Cp4.1LG09g00120 (gene) Cucurbita pepo (Zucchini)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATAAACCATAAAACTTCTGGAGTGCAGAAGGGCAACACCGGCCAACTCACCGACGCCGAGGGTTGATAGTGGTGAAAGGAGATTGATTATTCCACCGATTCTTCCAAATGTTGAGAATTATCTCTGTATCGCAACCTCGCATCAAGTTTCTCGCCCGTTACATAACCTCTCTATCTTCCGCCTCAATAACCTACCTATTACCATCTAATTCTCCTTCCAAGCTGTTGCCACCTTCGGTTCGGATACTCTTTTCGCCATTCTCGCACTCATCCAAGCACAGGAAGGAAAATAGCAACGACGTTGCTTCCGTTTGCAACAGAGACCCAATAGCTCCACCCAAACTCTTCGTGGTTCAACCTCGTCTTCGTCCCGATACTATTCTGCAAGCAAAGCTAAACGAGGCTTTGTGTCTTGCAAATTCTCTAGAACAACAACGGGATGGGTATTTCGATATTGATTTCTTTGACAAGGAAATACCCCCTCACGTTGTAGTTCAAAATCCTTCTGCCAGAGGAGCTCGCGCTGGTAAGTCCAAGAAAATTGAATTCTGTAGCCCCTTTCTTTTATTTTGTGCTTAGACATTTTTCAGTTGGGGACACTTGAGAGCTCTCTTACTCACCTCAAACCGACCGGTGTTTGAGTTAACTGCCTATTGAAATATTTTAGAAATTGAAATTTGGGTCCTTTGGTTATGTTTTCTTAGTTATTTTAGTATTCATTGCCTCAATTTGGATTTTTTTTTTCCCTTTCTTTGAATTCGGCTTATTACTGGACGGTTTTTGAGTTATGCCACTTGAACTATGGTCCTGTTAGCGCCTCAATTCTGAATTATTAAATTGATTTAAAAAGACACGGTGACTGAATGCATGACTCATAAAAAGATCATAAAGTCTGACCATATCTTCGATTCCAAAGATTTATGTTATGCTGGGAAGCATGCGAAGACGTTAATTTTATTTTTCTGAACTGCTACTTTTCGTAGTTATTGTTGCCGACTGCCTAAGTTGCCTTCTTTCTCATGGTTCCTGTCAAGGCACAATTAGAGGCTTCTTTAACAGGTCTCCTATTTGCATAAGGCACATTCTATTTGCGGACGACATCTTGCTTCTTATCAATATTTTCGGGAAGGAAACCATAATTCTTGCCTTGATCTGTTGCTTGTCGGTAAACTGAAATCTCTTTCTTTCTGCAGTCCCTTGATTTAACAAGGGGTGTATATATTGAAGGGTTGAAAATATGCTTACGTCTCCCATGGGGGCCTCTTACACGCATCCTCTCATCTGTTGTCCTTGGTAGCTGTGTTGACAAATGAGAATGGACGATAGGACATCCAACTCTTTCACTAATGTGCTCTTCCTTCAATCCCCTTTCCAAGTCTGCCCTTTCTTTTCATATGGGAAGCATGGGCTTGAAGACAATGGAAGGGACTTTAGGGTAGTGGTGAGAGACAACAATCAATTAGAGGCTTTTTCTTTAATAGGTCTCCTATTTGCATAAGGTTAGATTCTATTTGCGGATGACATCTTGCTTCCTATCAATATTTTTGGGAAGGAAACCATAATTCTTGCCTTGGTCTGTTGCTTGTCGGTAAACTGAAATCTCTTTCTTTTTGCAGTCCCTTGATTTAACAAGGGGTGTATAGATTGAAGGGTTGAAAATATGCTTACGTCTCCCATGGGGGCCCCTTACACGCATCCTCTCATCTGTTGTCCTTAGTAGCTGTGCTGTTTCTTTTTCACCTTTTGTTGAACAGATGCTACTGCCATGGCAACTTTTGTAAGAACCTTGTGCCAAAAATCTAGTCTTTAGTCGCACAGTCTGAATTCCGGGAAAATTAATCTCGTTTCAATGGCCACCAATTCTTCTGTGCTAGTATTTTTTTGTCGGCCTTCCCATTTTTCTGTTTCTTTTCTACACTTTTTGTGAACAAACTCAACCTAGGACGACTCTTCACGTTTTCTGCCTTCGTCTCTGATATGACGATTCTTCTTTCTTTGTGGCCATTCTCACTCTACTGATCAACGACCTTCCTAGTATCCTCTATTTCTTTCCATATAAGACTACCTTATTCTAATATGAATTTCTGACTCATTGTTTTTGCCAGTCTAATCTCCTATTCTTTTGTTGCTGCAATCTCCCCTTTTCTTTATCTGAAATTACGCAGTAGCCATATAGATTGAAAGATCAAGTCCGTTTACTTCTTCACTTGATTCTTAAGTCAATCCATTCCTTCGCATAAACACTTCTATATCTCTTTGCATAAATTCACATGAAGCTCCTTGGCCAGAACTGTACAGCTCTGATACCAATCAGAAATATTCCAATGTCTTGAAATACAAACGATAACAAAACTACAATGTAACTTCCCGAGTATTCAAGGTATTTGGAACCTCCCCTCTTGAGATATCGCTCAATCCATTAGCCACTAAAAAATTGTCTAACTTTGTCATTTTCCTCTCCCTCTACTTATAACCAAATACCATGACAACTTCCCTAAAAAATGACGAATATACCCTTGATATCCCAATAATACCCTGATAGCGTTCCTATCATTTTCCTGTGAGCAATAATAACCAATCATTTTTGAAGTGATCCTTCATTCTTGAACTCTCTGGTTGGAAGCTTTTGTGTAATTCCCCACTCTTTTATCCCTCTGGGGGGAGATGTCGGGGAGCTGTGACATCTGTTTCTTAGAAAGCAAAATATTGTTTTGAAAAAATGTCTGATAATGATTTTTTAAAAAATTTTTTTTTTAGTAGTTCTAATTCATCCTTGATATTGAATGTTTGAAGACAAGTCCTTAATTTTAGATAATGAGTAAATTGACTTGTCTATGATCTAGATGGTTGAGCGTTGCATTATTTCATTTTTTCTCATTGTGTTTTATGTTTTTAGATACATATTTTGGACCAGGAACTGTGGATGCCATCAAATGCCATTTGAATGTGGCAGAGTCGAAGGTAGTGGTAATTTGGTTTTGTTTGTACGTTACTAGATGTGTAATATGATCACCAAACTAAACCTTATCAGTTTAAAATTTTGTCAGAGTGAGGTTGATGCTATTTTTGTAAATGCTACTCTCTCTGGCATTCAGCAGAGGAATTTGGAGGTATATCTTGTGTATATTCATTTCTTCCCCTTGTTAGTTCGACCATGAACAAATACACTCATGGTCTTGTAGAAAAAGTGTAGGTTGTGTATATCTTTACATTAATATAAATGTTTTGCAATATTCTTTGTTCTTGATGACATGCTCCACTATTCTATGTCAGCGAGCATGGGATAAACCTGTACTGGACCGCGTGGGTCTCATAATAGAGATATTCAATGCTCATGCCTACACGAAAGAGGCGAAGTTACAGGTTTTTTCATGGGCCCAATTAAATGTATCATTGCCTTTTTCTTGCTAACCTGTACTTACAATAAAAGGATAGAGTTCAATTTGTATTTTATCATTGTTTCAACTTGGTCCATTAAGTTTTATTTAGTTGCAACCAATTGTAACTACAAGAAAAATTTACAGTTGGTTCCAATTTGAAGCTGTACCAGAAAAAAAAAAAAAATTATGTGGGGTCATTGGGTTTTGATTTTGTTGATTTGGATTAGACTGTGTTTCTCCATTATTTTTGGAATATAGCCAGAGAGAAATCGGTGGTGATATCTGATTTTGTTCAATCGAGGGCTCAGCCCATCAATGATTTATCTAAGAAGTCATTTATTAATTTGGTAGATGACTTAGCTAAATTTAAACAGTACCAGAAATCATTTAGTGCATCTTCATCATCTTCAGCACCTACCCCTGTAACAACCATTGCTGGTTCAGGTAATATGAATTATTGCCTTTTTCTTTCTCAACCAAATGGGTCATAGCCCATCAACCCCATAAAGTCAGTAATACCCACCATTTGTGCTACCTACCTATTTTTGCAAGTTAGGCATGGTTGGTCGATATTGTTGGTCCTTGTCCATTAATTGGGTCCAAACTTCACCTTCTGTTGAACAGCGTGGGTAAGAAACATCATTCTTTTCCTCGATCATTCTGTCAACCTCCATCAACAACTTCATCCCAGTTGGGTTGAACACATTTACTTTACTTGGATTCTAGTTTCATCCTATTTAAGAAGCAACATTTGTACTATGGTGCTCAAAATTTCAGATTGAATGAAATTTTAAATTGAGTTTTCCAGAGAAGGAAGTTCTGACAATTTATTTCCATGTTCCAGGACAACACTAACAATTAACCTTTTTCTTTTGCTTAACAAGGTAAAAAAGCCCAGTATCTGCGCATCTATAAATCATCTCCCTTATTTAATTTTGTTTGTACCCTTACATTATTTATAGGCTGAACTGGCTGCTTTAACGTATAAAAAGTCGAGACTTGTTCGTGTACGTGGCCTTGATGGACGTCTTACATTTGGTGCCACGGGAGAAGCCGAAGTTGTTAGTGCCAGAGGGTAGAGTATACTGCATTTACAGCTTTGCAATAACAAAAACAGTAACAAGCCAAAGTTTTCATTTCTTTGTGTATTATTTTTTTTGTTAAGTATTTTACTTACGAAGATACTAATATGCAGGAGAGGGAGTGGGGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAACTTCAACTCCAGCGACGAAGGTTGAATCTGTGATGCTAAATACTCAAATTTATTTGGAACTCCTTTCTTACAAACAATATATAAATGATACAATAATTGGAGGATAAGGAGTCCTCAAGTCCAAGAAAGGAAAAGCTGTGACAAGGAGGCACTCCAACTTCGTTGCCAAAATAAACAAGCAAAATATAAAGACCTAGGGACTTAAGCTTGTTTGGTACTAAACTTTGGGAGCTTAGTCACGAAAGAATACATACCCATGGAAAGATAGAAAAATAAATTGAATCCGTGCTTTACCCCTCAGGATGGTGTTCTTGTTGCAAGGAAGAGTCTGAGTGGCCACCTCTTCCTATATTGCTCCTTTAGGAATATTTGGAGTCTCCATTTTCAGTTGGTACGCGCCCCCACCACATGGATTCTAACATCCTTATATCATTGATAGTGGTGCGGAACCATTCAAAAGAGAAAAGGTCTTTGTGGTTTCAATGCACTGGGCATTTTTCTTGGATCTTGTGGCCTCGAATTGAACATAACTATAGAATATTCTATGAGGAGAATTCTTTTGATAGTTTCTTAGGCTCTGCTTGATAACCGTTTGGTTTTTGGTTTCTGAAAGATAAGGTTCTTTTTGTTTTGTCATCTACTTTTTACTTATGGTTAAAGAAACCAAGCTTAGTTTTAAAAAAAAGCAGTTTTGGAAAACTTGTTTTAGTTTTTAAAATTTGGGTAAGAATTGAAAGATGAAAACTGTTGTAGAGAAACAGTGAGATAATGCAAGGACTCCCTTGACTACATGGTATTTCACAATAACAAAAGTACAGTTACAGCCATCAAGCACCATTCGAGAGGGTGGGACTCTCCTTACCTTCCGAGTATGGTACTGCACAACCAAAAACTTAAGAACATCCAGAACAGCAAACCATAAATATACTAACAACTAAATAAGGGATGGTGTATTTCCATGTTTGCCCGTCCAAACTTAAACATCTACGACTAGTCTCATGGATAACAAACACAATTTTCAAAAACTCAAAATTAAATGGTTATCAAAAGAGGCCTTAGATATTCACTTTTTTTTAGCTCTATTTTGCTGTATGCTTATGTCAACCATCAACAATTACAGTTCAAATAAATGCACTTTTGGCTAGTTGGAAGAGATTTTTGTCTTTTTGGTTTGAGGCTTGGCATTCTTCCCGTCTTTTTCAATTTTGCATATCATATACGAAATTGTTTCAATTCTCAAAATTTCTCAAAAGTTTTGAAAACGGTGAAGTCCTAACCTCCTCCTTGTTTTCTCCTTTTGTGTAAATGATATTTACTTCTCTGCTGTAGTTTAAGTTCTGTAACTATGCTTCCAGAATTTTGGAACGAAGGAATCATCTATTATCTCAAATTGAAGAGGTTCGTCGTACACGTGCTTTGCAGCGTTCTTCTCGAAAGAGACATGGAGGCTCAAATGGTCAACAGTTAGCTACTGTTGCTATTGTTGGGTACACTAATGCTGTACGTGCTCAGTTCCAATTAATTATGATTGTTTTATGTGTTCCATGAGAAAGGGGAAAAAAGAAAACTAAACAGCTTTATGCAACCCATTTAACAGGGGAAGTCGACATTAGTCAGTGCACTTTCAAACAATGATCTCTATAGTGATTCTAGGTATCTCAACGTGCTTTTTAATGGTTTGAATACTTTTTTCTCTTTTTGTCAACATTTTGCATCTGATTTGATAATTGGAATCTGAATTTATGCAGATTGTTTGCAACTGTTGACCCCACATTAAGAAGCGTCTTTCTTCCTTCTGGGTATACAATTTGTAATAAATTGGAAGTCTTACTTTTTGTTGGTTTCTATTAATTAAGACCTCGATCTTATCGTTTAATTTTCAGAGTTTATTCTATAATCTTTTGTTTTCTAAATAATTTTCAGGAGAAAAGTACTCGTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGGTAATGAAAGCTTGACGTGTCACTTTTTTCTCTTTCACAAGTTATTCTTAATATCTCTTTCGCTAAGACAATGCACCTTTTATAGTTGGTTGAAGCATTTCATGCAACTTTAGAGGAAGTTGTTGAAGCAGACTTGTTAGTGGTATGATCTGCTTGATCTGACTCTTCTTTATGCGCAAATATTTTGCATCTTCAGCTCCGTTGAACTATGGTCTCATATGAATGATATACTGGGCCAAATTTAAATTTCACTTGTGGTCTTTGAGGTTTGAAATAGTTCTAAATAGAGTATGACTTAGTCGACCATATGATCAGATAACATGTAAGTTAACTTGGTCATTGGGCTTTGTTGACCTGGCCTTATTGACAATTTTAAATAAGTTCGGCAAAAATATTAATTTTACATTATTACTTTTTCTTATGTGGCCTTCACACCACATTCTTTCTTCATTCTCATCCTCCTCGTCTGATAGACCTTGCCGTCACCACCACCACCCCTGTGCCTCCCTCCCTTGCTGCCATCCTTTTTCGCTCACTCGTCCTCCTTCACTTCATTCTAGATTTAATGGAGTTTCTAATCAAATCTAGAACCAAAGCTTCAAATTTTGAATGGGACAGTCTCTTTTACATTATTACTTTTTCTTATGTGGCCTTCACACCACATTCTTTCTTCATTCTCATCCTCCTCGTCTGATAGACCTTGCCGTCACCACCACCACCCCTGTGCCTCCCTCCCTTGCTGCCATCCTTTTTCGCTCACTCGTCCTCCTTCACTTCATTCTAGATTTAATGGAGTTTCTAATCAATTCTAGAACCAAAGCTTCAAATTTTTGAATGGGACAGTCTCTTTTCCACTCAATCTCTCCTCCCCCCCCTCCAAGGTTAACAACAGATGATTATTGGAAATAGAATCTGGTTGATAAAGGAACCTTCACCAAATTTCTCACTTTTAAGATTGGGTCCAGTGGCCAAAATCGTCACAAAGATCTCTATAATAATATATTCAAGGGCCCAATTCCCTAGAAAATTAGATTTTTCCTTTCAGAATTAATTCGTGAATGAATTAGTACACCTTATGCGCAGCTAAAAAGGGATCCCTTGTTAGTCTCCTCTCCAAATTGGTGCATACTTTGTTGAGACATGCCATACTATGCTTTACTTATTGACTGCTTGTCATTATGATTGGATTTTTCGGGAGGCTATCAAGATAAATATGGAGGCTATCAAGAAATGAATTGATATGGGTTATCTTACCTCTAGAGAGTTTAATGGATGGTGGGGTTACTAATGTTGTACTTAGATGAAAGCATTTGTTCCTAGCAGTTTCCTCGTCTGTTGAGCCATAGTGTCTTAATATGATTCCTGGGAACCATGCTTGCCCTCTTACAATTGAATTATATTTCAAAATTGGTATGATCACACTATTTGATACTGAATATGTAGAAAAATCAATTCTGAAGTAGACTTCCAGGATATTGATGGAGATACTAATATAAGATATCAATGCCGGTATCTTGATTATTGCAGCATGTGGTGGATTGCACCGCCCCCAACCTTGATGAGCACCGGTTGACCGTTTTCCAAGTACTTAAGCAAATAGGAGTTTCTAAAACGAAGCTTGATGATATGATTGAAGTTTGGAACAAGGTAATTCTATTTATTTATTTCTCTTACTTGGGACAAGTTTGCAATTTGATCTGTGATGCATGATGCGTGTAATAATTCGGACAGATTGATTATCGTGAAGAAGATGAGAGCGTAGATGAATATTGTGATGATGATATTGGCGAGGCTGGCAATTCGTCGGTAGGAGATGGTAGAAAGGGAAATGCTGAAAGCAACAATTTTATGAAAATGGAAAAGGGTGATATTACGAAAAAGCAAGCAACTAGAGAAGTCAGTGGATTCCCCTCTGGAGATGTCAGCCAGCTTTCTCAAAAAGATCTTGGAAACACAATTGAGGGAGAGGAGAGCGATTGGTGTGAAGACTGGTTGGCAGAGGACGATGATGATCAAAACCCTTGGGTTGATGAAAATTGTTACTCTGAGGCTCAGGAGGCCTCAGAAGACCAGGGGATGAGAAAGGATGTACAGCCTCCAGGTGGTCAATTTGGTCCACATGTCAGAATATCAGCCAAGTTTGGAGTTGGCTTGCGAGAGCTGTTAGAACTCATAGATGACAGACTAAAGGTTGATCAGGATGAGAGGCTAAAAACTCAAAATGTTTTAGAGCGGAGTATTTTTGAACGTAAATGGAGGCCATCGCAGATGGAGGCGAATGGTGCAGCTGAGCAGTAGCTTACTTTTTAGTTTATAGATCAAGTAGATTATGGTTCCTTGCAACTGCAACGAAGCATGGTTGCAATATAGATTTCTGTTTCGCTAGTTTCTGGCGATCACTGAATATTCTACATATTTTAATTATTAGAAACCCCTCATCATATTTTTAATTTGTTAACAGGCATAATTAATAGTATACTGTTTTTAAATACAATAATATCAATCAATAACAAAATTTTAGGGAAAAAGTTCAATTTTAT ATAAACCATAAAACTTCTGGAGTGCAGAAGGGCAACACCGGCCAACTCACCGACGCCGAGGGTTGATAGTGGTGAAAGGAGATTGATTATTCCACCGATTCTTCCAAATGTTGAGAATTATCTCTGTATCGCAACCTCGCATCAAGTTTCTCGCCCGTTACATAACCTCTCTATCTTCCGCCTCAATAACCTACCTATTACCATCTAATTCTCCTTCCAAGCTGTTGCCACCTTCGGTTCGGATACTCTTTTCGCCATTCTCGCACTCATCCAAGCACAGGAAGGAAAATAGCAACGACGTTGCTTCCGTTTGCAACAGAGACCCAATAGCTCCACCCAAACTCTTCGTGGTTCAACCTCGTCTTCGTCCCGATACTATTCTGCAAGCAAAGCTAAACGAGGCTTTGTGTCTTGCAAATTCTCTAGAACAACAACGGGATGGGTATTTCGATATTGATTTCTTTGACAAGGAAATACCCCCTCACGTTGTAGTTCAAAATCCTTCTGCCAGAGGAGCTCGCGCTGATACATATTTTGGACCAGGAACTGTGGATGCCATCAAATGCCATTTGAATGTGGCAGAGTCGAAGAGTGAGGTTGATGCTATTTTTGTAAATGCTACTCTCTCTGGCATTCAGCAGAGGAATTTGGAGCGAGCATGGGATAAACCTGTACTGGACCGCGTGGGTCTCATAATAGAGATATTCAATGCTCATGCCTACACGAAAGAGGCGAAGTTACAGGCTGAACTGGCTGCTTTAACGTATAAAAAGTCGAGACTTGTTCGTGTACGTGGCCTTGATGGACGTCTTACATTTGGTGCCACGGGAGAAGCCGAAGTTGTTAGTGCCAGAGGGAGAGGGAGTGGGGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAACTTCAACTCCAGCGACGAAGAATTTTGGAACGAAGGAATCATCTATTATCTCAAATTGAAGAGGTTCGTCGTACACGTGCTTTGCAGCGTTCTTCTCGAAAGAGACATGGAGGCTCAAATGGTCAACAGTTAGCTACTGTTGCTATTGTTGGGTACACTAATGCTGGGAAGTCGACATTAGTCAGTGCACTTTCAAACAATGATCTCTATAGTGATTCTAGATTGTTTGCAACTGTTGACCCCACATTAAGAAGCGTCTTTCTTCCTTCTGGGAGAAAAGTACTCGTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGTTGGTTGAAGCATTTCATGCAACTTTAGAGGAAGTTGTTGAAGCAGACTTGTTAGTGCATGTGGTGGATTGCACCGCCCCCAACCTTGATGAGCACCGGTTGACCGTTTTCCAAGTACTTAAGCAAATAGGAGTTTCTAAAACGAAGCTTGATGATATGATTGAAGTTTGGAACAAGATTGATTATCGTGAAGAAGATGAGAGCGTAGATGAATATTGTGATGATGATATTGGCGAGGCTGGCAATTCGTCGGTAGGAGATGGTAGAAAGGGAAATGCTGAAAGCAACAATTTTATGAAAATGGAAAAGGGTGATATTACGAAAAAGCAAGCAACTAGAGAAGTCAGTGGATTCCCCTCTGGAGATGTCAGCCAGCTTTCTCAAAAAGATCTTGGAAACACAATTGAGGGAGAGGAGAGCGATTGGTGTGAAGACTGGTTGGCAGAGGACGATGATGATCAAAACCCTTGGGTTGATGAAAATTGTTACTCTGAGGCTCAGGAGGCCTCAGAAGACCAGGGGATGAGAAAGGATGTACAGCCTCCAGGTGGTCAATTTGGTCCACATGTCAGAATATCAGCCAAGTTTGGAGTTGGCTTGCGAGAGCTGTTAGAACTCATAGATGACAGACTAAAGGTTGATCAGGATGAGAGGCTAAAAACTCAAAATGTTTTAGAGCGGAGTATTTTTGAACGTAAATGGAGGCCATCGCAGATGGAGGCGAATGGTGCAGCTGAGCAGTAGCTTACTTTTTAGTTTATAGATCAAGTAGATTATGGTTCCTTGCAACTGCAACGAAGCATGGTTGCAATATAGATTTCTGTTTCGCTAGTTTCTGGCGATCACTGAATATTCTACATATTTTAATTATTAGAAACCCCTCATCATATTTTTAATTTGTTAACAGGCATAATTAATAGTATACTGTTTTTAAATACAATAATATCAATCAATAACAAAATTTTAGGGAAAAAGTTCAATTTTAT ATGTTGAGAATTATCTCTGTATCGCAACCTCGCATCAAGTTTCTCGCCCGTTACATAACCTCTCTATCTTCCGCCTCAATAACCTACCTATTACCATCTAATTCTCCTTCCAAGCTGTTGCCACCTTCGGTTCGGATACTCTTTTCGCCATTCTCGCACTCATCCAAGCACAGGAAGGAAAATAGCAACGACGTTGCTTCCGTTTGCAACAGAGACCCAATAGCTCCACCCAAACTCTTCGTGGTTCAACCTCGTCTTCGTCCCGATACTATTCTGCAAGCAAAGCTAAACGAGGCTTTGTGTCTTGCAAATTCTCTAGAACAACAACGGGATGGGTATTTCGATATTGATTTCTTTGACAAGGAAATACCCCCTCACGTTGTAGTTCAAAATCCTTCTGCCAGAGGAGCTCGCGCTGATACATATTTTGGACCAGGAACTGTGGATGCCATCAAATGCCATTTGAATGTGGCAGAGTCGAAGAGTGAGGTTGATGCTATTTTTGTAAATGCTACTCTCTCTGGCATTCAGCAGAGGAATTTGGAGCGAGCATGGGATAAACCTGTACTGGACCGCGTGGGTCTCATAATAGAGATATTCAATGCTCATGCCTACACGAAAGAGGCGAAGTTACAGGCTGAACTGGCTGCTTTAACGTATAAAAAGTCGAGACTTGTTCGTGTACGTGGCCTTGATGGACGTCTTACATTTGGTGCCACGGGAGAAGCCGAAGTTGTTAGTGCCAGAGGGAGAGGGAGTGGGGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAACTTCAACTCCAGCGACGAAGAATTTTGGAACGAAGGAATCATCTATTATCTCAAATTGAAGAGGTTCGTCGTACACGTGCTTTGCAGCGTTCTTCTCGAAAGAGACATGGAGGCTCAAATGGTCAACAGTTAGCTACTGTTGCTATTGTTGGGTACACTAATGCTGGGAAGTCGACATTAGTCAGTGCACTTTCAAACAATGATCTCTATAGTGATTCTAGATTGTTTGCAACTGTTGACCCCACATTAAGAAGCGTCTTTCTTCCTTCTGGGAGAAAAGTACTCGTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGTTGGTTGAAGCATTTCATGCAACTTTAGAGGAAGTTGTTGAAGCAGACTTGTTAGTGCATGTGGTGGATTGCACCGCCCCCAACCTTGATGAGCACCGGTTGACCGTTTTCCAAGTACTTAAGCAAATAGGAGTTTCTAAAACGAAGCTTGATGATATGATTGAAGTTTGGAACAAGATTGATTATCGTGAAGAAGATGAGAGCGTAGATGAATATTGTGATGATGATATTGGCGAGGCTGGCAATTCGTCGGTAGGAGATGGTAGAAAGGGAAATGCTGAAAGCAACAATTTTATGAAAATGGAAAAGGGTGATATTACGAAAAAGCAAGCAACTAGAGAAGTCAGTGGATTCCCCTCTGGAGATGTCAGCCAGCTTTCTCAAAAAGATCTTGGAAACACAATTGAGGGAGAGGAGAGCGATTGGTGTGAAGACTGGTTGGCAGAGGACGATGATGATCAAAACCCTTGGGTTGATGAAAATTGTTACTCTGAGGCTCAGGAGGCCTCAGAAGACCAGGGGATGAGAAAGGATGTACAGCCTCCAGGTGGTCAATTTGGTCCACATGTCAGAATATCAGCCAAGTTTGGAGTTGGCTTGCGAGAGCTGTTAGAACTCATAGATGACAGACTAAAGGTTGATCAGGATGAGAGGCTAAAAACTCAAAATGTTTTAGAGCGGAGTATTTTTGAACGTAAATGGAGGCCATCGCAGATGGAGGCGAATGGTGCAGCTGAGCAGTAG MLRIISVSQPRIKFLARYITSLSSASITYLLPSNSPSKLLPPSVRILFSPFSHSSKHRKENSNDVASVCNRDPIAPPKLFVVQPRLRPDTILQAKLNEALCLANSLEQQRDGYFDIDFFDKEIPPHVVVQNPSARGARADTYFGPGTVDAIKCHLNVAESKSEVDAIFVNATLSGIQQRNLERAWDKPVLDRVGLIIEIFNAHAYTKEAKLQAELAALTYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRGSGGRGFISGAGETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGQQLATVAIVGYTNAGKSTLVSALSNNDLYSDSRLFATVDPTLRSVFLPSGRKVLVSDTVGFISDLPVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVWNKIDYREEDESVDEYCDDDIGEAGNSSVGDGRKGNAESNNFMKMEKGDITKKQATREVSGFPSGDVSQLSQKDLGNTIEGEESDWCEDWLAEDDDDQNPWVDENCYSEAQEASEDQGMRKDVQPPGGQFGPHVRISAKFGVGLRELLELIDDRLKVDQDERLKTQNVLERSIFERKWRPSQMEANGAAEQ
BLAST of Cp4.1LG09g00120 vs. Swiss-Prot
Match: Y3725_ARATH (GTP-binding protein At3g49725, chloroplastic OS=Arabidopsis thaliana GN=At3g49725 PE=2 SV=2) HSP 1 Score: 555.4 bits (1430), Expect = 7.6e-157 Identity = 341/628 (54.30%), Postives = 420/628 (66.88%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. Swiss-Prot
Match: HFLX_MAGMM (GTPase HflX OS=Magnetococcus marinus (strain ATCC BAA-1437 / JCM 17883 / MC-1) GN=hflX PE=3 SV=1) HSP 1 Score: 212.2 bits (539), Expect = 1.6e-53 Identity = 135/299 (45.15%), Postives = 184/299 (61.54%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. Swiss-Prot
Match: HFLX_CALS4 (GTPase HflX OS=Caldanaerobacter subterraneus subsp. tengcongensis (strain DSM 15242 / JCM 11007 / NBRC 100824 / MB4) GN=hflX PE=3 SV=1) HSP 1 Score: 207.2 bits (526), Expect = 5.1e-52 Identity = 134/305 (43.93%), Postives = 182/305 (59.67%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. Swiss-Prot
Match: HFLX_ACIC5 (GTPase HflX OS=Acidobacterium capsulatum (strain ATCC 51196 / DSM 11244 / JCM 7670 / NBRC 15755 / NCIMB 13165 / 161) GN=hflX PE=3 SV=1) HSP 1 Score: 202.2 bits (513), Expect = 1.6e-50 Identity = 138/310 (44.52%), Postives = 178/310 (57.42%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. Swiss-Prot
Match: HFLX_CLOSW (GTPase HflX OS=Clostridium saccharolyticum (strain ATCC 35040 / DSM 2544 / NRCC 2533 / WM1) GN=hflX PE=3 SV=1) HSP 1 Score: 187.6 bits (475), Expect = 4.2e-46 Identity = 120/298 (40.27%), Postives = 179/298 (60.07%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. TrEMBL
Match: A0A067KIM9_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_12581 PE=4 SV=1) HSP 1 Score: 711.1 bits (1834), Expect = 1.2e-201 Identity = 398/623 (63.88%), Postives = 473/623 (75.92%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. TrEMBL
Match: A0A061DHA7_THECC (GTP-binding protein hflx, putative OS=Theobroma cacao GN=TCM_000854 PE=4 SV=1) HSP 1 Score: 684.9 bits (1766), Expect = 9.3e-194 Identity = 387/594 (65.15%), Postives = 450/594 (75.76%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. TrEMBL
Match: V4SFN0_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10025205mg PE=4 SV=1) HSP 1 Score: 684.5 bits (1765), Expect = 1.2e-193 Identity = 388/627 (61.88%), Postives = 463/627 (73.84%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. TrEMBL
Match: F6HD86_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_00s0734g00020 PE=4 SV=1) HSP 1 Score: 665.2 bits (1715), Expect = 7.6e-188 Identity = 389/640 (60.78%), Postives = 461/640 (72.03%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. TrEMBL
Match: A0A0D2TJT8_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_007G227000 PE=4 SV=1) HSP 1 Score: 660.6 bits (1703), Expect = 1.9e-186 Identity = 375/588 (63.78%), Postives = 453/588 (77.04%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. TAIR10
Match: AT3G49725.1 (AT3G49725.1 GTP-binding protein, HflX) HSP 1 Score: 555.4 bits (1430), Expect = 4.3e-158 Identity = 341/628 (54.30%), Postives = 420/628 (66.88%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. TAIR10
Match: AT5G57960.1 (AT5G57960.1 GTP-binding protein, HflX) HSP 1 Score: 166.0 bits (419), Expect = 7.4e-41 Identity = 115/306 (37.58%), Postives = 172/306 (56.21%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. NCBI nr
Match: gi|659125883|ref|XP_008462905.1| (PREDICTED: GTP-binding protein At3g49725, chloroplastic isoform X1 [Cucumis melo]) HSP 1 Score: 887.5 bits (2292), Expect = 1.4e-254 Identity = 475/621 (76.49%), Postives = 528/621 (85.02%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. NCBI nr
Match: gi|449438863|ref|XP_004137207.1| (PREDICTED: GTP-binding protein At3g49725, chloroplastic [Cucumis sativus]) HSP 1 Score: 882.9 bits (2280), Expect = 3.3e-253 Identity = 476/621 (76.65%), Postives = 527/621 (84.86%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. NCBI nr
Match: gi|659125885|ref|XP_008462906.1| (PREDICTED: GTP-binding protein At3g49725, chloroplastic isoform X2 [Cucumis melo]) HSP 1 Score: 843.2 bits (2177), Expect = 2.9e-241 Identity = 456/621 (73.43%), Postives = 509/621 (81.96%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. NCBI nr
Match: gi|1009145633|ref|XP_015890438.1| (PREDICTED: GTP-binding protein At3g49725, chloroplastic [Ziziphus jujuba]) HSP 1 Score: 722.6 bits (1864), Expect = 5.8e-205 Identity = 414/633 (65.40%), Postives = 484/633 (76.46%), Query Frame = 1
BLAST of Cp4.1LG09g00120 vs. NCBI nr
Match: gi|802646119|ref|XP_012079461.1| (PREDICTED: GTP-binding protein At3g49725, chloroplastic [Jatropha curcas]) HSP 1 Score: 711.1 bits (1834), Expect = 1.7e-201 Identity = 398/623 (63.88%), Postives = 473/623 (75.92%), 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 pepo
Date Performed: 2017-12-02
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene: None |