCTGACAATCACGGATTCCAGACAATCACTTCCTTCTCAGAAATCTGA MAMASALALNGVKLATTSPAYVETKAANDTKTFLSELSRQFYTLTCVSRTGSSTAIKVHDHSIPRTQQLIATSLSGVKKRRMVREDTYMLSYGGSILHSPPPKPFSHKLPNCFDSRPLFMKMRNAGVVIHSHSKESYLVPLRNHHQGRIGSVKGISSNISVKAGAQGLDNKNESLPRCIVLDIEGTTTPISFVTDVLFPYARDNVGKHLILTYETGETQDDIKLLRSQVEEDLEKGVAGAVPIPPDNAGKEEVIAALVANVEGMIKADRKITALKQLQGHIWRTGFSGNELEGVVFDDVPEALERWHASGIKVYIYSSGSRLAQRLIFGKTNYGDLRKYLSGFFDTAVGNKRETSSYVEISESVGVDTPSEILFITDVCQEAVAAKAAGLQVAISIRPGNGPLPDNHGFQTITSFSEI Homology
BLAST of PI0004530 vs. ExPASy Swiss-Prot
Match: E0CSI1 (Probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 OS=Vitis vinifera OX=29760 GN=VIT_19s0014g02480 PE=3 SV=2) HSP 1 Score: 542.0 bits (1395), Expect = 6.1e-153 Identity = 303/516 (58.72%), Postives = 341/516 (66.09%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy Swiss-Prot
Match: B9N1F9 (Probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 OS=Populus trichocarpa OX=3694 GN=POPTR_0001s40980g PE=3 SV=2) HSP 1 Score: 525.8 bits (1353), Expect = 4.5e-148 Identity = 294/516 (56.98%), Postives = 338/516 (65.50%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy Swiss-Prot
Match: B9SQI7 (Probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 OS=Ricinus communis OX=3988 GN=RCOM_0591060 PE=3 SV=1) HSP 1 Score: 523.5 bits (1347), Expect = 2.2e-147 Identity = 304/526 (57.79%), Postives = 339/526 (64.45%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy Swiss-Prot
Match: E0CTF3 (Probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 2 OS=Vitis vinifera OX=29760 GN=VIT_12s0028g03470 PE=2 SV=2) HSP 1 Score: 476.1 bits (1224), Expect = 4.1e-133 Identity = 271/520 (52.12%), Postives = 317/520 (60.96%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy Swiss-Prot
Match: Q9FN41 (Probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 OS=Arabidopsis thaliana OX=3702 GN=At5g53850 PE=1 SV=1) HSP 1 Score: 469.5 bits (1207), Expect = 3.8e-131 Identity = 260/494 (52.63%), Postives = 316/494 (63.97%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy TrEMBL
Match: A0A1S3C1U6 (probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103496078 PE=4 SV=1) HSP 1 Score: 768.5 bits (1983), Expect = 1.5e-218 Identity = 391/418 (93.54%), Postives = 400/418 (95.69%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy TrEMBL
Match: A0A0A0LAF4 (Aldolase_II domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G233480 PE=4 SV=1) HSP 1 Score: 763.5 bits (1970), Expect = 4.7e-217 Identity = 390/418 (93.30%), Postives = 399/418 (95.45%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy TrEMBL
Match: A0A5D3CHG8 (Putative bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold227G00950 PE=4 SV=1) HSP 1 Score: 750.7 bits (1937), Expect = 3.2e-213 Identity = 392/461 (85.03%), Postives = 401/461 (86.98%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy TrEMBL
Match: A0A5A7USH5 (Putative bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold803G00180 PE=4 SV=1) HSP 1 Score: 747.7 bits (1929), Expect = 2.7e-212 Identity = 391/461 (84.82%), Postives = 400/461 (86.77%), Query Frame = 0
BLAST of PI0004530 vs. ExPASy TrEMBL
Match: A0A1S3C2D2 (probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103496078 PE=4 SV=1) HSP 1 Score: 709.5 bits (1830), Expect = 8.1e-201 Identity = 369/418 (88.28%), Postives = 378/418 (90.43%), Query Frame = 0
BLAST of PI0004530 vs. NCBI nr
Match: XP_008456025.1 (PREDICTED: probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 isoform X1 [Cucumis melo]) HSP 1 Score: 768.5 bits (1983), Expect = 3.0e-218 Identity = 391/418 (93.54%), Postives = 400/418 (95.69%), Query Frame = 0
BLAST of PI0004530 vs. NCBI nr
Match: XP_011651293.1 (probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 [Cucumis sativus] >KGN57627.1 hypothetical protein Csa_011371 [Cucumis sativus]) HSP 1 Score: 763.5 bits (1970), Expect = 9.8e-217 Identity = 390/418 (93.30%), Postives = 399/418 (95.45%), Query Frame = 0
BLAST of PI0004530 vs. NCBI nr
Match: TYK11241.1 (putative bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 750.7 bits (1937), Expect = 6.6e-213 Identity = 392/461 (85.03%), Postives = 401/461 (86.98%), Query Frame = 0
BLAST of PI0004530 vs. NCBI nr
Match: KAA0058822.1 (putative bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 747.7 bits (1929), Expect = 5.6e-212 Identity = 391/461 (84.82%), Postives = 400/461 (86.77%), Query Frame = 0
BLAST of PI0004530 vs. NCBI nr
Match: XP_008456026.1 (PREDICTED: probable bifunctional methylthioribulose-1-phosphate dehydratase/enolase-phosphatase E1 1 isoform X2 [Cucumis melo]) HSP 1 Score: 709.5 bits (1830), Expect = 1.7e-200 Identity = 369/418 (88.28%), Postives = 378/418 (90.43%), Query Frame = 0
BLAST of PI0004530 vs. TAIR 10
Match: AT5G53850.2 (haloacid dehalogenase-like hydrolase family protein ) HSP 1 Score: 469.5 bits (1207), Expect = 2.7e-132 Identity = 260/494 (52.63%), Postives = 316/494 (63.97%), Query Frame = 0
BLAST of PI0004530 vs. TAIR 10
Match: AT5G53850.1 (haloacid dehalogenase-like hydrolase family protein ) HSP 1 Score: 302.8 bits (774), Expect = 4.4e-82 Identity = 181/388 (46.65%), Postives = 220/388 (56.70%), Query Frame = 0
BLAST of PI0004530 vs. TAIR 10
Match: AT5G53850.3 (haloacid dehalogenase-like hydrolase family protein ) HSP 1 Score: 296.6 bits (758), Expect = 3.2e-80 Identity = 181/404 (44.80%), Postives = 220/404 (54.46%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
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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