PI0024135 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCCAACGCCTCTGCTTCTGCTCCTGTAAATTTCAACAATCCTTCTTTGAATCAGTTGCTTAATCAACTTACCACCGTCAAGTTAGAACGGAGCAACTATCTGCTATGGAAAACTTTGGCCATGCCAATCCTTCGAGGATATAAGCTGGAAGGTCATCTCACTGGAGAAAGTCAGTGCCCAACCAAGTATCTGCCCATCTCTACAACCAGAGAATTTTCCTCTGGCATTGATGCAGCAACTGCAACCACAGATGGAGCCTCATCCTCACAAGCAACAATTACTCAAATTGTCAATCCTGACTTCGAAAAATGGATCACCACAGATCTGCTACTTCTCGGGTGGTTATATAACTCTATGAATCCTGAAGTGGCAGTACAACTTATGGGTTTCAACAATGCGAAAGATCTATGGGAGGCCATACAAGATCTCTTTGGAGTTCAATCCAGAGCAGAAGAAGACTATCTAAGACAGATGTTTCAAACCACGCGGAAAGGAAGTATGAAGATGGAAGATTATCTGAGGACAATGAAGTCATATGCCGATAGTCTTAGTCAGACTGGAAATTCTGTGTCAATACGATCACTAGTCTCACAAGCTCTCTTAGGACTTGATGAAACTTACAATCCAGTCATTGCAGTAATTCAAGGAAAGCCTGACATCTCCTGGCTTGATATGCAGTCCGAGCTCCTTATATTTGAAAAGCGTCTGGAACATCAGAACTCTCAACGAAACATTGGAAGTACTAGTGGAAACATAATGGCAAATGTTGCCCAAAACAGAGGAACACCTGATCCGCGGCTGACAAACCCTCCATATCAAAATAGTAGTCGATCGTTCAATGGGCAACGTGGAGGACAGAACTTTAGTAACAACAGAGGTCGTGGAAGAGGCAGAGGAAATAAACCTACATGTCAAATCTGCAACAAGTACGGTCACTCAGCTGCTGCCTGCTACAACAGGTTTAATAAAGAGTTCACTGGACCTTCAAATCAAAGTAAGAATGGACAGAATCCAAATGCTTCCACTAGCCAGACACCCCAGACACTCCAGAACCCTGCAGCCTTTGTCACAGCTCAAGGATCAAATCCGTTTGCTACTTCTGAAACAGTTGATGATCCTGCTTGGTATGTTGACAGTGGCGCAACAAGTCACATTACTGCTGACTACAATCATATGACCAATCCTGTTGAGTACTCAGGTAATGAGCAAGTTGTTGTGGGAAATGGTCACAAGCTCCAAATAAACTATACTGGATGTTCTAATTTAATTGTAGGGTCCTCTGTTTTGAGTCTTGATAATCTGCTGTTTGTTCCTGCTATTAAGAAGAATTTGATAAGTGTTTCTAGACTAACACAGGATAATGATGTTTATGTTGAATTTCATGGTGGTTATTGTCTTGTAAAGGACAAGGCTACTGATCAAACACTACTAGAAGGCACACTTAAGGATGGTCTCTATCACCATGAAGGAGCAGTTGTGAAAGGAGAAAGAGGTCATTCGACCAGTGAAGGAGTGGAACAACATAGTTTGCACAAAAATAAGGGTACTGCTGCATTAGTGTTGTCAAGTAATCTCTCACGGACCAATGAAGTAGTATTTAAAACTATTTGGCACAGGAGATTGGGTCATCCATCCTCTGGAGTTTTGAATTCTATAATCAAAAATTGTAATCTGCAACTTAATAGTAATGAAGAAGTTGAGTTTTGTGAATCTTGTCAATTAGGCAAGTCTCATAGGCTGCCGTTTTCTATCTCTCAGTCTCGTGCAAAAATGGCATTTGATCTTGTTCACACTGACTTATGGGGACCGACTCCAGTCATGTCTTGTGAAGGCTTTCGGTATTACATATTGTTTGTCGATGATTTTACTAGATATATTTGGATTTATCCACTTAAGCTAAAAAACGAAGCTATAGAGGCATTCAAACTATTTGCAGCTTATGTTCAAACCCAGTTCAACAAGGTTATCAAAACTCTTCAGTCAGATAATGGAGGTGAGTTTGTCAAGATTCATCAACTGTGCAAAGTGATGGGAACGGTATCACGCTTCTCTTGTCCCTATACCTCAAGTCAGAATGGAAGAGTTGAACGTAAGCATCGCCATGTCATAGAAACAGGGCTGACCCTCTTAGCTCAAGCTACTATGCCTCTAAAATTTTGGTGGGATGCGTTTCTCTCAGCTACAATGCTGATAAATGGCCTGCCAACACCATTGTTACAAGGAAAATCTCCTGTTGAGTTGTTATTTGGACGCACACTGAAATTTTCTGCACTGAAAACATTTGGAAGTGCTTGTTTCCCTTGTCTTCGGTCTTACCAGCCACATAAATTTGGGCCTCACTCTGAAAAATGTACTTATCTAGGCCCTAGTCCAATTCACAAAGGTCATAAGTGCCTCACAAAGGCTGGCCGAATTATTATCTCCAGACATGTGGTTTTTAATGAGCTCAACTTTTCGTTTGCAGAAGAGTCCAATTTTTCCACAGCCATTTCACCTAAGCCCACCTCCCCGTCTCTACTACTTCCCTTGTGGCCCTTACTCAACAGCCCGACCCAATATCCACCTCAGAATGGTCCTTTCCCCCAAGAGTCATAGCCCCATGTGAGTCCAAGCCCAACTCCACCCCCACCTGACCCAAATTTGTCCTTATCCCCTTCTTCTTCTCTTCCACCGCCTGATTCTCATTTCCTGTCACCATCTTCTTCTCCATCTGCACCCTGCACTGCACTAAGCCGTCCTGCCCCTCTGCCTACTCATCCTATGATTACCCGAGGTAAGGCCGGTATTTTCAAACCCAAAGCTCTCGTCTCCACTGCTTCTGTCACCGACTGGTCACAATCTGAGCCCACCTCTGTGCACACTGCCCTAGTTACTCCTCAGTGGAAAGAAGCCATGGATTCAGAAATCTCAGCTCTTTAGCGTAACCAAACGTGGTCCTTAGTTCCTCCCATGTCTGCTCAAAATGTTGTTGGAAGCAAATGGGTCTTTCGTCTCAAGCGGAATGTTGATGGCTCTGTTCAATGGTACAAGGCTCGTCTTGTTGCTAAGGGGTTTCATCAGACGCCTGGAGTTGATTTCTTTGAGACGTTCAGCCCAGTGGTAAAAGGCTCCACCATTCGTGTTGTCCTCTCTCTTGCAGCCTCCACTGGATGGTCTCTTCGTCAGTTGAACTTCAATAATGCCTTTCTCAATGGCTGTCTTAAGGAGAATGTGTTCATGTCTCAGCCTCCTGGCTATGTTGATCCTGCTCATCCCGACTACGTCTGCAAGTTGCACAAGACCATCTATGGCCTCAAGCAAGCTCCTCGAGGCTGGAATGATGCTCTCACTTTTGTCTTGCTTCAGTGGGGTTTCGCTCAATCACGATCCGATACGTCTCTCTTTATCTTTCGACGGCAGCAATCTATTCTGCTTCTTCTCGTGTATGTTGACGATGTCATCCTCACTGGGAATGATTCCTCTCTACTTGACAATCTGATTCGGCGTTTGGACATCGTTTTTTTCCTCAAAGACCTTGGTCAGCTGAGTTACTTTCTTGGTTTTCAACTTCACCGTCTTGAGTCTGGGTTTATTGTGAATCAAGCCAAGTATATGGACGACCTTCTTGAACGTCTTCAACTCACTGATCTGAAACCTGCTCTTTCTCCAAGTGTGTTAGGCAAACAGCTATCTGTTACTGATGGCATTCCTCTGGCTGATCCTTTTATCTACCGTAGTACCATTGGTGCTCTACAATACCTCAGAAACACACGCCCAGATATTGCCTACATCGTCAATCATCTCAGCCAATTCCTTCAACATCCTACTGAGGTCCATTGGCAAGCTGTGAAACGAGTTCTCAGATACATTAGTGGCACCAGGAATTATGGTTTGCTTTTTCAACCAAGCACTGCCTTTAACATATCTACCTACTCTGATGCTAATTGGGTGTCCAACATTGATGATCACAAATCTGTGGTTGCTAATTGTGTGTTTCTTGGGTCCAACCTTGTGTCCTGGTCTTCAAAGAAGCAAACGGCTGTTGCTAGATCAAGCACAGAGTCTGAGTACAGGACACTTGCTCAAGCTACTTCTGAGATCATCTGGCTCAACAGCTCCTCACTGAGCTCGATGTTCCTAAGACTCTCACACCGGTACTTTGGTGTGACAATATGAGTGCCGCTGCTCTTGCAACAAATTCAGTGTTTCATGCCCGGACCAAACATATCGAAATTGACGTCCATTTCATTCGGGACCATGTTCTTCGTGGAGCTCTTGACATTCGGTACATTCCCTCTTCTGATCAACTTGCTGATTGTCTCACGAAGTCTCTCACTCACACTCAGTTTCATATGTTACGCACCAAACTCGGGGTTGTTGACTTACCCCCTCATTTGAGGGGGGATGTTAGACAACAATGCCAACTCAGTGCCTCGTCATCAGCTTCGTCCAAGTCATGAGACATGTCATGGAGTGATGTGGCCCATTCCAGAAGAATCCTTTGTTGTAAATTTGTTATTTCTGCCCTTTGCTCTTGTCCAATCCCTTGTCTACAGCTGTCACTATTTCTGTTATTTCTTTTATTCTTTTCTGAAATCAACGGGATCTCAAATGTATAAGTTGTTGTTGCTTCATGCTAAAATTGTACTGTGAAATACTATTACAAAAAATTAGTATTTCAGAAATCTCTTCTTCTTCAGTTCTTCACTATGTCTACCATCAATTCCTGATCTTGCATATTGTCAAGAGTTTTAGGTGCAGTTGAATGTGCCAAATTTTAATCCTTTGATTGCATCATTTAGAGAGTGCGATAAGAAAGAGAGATGAGATAGCTTATAGGAGTTGTTTCGGGTGTTGAGTTGAGATAAGATGTCTAAAATTTATATGTCAAGAGAGATTATATGTTTGGAAAGTTCATATGTCTGTGTTTGGGGTGCAAAGTTGAGTTTATATGTCAACGATGTCTAATGCAATTTTTTAATTTTAAATAATATGTTTTTTATACCTAATTTTGTTTTTAAAATCTTTTATTCAATAATTTATCTTTGCTTGAATAAAATATGAATTATATTTTCTTTTGTTTTTTTTTCTTTCTTTTTGGTAATGAACAATGATGAATCCTCTACATTTCTTGCACAAACATAGATAAATAAAATGTAACAAGAAAAAAGAAAATTCAAAACTTTTTACAACTAATTTTTTCCATGAATTTCATCATTTTCATTTTCAACAATTCCACATTCAATTCCTCCAAATTTGGAGAATTATCAAAGAACAAATCTCCATTTTCACTAATTATTGATATAAAATATTTTTAAAAAACAATCTCCATAAAAAAAAAATTTTGTTTTTTTGTTCCGCCATTCAATATATACTTTTCTAAATCCTTAACACTCATTTGATATGTAAATGCAATTAAATAAAAATATAATAGTGTGTGTGTGTATATATATATATATATGGTTAACAAAAAACCAATTTCATGCCTACAAAAAAATATTAGATTGTTGTTGAAGTTGATTGATAGATGTAGTCATTACCGTTCTTGGTTGCCTAGGGTAAATGTTGGTATTGATTGTTAGAGGTGGTTGTCACTTGTCATTGAAATTGATTATCAAAGGTGATTTTCGTTGAAGTTTATCGTAGAGGTAGTTGCTGGAGCCCGAAGTTGAAGGTGGTTGTTGAAGTTAATTATCAAAAGTGATTTTTACCAAAGTTTGTAGTTGTAGGAGGTTGTCAGAGATAGAAATTGGTTGCACGAAGGTGATCTTGGAGTTGGTCAAAGTTTGTTGTTGGAGCCTGGAATTCGTATTGTGAAGTTAGTCATCAAAGTTGATTTCGTTGGTGTTTGTTATTGGAAATGGTTACCGAAGCTCAAAATTGGTCATTGGAGTTGGTCACGCAAAGATGATTGTTGGAGGTGGTCGTCGGAGCCTGAAATCGGTCATTAGAGTTGGACGTGTGAAAGTGGTCGTCAAAGTTGGTTCTCGAAGCGTGGCAATGGTAATCATCAATGGTGGTTGATGGGTGAACCCATTGGAAACATTAGGGAGAAGGGAGAAAATATTGGGGAGAGTTGGGGTGAGTTGGTATAATATACCGACTCAACTCCACCGACATGCAAAATTGGTGTGCCAAACACCTCTTTTAATCTCTTCAATTACTAGACCAACTTCGATTGTGGTGGGTTATCTTTTATGACACAAACTATATGAATGAATGTGTATTGACTCAAATTGAAAATCTTACACCCTACCATGTTCAATTCATTAGATTAATTTGTAACGATTGGTTTTGGAGAATTTAGTTTTTGTCAATTGTACGTGTGTGAAGTTGATATTTGTTAGTTGTATGTATAATGTACAAGTTTGAAACTAATTGTTGTATTTGGTTATGATAACACAAAGTTCTTTTTTTTTTTTAAAGAAAAATATCATTAATAGCTAAATAGAGTCCAACAAGCAACACTCCTCATAGGCAGAGGAGAACCAACCCAGTACAAAACAATCCCTGCATCAATTTTAGAGGAGGAGGAAGCGGGGGACAAAACAAGCCCTTCAACTATCCAGAGAAACAATCTTGTAGGCAAGGTAATGGGCAACATTATTCGTGGAGTGCGAACACCACAAGAAAGAGATGACCCCAACCAGCGAAGCAGGGACTTAATTTTCAAAATAAAACAAGACAGCTCAGATAAATCAACCCCCACGCCATTGATAGCATTAATAAGCTTAGCGCAATTAGACTCCACACAAAAAACGAAAATAGAACTATTGTCAAACCTGAAAATAATATAAGACAACCCTTTTATCACAACAAGGGCTTCCAGGTTTTTGGTGCCTGTAATTTGTAGACACCTTTGGTGCCCCAGTTATGATAATGCAAAGTTATTCTTTGGAGTTGTTTGAAGTTTGTTTTTCGTTGTGCTACAAACTTTATGTAAGTGATTTGATGTCATTTGTTGTTAGTACAATGTTAGATGCCATGAGTTCATGAAATAAATTAAAAAATTTCAGGTTAAAAGTCTGTTTGGGGTTGATTATAGGTGACATATATTAGGGTCCCAATAACCCATTTTTTTTTTCAAATTGGTATAATTGATGGGTAAAAAACATCAACAAAAGTGTATTGTTGACATTAAAAAACCAATGGTAAAAATATATATTCACATAAAATAATATAGTTTCCTTGACATACAAAAAAACATCAATAAAAAGAGCTACCTTGACGTATTTAAAAAATAATTGATTGACAAAAAAAATATCAATGTTACTTTATTTTGACGTTCGAAAAGTATCGACAAAAGAATTTTTCTTTACCAATTTTTTCATATAGATGATGGGCAAAAAAAGTCAGAGTATCATTTCTTGAAGGCCAAGAACTTCAAGAAAGGGTTTTAGGTGATCTTGTTTTGTCATCAGTTTCTTGATGATTAGCCTTTCTTGATGTTTGCATTCTTGACATTTATTGACTATCAAAGTAGACATTTTTTTTTACATTTTTCTCCATAAAAAAAGGTCAAAATTTTAGTGTAGTGATTAGATTCAATTACACATTTAGTTTTTGAACTTTCATGTATGTGTAAAAAAACTTTTCTTTCTTATAACCCAAGTTTCATATTACGACCTTTACACCATATTTTGAAAATAATGAAACCTTTTGTCATTGTCAAAACACATAAAAAAGTTTGAATTGTTAACCCTCACTTGCCATCAATGGGTATTCACAATAGCAACCACACTAGAAGTGAGAGATTGAGGAGGAGCAGTAGAACAAAAGTGATAAAGTTAGAAGAAACATGAGTGCAAAAGATGAAGGAGAACAAGTCATAACTTACAAGAATGGTATTGTATTAGATTAGTTAAACAAATAATGGAGGAAGAGCACAAAGGAGGAAGAAAGAGTCATAAAGTGTGGAGTATAATCATATGGATGAATTTAATTTCACACTCACTAAAATAAGAAGGGAAATGCAATATATATAATTAACACACCTACTCTAATAGAGTGTCATATTCAAATATTTTCTTAATTTGGAGTTGATGACATTACAAATACAAAATCAAAATCAAGATCTTTTGTAAAAAAATTTTAAAAACATTTAAACAATATAAGTTCATTAAATATTTCTATCTAACAATTGTGATGAAGAATTGTAGCTTGTGGATTACTTGAGTATTCTTAAACATAACAAAATTGTTTAATAAATTGATTAATTTTTAATTTGTTTTTAATATGTCTAATTTTAACGTTACAATGTTATTACAAACAAACGAAGTATTGGCATAGATGGATGACACTCCACGATCGCCATTGGAGGCTTTGCAGTAGAGAATTGTAGGTTATTTCTGAACCAGTTAAAGCTCAATCGTCTGTTTACTTCGAGGTAACCATTTTTCTTTTTCAATGAAGTTTCGAGACTGCAAATTAAGTCGCTGAAGTAATTTCATAGGAAAATTCCACTTTCAGGATTTTTCCAAACGACATATATCTACCCAACCCCTGACAAAAGTATGATCAATTGAATAACTACGAATCAATCAAACCCCTAATTATTATTATTTTTTTCTTTGTTGACCAACCGGGATGTAGCCGTCACGATATTAGTTTTTAAATTCTAATTTCAATAGTTTAAAACGACTCTTTTTACGAATCTGGTGTCTGATTTATGGAAGTCTACTGTTTCAGACCTTAAATTGA ATGGCCAACGCCTCTGCTTCTGCTCCTGTAAATTTCAACAATCCTTCTTTGAATCAGTTGCTTAATCAACTTACCACCGTCAAGTTAGAACGGAGCAACTATCTGCTATGGAAAACTTTGGCCATGCCAATCCTTCGAGGATATAAGCTGGAAGGTCATCTCACTGGAGAAAGTCAGTGCCCAACCAAGTATCTGCCCATCTCTACAACCAGAGAATTTTCCTCTGGCATTGATGCAGCAACTGCAACCACAGATGGAGCCTCATCCTCACAAGCAACAATTACTCAAATTGTCAATCCTGACTTCGAAAAATGGATCACCACAGATCTGCTACTTCTCGGGTGGTTATATAACTCTATGAATCCTGAAGTGGCAGTACAACTTATGGGTTTCAACAATGCGAAAGATCTATGGGAGGCCATACAAGATCTCTTTGGAGTTCAATCCAGAGCAGAAGAAGACTATCTAAGACAGATGTTTCAAACCACGCGGAAAGGAAGTATGAAGATGGAAGATTATCTGAGGACAATGAAGTCATATGCCGATAGTCTTAGTCAGACTGGAAATTCTGTGTCAATACGATCACTAGTCTCACAAGCTCTCTTAGGACTTGATGAAACTTACAATCCAGTCATTGCAGTAATTCAAGGAAAGCCTGACATCTCCTGGCTTGATATGCAGTCCGAGCTCCTTATATTTGAAAAGCGTCTGGAACATCAGAACTCTCAACGAAACATTGGAAGTACTAGTGGAAACATAATGGCAAATGTTGCCCAAAACAGAGGAACACCTGATCCGCGGCTGACAAACCCTCCATATCAAAATAGTAGTCGATCGTTCAATGGGCAACGTGGAGGACAGAACTTTAGTAACAACAGAGGTCGTGGAAGAGGCAGAGGAAATAAACCTACATGTCAAATCTGCAACAAGTACGGTCACTCAGCTGCTGCCTGCTACAACAGGTTTAATAAAGAGTTCACTGGACCTTCAAATCAAAGTAAGAATGGACAGAATCCAAATGCTTCCACTAGCCAGACACCCCAGACACTCCAGAACCCTGCAGCCTTTGTCACAGCTCAAGGATCAAATCCGTTTGCTACTTCTGAAACATCATCAAAGTTGATTTCGTTGGTGTTTGTTATTGGAAATGGTTACCGAAGCTCAAAATTGGTCATTGGAGTTGGTCACGCAAAGATGATTGTTGGAGGTGGTCGTCGGAGCCTGAAATCGGTCATTAGAGTTGGACGTGTGAAAGTGGTCGTCAAAGTTGGTTCTCGAAGCGTGGCAATGGTTATTTCTGAACCAGTTAAAGCTCAATCGTCTGTTTACTTCGAGACCTTAAATTGA ATGGCCAACGCCTCTGCTTCTGCTCCTGTAAATTTCAACAATCCTTCTTTGAATCAGTTGCTTAATCAACTTACCACCGTCAAGTTAGAACGGAGCAACTATCTGCTATGGAAAACTTTGGCCATGCCAATCCTTCGAGGATATAAGCTGGAAGGTCATCTCACTGGAGAAAGTCAGTGCCCAACCAAGTATCTGCCCATCTCTACAACCAGAGAATTTTCCTCTGGCATTGATGCAGCAACTGCAACCACAGATGGAGCCTCATCCTCACAAGCAACAATTACTCAAATTGTCAATCCTGACTTCGAAAAATGGATCACCACAGATCTGCTACTTCTCGGGTGGTTATATAACTCTATGAATCCTGAAGTGGCAGTACAACTTATGGGTTTCAACAATGCGAAAGATCTATGGGAGGCCATACAAGATCTCTTTGGAGTTCAATCCAGAGCAGAAGAAGACTATCTAAGACAGATGTTTCAAACCACGCGGAAAGGAAGTATGAAGATGGAAGATTATCTGAGGACAATGAAGTCATATGCCGATAGTCTTAGTCAGACTGGAAATTCTGTGTCAATACGATCACTAGTCTCACAAGCTCTCTTAGGACTTGATGAAACTTACAATCCAGTCATTGCAGTAATTCAAGGAAAGCCTGACATCTCCTGGCTTGATATGCAGTCCGAGCTCCTTATATTTGAAAAGCGTCTGGAACATCAGAACTCTCAACGAAACATTGGAAGTACTAGTGGAAACATAATGGCAAATGTTGCCCAAAACAGAGGAACACCTGATCCGCGGCTGACAAACCCTCCATATCAAAATAGTAGTCGATCGTTCAATGGGCAACGTGGAGGACAGAACTTTAGTAACAACAGAGGTCGTGGAAGAGGCAGAGGAAATAAACCTACATGTCAAATCTGCAACAAGTACGGTCACTCAGCTGCTGCCTGCTACAACAGGTTTAATAAAGAGTTCACTGGACCTTCAAATCAAAGTAAGAATGGACAGAATCCAAATGCTTCCACTAGCCAGACACCCCAGACACTCCAGAACCCTGCAGCCTTTGTCACAGCTCAAGGATCAAATCCGTTTGCTACTTCTGAAACATCATCAAAGTTGATTTCGTTGGTGTTTGTTATTGGAAATGGTTACCGAAGCTCAAAATTGGTCATTGGAGTTGGTCACGCAAAGATGATTGTTGGAGGTGGTCGTCGGAGCCTGAAATCGGTCATTAGAGTTGGACGTGTGAAAGTGGTCGTCAAAGTTGGTTCTCGAAGCGTGGCAATGGTTATTTCTGAACCAGTTAAAGCTCAATCGTCTGTTTACTTCGAGACCTTAAATTGA MANASASAPVNFNNPSLNQLLNQLTTVKLERSNYLLWKTLAMPILRGYKLEGHLTGESQCPTKYLPISTTREFSSGIDAATATTDGASSSQATITQIVNPDFEKWITTDLLLLGWLYNSMNPEVAVQLMGFNNAKDLWEAIQDLFGVQSRAEEDYLRQMFQTTRKGSMKMEDYLRTMKSYADSLSQTGNSVSIRSLVSQALLGLDETYNPVIAVIQGKPDISWLDMQSELLIFEKRLEHQNSQRNIGSTSGNIMANVAQNRGTPDPRLTNPPYQNSSRSFNGQRGGQNFSNNRGRGRGRGNKPTCQICNKYGHSAAACYNRFNKEFTGPSNQSKNGQNPNASTSQTPQTLQNPAAFVTAQGSNPFATSETSSKLISLVFVIGNGYRSSKLVIGVGHAKMIVGGGRRSLKSVIRVGRVKVVVKVGSRSVAMVISEPVKAQSSVYFETLN Homology
BLAST of PI0024135 vs. ExPASy TrEMBL
Match: A0A5A7SIT7 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold19G00360 PE=4 SV=1) HSP 1 Score: 368.2 bits (944), Expect = 4.8e-98 Identity = 211/376 (56.12%), Postives = 257/376 (68.35%), Query Frame = 0
BLAST of PI0024135 vs. ExPASy TrEMBL
Match: A0A1S4E1U6 (uncharacterized protein LOC107991581 isoform X1 OS=Cucumis melo OX=3656 GN=LOC107991581 PE=4 SV=1) HSP 1 Score: 320.9 bits (821), Expect = 8.7e-84 Identity = 193/377 (51.19%), Postives = 235/377 (62.33%), Query Frame = 0
BLAST of PI0024135 vs. ExPASy TrEMBL
Match: A0A1S4E1V2 (uncharacterized protein LOC107991581 isoform X3 OS=Cucumis melo OX=3656 GN=LOC107991581 PE=4 SV=1) HSP 1 Score: 320.9 bits (821), Expect = 8.7e-84 Identity = 193/377 (51.19%), Postives = 235/377 (62.33%), Query Frame = 0
BLAST of PI0024135 vs. ExPASy TrEMBL
Match: A0A5D3C373 (Retrovirus-related Pol polyprotein from transposon TNT 1-94 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold98G002430 PE=4 SV=1) HSP 1 Score: 270.0 bits (689), Expect = 1.8e-68 Identity = 154/263 (58.56%), Postives = 188/263 (71.48%), Query Frame = 0
BLAST of PI0024135 vs. ExPASy TrEMBL
Match: A0A1S4E1U9 (uncharacterized protein LOC107991581 isoform X4 OS=Cucumis melo OX=3656 GN=LOC107991581 PE=4 SV=1) HSP 1 Score: 267.3 bits (682), Expect = 1.1e-67 Identity = 167/338 (49.41%), Postives = 205/338 (60.65%), Query Frame = 0
BLAST of PI0024135 vs. NCBI nr
Match: KAA0026100.1 (uncharacterized protein E6C27_scaffold19G00360 [Cucumis melo var. makuwa]) HSP 1 Score: 368.2 bits (944), Expect = 9.8e-98 Identity = 211/376 (56.12%), Postives = 257/376 (68.35%), Query Frame = 0
BLAST of PI0024135 vs. NCBI nr
Match: XP_016902203.1 (PREDICTED: uncharacterized protein LOC107991581 isoform X3 [Cucumis melo]) HSP 1 Score: 320.9 bits (821), Expect = 1.8e-83 Identity = 193/377 (51.19%), Postives = 235/377 (62.33%), Query Frame = 0
BLAST of PI0024135 vs. NCBI nr
Match: XP_016902197.1 (PREDICTED: uncharacterized protein LOC107991581 isoform X1 [Cucumis melo]) HSP 1 Score: 320.9 bits (821), Expect = 1.8e-83 Identity = 193/377 (51.19%), Postives = 235/377 (62.33%), Query Frame = 0
BLAST of PI0024135 vs. NCBI nr
Match: TYK05754.1 (Retrovirus-related Pol polyprotein from transposon TNT 1-94 [Cucumis melo var. makuwa]) HSP 1 Score: 270.0 bits (689), Expect = 3.6e-68 Identity = 154/263 (58.56%), Postives = 188/263 (71.48%), Query Frame = 0
BLAST of PI0024135 vs. NCBI nr
Match: XP_016902205.1 (PREDICTED: uncharacterized protein LOC107991581 isoform X5 [Cucumis melo]) HSP 1 Score: 267.3 bits (682), Expect = 2.4e-67 Identity = 167/338 (49.41%), Postives = 205/338 (60.65%), Query Frame = 0
BLAST of PI0024135 vs. TAIR 10
Match: AT5G48050.1 (CONTAINS InterPro DOMAIN/s: Retrotransposon gag protein (InterPro:IPR005162); BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G34070.1); Has 1807 Blast hits to 1807 proteins in 277 species: Archae - 0; Bacteria - 0; Metazoa - 736; Fungi - 347; Plants - 385; Viruses - 0; Other Eukaryotes - 339 (source: NCBI BLink). ) HSP 1 Score: 58.9 bits (141), Expect = 1.2e-08 Identity = 63/278 (22.66%), Postives = 118/278 (42.45%), Query Frame = 0
BLAST of PI0024135 vs. TAIR 10
Match: AT1G34070.1 (CONTAINS InterPro DOMAIN/s: Retrotransposon gag protein (InterPro:IPR005162); BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G48050.1); Has 648 Blast hits to 647 proteins in 29 species: Archae - 0; Bacteria - 0; Metazoa - 16; Fungi - 25; Plants - 607; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 48.1 bits (113), Expect = 2.1e-05 Identity = 69/254 (27.17%), Postives = 104/254 (40.94%), 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:
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