CmaCh06G009750 (gene) Cucurbita maxima (Rimu)
The following sequences are available for this feature:
Legend: CDSexon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCAGAAGAGGCAAAAGACCCTTTCAAGGGAGTCGATTGGAAGGCCGTGGGTGGCGATATGCAGAAAGATCCCAGCTCTATAAACATTTTAAAGAAAAGGCGTCCAACAAAAGTTAGGCAAATTCCAGAGTATTATTTTCTTCCTAGAAGATCCCTTTCCTCGGTCCTTGCATTCTATGGGGCGTGTATTGCAGGTGGAATTGGAGCTGGGATGCTGGTGGAGATATGGATTAAGGATAAAGTTAAAAGTAAGCTTTGAATTTGTTCTTAATAGTCTTGCTTCATAATCCTACCAATATCATTAACCTTATCCAGAATTCATAGCTTTATATTGATAGGTTTCTAAAACTTTAAAAGACCTTTAAAAGTGTCGAATAGATATTTAAACTTTCAATCTTGTGTCCAATAGAACCTACTAGACATAAAATTGAAACTTTAAAGTCTTCTTAGAAATAAAATTCAACTCTATATCTAATTGATCAATTAGTTTATTATTCAAATATAATGAAGGGACCTATTAGATACACTTTTTTATGTTAAAAAATGTCTTGGACACAAAATTGATAGTTCAACTACAAAACTTATGACACAACATTTTTTTTGTGATGTGTATGAGAGATAGACAGTGTGATTGACTATTGAAGTTTCCTTTTTGATGTGTTCTTGCAGAGGATGGAGGCGTCGTCTGGGAGTTTGACAAGTAGAGTACAGAGAGATGAAGTTGTAATAAGATCATCCAGTTCTGGGTTTTGTTTTGTTGTCAATCCTTAGTTTTGGCACATATAAAGGAAAACATCTTTTATTGTCACTGTGAAGTTGTACAAAAATTGGAAGCAATAACCAGTAAGTTTTTCAAAGTTATGACTCCAATTCAGCTATTGGTTGTTTCTGTAGTTATAGATCAAGCACAAATGACAATAAATGCAATCATTTTTGGTATAAAGCTTATACAGATTGTTGCTTTGCTCTGGTAAAGCTGGGTTTTGGTGGATATCATGTGCTAGTAATCTTATCATGTTTCCCTGCCTAGCTAGAGTTTTTTACTTTTTTTTATCAACAATACTCTCTCCACATCTTGGTCCAAGATATCTTTTTAACTATCTCAAGTTGACATCTTTCTTAAAGTTTCTGTTTTCCACAATTTCTCCTCTTGCAAACATTTGTTGGTTAAGATTCAGATAAACAAACCCTTTCTTCCTTCTTCAGATTCGGATAATCGACTTGCTAAAATGTAAAATGAGGAAAATTAACAAGATGGAGAGTGCAAAATGCATATGCAAGTCTGAATAAGAATCTAGAAAAGGTTGCTTGCTTGGCTGGGTTTTCAGCAAGATAAGGAAGGCCTGGATTAGGCCCCAAATACTGCATTCTTGCCTTTGGAGAAATGGAGAAGCCAGGCTTCTGCTCTTTGCTACTTTGAGAATCTCATATGATGTAGTGTATAGGGATTTGAAACTCCTGACCTAAGTAGATGTCATAACCTTAAATTTTGTAGCATTAGCACAAGATGCATCAAAAACCTCCATTCTCCTACAGATACGAAATCGCTCCCATGACTCGAACACCAACATATCTTAAAAAGCGACATTCAAAATCGAAAAAGAAATTGACTCAAATTGGTACATAGTTCAGCAGTAATCTAAAATATGATAAGCTAGTGTATGCGTTAGGAGTTTGGAGTGACACATTCGACCTGGCAGTGTTAGCATTTTTTCATATATTTTAAATTATAAATTTTTAGGATAAAGTGACACATTGGACTAGTACGTGTGCGAAAAGTCGGGTCGTTACAACAAGTGTGAAGAAAACGATTGTGATTGTTGGCACTATCTCTACAACGTAGTTGTCGGCTGATGTGGGGTGACAACGCAATTAGAGAGAAGCAACAGTGATAGCAAGGCCGGTGCGAGACGATCGACTATCGACAACGACAATAAGCTGTAACGGGTGGTGTGCGAAAATGCAAGATGAAGAAGAGCAATTGGAGGTTGGCAGAAGAAGGAAGTTTTAACTTGTTAACTGAGTACTCAAGGAAAAAAAAAACATGAACTAATTTGTCATTTAACTTAAATTAATTTATATAGATGAAATATGGCATAAATTAATTTATTAACTATATCGAAAAAGAAAAATAAATAAATAAAACATATAATTACCGAGAAATTAATTATTGAAATGTTACCCAAAAAAGAGAAAAATGATGGAGAATTGATATTGTGGTTACAGTTGCATCTTATACTCGAATGAAAAAAAAAAAACTGATTCGCGCAAAGGAAGAAGCTTGAATGCATCACTTGCTAATTCAACTGTCCCAGTGATGAGCTTCCGTCGCCGATCACTGTAACCCCTCCATTTGTTCCGATCAGGCCCAATTCCATGGCGGGAACGGCCTCGGAGATCGATTCTATCTATCGTCTCCCTCTCCCTCTTTTAGGATCCGAGCCGATCCCTTCCGCCCCGAATAGATTCGCTGGTTCCTCCATCGACTGGATTCCAGATTTTGCTGGCTATGCATGGGTCGCTTATGGAGCCTCATCCGTTTTGGTGATTTCTCACTTCCCTTCTCCTCTGTCTCCCCAAGAAACCACAATTGGACCCATATTTCGCCAGGTACTGGAGCTCTCTGGCGACGACTTATCTGTTGTCAATGCCGTATCTTGGTCTCCCGTATTACCGTCGGAGGGCGAGCTCGCTGCAGCTGTGGGCAACCGGATATGGGTGTTTTCTCATGATTTGGGTGCTTCTCGAGGTACGCGACAGTTTACAGTTATTATGTTTTCATTACTGTATGTTCGTGGGAAAATGGGCGAAGGAACTGATTGGGAAGTGACATATTGGATTTAGTGCCAATTAGTTCAGCGTGTCTTTTCTAGGATAGTTATAAAGTTAATTTCCACTTGGATTCGCCAACAATGTGGGAGATTGAGGTAATGGTGATGAACACGTCTTCNCTGATATATTTTCCATTTCTTTGCCTTCTGATTGTAATACAACATATAAATTCAATAAATTTATGTTAATAGGGGTATGGATGGAAGGATTTCAGGCACTATCATGGGAAATCACCTTACATACTTATGATATCTTTGGGACTGGAGTACATTGCAATTGTGATATTGATAATGAAAATATAGCTGAGCTCAGTATATTGACATTTGAAAGTTCTTTTGGAAGCAAAAAGTATTGTGTTAGTATAATCCCCTGCTCATCACAGTTCCCAAATTCTCAAATTAATGACCAGATTACAAGTTTTGGCGTGGTGCACCAAGGAACTTTTGCTCCTGTGCAGCAAAAATTAACTTCTTCAGGTGAACCATATACCCCTGCATATATTATGGCTACTGGCTCTGCTGATGGAAGTTTGAAACTTTGGAGAAGCAATGTAGGCAAACCATCAATCTTTCACGTGTCTTGGGAGCTTGTTTGTGTTGTTGTCACTCACCAAGGCCCCATTACTGCATTGTGTTTGACCGATTGTGGACGGAAAATTGCTACAATTAGCAAGAACAACCATAAACCTAATATCAGCAACGTTCACTTATGGGAGCTTGCATGCCTTGGTGCAGGGACCCTTTTGTTTGAAGATGAACTGTCCTTTGAAAGCAATATCATTGCAGTAGACTGGTTAACTTTAGGAAATGGTCAGTTTTTACTTGGAATTTGTTTGCAAAATGAATTGCGTGTGTACTCCCTGAAGCATTTTGGTCAGACCTTGTCAGGCATCACAAAATCTTTGGATACTGAGACTTGGATCTGCATTGGGTTTGCTCGTACTTTACCATCTAATTGTGGCTTCCTCTGGGGGCCGAAGAGCACAGCAATAGTTATACATGATCATTACTTTTGTATAGTTAGTCCTTGGCTGTTCCTTGGGGATAAAAACCATGATGCTATGTGCAGCCCTTATTACATTGGAGAAACTAAAAATCACCATGTCAATGGGACTGATGTCGCTGTTTTTGCTGATGAATGTTGCAGTATCAGAAAATTATCAGATGATAATTATGACAGCAAACGTAGACCAAGATCTCTCACAAACATTCATGCTGAAACCAATATTCTATCGAATAGTTCATATCCACGGGTTGCACAGATGAAAAGTACAACTTCGCTTGGTCTTATAAGCATGCCTGATATAGCTGATAAATTGTGTGGATCACTGTCCTCTTTTCATCCTCATGCTCTCCTCATTGATATATATTCAGGTGATTATATAAACTACTGCCTATCGGCAAGTTTGGTTGTTTTTTTTTTTTAAGGATTTTCCCTTAAAAGCTTCCACCAATAATTCATTACGAGCCATCTTATTATATGCTTTTATGAGCACAGAGAATATTTTATCCATTTATCCATTTGTTTTATTTTTATATCTGATAAATTTTACATTTTTAGTCTTGTTATTGTCTTGTTAATTTTATTACTTTTGTTGACTTGCCACCAGCCACAGCTAACTAAACATTTATTTTCCTACTTTCTGGTTAAAGCATGAAACTGTTAATTTCCATATTTTCTCGAAGAAAACTATAATTTGTCTTTAAAATCGTCAGATAAAATGCACCATGAGGCTGCAAAATAATCAACTATTAGCAGTTTAATTTTAGGTCAATTTCTGTAGAATTTTTATCATCTCTCTGTTCGGTACAGTTAAACTCAGTGGTTCATTCAGGCTTAAGATTTGCAATCCTCAATTTGAATAGGTAAGTGGAAACGTGCATATTCAGCTTTGAGTCATCTTATTGAGCATCTTTCTTCTGATAAAAAGAGTTCTGCAAACCCAACCAATACTATTCCGGAGATCCTTTTGTCAGATTATTTTGAAGGAGTTGCGAAAACTTCTACTGATAAAGAAGTTCAGTGGAGTATGAATGGCTTAGCATCCCAATTTAAGGAAGGTGTTTCACCATGGACCTTCAATTGGGATTCTATTAGTAATGACAGCTCATTCATTCCGTCCTCTACGAAATCTGAATTCAGCTCCTTTATTGAGCCTCTTGAAAAGTTCTATGAATCAGCAGGGCTAACCAGCATGGAGAAGACAGAAACTCTAGCAATTATAGATCTTCTTGATGAAATCAGTAATAAATCTTCTGCATCTGCCTACGAAAGTCTTGATGAGCCCGGGAGAAGGTACTTTACAATAATGCTTTTGTAACTTCTCAATTACACTTTTTGTTAAACGGCTTGAGGAAACCCTTGCCTCATTTTCACTATTTGTGTTTTCTTATATATGCCTCACTGTCACTATGCCCTGCAGATATATATATGTGTGTGTGTATATACATATATTCTTATTGTGAAACCGTGAATTTTCTTTTTCCAGTTTTGAATGTTTCAATTGATTATAAGTTCATGTACAGTTTATTTCATTAGTTTTTTAACATTTGTTACTTTTCTTTTCTATATTTTTCATTTGATCGTTCAAGTTCTAGTATGGTACCCTCGTAATCGTTAGTGTATACGCTACACACCTTAGATTCCATGTAAAGAGATCGCCGATTTGCTAGTTTGACGTGTGAAATTTTATTATCACTTTGAGAATTGATTGTGGATCAAACGAAGGATATTGCCCTTCAAGTGTTGTGCCTTCCACAGCTCTATGCCGTGTTACCAAAAAAAATATTGCTGTATAAGAGGTGTGGGAGGAAAATGTTTGTTATTAAAAGATTTTGACTAGAAGAACTACACAGAACTCAAATTTGCTAGTTTAGGGAGCATATCAAGTTGTTAAATTTTGTAATTTGCAGTGGCTGGGTTTAATTTTCGTCAAACCTATTTTCTTCAGATAATTCTTTGACCAAGAACTTCACCAAGAAATAACTGGACCTCCAGCTGTTGAAGTCTTGTATCTAGAATATTTCCTCTCAACAACCACAAAAACTGCACGAAGATTCAATTATAGCTCTTCCATTTGCTCTTCAAGGGCGTGTTAACTATTAACATGACTGAAAAAAATTCACAGTAAATGTCCAACCATGCTTCCAAGTAACAGTTATGTGTTCTATGTGAAAGCAAAGGGTGACCAAGCACATCTACTGTTTCGTTGCTCTTAAGCAAGAATGTACATTTTTGGTTGTATATTCATTTTCAACCCAGGAGTATACGAAACACTGAAAAAGAAAAGTATAAATAAATAAATATATATATATATATATATTAATCCGGAAAAAGGTTATTGATGTATGAAATTGATAAAGGGATGGAAAATCAATAAGAATTACAAAATGCTTTCCCGAGTGATTAAAATCTGGGTCAATATGTGGTCCCATACTTAAATATAAGGTTATTGTATTGGGGAAAAAATGCAGTTAGAACAACAAGTTATATATAAAACTAAACCGTATGCTCTTCAGTGACTTGGATATGGAGGGAAAAGCTCCTGAATTCCTAATTTGATGACGTTTTGTTACTCATCCTGGCGTACTTCATCTACATTTTTCTTTTTTGTAATTTTGCTCCCTTCTAACTAATTCAAAATGGGGTAGTATTCTGTAGTATTCAATCATGTAATTTTCTTGTTCCATGTTGTAGTGATTATTTATTTTCATTCTCTAGATATTGGATTGCTTTGAGGTTTCAACAACTGCGATTTCTTCGGTGTGATGGTAGATCAGCATCTCTGGAAGAGCTGACCATTGATTCAAGATTGATTGGATGGGCCTATCACTCTGATTGTCAGCAAAATCTATTGGATTCGGTTATCTCTAAAGAACCAACATGGCAGGAAATGAGAAGTTTGGGTGTTGGAATTTGGTTTACTAATACAACACAGTTGCGTGCAAGG ATGGCAGAAGAGGCAAAAGACCCTTTCAAGGGAGTCGATTGGAAGGCCGTGGGTGGCGATATGCAGAAAGATCCCAGCTCTATAAACATTTTAAAGAAAAGGCGTCCAACAAAAGTTAGGCAAATTCCAGAGTATTATTTTCTTCCTAGAAGATCCCTTTCCTCGGTCCTTGCATTCTATGGGGCGTGTATTGCAGGTGGAATTGGAGCTGGGATGCTGGTGGAGATATGGATTAAGGATAAAGTTAAAAAGGATGGAGGCGTCGTCTGGGAGTTTGACAATGATGAGCTTCCGTCGCCGATCACTGTAACCCCTCCATTTGTTCCGATCAGGCCCAATTCCATGGCGGGAACGGCCTCGGAGATCGATTCTATCTATCGTCTCCCTCTCCCTCTTTTAGGATCCGAGCCGATCCCTTCCGCCCCGAATAGATTCGCTGGTTCCTCCATCGACTGGATTCCAGATTTTGCTGGCTATGCATGGGTCGCTTATGGAGCCTCATCCGTTTTGGTGATTTCTCACTTCCCTTCTCCTCTGTCTCCCCAAGAAACCACAATTGGACCCATATTTCGCCAGGTACTGGAGCTCTCTGGCGACGACTTATCTGTTGTCAATGCCGTATCTTGGTCTCCCGTATTACCGTCGGAGGGCGAGCTCGCTGCAGCTGTGGGCAACCGGATATGGGTGTTTTCTCATGATTTGGGTGCTTCTCGAGGGGTATGGATGGAAGGATTTCAGGCACTATCATGGGAAATCACCTTACATACTTATGATATCTTTGGGACTGGAGTACATTGCAATTGTGATATTGATAATGAAAATATAGCTGAGCTCAGTATATTGACATTTGAAAGTTCTTTTGGAAGCAAAAAGTATTGTGTTAGTATAATCCCCTGCTCATCACAGTTCCCAAATTCTCAAATTAATGACCAGATTACAAGTTTTGGCGTGGTGCACCAAGGAACTTTTGCTCCTGTGCAGCAAAAATTAACTTCTTCAGGTGAACCATATACCCCTGCATATATTATGGCTACTGGCTCTGCTGATGGAAGTTTGAAACTTTGGAGAAGCAATGTAGGCAAACCATCAATCTTTCACGTGTCTTGGGAGCTTGTTTGTGTTGTTGTCACTCACCAAGGCCCCATTACTGCATTGTGTTTGACCGATTGTGGACGGAAAATTGCTACAATTAGCAAGAACAACCATAAACCTAATATCAGCAACGTTCACTTATGGGAGCTTGCATGCCTTGGTGCAGGGACCCTTTTGTTTGAAGATGAACTGTCCTTTGAAAGCAATATCATTGCAGTAGACTGGTTAACTTTAGGAAATGGTCAGTTTTTACTTGGAATTTGTTTGCAAAATGAATTGCGTGTGTACTCCCTGAAGCATTTTGGTCAGACCTTGTCAGGCATCACAAAATCTTTGGATACTGAGACTTGGATCTGCATTGGGTTTGCTCGTACTTTACCATCTAATTGTGGCTTCCTCTGGGGGCCGAAGAGCACAGCAATAGTTATACATGATCATTACTTTTGTATAGTTAGTCCTTGGCTGTTCCTTGGGGATAAAAACCATGATGCTATGTGCAGCCCTTATTACATTGGAGAAACTAAAAATCACCATGTCAATGGGACTGATGTCGCTGTTTTTGCTGATGAATGTTGCAGTATCAGAAAATTATCAGATGATAATTATGACAGCAAACGTAGACCAAGATCTCTCACAAACATTCATGCTGAAACCAATATTCTATCGAATAGTTCATATCCACGGGTTGCACAGATGAAAAGTACAACTTCGCTTGGTCTTATAAGCATGCCTGATATAGCTGATAAATTGTGTGGATCACTGTCCTCTTTTCATCCTCATGCTCTCCTCATTGATATATATTCAGGTAAGTGGAAACGTGCATATTCAGCTTTGAGTCATCTTATTGAGCATCTTTCTTCTGATAAAAAGAGTTCTGCAAACCCAACCAATACTATTCCGGAGATCCTTTTGTCAGATTATTTTGAAGGAGTTGCGAAAACTTCTACTGATAAAGAAGTTCAGTGGAGTATGAATGGCTTAGCATCCCAATTTAAGGAAGGTGTTTCACCATGGACCTTCAATTGGGATTCTATTAGTAATGACAGCTCATTCATTCCGTCCTCTACGAAATCTGAATTCAGCTCCTTTATTGAGCCTCTTGAAAAGTTCTATGAATCAGCAGGGCTAACCAGCATGGAGAAGACAGAAACTCTAGCAATTATAGATCTTCTTGATGAAATCAGTAATAAATCTTCTGCATCTGCCTACGAAAGTCTTGATGAGCCCGGGAGAAGATATTGGATTGCTTTGAGGTTTCAACAACTGCGATTTCTTCGGTGTGATGGTAGATCAGCATCTCTGGAAGAGCTGACCATTGATTCAAGATTGATTGGATGGGCCTATCACTCTGATTGTCAGCAAAATCTATTGGATTCGGTTATCTCTAAAGAACCAACATGGCAGGAAATGAGAAGTTTGGGTGTTGGAATTTGGTTTACTAATACAACACAGTTGCGTGCAAGG ATGGCAGAAGAGGCAAAAGACCCTTTCAAGGGAGTCGATTGGAAGGCCGTGGGTGGCGATATGCAGAAAGATCCCAGCTCTATAAACATTTTAAAGAAAAGGCGTCCAACAAAAGTTAGGCAAATTCCAGAGTATTATTTTCTTCCTAGAAGATCCCTTTCCTCGGTCCTTGCATTCTATGGGGCGTGTATTGCAGGTGGAATTGGAGCTGGGATGCTGGTGGAGATATGGATTAAGGATAAAGTTAAAAAGGATGGAGGCGTCGTCTGGGAGTTTGACAATGATGAGCTTCCGTCGCCGATCACTGTAACCCCTCCATTTGTTCCGATCAGGCCCAATTCCATGGCGGGAACGGCCTCGGAGATCGATTCTATCTATCGTCTCCCTCTCCCTCTTTTAGGATCCGAGCCGATCCCTTCCGCCCCGAATAGATTCGCTGGTTCCTCCATCGACTGGATTCCAGATTTTGCTGGCTATGCATGGGTCGCTTATGGAGCCTCATCCGTTTTGGTGATTTCTCACTTCCCTTCTCCTCTGTCTCCCCAAGAAACCACAATTGGACCCATATTTCGCCAGGTACTGGAGCTCTCTGGCGACGACTTATCTGTTGTCAATGCCGTATCTTGGTCTCCCGTATTACCGTCGGAGGGCGAGCTCGCTGCAGCTGTGGGCAACCGGATATGGGTGTTTTCTCATGATTTGGGTGCTTCTCGAGGGGTATGGATGGAAGGATTTCAGGCACTATCATGGGAAATCACCTTACATACTTATGATATCTTTGGGACTGGAGTACATTGCAATTGTGATATTGATAATGAAAATATAGCTGAGCTCAGTATATTGACATTTGAAAGTTCTTTTGGAAGCAAAAAGTATTGTGTTAGTATAATCCCCTGCTCATCACAGTTCCCAAATTCTCAAATTAATGACCAGATTACAAGTTTTGGCGTGGTGCACCAAGGAACTTTTGCTCCTGTGCAGCAAAAATTAACTTCTTCAGGTGAACCATATACCCCTGCATATATTATGGCTACTGGCTCTGCTGATGGAAGTTTGAAACTTTGGAGAAGCAATGTAGGCAAACCATCAATCTTTCACGTGTCTTGGGAGCTTGTTTGTGTTGTTGTCACTCACCAAGGCCCCATTACTGCATTGTGTTTGACCGATTGTGGACGGAAAATTGCTACAATTAGCAAGAACAACCATAAACCTAATATCAGCAACGTTCACTTATGGGAGCTTGCATGCCTTGGTGCAGGGACCCTTTTGTTTGAAGATGAACTGTCCTTTGAAAGCAATATCATTGCAGTAGACTGGTTAACTTTAGGAAATGGTCAGTTTTTACTTGGAATTTGTTTGCAAAATGAATTGCGTGTGTACTCCCTGAAGCATTTTGGTCAGACCTTGTCAGGCATCACAAAATCTTTGGATACTGAGACTTGGATCTGCATTGGGTTTGCTCGTACTTTACCATCTAATTGTGGCTTCCTCTGGGGGCCGAAGAGCACAGCAATAGTTATACATGATCATTACTTTTGTATAGTTAGTCCTTGGCTGTTCCTTGGGGATAAAAACCATGATGCTATGTGCAGCCCTTATTACATTGGAGAAACTAAAAATCACCATGTCAATGGGACTGATGTCGCTGTTTTTGCTGATGAATGTTGCAGTATCAGAAAATTATCAGATGATAATTATGACAGCAAACGTAGACCAAGATCTCTCACAAACATTCATGCTGAAACCAATATTCTATCGAATAGTTCATATCCACGGGTTGCACAGATGAAAAGTACAACTTCGCTTGGTCTTATAAGCATGCCTGATATAGCTGATAAATTGTGTGGATCACTGTCCTCTTTTCATCCTCATGCTCTCCTCATTGATATATATTCAGGTAAGTGGAAACGTGCATATTCAGCTTTGAGTCATCTTATTGAGCATCTTTCTTCTGATAAAAAGAGTTCTGCAAACCCAACCAATACTATTCCGGAGATCCTTTTGTCAGATTATTTTGAAGGAGTTGCGAAAACTTCTACTGATAAAGAAGTTCAGTGGAGTATGAATGGCTTAGCATCCCAATTTAAGGAAGGTGTTTCACCATGGACCTTCAATTGGGATTCTATTAGTAATGACAGCTCATTCATTCCGTCCTCTACGAAATCTGAATTCAGCTCCTTTATTGAGCCTCTTGAAAAGTTCTATGAATCAGCAGGGCTAACCAGCATGGAGAAGACAGAAACTCTAGCAATTATAGATCTTCTTGATGAAATCAGTAATAAATCTTCTGCATCTGCCTACGAAAGTCTTGATGAGCCCGGGAGAAGATATTGGATTGCTTTGAGGTTTCAACAACTGCGATTTCTTCGGTGTGATGGTAGATCAGCATCTCTGGAAGAGCTGACCATTGATTCAAGATTGATTGGATGGGCCTATCACTCTGATTGTCAGCAAAATCTATTGGATTCGGTTATCTCTAAAGAACCAACATGGCAGGAAATGAGAAGTTTGGGTGTTGGAATTTGGTTTACTAATACAACACAGTTGCGTGCAAGG MAEEAKDPFKGVDWKAVGGDMQKDPSSINILKKRRPTKVRQIPEYYFLPRRSLSSVLAFYGACIAGGIGAGMLVEIWIKDKVKKDGGVVWEFDNDELPSPITVTPPFVPIRPNSMAGTASEIDSIYRLPLPLLGSEPIPSAPNRFAGSSIDWIPDFAGYAWVAYGASSVLVISHFPSPLSPQETTIGPIFRQVLELSGDDLSVVNAVSWSPVLPSEGELAAAVGNRIWVFSHDLGASRGVWMEGFQALSWEITLHTYDIFGTGVHCNCDIDNENIAELSILTFESSFGSKKYCVSIIPCSSQFPNSQINDQITSFGVVHQGTFAPVQQKLTSSGEPYTPAYIMATGSADGSLKLWRSNVGKPSIFHVSWELVCVVVTHQGPITALCLTDCGRKIATISKNNHKPNISNVHLWELACLGAGTLLFEDELSFESNIIAVDWLTLGNGQFLLGICLQNELRVYSLKHFGQTLSGITKSLDTETWICIGFARTLPSNCGFLWGPKSTAIVIHDHYFCIVSPWLFLGDKNHDAMCSPYYIGETKNHHVNGTDVAVFADECCSIRKLSDDNYDSKRRPRSLTNIHAETNILSNSSYPRVAQMKSTTSLGLISMPDIADKLCGSLSSFHPHALLIDIYSGKWKRAYSALSHLIEHLSSDKKSSANPTNTIPEILLSDYFEGVAKTSTDKEVQWSMNGLASQFKEGVSPWTFNWDSISNDSSFIPSSTKSEFSSFIEPLEKFYESAGLTSMEKTETLAIIDLLDEISNKSSASAYESLDEPGRRYWIALRFQQLRFLRCDGRSASLEELTIDSRLIGWAYHSDCQQNLLDSVISKEPTWQEMRSLGVGIWFTNTTQLRAR
BLAST of CmaCh06G009750 vs. TrEMBL
Match: A0A0A0L3T8_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G119460 PE=4 SV=1) HSP 1 Score: 995.3 bits (2572), Expect = 4.4e-287 Identity = 492/619 (79.48%), Postives = 526/619 (84.98%), Query Frame = 1
BLAST of CmaCh06G009750 vs. TrEMBL
Match: M5XEZ2_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa000021mg PE=4 SV=1) HSP 1 Score: 562.8 bits (1449), Expect = 7.3e-157 Identity = 298/634 (47.00%), Postives = 411/634 (64.83%), Query Frame = 1
BLAST of CmaCh06G009750 vs. TrEMBL
Match: A0A061DUG0_THECC (Transducin family protein / WD-40 repeat family protein, putative isoform 1 OS=Theobroma cacao GN=TCM_005121 PE=4 SV=1) HSP 1 Score: 539.3 bits (1388), Expect = 8.6e-150 Identity = 280/636 (44.03%), Postives = 400/636 (62.89%), Query Frame = 1
BLAST of CmaCh06G009750 vs. TrEMBL
Match: A0A061DTJ1_THECC (Nucleotide binding protein, putative isoform 2 OS=Theobroma cacao GN=TCM_005121 PE=4 SV=1) HSP 1 Score: 539.3 bits (1388), Expect = 8.6e-150 Identity = 280/636 (44.03%), Postives = 400/636 (62.89%), Query Frame = 1
BLAST of CmaCh06G009750 vs. TrEMBL
Match: W9RDG9_9ROSA (DmX-like protein 1 OS=Morus notabilis GN=L484_023486 PE=4 SV=1) HSP 1 Score: 538.9 bits (1387), Expect = 1.1e-149 Identity = 284/637 (44.58%), Postives = 406/637 (63.74%), Query Frame = 1
BLAST of CmaCh06G009750 vs. TAIR10
Match: AT2G46560.1 (AT2G46560.1 transducin family protein / WD-40 repeat family protein) HSP 1 Score: 396.4 bits (1017), Expect = 4.6e-110 Identity = 230/631 (36.45%), Postives = 342/631 (54.20%), Query Frame = 1
BLAST of CmaCh06G009750 vs. TAIR10
Match: AT5G16950.1 (AT5G16950.1 unknown protein) HSP 1 Score: 88.6 bits (218), Expect = 2.0e-17 Identity = 44/96 (45.83%), Postives = 60/96 (62.50%), Query Frame = 1
BLAST of CmaCh06G009750 vs. NCBI nr
Match: gi|659074929|ref|XP_008437872.1| (PREDICTED: uncharacterized protein LOC103483174 isoform X1 [Cucumis melo]) HSP 1 Score: 997.3 bits (2577), Expect = 1.7e-287 Identity = 494/619 (79.81%), Postives = 527/619 (85.14%), Query Frame = 1
BLAST of CmaCh06G009750 vs. NCBI nr
Match: gi|659074931|ref|XP_008437873.1| (PREDICTED: uncharacterized protein LOC103483174 isoform X2 [Cucumis melo]) HSP 1 Score: 997.3 bits (2577), Expect = 1.7e-287 Identity = 494/619 (79.81%), Postives = 527/619 (85.14%), Query Frame = 1
BLAST of CmaCh06G009750 vs. NCBI nr
Match: gi|449433024|ref|XP_004134298.1| (PREDICTED: uncharacterized protein LOC101204824 isoform X1 [Cucumis sativus]) HSP 1 Score: 995.3 bits (2572), Expect = 6.3e-287 Identity = 492/619 (79.48%), Postives = 526/619 (84.98%), Query Frame = 1
BLAST of CmaCh06G009750 vs. NCBI nr
Match: gi|778676845|ref|XP_011650671.1| (PREDICTED: uncharacterized protein LOC101204824 isoform X2 [Cucumis sativus]) HSP 1 Score: 995.3 bits (2572), Expect = 6.3e-287 Identity = 492/619 (79.48%), Postives = 526/619 (84.98%), Query Frame = 1
BLAST of CmaCh06G009750 vs. NCBI nr
Match: gi|694400661|ref|XP_009375416.1| (PREDICTED: uncharacterized protein LOC103964230 isoform X1 [Pyrus x bretschneideri]) HSP 1 Score: 580.1 bits (1494), Expect = 6.3e-162 Identity = 298/635 (46.93%), Postives = 414/635 (65.20%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of Cucurbita maxima
Date Performed: 2017-05-20
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene:
The following block(s) are covering this gene:
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