CmoCh06G001410 (gene) Cucurbita moschata (Rifu) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ACGGCGTGCGGGAGCAACCAAAGCACAGTAGAATTGAGAAGCTTGCGCCTCCATGGCGGAATAACAAAGCGCGCCATGCTACAATACTCCTCTTCTTATGGCGTTTTTTTCTCTGAGACCCAACAACGGCTTCATTTCTCACATCCTTGACCTAATCAAGCTTCAGGTTAATCCCTTTCTCTTGTCGGCTTCGTTTTCGTCTTCGTTCCCTTTCTTTTTCTCGATTCTTTGAACAGTTTCAGCACTCGCTCTGATTTGTTTCCATAACGACGTTGGAAATTTTGTATTTCAGAGGCTCACTCACGCTTTTACTAACGGAGAGCCTATTCGGGCTCCTATTTACTCAGCAATGGATTTTCATTCAATGGGTCGTCAAGGTGTAGTTTTATCCCCCTCGAGTTCGAGTTTGGATTTTGCTTTCGTTACCAATTGAAGGAAGTTACCAATGGAGTAGTATCTTTTCTAATGTGGATTTCTCTGCCATTTATGCTGTTAATATAACTCTATTTCTTGCGTTATGCAATTTTTGGTTGTTAAATGGCTTATGGTACCGTGTTTCATTCATGTAGATGCATCCAACATTGACATGCCCAAATGGAATAAAGTTGATGGACGGGCTTTTGGGATCAGTCGTTCAATGATCCCATCTTCATCATGGATGGTCTTGAAAATTCTTCACAATAAAGGTAGCAAGTTCATTGTTTGTACACCAACAAATCTTTGCAGCCATCACACTGACGTTGTCCATGTCGTTAACTCAAAATTTGATCCTGCTGCAGTTAATATTAATGTGGCTGGGATGAATTATCCTTGTTTTGTTATGGTAGCTAAATATGTTGCTATAGTTTAAAACCTTCTGCTTCATGAACATCCAAGAAACCATTCATATTCTTAATCAGTTATATATTGAGCTTGTAAGGTCTTGACATGTAGTTGGCTGCCTATTCTTCAATTATATCGCATTTTGTTTTATTAATTTGAACTTGATACATTACGTAATGGACTTCATTTCTTTGTTATGCTTAGGGTTTGAGGCCTATTTGGTTGGTGGATGTGTGAGAGACTTGCTCCTAAATAGAGCACCGAAAGACTTTGATGTGATTACCACTGCTGGACTAAGACAGGTCTTTATAAGCTTTGTGTAACTTCTTGTAGTTTTGTTTTTACTTTCCCTTTACTATAAAGAGTGAGATCAATGTATTTAATAATGACATGGTTTGTTGTGTCTTATGCAGATCCACAAACTTTTTCATCATGCTCAAATTGTTGGACGCCGTTTTCCTATTTGTATGGTTAATATCAAAGGCTCTGTCATTGAGGTAGCGAAGCATTTCTATATTCATGGGTCTTCTTTTACATATGAATTTGGTTTTTCTTGATCTAGTAAGTAATGTTCTGAAAGGCATTTTTTTTTTAGTTCAACAATCTATGGGTAGGGATTGGAACAGCTCACCTTGAAGATAGATTTCTTATTTCTTAGTTACTAGATATATGTTCAAGTTAGTAAAGAATTTTGGAGTAACATCGTTGTTCTCACCTAGATTTCCATCTCATAGGACTTCTTTAGGGCTATAAATTAATCTAATTAGCATGTCAGTATTATTTTTATATTGATATATTTCTTTTTTTAAATAGTACTGGGTACAAATTTATAGTAGGTTCCATAATTAATTCAATCAAATGAGGCGCTGTTGGCTTAATGGGTATGACATTTTCTGTTGGAGCCGAGTTCTTTGTGGCACAAGGTTATTGTGAGCAAGTAGAATCTCATCCATTGGAATGTGTCTTGGGTCATGGGTCTGGAGGCACAACCAAGAACTCATGGATCGCGGTTGGTGTAGACCTTCCTTTTTCGCCGAAGGGACTAGTTTTATATAATTATTATGTTTATGCCTGATTTGCATTTTTATGATTTTTCTTCCTCTTTTTCAATTAAAAAAAAAATATATAAATCAAGGTTTACACCTCATACCCCCTTTAGGCTTACTTCTCACTTTTTAAGCGGGAAAATCTCAAATCCCCAAATAGTCTTTGTAATACATCGCTGGCAAGTAATTTACAATTATTGATCTGCTATGTGCTCCGGTGATTTTCTATCAGGTTTCAAGTTTTGAAACAGTTGCAAAACATTCTAAAGGAAAAGAAACAGTAACGTCTTCTCCAACACCAAGAAAGTGTGATGAAAAGGACTTAATCCGGTGGAGGAACTCTCTGCATAGGGATTTCACAATTAACAGGTCAGTTCTATTTGTGTTTATTGTATAGTCCATTTCTGTACACGTTGTCTATGTTCTTTATGAAATATATCTTTTGCAATGTGAGGTTCACCTTCTTCCCTTGTTAGTAAGTGTTATATCAGATCTTTTACATTATATAATTTTTAAATGTGCTGAGATATTTAGATCTTCAACTTAAGTTTGGCATTGTTGGAAATCTGCTTTCTATCAAAAAACCCTGTATTAACTACTGAATACTTATTTACTAATCATGTTAAATTTGTGTTTGATTCGTGGTTGTCTTGATATTTGTTGAAGCAGTTTATTCTTTGACCCTTTTCTGAACGTAATCTATGACTATGCCGAAGGGATAGCAGACTTAAGGTCCTTGAAGGTGAAGATCTTTCCCCTTTTTAAAAATACGCATTTGTGTCAGTGCCCGATACTTTCTCTTAAGAATAGTCCAGGCCTTTTAACCTTTTTATAACAACCTAATTGGTCATTATGTCTGAATTGCTCATTAATTACTCATGAAATGTTATATGGTATTCATTTAGTTTCTACAAAATGAACTCGTTCAAGCAATTTCCATTTCTTGTATTCCAATTCCTTTTTAACTCTAAATTATGTGGGCAATTGGCATTAGTACTAATAATTGTTCTCTTGGATGTTGATTGCGTCATTGCAAAGAGCATAGAAACATTTTGTTTGATGAAAAATAAACATTTATTTCCTATATATAAATATATATTTTATGCCATTCTTTCTTATTTTTGGGACGGGCCTAATAGATACAGTACAAAGGAAAGTTTGCATATTACCTGTATTCTGTTGTCCATCCCTCTTCCTATATCAAGTATTTTTTTTCCCCATTTGTTGCATGACCTGGACTCAGCTGCGGACGCTAATTCCTGCATCATTGTCATTCAAAGAGGACTGTGGTAGGTTTTACTTTTCCTTGGGTACTCTGTAGGCGTGATAACATTTGGGACTAGTGGCACCTGTGGTGTCCAACAATACTAACTAGGCTACTGCTATTGCATGTTTAATTTTTCACTGTAGCTAGAATTCTGCGTGGCTTAAGAATTGCAGCTCGTTTGGGTTTGTCACTCTCGAAGGATACAGAGACTGCAATGCGTAAACTTTCATCTTCTATCGCAAGCTTGGATAAGGTAACCTTTCGGAAGTTGAACAATACTAATCTCCTATGCTTTACCTCGTGTTCTTCTCCTGCTTTCACTTTTTTTCCGGAGTACACTTCAGCTTTAATAGGAAGGCTTTCCTCTAGTATATGCTCTTAAAGTACAGTACATACTTTCTGAGGTTTTACTCTTTTCTATTTGGTTGTCCTAGTTGTGGTAACTTAGAGTTGGCAGCTACTGTTAGATAGGTTACTTAGATAACATTTTTATATTTTCAGTCCAGGTTGATGATGGAATTTAACTACATGCTATCTTATGGAGCTGCTGTTCCTTCTCTCTATTTGCTCCAGAGGTTCAACCTGCTTGAAATTCTGCTGCCATTTCATGTATGCTTTTCTGATGATTCCTTCACTACGAACGTGATCTTGACCTAATCCTAGTATGTATCTGAGTTGCAGTTATGATTGCAGGCTGCATATCTCGATAAACAGGACATTAAGAAATCTTCTCTCAATTCCACAATGTTGATGGTGAGTGCAGTAATTTGTCACTTCTGGTTTTACCTAACAAGTGTGCTTCTGTACGTTTCTTACTTTTACAATAAATTTGAGAGAATTGTCTATCCCATTCGGGAGTCAAAGAATCTGATTTCAGATAATCTGAAATACCGAGGAGGTTCTCTCTGAAATATCCATTCTTAAGCTAAGCTACCATATCCATATCTGACCTTTGGACACTCCAACACTTGATGGACATGCATTAGACACTTATTAATACAATAGACATGTGTTAGTAGTTGTACAAAGTGAATATTAGTCCATCATTTGTTAGGCACGTTTCAAAAACTTGTTAAAGATACTAAATAGACACAATAGATATATACAACAAAAATAATAAATTTGGAGAGAGAAGTATGTCAAACTCATTTTATTTATATAAATTCATAAACTCAGACTTTGAATTTCTCGGTTCTATAAAAATGTGTCCTTATCATGTACACATCTCAGGTTTTTTTTAAAAATAACGTCTCATCGTGTCTTGTGTCATGTTATATTCATGTCTCATATAACATACCTGTATCCGTATTCATGCTTCTTAGATGATGGTTTTTTTTTTCTTTTTCAAGTGAGTCTAAGCTGTCTCCATTAATATAGGATTTAGGCAACAAATTAGAATAGAAAATTATTGAAGACTAATATTCCCTTGCTTTTGTGTAGGCTAATATGTCCTATTTGCTTGCTTTCAAAATTTGTGAATTTGGCTTTCTTATACATATCAGGGTTCTCTAATATGCTCCTCCACTCCTTGAACACGATTTCAATTTTCAACACTACTTGTTCGAAGTCAAACTAGCTAAACATGTCATTTTCTGCAATTCTATGTAGGATTCTTGTATTGATTGCTTCTATTCTTTATTCTATGCAGAAACTGTTCTCCAATTTGGATAAATTGGTTTCATGTGATCGGCCTTCAGACTGCAATATATGGTTAGCTCATTATTTAGTTTTCTTTCACACTTGGTTGTTAGATTTTCCCGTTCACTTTTAAAGTCAGATTTTCTATATCTAATGTCATGCTAGCCATCATATTAATATTTTCTTTTGAATTGTTTCAGTTTTATTTAAGTGGTATTTTGTAACCAATAAATGATGAGCATTCGTCAGCTTTAATAAGTAACTTACGTTTGATATTTCTTCCAAGACTCACTGCGGGTTTAAGTCTAAGAGTTTTGATATTGAAGCTAGGTAAAAATAAAGGAACTGCATGTATGGCTAGATTTTAAGCCACATATCTATCCAGGCCCCAATATTGAATTAAGAAACTTGATAGAACAACCTTGCGGAGATGTTGAAGCTCCTTTTCTTTTCTATAAATGCCAGTTTGTCAATATGGATATCTCATCCATGTTTCCGTCCTAGGTAAATATAGACCATTGGCATATTAGTGAAAAAGTATCTCTGATGAGATTGAAAATCGTGCAGGGTCGCATTGTTGGCGTTTCACATGGCGTTAGTTAACAACCCTCAGAACTCTCTTATAGTTCTGGCTTTTGCTGCCACCTTGTACCATGGAGAGTGGAATGAAGGTGTGAATTATGCAAGAGAAAACTCTCTTCTGCAGATCAATTTAAGACCGGAGATTACAAGATCGGCTCAATTTAAATCAGCGGAAGAGCTTGCCGAAAGGGTTACTCACTTTGCTTTAAAAGTACAGGGTTGCATTGCTGCTTTAACTTCAGCAGACTGTCTCTTAGAAGCCATGTCAACGTTTCCAGCCTCTCCACACTCTAGTTTGGTAAATAATACTTATATATTAAGTTAACAATCATCATTTATATTGCTTACCAATGTCTATATTAATTCTAATGAGAACGTCAACTACGTTTGATCTTTTATCCGTGCCTGTAATAATTAGTGCTTCTTTTTAGGTGTTTGTGTCCAAGAAAGCTGCCAAAGATGTTGCTAAAATTATTGAAGTGCTGGTGAATGATGTTGAATCCTACAAAAATACGAGAAAAAATTTTGAAATTGACTATCAGCTGCTTAAGAAGGGTATTTTGAATGAGAGTAGATTTGTCTTGGGAAAAGTTATCTTGGAAACCCTGAAAGAGGCAATTGTGCAGGAAGATGGAATCATTCTTGACGTGAAACAAAATCTTTGTGTTGATGCAACTACTGAGGAAAATTATAGTTCACCCGTCTCTGATTCGGTGAAGGACCAATTGGTGGTTAAAAGAAATAAGAAAGTTCGAAAACTGCTATCTAGTTCTGAAGTTGAGTGGGAAGGGAATAAGAAAAATAAGCTTGATGGGAAGGAGGGAAGTATTTTTGACAGGGTAGTTGAGGATGGAAGGTGTGTTAACATTGCAGAACCCTACAAAAAGGGAGTAGAGGCATCTCAATTACCCCATGCTGGATTAAATTCGATGGAGGATTCATTGTTGGAGTCAAGCAAATGTCATCACTTTGAAGTGAGGGAGAGTGAGGTTATGCAAGAAAATCTTGAAACCATGGACAATCAGGTTAAGAAGATGACCCCATCCCAGGAAACACGTGATAAGGTTACCAAGGAGCTACTTCATGCTGTAGAGGCCAACCCATGGAAGATGGACAAAGTAAATGGGAAAGAAGGAAAGCCAGAGAAGAAAGAGCATGGTTTGCAGCCTCAGGGAAAGGAGAATATTGAAAAGAAACGTAGACATGTAACAGATATCGAGCAGCACAAACGTCCGCTGTCTAGCCTTTTTAAGTAAATTCCTAAAGGGTATGAATCAGAAGCTGTTCTTTGAATTGCTCAAAACCGGCGCACCATCGTGGAGGTGTATGATTCAAGTACCATACTTGTTTCTACCCAAGATTTGATCATTACAGTGCCATACTTCAACACGACCGCCCCTGTTCGTTTCTGTTCAATAGTAGAAGCAGTTCAGATTAGAACTCCCGGTGATCTAGAAATCCAACCGGAGTTTTTCCTCAACTAA ACGGCGTGCGGGAGCAACCAAAGCACAGTAGAATTGAGAAGCTTGCGCCTCCATGGCGGAATAACAAAGCGCGCCATGCTACAATACTCCTCTTCTTATGGCGTTTTTTTCTCTGAGACCCAACAACGGCTTCATTTCTCACATCCTTGACCTAATCAAGCTTCAGAGGCTCACTCACGCTTTTACTAACGGAGAGCCTATTCGGGCTCCTATTTACTCAGCAATGGATTTTCATTCAATGGGTCGTCAAGATGCATCCAACATTGACATGCCCAAATGGAATAAAGTTGATGGACGGGCTTTTGGGATCAGTCGTTCAATGATCCCATCTTCATCATGGATGGTCTTGAAAATTCTTCACAATAAAGGGTTTGAGGCCTATTTGGTTGGTGGATGTGTGAGAGACTTGCTCCTAAATAGAGCACCGAAAGACTTTGATGTGATTACCACTGCTGGACTAAGACAGATCCACAAACTTTTTCATCATGCTCAAATTGTTGGACGCCGTTTTCCTATTTGTATGGTTAATATCAAAGGCTCTGTCATTGAGGTTTCAAGTTTTGAAACAGTTGCAAAACATTCTAAAGGAAAAGAAACAGTAACGTCTTCTCCAACACCAAGAAAGTGTGATGAAAAGGACTTAATCCGGTGGAGGAACTCTCTGCATAGGGATTTCACAATTAACAGTTTATTCTTTGACCCTTTTCTGAACGTAATCTATGACTATGCCGAAGGGATAGCAGACTTAAGGTCCTTGAAGCTGCGGACGCTAATTCCTGCATCATTGTCATTCAAAGAGGACTGTGCTAGAATTCTGCGTGGCTTAAGAATTGCAGCTCGTTTGGGTTTGTCACTCTCGAAGGATACAGAGACTGCAATGCGTAAACTTTCATCTTCTATCGCAAGCTTGGATAAGTCCAGGTTGATGATGGAATTTAACTACATGCTATCTTATGGAGCTGCTGTTCCTTCTCTCTATTTGCTCCAGAGGTTCAACCTGCTTGAAATTCTGCTGCCATTTCATGCTGCATATCTCGATAAACAGGACATTAAGAAATCTTCTCTCAATTCCACAATGTTGATGAAACTGTTCTCCAATTTGGATAAATTGGTTTCATGTGATCGGCCTTCAGACTGCAATATATGGGTCGCATTGTTGGCGTTTCACATGGCGTTAGTTAACAACCCTCAGAACTCTCTTATAGTTCTGGCTTTTGCTGCCACCTTGTACCATGGAGAGTGGAATGAAGGTGTGAATTATGCAAGAGAAAACTCTCTTCTGCAGATCAATTTAAGACCGGAGATTACAAGATCGGCTCAATTTAAATCAGCGGAAGAGCTTGCCGAAAGGGTTACTCACTTTGCTTTAAAAGTACAGGGTTGCATTGCTGCTTTAACTTCAGCAGACTGTCTCTTAGAAGCCATGTCAACGTTTCCAGCCTCTCCACACTCTAGTTTGGTGTTTGTGTCCAAGAAAGCTGCCAAAGATGTTGCTAAAATTATTGAAGTGCTGGTGAATGATGTTGAATCCTACAAAAATACGAGAAAAAATTTTGAAATTGACTATCAGCTGCTTAAGAAGGGTATTTTGAATGAGAGTAGATTTGTCTTGGGAAAAGTTATCTTGGAAACCCTGAAAGAGGCAATTGTGCAGGAAGATGGAATCATTCTTGACGTGAAACAAAATCTTTGTGTTGATGCAACTACTGAGGAAAATTATAGTTCACCCGTCTCTGATTCGGTGAAGGACCAATTGGTGGTTAAAAGAAATAAGAAAGTTCGAAAACTGCTATCTAGTTCTGAAGTTGAGTGGGAAGGGAATAAGAAAAATAAGCTTGATGGGAAGGAGGGAAGTATTTTTGACAGGGTAGTTGAGGATGGAAGGTGTGTTAACATTGCAGAACCCTACAAAAAGGGAGTAGAGGCATCTCAATTACCCCATGCTGGATTAAATTCGATGGAGGATTCATTGTTGGAGTCAAGCAAATGTCATCACTTTGAAGTGAGGGAGAGTGAGGTTATGCAAGAAAATCTTGAAACCATGGACAATCAGGTTAAGAAGATGACCCCATCCCAGGAAACACGTGATAAGGTTACCAAGGAGCTACTTCATGCTGTAGAGGCCAACCCATGGAAGATGGACAAAGTAAATGGGAAAGAAGGAAAGCCAGAGAAGAAAGAGCATGGTTTGCAGCCTCAGGGAAAGGAGAATATTGAAAAGAAACGTAGACATGTAACAGATATCGAGCAGCACAAACGTCCGCTGTCTAGCCTTTTTAATACCATACTTGTTTCTACCCAAGATTTGATCATTACAGTGCCATACTTCAACACGACCGCCCCTGTTCGTTTCTGTTCAATAGTAGAAGCAGTTCAGATTAGAACTCCCGGTGATCTAGAAATCCAACCGGAGTTTTTCCTCAACTAA ATGGCGTTTTTTTCTCTGAGACCCAACAACGGCTTCATTTCTCACATCCTTGACCTAATCAAGCTTCAGAGGCTCACTCACGCTTTTACTAACGGAGAGCCTATTCGGGCTCCTATTTACTCAGCAATGGATTTTCATTCAATGGGTCGTCAAGATGCATCCAACATTGACATGCCCAAATGGAATAAAGTTGATGGACGGGCTTTTGGGATCAGTCGTTCAATGATCCCATCTTCATCATGGATGGTCTTGAAAATTCTTCACAATAAAGGGTTTGAGGCCTATTTGGTTGGTGGATGTGTGAGAGACTTGCTCCTAAATAGAGCACCGAAAGACTTTGATGTGATTACCACTGCTGGACTAAGACAGATCCACAAACTTTTTCATCATGCTCAAATTGTTGGACGCCGTTTTCCTATTTGTATGGTTAATATCAAAGGCTCTGTCATTGAGGTTTCAAGTTTTGAAACAGTTGCAAAACATTCTAAAGGAAAAGAAACAGTAACGTCTTCTCCAACACCAAGAAAGTGTGATGAAAAGGACTTAATCCGGTGGAGGAACTCTCTGCATAGGGATTTCACAATTAACAGTTTATTCTTTGACCCTTTTCTGAACGTAATCTATGACTATGCCGAAGGGATAGCAGACTTAAGGTCCTTGAAGCTGCGGACGCTAATTCCTGCATCATTGTCATTCAAAGAGGACTGTGCTAGAATTCTGCGTGGCTTAAGAATTGCAGCTCGTTTGGGTTTGTCACTCTCGAAGGATACAGAGACTGCAATGCGTAAACTTTCATCTTCTATCGCAAGCTTGGATAAGTCCAGGTTGATGATGGAATTTAACTACATGCTATCTTATGGAGCTGCTGTTCCTTCTCTCTATTTGCTCCAGAGGTTCAACCTGCTTGAAATTCTGCTGCCATTTCATGCTGCATATCTCGATAAACAGGACATTAAGAAATCTTCTCTCAATTCCACAATGTTGATGAAACTGTTCTCCAATTTGGATAAATTGGTTTCATGTGATCGGCCTTCAGACTGCAATATATGGGTCGCATTGTTGGCGTTTCACATGGCGTTAGTTAACAACCCTCAGAACTCTCTTATAGTTCTGGCTTTTGCTGCCACCTTGTACCATGGAGAGTGGAATGAAGGTGTGAATTATGCAAGAGAAAACTCTCTTCTGCAGATCAATTTAAGACCGGAGATTACAAGATCGGCTCAATTTAAATCAGCGGAAGAGCTTGCCGAAAGGGTTACTCACTTTGCTTTAAAAGTACAGGGTTGCATTGCTGCTTTAACTTCAGCAGACTGTCTCTTAGAAGCCATGTCAACGTTTCCAGCCTCTCCACACTCTAGTTTGGTGTTTGTGTCCAAGAAAGCTGCCAAAGATGTTGCTAAAATTATTGAAGTGCTGGTGAATGATGTTGAATCCTACAAAAATACGAGAAAAAATTTTGAAATTGACTATCAGCTGCTTAAGAAGGGTATTTTGAATGAGAGTAGATTTGTCTTGGGAAAAGTTATCTTGGAAACCCTGAAAGAGGCAATTGTGCAGGAAGATGGAATCATTCTTGACGTGAAACAAAATCTTTGTGTTGATGCAACTACTGAGGAAAATTATAGTTCACCCGTCTCTGATTCGGTGAAGGACCAATTGGTGGTTAAAAGAAATAAGAAAGTTCGAAAACTGCTATCTAGTTCTGAAGTTGAGTGGGAAGGGAATAAGAAAAATAAGCTTGATGGGAAGGAGGGAAGTATTTTTGACAGGGTAGTTGAGGATGGAAGGTGTGTTAACATTGCAGAACCCTACAAAAAGGGAGTAGAGGCATCTCAATTACCCCATGCTGGATTAAATTCGATGGAGGATTCATTGTTGGAGTCAAGCAAATGTCATCACTTTGAAGTGAGGGAGAGTGAGGTTATGCAAGAAAATCTTGAAACCATGGACAATCAGGTTAAGAAGATGACCCCATCCCAGGAAACACGTGATAAGGTTACCAAGGAGCTACTTCATGCTGTAGAGGCCAACCCATGGAAGATGGACAAAGTAAATGGGAAAGAAGGAAAGCCAGAGAAGAAAGAGCATGGTTTGCAGCCTCAGGGAAAGGAGAATATTGAAAAGAAACGTAGACATGTAACAGATATCGAGCAGCACAAACGTCCGCTGTCTAGCCTTTTTAATACCATACTTGTTTCTACCCAAGATTTGATCATTACAGTGCCATACTTCAACACGACCGCCCCTGTTCGTTTCTGTTCAATAGTAGAAGCAGTTCAGATTAGAACTCCCGGTGATCTAGAAATCCAACCGGAGTTTTTCCTCAACTAA MAFFSLRPNNGFISHILDLIKLQRLTHAFTNGEPIRAPIYSAMDFHSMGRQDASNIDMPKWNKVDGRAFGISRSMIPSSSWMVLKILHNKGFEAYLVGGCVRDLLLNRAPKDFDVITTAGLRQIHKLFHHAQIVGRRFPICMVNIKGSVIEVSSFETVAKHSKGKETVTSSPTPRKCDEKDLIRWRNSLHRDFTINSLFFDPFLNVIYDYAEGIADLRSLKLRTLIPASLSFKEDCARILRGLRIAARLGLSLSKDTETAMRKLSSSIASLDKSRLMMEFNYMLSYGAAVPSLYLLQRFNLLEILLPFHAAYLDKQDIKKSSLNSTMLMKLFSNLDKLVSCDRPSDCNIWVALLAFHMALVNNPQNSLIVLAFAATLYHGEWNEGVNYARENSLLQINLRPEITRSAQFKSAEELAERVTHFALKVQGCIAALTSADCLLEAMSTFPASPHSSLVFVSKKAAKDVAKIIEVLVNDVESYKNTRKNFEIDYQLLKKGILNESRFVLGKVILETLKEAIVQEDGIILDVKQNLCVDATTEENYSSPVSDSVKDQLVVKRNKKVRKLLSSSEVEWEGNKKNKLDGKEGSIFDRVVEDGRCVNIAEPYKKGVEASQLPHAGLNSMEDSLLESSKCHHFEVRESEVMQENLETMDNQVKKMTPSQETRDKVTKELLHAVEANPWKMDKVNGKEGKPEKKEHGLQPQGKENIEKKRRHVTDIEQHKRPLSSLFNTILVSTQDLIITVPYFNTTAPVRFCSIVEAVQIRTPGDLEIQPEFFLN Homology
BLAST of CmoCh06G001410 vs. ExPASy Swiss-Prot
Match: P44439 (Poly(A) polymerase I OS=Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd) OX=71421 GN=pcnB PE=3 SV=1) HSP 1 Score: 150.6 bits (379), Expect = 7.3e-35 Identity = 96/287 (33.45%), Postives = 159/287 (55.40%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy Swiss-Prot
Match: P0ABF3 (Poly(A) polymerase I OS=Escherichia coli O157:H7 OX=83334 GN=pcnB PE=3 SV=2) HSP 1 Score: 131.7 bits (330), Expect = 3.5e-29 Identity = 86/261 (32.95%), Postives = 137/261 (52.49%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy Swiss-Prot
Match: P0ABF2 (Poly(A) polymerase I OS=Escherichia coli O6:H1 (strain CFT073 / ATCC 700928 / UPEC) OX=199310 GN=pcnB PE=3 SV=2) HSP 1 Score: 131.7 bits (330), Expect = 3.5e-29 Identity = 86/261 (32.95%), Postives = 137/261 (52.49%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy Swiss-Prot
Match: P0ABF1 (Poly(A) polymerase I OS=Escherichia coli (strain K12) OX=83333 GN=pcnB PE=1 SV=2) HSP 1 Score: 131.7 bits (330), Expect = 3.5e-29 Identity = 86/261 (32.95%), Postives = 137/261 (52.49%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy Swiss-Prot
Match: Q8Z9C3 (Poly(A) polymerase I OS=Salmonella typhi OX=90370 GN=pcnB PE=3 SV=2) HSP 1 Score: 130.2 bits (326), Expect = 1.0e-28 Identity = 88/276 (31.88%), Postives = 143/276 (51.81%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy TrEMBL
Match: A0A6J1G6Y5 (uncharacterized protein LOC111451426 OS=Cucurbita moschata OX=3662 GN=LOC111451426 PE=3 SV=1) HSP 1 Score: 1418.3 bits (3670), Expect = 0.0e+00 Identity = 727/727 (100.00%), Postives = 727/727 (100.00%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy TrEMBL
Match: A0A6J1I3F4 (uncharacterized protein LOC111470184 OS=Cucurbita maxima OX=3661 GN=LOC111470184 PE=3 SV=1) HSP 1 Score: 1379.4 bits (3569), Expect = 0.0e+00 Identity = 710/727 (97.66%), Postives = 717/727 (98.62%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy TrEMBL
Match: A0A6J1CVT5 (uncharacterized protein LOC111014843 isoform X4 OS=Momordica charantia OX=3673 GN=LOC111014843 PE=3 SV=1) HSP 1 Score: 989.6 bits (2557), Expect = 7.6e-285 Identity = 539/736 (73.23%), Postives = 588/736 (79.89%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy TrEMBL
Match: A0A6J1CWE8 (uncharacterized protein LOC111014843 isoform X3 OS=Momordica charantia OX=3673 GN=LOC111014843 PE=3 SV=1) HSP 1 Score: 984.6 bits (2544), Expect = 2.4e-283 Identity = 539/738 (73.04%), Postives = 588/738 (79.67%), Query Frame = 0
BLAST of CmoCh06G001410 vs. ExPASy TrEMBL
Match: A0A6J1CW57 (uncharacterized protein LOC111014843 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111014843 PE=3 SV=1) HSP 1 Score: 981.1 bits (2535), Expect = 2.7e-282 Identity = 539/747 (72.16%), Postives = 588/747 (78.71%), Query Frame = 0
BLAST of CmoCh06G001410 vs. TAIR 10
Match: AT2G17580.1 (Polynucleotide adenylyltransferase family protein ) HSP 1 Score: 497.7 bits (1280), Expect = 1.7e-140 Identity = 282/557 (50.63%), Postives = 372/557 (66.79%), Query Frame = 0
BLAST of CmoCh06G001410 vs. TAIR 10
Match: AT1G28090.1 (Polynucleotide adenylyltransferase family protein ) HSP 1 Score: 373.2 bits (957), Expect = 4.9e-103 Identity = 208/458 (45.41%), Postives = 290/458 (63.32%), Query Frame = 0
BLAST of CmoCh06G001410 vs. TAIR 10
Match: AT1G28090.2 (Polynucleotide adenylyltransferase family protein ) HSP 1 Score: 373.2 bits (957), Expect = 4.9e-103 Identity = 208/458 (45.41%), Postives = 290/458 (63.32%), Query Frame = 0
BLAST of CmoCh06G001410 vs. TAIR 10
Match: AT1G28090.3 (Polynucleotide adenylyltransferase family protein ) HSP 1 Score: 373.2 bits (957), Expect = 4.9e-103 Identity = 208/458 (45.41%), Postives = 290/458 (63.32%), Query Frame = 0
BLAST of CmoCh06G001410 vs. TAIR 10
Match: AT5G23690.1 (Polynucleotide adenylyltransferase family protein ) HSP 1 Score: 339.7 bits (870), Expect = 6.0e-93 Identity = 186/461 (40.35%), Postives = 278/461 (60.30%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucurbita moschata (Rifu) v1
Date Performed: 2021-10-25
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.
|