CmaCh16G006240 (gene) Cucurbita maxima (Rimu) v1.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTGGTTGGGCCATTTACATATTATTGGTCTTTTGTTGAAATCTTGTTTTTCAGGTAACAGTAACAATCCAACGCAACATCGTTCTGACAATTCGATCTTCCCTTCTTCAGTTTGAATCCTTCTTCGTCTTCGTCTTGTTGTTGTTGTTGTTGTTGTTCTTCTTCTTCTTCTCCTTCTCAATCGTTTTCTTCTAATTCCCTTTTTCGATTGCATTTCTCACTTTTGAACTTCCTTTTTCCACTCTGAACTGCTTCTAATTCGCGCTCTCCATCATCACTGTGAGTATCTCGATCATTCTTGCAGTTTATTTCTGTGTTTTCGTTTGTTTCGAGTCTTGAATTTGTGTTAGATCAGGTGAGTTTTGGGGGGTTTTTCTGTTGGGGTTTGGTGAGCGGATTTTAGGGTTTCGAGCCGATGAGACTACTTTTGTGTGTTCTTTGTTTATTGATTTGAATTTTGTTCTGATGACTTGGATGGATGTTTTTTTTAAGGAATCTGATAATTTTGAGCTCGGTCTTGCTTTAGATTTACTTTGTATCGTCTTGTGTGCATTCATATTTAGTTTGCTCGATCTTTGATCGGAAGGTTTAGTTAAGCCTATTTTGATGGACTCATAATTTGTTTATACTCAGATATCTACTTGTCTTTTGAAGTATTATGTCCGATGTAGCCCCGGAGATGCTGTTTTCGTTATTTCCTAGATGTTATCTATGTAATTTCAATGTGTTTCACTGATCTTGTTTGTAATGTGTGTCTCTTAGATGTCAAATGTTTTCCGATTGGGAGCTTATGTTTGAAGTTTCTTATTGCAATTATTTTTTGACAGAGCGATTATGGCCACAGAGGAAGAACTTGATCTATCAGCTTTGAAAACTCAGCTCAGTGAAACAAATGGAACTTGGAAGCATGAAATGGAAAGGCGTCAATCAGAAGTAGATGTGTTGCAAGCAAGGCTTATGGAGGTAAAGGCTTGTATAGAAGGGTCTGAGGATGACTCGAGAAAGGAGCTAGAGGTTCTCTGGCGACGAGTTAAGACAACTTCTTCATTGTTGACATACTTGAAATCGAAAGCGAGAATGTTGGCGATACCCCATTTGGCTCACTCTTCATGTGGTATTAAGCATTTAGAAGGGGTAGGATTAGTTGACAAAAGTGGAATACCGCTGTCTGGTTGGTCTAAGAGTATCGATCTTTCTTCATTCGACGGTACTGAAGAGGAATCCTTGGTTGGTATTGGTAAGCCATGTGGTTTATTGGATGAACAAGATGCTGCGTATATCGGTCAAATACTTAAGTCTGTTCAGATGGTTTCAGATGTAATGGAAGCACTTGTCAAGAGGGTTATTTTGGCAGAATTTGAAACTGCTGAAGAGAAGGAAAAGGTTCATTTGGGTCAGGAGGAAATTAAAAAGAAATCAATCCAGATTGAGAACATGTCCTCAAAACTGGAGGAAATGGAACAATTTTCTGTGGGTACTAACGGCATTCTAAATGAAATGAAGCAGAGAGTCGAGGATCTGGTCGAAGAAACGTGTAGACAGAGGCAAAGAGCTGCTGAAAATGAGCAGGAACTATGTCGTGTTAAGCAGGACTTTGAGTCTTTGAAATCATATGTCAGTAGTCTCATTACTGTTAGAGAAACACTTTTGTCATCAGAAAAACAGTTTCAGACAATCGAGCGGCTCTTCGAACGGTTTGTACATTTTCTTAATGTCATATTGCTTTGACCTTGCTTGTTCTTTTCTTTGGTTATCATGAACGTTCAGTTTATTCTGTAGGTTTTCCTGGATGATGTCATTTTCTTTTGATTCGCACTACACATAGATTTCTCCAATGCACTAAGATTTTCTTGTACTTGTATTGCCTTGTGAGCCAGCTTATGGTAGACCTTTATATAAATGTGTAGCCCGACGGTGTCGTGTAATGAAATTTCCTTTCTGCTCCTTGTGTTTGGTCAGAAGCAATACTAGGAAAATGCATTGATGACAAACAGTTTTCAATCCGTGGCATTACTTAATATCATATGGCTGAACATATTGTGATTTGTGGCATGAAGCTGAGGCATGGAAATGTTAATTTTCCTCGTCATTTTGTGTAGTTTACTCTTAAAAATTGTTTGCATGGGCTCTTAAATTGATTGCTATGAACACAGGCTAGTTGCTAAAACCACTCAGTTGGAGGGTGAGAAAATGCAGAAAGAAGTAGAAGTCCAGAAACTCATGGAAGAAAATGTGAGGTTGAGTGCCCTTCTTGACAAGAAGGAGGCTCAACTTGTAGCCATGAATGAACAATGCAAGGTAATGGCCTTGAGTGCTTCACATATTTAATCCAAAGCATACCCTGTTCTCCTTGCTCACCAGCCAGCGTAGCCTGGCTTCATCTCTCTCGGTTCACAACCCCGGGCCGAACAAGGTGGCGGTCGTGACCATGATTTCCGACCACGGAGGCAAGCATCAGGTACTCGTGCCGATATTGTATTTGTGAAAACCCTTGTGGACTTTATTGTGTAGTTACATAGTTTTAGTTGTTTCATCTGAGAACTCACAAGGTTTTTCTTCATTGGAGTTTAAACTTGGTTTGTGAATCATTCCCTGAGATGTGTATGTATGCTTCAAAAGTCGGTATCCCTCTGCTCTTTGGTGCCTACAAAAACTTCCCTTTTAGCATTACACCTCTTCGTGTCTTTGTCAGTTGGAATACAATGCTGCAAAAATCCTTACAAGCAGGTTCCGGGCTGCATTCTGCATTCTGATAAAACTTTATTTTCGGTTTGAGATTTTTATGAATGAGAGCATAGTTTAATTAAGGTGAAGATTCGTAACCTCGATCAAGTAGTCAGAAGTTCATATATTTCACTATTGTAAAGCAAATAGAACCGTCTCCTTTTCTTTTGTCGAGAAACAAAAAACAGTACACTACCTTAGATTTGGTGTCCAATGTAAAGAAAATGTATGATAGTTCTTTTAAATCATTTATTTTTTATAACAATAAGTTTGATCTATTTTATCTACCTATATTATTAATAATTAAAAAAAAATTATTTCTCATTATTGTTTGTAATTCGTCGCATTGATTAAAATAACTTGAGCTAAATTGAACTTAAAATATAAAACGCAATAAGAAAAATTACTATTCTCCCTTTGAAAATAATAATAAAAGTGATATTTTCTAATATATATATATTTATTTATTTATTTATTATTATTTTTCTTCTTTTTCTTTTTCTTTTCTTTTAGGGTAATTGCAAAACTATCCATAGTTTCTGAGCTTTCCATATATGCCAAAAAAAAAAATTAAATTAAATATATATTTTTTAATTTTATTATTCTAATTTTAGATGTCATTAAATATATCAATTATATACCAAATTAGAGCATTGATATTCTAAATATAACGGCCTTAATTTAATTTCTTATTTATTTATTTTGAAGCATTATTTTCTTTGTGATTTATTTTTCATCTAATTTCTTATTAATGTAAAATGTATTATTTTGTTGATATCATCGTCATCTTTTTCATTTTTTTTCATTTTGATTTTTTTTTTTCAATCTAACAATTGTATGTTTATGATAATAATATTCTTTGCTTTTTGCTTTTTGGTACTGTGTTTATTGTTTTATTTTATTTAATTTTCTTTGTGATTCGTTTTGATCCGTAACTTATTTTTTCAACTTTAAAGTTTGACTTTAACGTTTGTCAAATATTCTTAATATTCATTATAATCTTAAAAGTAAGGTAGGGTTGTCTCGAGTTGTGAACTCTATTTTTGGGTTGGTCGGTAACCTCAACAAAAAAAAAAAGTTTCAAACTGCCAACGAAATCAAATTTTTGGTTTTAAAAAATTTGAAGTTAAACTACTAAAAAAATTTAATACAACCCGACCCTTATAGTTTGGGTTGGATAGTCCAAATCGTTCAAGTCATTGAGTCTTATGAATATAATAATAACAATTTACTCATTAGAAAATATAAATACGTAAATAAGAGATTAATTATCATTCTAAATACCTAATTTTAAAGGTGGCTCAAAAATACCTTTTATTTAAAAAAATTCAATAATACTCTTCAACTATTTTTAAAAAGTTTAAAAACACTATCTTCTAGTTTAAAAAAAATACTCATAAATTTTAAAATTAACTTAACACAGTTAAAACAAATTCTTACCATCAATAATAGGAGCAAAAACTGTCTATCAACCCTTCATAGATCATTCATTTGGAGATAAAGTATTTGAATTTTTTTAAAAAGAAATTTAAAGTATTTTTGAAAGTTCTGTAATTCGTTAAAAAAAAAATTATGTTTTTACTGTGAAAGAAAGGGAAGAACAAAAAAAAAACAAGAGGCAGTTCGCTCCAGTTTTCGTGGATTGGTTTTCTCTAGAGATTCAGGCTCGAAATCTTATCTGCCGCAATTCCAGGAAGCTTGAGATTGCAGAGAAATGGCCGCAGACAAATCTCCATTTCAGGTTCGCTTTCTTACCTTACCATTTGCTTGTCTTTCGCAATTTAAGAACGAACCTCCGTTTGAAATTTCCCGCTACAAGATTTTGTGTTCACTATTGTTTCTACACTATAAAAGATTTATAGACTATTCCGTCGGTGTTGTTCGCTTAGGCTTAATCAAATGCTTGTTACTTTTGGGAAGTAGGTTGCCGCAGTTTGAACCTTCTATCTCTCTTCTTTGGTTGGTTTGTTTATTTTGTTTTTGCCCATTTGATTTGTTGTTTTTTTTTTTTTACTGTATTTCGAGGTCGGTTATGGCGAAATTTGTCTCGATCTCAATTTTTGCATTTGTTGTTATTTTTGGCAGATAATATTAGGTTCTTCGTCCATGGCTCGCCGGCGTATTCTGTCGGAGATGGGATACGAGTTCACTATCATGGTGAATTTTCTTATTAGGGATTCCTTTTCCTCCTTGTTTAGTCATTGGAAGATTGACTTGACTTATTCTGTGTTAGACGGCAGACATTGATGAGAAAGCGATTAGGAAGGAAAGGCCTGAAGAACTGGTGGTGGCTCTGGCTGAGGCAAAGGTGTGGCTTATTTACTTTCCTAGTGTAAATTTGGGAACCATTTGGCTTTGCTCTAATATCTAGCCATTTCATCTTTTGCATTGTTCTTGGAAGTGAAGTAACAACTTCTTTAGTCTCGTTTGTAATTCAAGTGAATGTTGAAAAGTTAATAGTTCATGCAGCTTTTCAATATGGTTGAGCCAAGCAAGCCTGATTTGTAAGGGGTAGTTAGTAACTAGAAAGTAAAAAGAACGGCCTGTTCTACGATGTTTCAGCTCTCAATTTCTTTATCAAAATTACTCAATTTGATCCTCTGAATCTTGAGGAATTTTCAATTTGAAGGAAAAGGGACCGTAGATAGGAATTCGACATTTACCCCCAATTTGAGCCCGAAACTGATTTCCTTTAGAAGCACAATTACTTTTAATTACATCCAAGGCACTATGAAATTAACAGAAGTCCTGCGGGACTTTCATCTATTAAGGCTCTTTTTTTTAAGGACTTTGTCAATGACATGCTCAATTGGAACCATTGTAACTTTGGAAGACAGGGGTTACTTATGGAGTATATGTTCTTATCTTTTAGTCTTTCACAAGGTCAAAAGAAGGGCTTCTATCTGATGGTTTTCACTTGATTTCTCTTAGGCAGATGCAATTATGTCAAGAATTCTAGCCACTGGTGCTCAACTGGACAATGATGCACCTGCAACACTGTTACTGACTGCAGACACAGTATGCTTTAACTCCCTCTTCCTGTTCAGTATTTGCATTAACTCGCATAATATTAGAGTTATTAGAGTGAGTTTAGATAACTTTGCCGATTAAGTGTTCATTCTTTCAAATACTTTTAGAAGTCTCAGAAATCACTTATAATTATGTAAGAACATTTTGAAAAGCTTCAAAAAGTTGTACCAAATCCATCCTAGGTAACAAACAAGTTACTAATTTCAGTTGTGCAAGGGATATGTATCCATTCGTGATGCACTTTCTTTTTCCAGTTTTTCTTTGACATTGTCTCTTATTGTCTAGTAACCTATTAAGAAGTTTCTTGATTGATTTTGAGGTGGTGGTCTATGAAGGAACAATTAGAGAGAAACCATCTAACAAGGACGAAGCTCGAAAATTTATCAAAGGTCAATTGTCTTCCAGATTTCAAACATTTATTTCTTCTTCTTGTAGAACGATGTGAAAATTGAAGCATGTCTAATGATCAACTTAACGACCTGCAGGCTATTCTGGTAGTCATGCATCTGTTGTGGGTTCTATACTCATAACCAACCTCAAGACAGGAACAAGAAAAGGGGGATGGGAAGAGGCAGAGGTATACTAACCTTCAACTCACATTTTATCCTTCCTTAACCGAGGGACAGCGTTTACATGGTTCGAGGGCAAGTTGAATAACGTTGGGCTAATTTTCTGCTGAAGGTTTATTTCTATGACATACCAGAGGAGATTATAGATAGCCTGGTAAACGTGGGAATATTGCCTATTTAGATCTTTTCCAAAGTCGTGCTTTTCGTTTACATTGTTTTCAAGTCTTATTGATGGTAAATTGCATCAGATTGAAGAGGACGTTACATTCAAAGTAGCTGGGGGTCTTATGTTGGAACATCCACTGACTTGGCCGTTAGTTGAGGCAGTGGTTAGTAATATATCTCTACGCTTTTGCAGACATTCGAACATTGTGTTTGTTGTTTGTAATCTATATAAAGAATGAGTACAGATTGACTCATGGATCTGAAAGGGTTTCATAAATCTAGATTTGTGCAATGAATGATAATAAATTCATATCCTAGGATGAACAAACCCACGTGTCGAAACATTAACTTAGCTTTTCATATCATATTATGCGTGTCGAAACATTAACTTAGCTTTTCATATCATATTACGCATGTTCAGTTTGGGGAGTCGAACATCTCATCAAGGTTCTAAAACATTTACTCAGACAATGAATTACAAAAGAAAATTAGCCTGCCTGACCGCTCCATCTAAGTTCTATTTTTGTAACAGCCCAAGCCCACCACTAGCAGATATTGTCCTCTTTCAGCTTTTCTTTCTAGGCTTCCCTTCAAAGTTTTAAAACGCATATGTTAAGGAGAGGTTTCTACATCCTTATAAGGAACGCATCGTTCTCCTCTCCAACCGACGTGGGATCTCACTGTTTTAATTTTAATGTACATCCTTCACTTATTTCCATCAACAAAAATACGTGATAAGTCGTATTTTCTAGAAAAAATCGACTGAACAGACTTGCTTGGGACCGAGTCATTTGTTTATTTTTCCTTTGGAAGTTATATTTAGGAAAATACAAATATGCCTGGGAACTGGATGTTTTGTTATTCCCCTTTATATTTACCATTTGTTCGCTATATCTAATCTAATTCTGATCTGGACTTTCAAACGGATGTGGGCTTTGTGAAACATTTTCTATTAAGAGAAGTCACATTCTCCTCACTTCAGTTTCAACTAACATCCTTTGATTTCACTGTAAAGTGAATGATGATCCTAACACTTAAGGCCTTGACTTTAACCTTGTGTAGGCATATCTATCTATCAGACCCTGAAACGTTTTAGTGTATAACAGGTAGGTTCAACTGACACAGTGATGGGACTTCCCAAAGCTCTTACGGAGAAACTCATGAATGATGCTTTATAGCTCGCTGAGGTAACAAAAAAGAACTTTTACCTTTTGTTACATCATGTTACCACGGAAAATTAGGTTTGAGATTCTTATTCTTGTTGGCTGCTCATCTTGGACATAGATGTTATAATCCTTCAACTGTTTTGATGTTCGCGATTACTCATCTTTTACATCTTAATAAACATGTTGACAATTTGTAATTTTGTTACACGAAAAGGAAAATACACTATTTTTTTTTTGTAAGAAGGGGTAAGCTAACTCTTATGAATTATGACAAGAGAACATAAATTTGAACTTTCAAGAAAAGGGTTCGATATATGTATGTTCCATTTTTATGGATCTCAATTGATTCCTCGTTACTGTTTAGAAGATTAGTAATAGGTAAAGATGACAGGATTTGAACTCGTGATATTTTGTACCCAAAACAAATGCGCTACCAAGCTGTGCTACATCGTGCCATAACTATCTAGCTATGCCCCTACATCGTGCCATAACTATCTAGCTATGCCCCTGGTTTAAATTTATATCACTTCTTTCTCATTATGTGTTTCATGTACTAGTTATTTGTTATTTGAGTGAATCATTTTTTTTTTCTGACTTCTTTCTTATATGATTAAATTCAATGACTTCTTTCTCGTAGGATTATTATTGTGATTTTAAATTTAATTGTATCGACATTACAAAGATTCAAACATATGGTGTTTTGTAGTATGGTGAATCCAAAGAGATATCAACTTGAGAGAACATATTCAGGATCCCAAATTGGAAGGGTGGCGAAGTTTCACAATCGTTATAAAATATTTAGTTACTCTCATTACCAATTGGTTTTGAGATGAGGAACCCCGTGTTTATATAACACTTGGTAAGACGTTTTTTTTTCCCTCCTCTTTTTTGCTTGCAAGTAAAAAAGACCATATTTCAAACCTCTACAATATCATGATAAACCAAATCGAGGAGTTAAAAGAGAGGCAGCAAAAGCATGTCGCCATATGTATGGGCATTAGGTCGAGTTTGTTGAAAGAACAAAATG GTGGTTGGGCCATTTACATATTATTGGTCTTTTGTTGAAATCTTGTTTTTCAGGTAACAGTAACAATCCAACGCAACATCGTTCTGACAATTCGATCTTCCCTTCTTCAGTTTGAATCCTTCTTCGTCTTCGTCTTGTTGTTGTTGTTGTTGTTGTTCTTCTTCTTCTTCTCCTTCTCAATCGTTTTCTTCTAATTCCCTTTTTCGATTGCATTTCTCACTTTTGAACTTCCTTTTTCCACTCTGAACTGCTTCTAATTCGCGCTCTCCATCATCACTAGCGATTATGGCCACAGAGGAAGAACTTGATCTATCAGCTTTGAAAACTCAGCTCAGTGAAACAAATGGAACTTGGAAGCATGAAATGGAAAGGCGTCAATCAGAAGTAGATGTGTTGCAAGCAAGGCTTATGGAGGTAAAGGCTTGTATAGAAGGGTCTGAGGATGACTCGAGAAAGGAGCTAGAGGTTCTCTGGCGACGAGTTAAGACAACTTCTTCATTGTTGACATACTTGAAATCGAAAGCGAGAATGTTGGCGATACCCCATTTGGCTCACTCTTCATGTGGTATTAAGCATTTAGAAGGGGTAGGATTAGTTGACAAAAGTGGAATACCGCTGTCTGGTTGGTCTAAGAGTATCGATCTTTCTTCATTCGACGGTACTGAAGAGGAATCCTTGGTTGGTATTGGTAAGCCATGTGGTTTATTGGATGAACAAGATGCTGCGTATATCGGTCAAATACTTAAGTCTGTTCAGATGGTTTCAGATGTAATGGAAGCACTTGTCAAGAGGGTTATTTTGGCAGAATTTGAAACTGCTGAAGAGAAGGAAAAGGTTCATTTGGGTCAGGAGGAAATTAAAAAGAAATCAATCCAGATTGAGAACATGTCCTCAAAACTGGAGGAAATGGAACAATTTTCTGTGGGTACTAACGGCATTCTAAATGAAATGAAGCAGAGAGTCGAGGATCTGGTCGAAGAAACGTGTAGACAGAGGCAAAGAGCTGCTGAAAATGAGCAGGAACTATGTCGTGTTAAGCAGGACTTTGAGTCTTTGAAATCATATGTCAGTAGTCTCATTACTGTTAGAGAAACACTTTTGTCATCAGAAAAACAGTTTCAGACAATCGAGCGGCTCTTCGAACGGCTAGTTGCTAAAACCACTCAGTTGGAGGGTGAGAAAATGCAGAAAGAAGTAGAAGTCCAGAAACTCATGGAAGAAAATGTGAGGTTGAGTGCCCTTCTTGACAAGAAGGAGGCTCAACTTGTAGCCATGAATGAACAATGCAAGCCTGGCTTCATCTCTCTCGGTTCACAACCCCGGGCCGAACAAGGTGGCGGTCGTGACCATGATTTCCGACCACGGAGGCAAGCATCAGAGATTCAGGCTCGAAATCTTATCTGCCGCAATTCCAGGAAGCTTGAGATTGCAGAGAAATGGCCGCAGACAAATCTCCATTTCAGGTTGCCGCAGTTTGAACCTTCTATCTCTCTTCTTTGGTTGATAATATTAGGTTCTTCGTCCATGGCTCGCCGGCGTATTCTGTCGGAGATGGGATACGAGTTCACTATCATGACGGCAGACATTGATGAGAAAGCGATTAGGAAGGAAAGGCCTGAAGAACTGGTGGTGGCTCTGGCTGAGGCAAAGGCAGATGCAATTATGTCAAGAATTCTAGCCACTGGTGCTCAACTGGACAATGATGCACCTGCAACACTGTTACTGACTGCAGACACAGTGGTGGTCTATGAAGGAACAATTAGAGAGAAACCATCTAACAAGGACGAAGCTCGAAAATTTATCAAAGGCTATTCTGGTAGTCATGCATCTGTTGTGGGTTCTATACTCATAACCAACCTCAAGACAGGAACAAGAAAAGGGGGATGGGAAGAGGCAGAGGTTTATTTCTATGACATACCAGAGGAGATTATAGATAGCCTGATTGAAGAGGACGTTACATTCAAAGTAGCTGGGGGTCTTATGTTGGAACATCCACTGACTTGGCCGTTAGTTGAGGCAGTGGTAGGTTCAACTGACACAGTGATGGGACTTCCCAAAGCTCTTACGGAGAAACTCATGAATGATGCTTTATAGCTCGCTGAGTATGGTGAATCCAAAGAGATATCAACTTGAGAGAACATATTCAGGATCCCAAATTGGAAGGGTGGCGAAGTTTCACAATCGTTATAAAATATTTAGTTACTCTCATTACCAATTGGTTTTGAGATGAGGAACCCCGTGTTTATATAACACTTGGTAAGACGTTTTTTTTTCCCTCCTCTTTTTTGCTTGCAAGTAAAAAAGACCATATTTCAAACCTCTACAATATCATGATAAACCAAATCGAGGAGTTAAAAGAGAGGCAGCAAAAGCATGTCGCCATATGTATGGGCATTAGGTCGAGTTTGTTGAAAGAACAAAATG ATGGCCACAGAGGAAGAACTTGATCTATCAGCTTTGAAAACTCAGCTCAGTGAAACAAATGGAACTTGGAAGCATGAAATGGAAAGGCGTCAATCAGAAGTAGATGTGTTGCAAGCAAGGCTTATGGAGGTAAAGGCTTGTATAGAAGGGTCTGAGGATGACTCGAGAAAGGAGCTAGAGGTTCTCTGGCGACGAGTTAAGACAACTTCTTCATTGTTGACATACTTGAAATCGAAAGCGAGAATGTTGGCGATACCCCATTTGGCTCACTCTTCATGTGGTATTAAGCATTTAGAAGGGGTAGGATTAGTTGACAAAAGTGGAATACCGCTGTCTGGTTGGTCTAAGAGTATCGATCTTTCTTCATTCGACGGTACTGAAGAGGAATCCTTGGTTGGTATTGGTAAGCCATGTGGTTTATTGGATGAACAAGATGCTGCGTATATCGGTCAAATACTTAAGTCTGTTCAGATGGTTTCAGATGTAATGGAAGCACTTGTCAAGAGGGTTATTTTGGCAGAATTTGAAACTGCTGAAGAGAAGGAAAAGGTTCATTTGGGTCAGGAGGAAATTAAAAAGAAATCAATCCAGATTGAGAACATGTCCTCAAAACTGGAGGAAATGGAACAATTTTCTGTGGGTACTAACGGCATTCTAAATGAAATGAAGCAGAGAGTCGAGGATCTGGTCGAAGAAACGTGTAGACAGAGGCAAAGAGCTGCTGAAAATGAGCAGGAACTATGTCGTGTTAAGCAGGACTTTGAGTCTTTGAAATCATATGTCAGTAGTCTCATTACTGTTAGAGAAACACTTTTGTCATCAGAAAAACAGTTTCAGACAATCGAGCGGCTCTTCGAACGGCTAGTTGCTAAAACCACTCAGTTGGAGGGTGAGAAAATGCAGAAAGAAGTAGAAGTCCAGAAACTCATGGAAGAAAATGTGAGGTTGAGTGCCCTTCTTGACAAGAAGGAGGCTCAACTTGTAGCCATGAATGAACAATGCAAGCCTGGCTTCATCTCTCTCGGTTCACAACCCCGGGCCGAACAAGGTGGCGGTCGTGACCATGATTTCCGACCACGGAGGCAAGCATCAGAGATTCAGGCTCGAAATCTTATCTGCCGCAATTCCAGGAAGCTTGAGATTGCAGAGAAATGGCCGCAGACAAATCTCCATTTCAGGTTGCCGCAGTTTGAACCTTCTATCTCTCTTCTTTGGTTGATAATATTAGGTTCTTCGTCCATGGCTCGCCGGCGTATTCTGTCGGAGATGGGATACGAGTTCACTATCATGACGGCAGACATTGATGAGAAAGCGATTAGGAAGGAAAGGCCTGAAGAACTGGTGGTGGCTCTGGCTGAGGCAAAGGCAGATGCAATTATGTCAAGAATTCTAGCCACTGGTGCTCAACTGGACAATGATGCACCTGCAACACTGTTACTGACTGCAGACACAGTGGTGGTCTATGAAGGAACAATTAGAGAGAAACCATCTAACAAGGACGAAGCTCGAAAATTTATCAAAGGCTATTCTGGTAGTCATGCATCTGTTGTGGGTTCTATACTCATAACCAACCTCAAGACAGGAACAAGAAAAGGGGGATGGGAAGAGGCAGAGGTTTATTTCTATGACATACCAGAGGAGATTATAGATAGCCTGATTGAAGAGGACGTTACATTCAAAGTAGCTGGGGGTCTTATGTTGGAACATCCACTGACTTGGCCGTTAGTTGAGGCAGTGGTAGGTTCAACTGACACAGTGATGGGACTTCCCAAAGCTCTTACGGAGAAACTCATGAATGATGCTTTATAG MATEEELDLSALKTQLSETNGTWKHEMERRQSEVDVLQARLMEVKACIEGSEDDSRKELEVLWRRVKTTSSLLTYLKSKARMLAIPHLAHSSCGIKHLEGVGLVDKSGIPLSGWSKSIDLSSFDGTEEESLVGIGKPCGLLDEQDAAYIGQILKSVQMVSDVMEALVKRVILAEFETAEEKEKVHLGQEEIKKKSIQIENMSSKLEEMEQFSVGTNGILNEMKQRVEDLVEETCRQRQRAAENEQELCRVKQDFESLKSYVSSLITVRETLLSSEKQFQTIERLFERLVAKTTQLEGEKMQKEVEVQKLMEENVRLSALLDKKEAQLVAMNEQCKPGFISLGSQPRAEQGGGRDHDFRPRRQASEIQARNLICRNSRKLEIAEKWPQTNLHFRLPQFEPSISLLWLIILGSSSMARRRILSEMGYEFTIMTADIDEKAIRKERPEELVVALAEAKADAIMSRILATGAQLDNDAPATLLLTADTVVVYEGTIREKPSNKDEARKFIKGYSGSHASVVGSILITNLKTGTRKGGWEEAEVYFYDIPEEIIDSLIEEDVTFKVAGGLMLEHPLTWPLVEAVVGSTDTVMGLPKALTEKLMNDAL Homology
BLAST of CmaCh16G006240 vs. ExPASy Swiss-Prot
Match: Q54TC5 (7-methyl-GTP pyrophosphatase OS=Dictyostelium discoideum OX=44689 GN=DDB_G0281937 PE=3 SV=1) HSP 1 Score: 133.7 bits (335), Expect = 7.2e-30 Identity = 72/193 (37.31%), Postives = 119/193 (61.66%), Query Frame = 0
BLAST of CmaCh16G006240 vs. ExPASy Swiss-Prot
Match: Q2LSD6 (dTTP/UTP pyrophosphatase OS=Syntrophus aciditrophicus (strain SB) OX=56780 GN=SYNAS_11200 PE=3 SV=2) HSP 1 Score: 79.7 bits (195), Expect = 1.2e-13 Identity = 58/194 (29.90%), Postives = 90/194 (46.39%), Query Frame = 0
BLAST of CmaCh16G006240 vs. ExPASy Swiss-Prot
Match: A6TQH7 (dTTP/UTP pyrophosphatase OS=Alkaliphilus metalliredigens (strain QYMF) OX=293826 GN=Amet_2288 PE=3 SV=1) HSP 1 Score: 79.0 bits (193), Expect = 2.1e-13 Identity = 59/184 (32.07%), Postives = 91/184 (49.46%), Query Frame = 0
BLAST of CmaCh16G006240 vs. ExPASy Swiss-Prot
Match: Q817R9 (dTTP/UTP pyrophosphatase OS=Bacillus cereus (strain ATCC 14579 / DSM 31 / JCM 2152 / NBRC 15305 / NCIMB 9373 / NRRL B-3711) OX=226900 GN=maf PE=3 SV=1) HSP 1 Score: 77.4 bits (189), Expect = 6.1e-13 Identity = 60/187 (32.09%), Postives = 98/187 (52.41%), Query Frame = 0
BLAST of CmaCh16G006240 vs. ExPASy Swiss-Prot
Match: Q9PK45 (Nucleoside triphosphate pyrophosphatase OS=Chlamydia muridarum (strain MoPn / Nigg) OX=243161 GN=TC_0628 PE=3 SV=1) HSP 1 Score: 77.4 bits (189), Expect = 6.1e-13 Identity = 58/195 (29.74%), Postives = 101/195 (51.79%), Query Frame = 0
BLAST of CmaCh16G006240 vs. TAIR 10
Match: AT2G17990.1 (BEST Arabidopsis thaliana protein match is: kinectin-related (TAIR:AT5G66250.3); Has 7578 Blast hits to 6129 proteins in 783 species: Archae - 220; Bacteria - 1045; Metazoa - 3605; Fungi - 575; Plants - 442; Viruses - 38; Other Eukaryotes - 1653 (source: NCBI BLink). ) HSP 1 Score: 336.7 bits (862), Expect = 4.0e-92 Identity = 196/340 (57.65%), Postives = 262/340 (77.06%), Query Frame = 0
BLAST of CmaCh16G006240 vs. TAIR 10
Match: AT5G66250.1 (kinectin-related ) HSP 1 Score: 277.3 bits (708), Expect = 2.9e-74 Identity = 176/338 (52.07%), Postives = 231/338 (68.34%), Query Frame = 0
BLAST of CmaCh16G006240 vs. TAIR 10
Match: AT5G66250.2 (kinectin-related ) HSP 1 Score: 277.3 bits (708), Expect = 2.9e-74 Identity = 176/338 (52.07%), Postives = 231/338 (68.34%), Query Frame = 0
BLAST of CmaCh16G006240 vs. TAIR 10
Match: AT5G66250.3 (kinectin-related ) HSP 1 Score: 277.3 bits (708), Expect = 2.9e-74 Identity = 176/338 (52.07%), Postives = 231/338 (68.34%), Query Frame = 0
BLAST of CmaCh16G006240 vs. TAIR 10
Match: AT5G66550.1 (Maf-like protein ) HSP 1 Score: 269.6 bits (688), Expect = 6.0e-72 Identity = 132/196 (67.35%), Postives = 166/196 (84.69%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
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.
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