PI0025448 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGCTTGGGGTTGCTCTTGTAGCTATAGCAGCAGCGGTGTGGGTCAGACTTGAGGTTACTCCTAGTGTGGTGGATGAGCAGTTTGTCTTTGGTGTGCTTTCGAATTTGCATTCTAATGTGTCTGTGGAGGTGTTTTGTGTTTATGCCTAGTAATGTGGACCGTCGTGTGCTTTGGCGTAGGTTAGTTGAGACCACTTCTAGATGGTCGATTCCAAGTGTGGTTATGGGTGATTTTAATGCAATTCGGGTGCCCTCTAAAGCGTGTGGTGGAAGTCCAGTTACTAGTGAAATGGAGGAGTTTGATCTTGCTATTCGTGAAGCTGACTTGGTTGAGCCGTCTGTTCAGGGTAACTGGTTCACTTGGACGAGTAAAGTGCGTGGTTCAGGTTGGTTGCGTAGGCTGGATCGTATTTGGTTAATAAGCAGGGGGTAACTGCTTGGCCTAGTTTGCGTGTTTCGGTTCTGCCTTGGGGGATTTCTGATCATTCCCCTATTTTAGTCTTATGCGGAATTTGCATGACCTTTCCTTCGTAGACATTTTGGTAGGCATATCAGGGGCCTTAGTGCGGAGGTGCGCTCTACCAAAGAGGCTATGGACAGGGCCTAGCAGGAGGTAGAGTAGGATCCTGGGTCTGTGGAGAGGAGTCGTGATGCTGGTCTTGAGACTGAGGCTTTTTGGTCGGCTATCCGTCAAGAAAAAGCCTTTCTCTGCCAGAAATCACGGGTTAGGTGGTTGGAGCTTGGGGATCAGAATTCTACCTTTTTTCATCGTTCGATTCGTTTCCGTATTGGTCGTAATATTTGCTTTCTGTTGTTGATTCTGAGGGAATTCGGGTGACTTCTCATGAGGGGTTGGTGCAAATGGCTGTCAACTTTTTTCGTAACAGTCTTGGGTCCCAAGGGGTTGGCTATAAGGAGCTCACTCCTTTGTTGGAGGAGGTGGTTCAGTTTAGGTGGTCGGAGGAGTGTTGTAGTGCGTTACTGGCTCCTATTAGGCGTGATGAGATCAGGAGGGTGGTTTTTGATATGGATAGTAGTAAGGCTCCTGGGCCTGATGGTTTTTCGGCAGGGTTCTTCAAAGGGGCTTGGAATACGGTTGGTGAGGATTTTTGTGATGTTATGTTGCATTTCTTTGAGACGTGTTATCTGCCTCCTGGGGTAAATGCTACTACGATCACCCTCATTCCCAAGCATTGTGAGGCTGAGCGTATGGAGGATTATAGGCCTATTTCATGTTGTAATTTGGTCTATAAGTGCATTTCTAAGATTTTGGCTGATAGAATTCGTGTGTGGCTTTCGTCTTTTATCAATGGTAATCAGTCCACCTTTGTTGTGGGGAGGAGTATTGTGGATAACATTCTGCTTTGTCATGAGATGGTAGGGGATTACCATGGTTCTTCTGGGATGCCTAGGTGTGCGATGAAGGTGGACCTTCAGAAGGCTTACGATTCGGTGAATTGGGATTTAATGTTCAGCTTGTTGCTTGCTATAGGCACTCCCTTGCGTTTTGTTAGTTGGATTATGGCGTGTGTTACGTCCCCTTATTATGGTTAATGACTCTGTCGAAGGGTTTTTTTCCTAGTAGAAAAGGGTTGTGGCAAGGTGACCATTTATCCCCCTTTTGTTTGTGATGGTAATGGAGGTGCTCACTCGTCTTTTAAATAGGCCCTCTCTAGATTTCAGGTATCATCATCGTTGTGAGAAGGTTTGTTTGACCCATCTAACCTTCGCTGATGATCTTATGATATTTTGTTATGCTGATACTGCTTCTATTAGCTTTGTGCGCGAGACTTTCTGTCAGTTTGGGAAATTATCGGGGTTGATTGCTAATCTAGGGAAGAGCTCTATGTTTGTGGCGGGAGTTGATAGTGAGACTGCTACTATGTTGGCGGATAGTATGGGGTTTGCTCTGGGTACTCTGCCTGTTCGTTACCTGGGTATTCCCTTACTCTCTGGTCGGCTACAGTCTTCAGATTGTGCTCCGCTCATCCAACGTATTACTAGTCGAACTCAGTCTTGGTCGACTAGAGTATTGTCCTTCGCTGGTAGACTTCAGCTTGTGCGTTCGGTGTTGCGAAGTCTTACGTCTTTTGGGCCAGTGTGTTTGTTTTGCCGGCTGAGGTGCATCATGAGGTTGATAGGCTTTTGATGTCGTATCTGTTGAGGGGTAAGGAGGATGGGAGAAGAGGTGCGAAGGTTGCTTGGGTGGACGTGTGTCGCCCGTTTGAGGAAGGGGGTCTATATATTTGGGGAGGGTAAGTCATGGAACAACGCGTGTATCTTGAAGGTTCTTTGGTTGATGTTGACTAGTTGGGGTCTCTGTGGGTTGCTTGGGTGGATTCCTATATTCTGAAGGGGCGGTCGTTGTGGCCTGTGGACAGTGGAGTTGGTCGATCCTGGAGTCTTTGTGCTATTCTATAGTATCGTGATATCTTTAGAGAACATATCCATATAGAGGTGGGTGATGAGAGGCGGTGTCGTGGTGGCTTGACCCTTGGTTGCTGAGTTCATTGGCTCGGATGGTGAGTAGAGGTGGCCGAGGGTTTCTTGGGAGTTACTTGAGTTGTGGGAGAGAGTTCAAGGTGTCCGTCCGTGTCTGAGTATTGGGGATAGGTGGGTGTGGGTTCCGAGTCATTAGGGAGGTTTTTGATTTTGAGTGCGTGGGAGGCTATATGTCTTAGGAGTGACAGGGTTTGTTGGGTTGGCCTGCTGTGGTGTTGGGGGGAATATTCCCCATCATTCTTTTTGTGCTTGGCTTGTTATAAGGGATAGGTTGAGTAGGTGGGATAGTTCGATTCCTCGTTCGATTCCTCCTAATCTCATCACGCCTAACAAGTGTCAAAGAAATGCAACACAGCATCACAAAAATCCTCACCCACCACATTCCAAGCACTTTTGAAGAACCCCGTCGAAAAACCATTAGGACCAGGTGCCTTGGTACTGTCCATAGCAAATAACACCCACCTAATCTCATCACGCCTAATAGGAGCTTGTAACGCATGAGAACACTCCTTAGACCACCTAAACTGAACCACCACCTCCAGCAAAGGAGAGCTCCCTGTAGCCAATCACCTAGGAACCCAAACTATTACGAAAGAAGTTAACAGCCACCTGAACCAACCCATCATGGGACGTCACCCGACTACCCTTAGATCCACAACAAAAAGTAGATTATTACGACAAATACGGGAACAAACCAAACGATGAAAAAATGCAGAATTCTGATCACCAAGTTCCAATCACCTAATACGAGATTTCTGACGAAGAGAGGCTTCCTCTAGACTGATAGCCGACCAAAAAGCCTCAGTCGCTAGCCTAGCAAGACGACTCCTCTCAACAGACCCAGGATCCCTCTTAACCTCACGTTGGGCCCTATCCATAGCCTCTTTAGCAAAGGGCACCTTCTCACTAAGGCCCCTGATATGTCTACCAAAATGTCTACGAAGCACAGACTTAAGGTCATGAAAACTCCGCATAAGACTCACTAATGGAGAAACACCCAACCTTCTCACCCAAACCGAAGACACCACATCACTAAATGAAGTATCCTCTACCCAATGGTTAAAGAAACGAAACGACACAATACGCCTCCGTTGCTCAACACCAGGATAGAAAAGAATAGGGAAGTGATAAAAAATCCCCCATGGTAGAACCGAAACACGCAAACTAGGCCAAGTAGCTAACCACTACTCATTCACCAAAATACGATCAAGCCAACGCAACCACCCAGAACCACGCACCTTACTCGTCCAAGTGAACCAGTTACCCTGAACAGACAGCTCCGCCAAGTCAGCCCACGAATAGCAAGATCAAACTCCTCCATATCACCAGGAATTAGATTCCCACCACAAGGCTTCAGAGTGCACAATTTTTTTTTTTTTTTTTTGAAAAGGTAATATAGATTATACAACAACAAGGAAGACCTCACAGCCCGAGGTCAAGGCACCAAAGCATTGAACGCACAAAACCACCAAACACAACAAATAGAGAAACGAAACAAGAAACCAGGGAAAAAAACCCCCACAATCGGGGAATCAAACCAAAAGGAAAATCAGACGACAAAAGGAAAAATCCAAACAACAAAATGGAAAGCACTAGATAAGATCATGAACATCTTCCTGCCAAGAGACAGCACGAGCACGAACTGTAGACCGGATACATTGAATAAGAATATCGGGCTCACGAACCGCACCACCATGGAGACGACGATTCCGCTCATTCCAGATAAAGTAGATAGAAGCACACCAGAGCACCCGTCAAAGCTTCCTCATCACACCCTGCCCAATACCCTTACGACTGACCCAAGACAACTCAACCTCCCACCCCCCAACCCTATGAGAGGACGCCATATCCCAAATAATACGATTCCATATATCATACCCAAAAAGACAAGAAAAAAACAGATGATCCCGAGATTCAACACCCCTAGCTTAAGACACGATCGAGGAATCAAACTATCCCACCTACTCAACCTATCCCGAGTGCCCAACCTATCTCTAATAACCAACCAAGCACAAAAAGAATGTCTAGGAATATTCCCCCACCCCACAGCAGACCAACCCAACAAACCTTTTCACTCCTAG ATGCTTGGGGTTGCTCTTGTAGCTATAGCAGCAGCGGTGTGGGTCAGACTTGAGGTTACTCCTAGTGTGGTGGATGAGCAGTGTTTTGTGTTTATGCCTAGTAATGTGGACCGTCGTGTGCTTTGGCGTAGGTTAGTTGAGACCACTTCTAGATGGTCGATTCCAAGTGTGGTTATGGGTGATTTTAATGCAATTCGGGTGCCCTCTAAAGCGTGTGGTGGAAGTCCAGTTACTAGTGAAATGGAGGAGTTTGATCTTGCTATTCGTGAAGCTGACTTGGTTGAGCCGTCTGTTCAGGGTAACTGGTTCACTTGGACGAGTAAAGATCCTGGGTCTGTGGAGAGGAGTCGTGATGCTGGTCTTGAGACTGAGGCTTTTTGGTCGGCTATCCGTCAAGAAAAAGCCTTTCTCTGCCAGAAATCACGGGGAATTCGGGTGACTTCTCATGAGGGGTTGGTGCAAATGGCTGTCAACTTTTTTCGTAACAGTCTTGGGTCCCAAGGGGTTGGCTATAAGGAGCTCACTCCTTTGTTGGAGGAGGTGGTTCAGTTTAGGTGGTCGGAGGAGTGTTGTAGTGCGTTACTGGCTCCTATTAGGCGTGATGAGATCAGGAGGACGTGTTATCTGCCTCCTGGGGTAAATGCTACTACGATCACCCTCATTCCCAAGCATTGTGAGGCTGAGCGTATGGAGGATTATAGGCCTATTTCATGTTGTAATTTGGTCTATAAGTGCATTTCTAAGATTTTGGCTGATAGAATTCGTGTGTGGCTTTCGTCTTTTATCAATGGTAATCAGTCCACCTTTGTTGTGGGGAGGAGTATTGTGGATAACATTCTGCTTTGTCATGAGATGGTAGGGGATTACCATGGTTCTTCTGGGATGCCTAGGTGTGCGATGAAGGTGGACCTTCAGAAGGCTTACGATTCGGCACTCCCTTGCGTTTTGTTAGTTGGATTATGGCGTGTGTTACGTCCCCTTATTATGGTTAATGACTCTGTCGAAGGGTATCATCATCGTTGTGAGAAGGTTTGTTTGACCCATCTAACCTTCGCTGATGATCTTATGATATTTTGTTATGCTGATACTGCTTCTATTAGCTTTGTGCGCGAGACTTTCTGTCAGTTTGGGAAATTATCGGGGTTGATTGCTAATCTAGGGAAGAGCTCTATGTTTGTGGCGGGAGTTGATAGTGAGACTGCTACTATGTTGGCGGATAGTATGGGGTTTGCTCTGGGTACTCTGCCTGTTCGTTACCTGGGTATTCCCTTACTCTCTGGTCGGCTACAGTCTTCAGATTGTGCTCCGCTCATCCAACGTATTACTAGTCGAACTCAGTCTTGGTCGACTAGAGTATTGTCCTTCGCTGCTTGTGCGTTCGGTGTTGCGAAGTCTTACGTCTTTTGGGCCAGTGTGTTTGTTTTGCCGGCTGAGGTGCATCATGAGGTTGATAGGCTTTTGATGTCGTATCTGTTGAGGGGTAAGGAGGATGGGAGAAGAGGTGCGAAGGTTGCTTGGGTGGACGTGTGTCGCCCGTTTGAGGAAGGGGGTGGGATAGTTCGATTCCTCGTTCGATTCCTCCTAATCTCATCACGCCTAACAAGTGTCAAAGAAATGCAACACAGCATCACAAAAATCCTCACCCACCACATTCCAAGCACTTTTGAAGAACCCCGTCGAAAAACCATTAGGACCAGATTATACAACAACAAGGAAGACCTCACAGCCCGAGGTCAAGGCACCAAAGCATTGAACGCACAAAACCACCAAACACAACAAATAGAGAAACGAAACAAGAAACCAGGGAAAAAAACCCCCACAATCGGGGAATCAAACCAAAAGGAAAATCAGACGACAAAAGGAAAAATCCAAACAACAAAATGGAAAGCACTAGATAAGATCATGAACATCTTCCTGCCAAGAGACAGCACGAGCACGAACTGTAGACCGGATACATTGAATAAGAATATCGGGCTCACGAACCGCACCACCATGGAGACGACGATTCCGCTCATTCCAGATAAAGTAGATAGAAGCACACCAGAGCACCCGTCAAAGCTTCCTCATCACACCCTGCCCAATACCCTTACGACTGACCCAAGACAACTCAACCTCCCACCCCCCAACCCTATGAGAGGACGCCATATCCCAAATAATACGATTCCATATATCATACCCAAAAAGACAAGAAAAAAACAGATGATCCCGAGATTCAACACCCCTAGCTTAAGACACGATCGAGGAATCAAACTATCCCACCTACTCAACCTATCCCGAGTGCCCAACCTATCTCTAATAACCAACCAAGCACAAAAAGAATGTCTAGGAATATTCCCCCACCCCACAGCAGACCAACCCAACAAACCTTTTCACTCCTAG ATGCTTGGGGTTGCTCTTGTAGCTATAGCAGCAGCGGTGTGGGTCAGACTTGAGGTTACTCCTAGTGTGGTGGATGAGCAGTGTTTTGTGTTTATGCCTAGTAATGTGGACCGTCGTGTGCTTTGGCGTAGGTTAGTTGAGACCACTTCTAGATGGTCGATTCCAAGTGTGGTTATGGGTGATTTTAATGCAATTCGGGTGCCCTCTAAAGCGTGTGGTGGAAGTCCAGTTACTAGTGAAATGGAGGAGTTTGATCTTGCTATTCGTGAAGCTGACTTGGTTGAGCCGTCTGTTCAGGGTAACTGGTTCACTTGGACGAGTAAAGATCCTGGGTCTGTGGAGAGGAGTCGTGATGCTGGTCTTGAGACTGAGGCTTTTTGGTCGGCTATCCGTCAAGAAAAAGCCTTTCTCTGCCAGAAATCACGGGGAATTCGGGTGACTTCTCATGAGGGGTTGGTGCAAATGGCTGTCAACTTTTTTCGTAACAGTCTTGGGTCCCAAGGGGTTGGCTATAAGGAGCTCACTCCTTTGTTGGAGGAGGTGGTTCAGTTTAGGTGGTCGGAGGAGTGTTGTAGTGCGTTACTGGCTCCTATTAGGCGTGATGAGATCAGGAGGACGTGTTATCTGCCTCCTGGGGTAAATGCTACTACGATCACCCTCATTCCCAAGCATTGTGAGGCTGAGCGTATGGAGGATTATAGGCCTATTTCATGTTGTAATTTGGTCTATAAGTGCATTTCTAAGATTTTGGCTGATAGAATTCGTGTGTGGCTTTCGTCTTTTATCAATGGTAATCAGTCCACCTTTGTTGTGGGGAGGAGTATTGTGGATAACATTCTGCTTTGTCATGAGATGGTAGGGGATTACCATGGTTCTTCTGGGATGCCTAGGTGTGCGATGAAGGTGGACCTTCAGAAGGCTTACGATTCGGCACTCCCTTGCGTTTTGTTAGTTGGATTATGGCGTGTGTTACGTCCCCTTATTATGGTTAATGACTCTGTCGAAGGGTATCATCATCGTTGTGAGAAGGTTTGTTTGACCCATCTAACCTTCGCTGATGATCTTATGATATTTTGTTATGCTGATACTGCTTCTATTAGCTTTGTGCGCGAGACTTTCTGTCAGTTTGGGAAATTATCGGGGTTGATTGCTAATCTAGGGAAGAGCTCTATGTTTGTGGCGGGAGTTGATAGTGAGACTGCTACTATGTTGGCGGATAGTATGGGGTTTGCTCTGGGTACTCTGCCTGTTCGTTACCTGGGTATTCCCTTACTCTCTGGTCGGCTACAGTCTTCAGATTGTGCTCCGCTCATCCAACGTATTACTAGTCGAACTCAGTCTTGGTCGACTAGAGTATTGTCCTTCGCTGCTTGTGCGTTCGGTGTTGCGAAGTCTTACGTCTTTTGGGCCAGTGTGTTTGTTTTGCCGGCTGAGGTGCATCATGAGGTTGATAGGCTTTTGATGTCGTATCTGTTGAGGGGTAAGGAGGATGGGAGAAGAGGTGCGAAGGTTGCTTGGGTGGACGTGTGTCGCCCGTTTGAGGAAGGGGGTGGGATAGTTCGATTCCTCGTTCGATTCCTCCTAATCTCATCACGCCTAACAAGTGTCAAAGAAATGCAACACAGCATCACAAAAATCCTCACCCACCACATTCCAAGCACTTTTGAAGAACCCCGTCGAAAAACCATTAGGACCAGATTATACAACAACAAGGAAGACCTCACAGCCCGAGGTCAAGGCACCAAAGCATTGAACGCACAAAACCACCAAACACAACAAATAGAGAAACGAAACAAGAAACCAGGGAAAAAAACCCCCACAATCGGGGAATCAAACCAAAAGGAAAATCAGACGACAAAAGGAAAAATCCAAACAACAAAATGGAAAGCACTAGATAAGATCATGAACATCTTCCTGCCAAGAGACAGCACGAGCACGAACTGTAGACCGGATACATTGAATAAGAATATCGGGCTCACGAACCGCACCACCATGGAGACGACGATTCCGCTCATTCCAGATAAAGTAGATAGAAGCACACCAGAGCACCCGTCAAAGCTTCCTCATCACACCCTGCCCAATACCCTTACGACTGACCCAAGACAACTCAACCTCCCACCCCCCAACCCTATGAGAGGACGCCATATCCCAAATAATACGATTCCATATATCATACCCAAAAAGACAAGAAAAAAACAGATGATCCCGAGATTCAACACCCCTAGCTTAAGACACGATCGAGGAATCAAACTATCCCACCTACTCAACCTATCCCGAGTGCCCAACCTATCTCTAATAACCAACCAAGCACAAAAAGAATGTCTAGGAATATTCCCCCACCCCACAGCAGACCAACCCAACAAACCTTTTCACTCCTAG MLGVALVAIAAAVWVRLEVTPSVVDEQCFVFMPSNVDRRVLWRRLVETTSRWSIPSVVMGDFNAIRVPSKACGGSPVTSEMEEFDLAIREADLVEPSVQGNWFTWTSKDPGSVERSRDAGLETEAFWSAIRQEKAFLCQKSRGIRVTSHEGLVQMAVNFFRNSLGSQGVGYKELTPLLEEVVQFRWSEECCSALLAPIRRDEIRRTCYLPPGVNATTITLIPKHCEAERMEDYRPISCCNLVYKCISKILADRIRVWLSSFINGNQSTFVVGRSIVDNILLCHEMVGDYHGSSGMPRCAMKVDLQKAYDSALPCVLLVGLWRVLRPLIMVNDSVEGYHHRCEKVCLTHLTFADDLMIFCYADTASISFVRETFCQFGKLSGLIANLGKSSMFVAGVDSETATMLADSMGFALGTLPVRYLGIPLLSGRLQSSDCAPLIQRITSRTQSWSTRVLSFAACAFGVAKSYVFWASVFVLPAEVHHEVDRLLMSYLLRGKEDGRRGAKVAWVDVCRPFEEGGGIVRFLVRFLLISSRLTSVKEMQHSITKILTHHIPSTFEEPRRKTIRTRLYNNKEDLTARGQGTKALNAQNHQTQQIEKRNKKPGKKTPTIGESNQKENQTTKGKIQTTKWKALDKIMNIFLPRDSTSTNCRPDTLNKNIGLTNRTTMETTIPLIPDKVDRSTPEHPSKLPHHTLPNTLTTDPRQLNLPPPNPMRGRHIPNNTIPYIIPKKTRKKQMIPRFNTPSLRHDRGIKLSHLLNLSRVPNLSLITNQAQKECLGIFPHPTADQPNKPFHS Homology
BLAST of PI0025448 vs. ExPASy Swiss-Prot
Match: P14381 (Transposon TX1 uncharacterized 149 kDa protein OS=Xenopus laevis OX=8355 PE=4 SV=1) HSP 1 Score: 58.9 bits (141), Expect = 3.0e-07 Identity = 28/101 (27.72%), Postives = 59/101 (58.42%), Query Frame = 0
BLAST of PI0025448 vs. ExPASy Swiss-Prot
Match: P11369 (LINE-1 retrotransposable element ORF2 protein OS=Mus musculus OX=10090 GN=Pol PE=1 SV=2) HSP 1 Score: 52.8 bits (125), Expect = 2.1e-05 Identity = 32/102 (31.37%), Postives = 54/102 (52.94%), Query Frame = 0
BLAST of PI0025448 vs. ExPASy TrEMBL
Match: A0A5A7V5J2 (Non-LTR retroelement reverse transcriptase-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold387G00210 PE=4 SV=1) HSP 1 Score: 513.5 bits (1321), Expect = 1.6e-141 Identity = 304/677 (44.90%), Postives = 361/677 (53.32%), Query Frame = 0
BLAST of PI0025448 vs. ExPASy TrEMBL
Match: A0A5A7TZS0 (Reverse transcriptase domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold19358G00020 PE=4 SV=1) HSP 1 Score: 513.5 bits (1321), Expect = 1.6e-141 Identity = 322/757 (42.54%), Postives = 383/757 (50.59%), Query Frame = 0
BLAST of PI0025448 vs. ExPASy TrEMBL
Match: A0A5A7SPE5 (Reverse transcriptase domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold581G00620 PE=4 SV=1) HSP 1 Score: 510.4 bits (1313), Expect = 1.4e-140 Identity = 296/614 (48.21%), Postives = 369/614 (60.10%), Query Frame = 0
BLAST of PI0025448 vs. ExPASy TrEMBL
Match: A0A5D3DXE4 (Reverse transcriptase domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1467G00020 PE=4 SV=1) HSP 1 Score: 510.4 bits (1313), Expect = 1.4e-140 Identity = 296/614 (48.21%), Postives = 369/614 (60.10%), Query Frame = 0
BLAST of PI0025448 vs. ExPASy TrEMBL
Match: A0A5A7UV01 (F17F8.5 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold896G00020 PE=4 SV=1) HSP 1 Score: 490.0 bits (1260), Expect = 1.9e-134 Identity = 266/506 (52.57%), Postives = 319/506 (63.04%), Query Frame = 0
BLAST of PI0025448 vs. NCBI nr
Match: KAA0046851.1 (uncharacterized protein E6C27_scaffold19358G00020 [Cucumis melo var. makuwa]) HSP 1 Score: 513.5 bits (1321), Expect = 3.3e-141 Identity = 322/757 (42.54%), Postives = 383/757 (50.59%), Query Frame = 0
BLAST of PI0025448 vs. NCBI nr
Match: KAA0062888.1 (non-LTR retroelement reverse transcriptase-like protein [Cucumis melo var. makuwa] >TYK22520.1 non-LTR retroelement reverse transcriptase-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 513.5 bits (1321), Expect = 3.3e-141 Identity = 304/677 (44.90%), Postives = 361/677 (53.32%), Query Frame = 0
BLAST of PI0025448 vs. NCBI nr
Match: TYK28099.1 (uncharacterized protein E5676_scaffold1467G00020 [Cucumis melo var. makuwa]) HSP 1 Score: 510.4 bits (1313), Expect = 2.8e-140 Identity = 296/614 (48.21%), Postives = 369/614 (60.10%), Query Frame = 0
BLAST of PI0025448 vs. NCBI nr
Match: KAA0026071.1 (uncharacterized protein E6C27_scaffold581G00620 [Cucumis melo var. makuwa]) HSP 1 Score: 510.4 bits (1313), Expect = 2.8e-140 Identity = 296/614 (48.21%), Postives = 369/614 (60.10%), Query Frame = 0
BLAST of PI0025448 vs. NCBI nr
Match: KAA0059752.1 (F17F8.5 [Cucumis melo var. makuwa] >TYJ99767.1 F17F8.5 [Cucumis melo var. makuwa]) HSP 1 Score: 490.0 bits (1260), Expect = 4.0e-134 Identity = 266/506 (52.57%), Postives = 319/506 (63.04%), Query Frame = 0
BLAST of PI0025448 vs. TAIR 10
Match: AT3G24255.1 (RNA-directed DNA polymerase (reverse transcriptase)-related family protein ) HSP 1 Score: 97.1 bits (240), Expect = 7.0e-20 Identity = 57/135 (42.22%), Postives = 75/135 (55.56%), Query Frame = 0
BLAST of PI0025448 vs. TAIR 10
Match: AT1G43760.1 (DNAse I-like superfamily protein ) HSP 1 Score: 47.8 bits (112), Expect = 4.8e-05 Identity = 22/46 (47.83%), Postives = 30/46 (65.22%), 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
Relationships
The following mRNA feature(s) are a part of this gene:
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