Clc01G08280 (gene) Watermelon (cordophanus) v2
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.TTTTGGTGAGCATGGTTGAAGCAATTGTAACTCAAAGCCCACATTTTTTTTTAAAAGCCCAGCCCAACTGGGAGAAACAATAAAACCTAAGTTAGGGCATCTCCTTCCACACTCAACGCTCCACTGCAGCACAGTACTTCCACCTCCACGCCTCCACGGCAAGGCAGCAACAAAGGGTAAAAATCATCACATTTTAATTATTTATTTATTTATATTGATCTTCAGTTACCCCTGTTTTGTTTGTAACCACGGGATTGTGAAGGATTTCAAATCGGAAATTGAAATGTGCTTGGAATGATTAGAAACCAAAACGATTTGAATCTTTTTTTGATCCAAAATTTTTTCCAATGAAAACAAGTCGGATTTTTCCAGATTTCAAATTGAAATTTCTACATGGGCCTCAGACCTCAGCATAAGGTTGCAGTAGAGAGTGAGATAAGAGAAAAAGAAACTAAAAGATGGATTGGCGGTTTGTAGTGACGTGCGGCTGATCTAGATCGTAGAAGAAAGAATGAAAGTCATAGGCCTAGGTTTGTTGTTTCCTTTTTAAAATTTAAATGTGTAATAAAAAAAAAAAAGGAAAAAATGACATTTCAATACTCCTTGAGAGGCACAATTTTAAGAGTATTTATTTTTTTAGTAGTTATAATAGCAAAAGAAAGTTGATTTCTTTTGATTTTTTCTTAACAATAAATTTTATTTTATTTTATTAAGTTGATTTTTTTTTTTAATAATATATAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAATCATAGGGTTTAGTTATATAGGGCGTTGCATGGATTGCTACATGACTTGGGATGTTTAAGAAACGGTTATTAACTATGATCATTTCATTTTGAATTCTTTTGTACATGCATGTTCTTAACTTATCTTTTTACGGTGGTGCATTTTCAGATTGATCGTGAGGTTTTCTTATACCGCAATGTCGTATTTTGGATTCCAGTCTTTGACATTTTCGGGACCCCTTTTTGTATTCAACAATGTCTGTTTCAAGAAGTATAGATATAATCCTGCTTTTGTTTCAACAAGCAAATCGGACCTCTCACTTCAATCAAAGGTAGATATGTAGTTACTTTGTTCTCGTAGATAGGTAGAAATGTTGCACTATACTTTCATTTTGTCAACTTCTTGTAGTAATGATATTAAACGTGATAAGAAAACTTGTGCGTGGTTATGCAAGCCTTTGGCCATTGCACCTTCATGTGCTTTGTGCTAATAAAACACTGTTTTCATACAAGCCACTGGATACGTATGACATATGCTATTAAGTTGTAGATATTTTAAGAATGGGGATTTGGTTGAAGCCAGCATTCACATTTTTTTAAGAAAGAATTTTACCAGACTTAGTGAGGAATCTATCTTGTTTATTTGGTAGGGCCCGTTATATGTCTGGAACATAAAATGGGGAGATTAAATCAATATCTCCTCAAGGTGTTCATCGTTGCCCGATAATATTTGTTGTTGTTATGCGAGCTACATCTGGACTCCACATTCTATAGAATCCAACTCAGTTGCATCGACTGTGTTGGTATATTCTCGCTTTTCTTTGCATGATGTATTCATAATGTATGTGCTGTTGAGTATGTGCCTTTTGACCAGAAGGCTGCACTTTTGAACAGAAGGTTGCAGAAGTGCAGCTTATTCGCGATTAATATTGCACTGGATACATGGGGCTCGTGCTAAAAAACGGGGTTTTATAGATTCCATTTGATATGCAGGACATATGCCAATAAGGTACAAATATTTTAAGATAGGGTCATAACCATTACTGTTGTACTCTTTTGAATGCAATATTCATATTTTTTTGTGTACATTGCGTGATGAAGAATTTTACCAGACACAGTAAGGAATCTATCTTGTTCATTTGGTAGGGACCATAATATGTCTGGAAGATGAATTGGGGAGATTTGATCAAAATCTCTTAAAGGTGTTTATTGTTGCCCGATAATACATGTTTATTATTATACGAGCTACATCTAGACTCCACATTCTGTTCAAGTCCAACTCATTTGAGTTGATTTTATTGGTGTTTACCCACATTTCTTTGTATGATGGTACTCATGATGTGTTTGCTGTCCCTAATATGTTTTTTTTGAAAAGGAAGCTGCATGTCTAGTCTGATTTTTCTTTTTTGAAAATAGACATTTTGATTGCTCAAAGATCTGAGTAAAGAACAAGATTTCGTTAGTTCAACTTAGATCAATTGATTTTCTTGGTGTTTTCCTAAGAATTGTGGATGTGTCTGTGTTCAACATGTCTCAAACACTTAAACACTTCCACATTTGTTAGACACAAATGTGTTGGACATGTATTGATAAGCAGGCTTCAAGGACACATATATGATGATAATAACAAAATTTGAGTGTGATATACGCCATGAAGCACAAATATTTCATGTGAGGTAGAGAATCGGTATCGGATTTGTAAGAGGTACCAATATGCTCATATACTTCCCAGATGTGTATTTGATACATGATTTGGCATATATATGTATATTTGTTTAATTCTAATATTGGATATGTTTGTCCTTTGTGTGAAGGGGACACCTTGGACCTTTTTGCTTCTTCTTCTTCTTCTTCTTTTTTTTTTTTATTTTTTTTATTTTTTTTAATAAATAATTTAAATAAAAAAAGCAGCTCATTAGTCTCCTCCAACCTAATACTAAACAACCTATTTAAAAAACCCATTCTTCCGGCCCACAACTAAAAGACAAGAGAATAAAAAAATATAAAACCAAACTCTAAAATCATCGAATAATCATCTTCACGCAAGAGTACCACAAAGTCATGCAAAAAAATTCACTTGAATATCTTCAACAATTCAATGAAGAAGTTCTTTGTTTGTATTTGTACCTATCTTCTTCTAATCAATGACTTTGGTATGCTACCAACCTCTTCTATTGTTTAAAAATTGCACTAAGAACATCATTGAAGAACCCTGATCAAATTCAAGTTCTTTTATATATTTTTGTGTAAGATGGACCAATTGTAGATTTAAGAGGGTCTCTGGAAGACAACTTTTGCTAACCTAGACTCGCGCACATTGAATAATTCATTAGGTAACTCGACACTGGTTTGGTTAGTACATCAACTATCTGTTCAGTGGCTGGTAGATGGCGCACACAAATCCTTTTCTTAAACACAAGATCTTGTGCATAGTAGATACATGCTTTGTTTTAGAGTGCAAAATAGGTTTGGTATTAAGATGAATTGCACTCAAATTGTCCCACTGCAAAATAGGAGTATTAGTTAAAAGAATACATAACTCATTTAATAAGGAACGAATCTATACCATTTATGCAGCAACTAATGCAAGACAATGGTTCCAGCCTCAGTGTCAGTTCTTGAAATAGTAGTTTTTGTAGCAACCAAACAATCAAATTTCCTCCAAGAAAAACACAAAATTCATATGTGGATTTTCGATCATCTAGATAGGAAGCCCAGTCCTCATCAGCGAAGTCAAACAATGTCATATCATTAGGACATTTTAACAACAATCCATGGTCAGCCACTCCCATTTGGTATTTTAAGATCCTCTCAACAATTGCCAATGTAAAAAAATAGTAGAGTATGAATTGACATGGTTTCTATAATTGATAAACATCATGAAAAGATGGTCCATGTTTGGCCGATAAAATAGGACTACCCATCATAGGACTAATCAGTTTAGCCTTGTCCATTTTTGTTCTATGCAATAGGTCCATTATATATTTTGATTGGGATAAAAGCATCTCACCAGTCATAGGATAATATACTTCAATTTCCTAAGAAATAATCGAGCTCACCAAAATCAATTTCAGTAGACAAACTCCCTATAACTATGATATTATTATCACATTTGAACACATAACAACAAGCAGTAGGAGTAAAACGAATCAACAATGACGTATCGACTTTAGAAGGAGAAAGCCTAACTTTCAATCCATGGTGACCACCTACTTAGGAATTAATTTCCTACGAGTTTCCTTAACACCCAAATGTTGTAGGGTTAGGTGAGTTGTCCCGTGAGATTAGTCGAGTTGCGCGTAAGTTGGTCCGAACACTCACAAATAGATTAAAAAAAATAAGAAGTATGAAAGCCTAACTGATGCAAATAAGTACTTAATCGCTAATACCATGCTTGAGGGGCCTATTTAAGACCATATAAGGCCTTTTTAAGATGACAAACTAACGGTTGAGGACTAGACAATCAAAAACTAGAAGGTTGATCCATGAATACGGATTTAGTAAGAAATCCATGTAAAAAGGCATTATTCACATCAAGTTGTCTAATAGACCAAGCTTTCATTAAAGCTAGAGTTAACAACACTCTAACGGCTATAGGTTTCTTTGTGTAATCAACATCTCAGGGGTTTGATGAAAGCCTTAGCAACTAAACTTTAGTGCTTTATAACGAACAATAGCGCCATTAGAGTTCTTGTTTCTTTAAACTCCCATTTAAAATTTACGGTTTCTTATCATGTCTAGCTTTGGAATTAACTCCCATGTTTTGTTTTTAACTAGAGCATTGTATTTATCTTCCATAGCTTTCTTCCACTAAGTGTGTTTTAAAGCTTCTTTAACATCACATGGTTTAGTTTGAGTATAATCAACCTAGTAAATTTTAGGTTTAAAAATACCACTTTTACCTCAAGTCATCATAGGGTGAGTTGGAATGGGTTCCGTGGCGGCAACTTGAGGAGCATTAGTGGTACTTTGAGTTGCTCCATCTTGAGACCCTTCAAAGGAATCTGTGTCTAAAGGATGCACATTTGTAGGTATTGGATGATCAAGGTTTTGAGTAATTGGAACAATATTGTTTCTTAACTCTTTATGGTTCTACATCATTGTGGTTCTTAGTAGAAGTAGGTGTATATGAGGTATAAGAGAAGAGATAGGAGCTACAAGAGTAGCATCAAAAGAATTTTTGGGTTTGTTATGTGATATACATTTCATTAATTAGAACATGTCTTGGAATAAAAACCCGACCATTAAAAGATAGATATTCGTATCCTTTGCAAGAGTTGCTATGAGCCCCAAAACGTACATGGTGTAGAGCGCAAGGATAGTTTAAGAGAGTTGTAAGGTCTTAAATAGGGAAAAAATTTACACCCAAGGATTTTTAGTGAAGGATGATTGGGCTTAACACCAAATAACTTCTCCAAGGGACTAATGTAAGGTTGCGTAGGGTTCGGTAATCGGTTAATTGGATAAGCAACAGTAGTAAAGGTCTCATTCCAAAATGTCTATGTTCTGGTTTCGTCAATGTTCTCTACGCTACCCCAGGCGCATGCCTATGGCGACAGGCAAGGCGACCTAGGGTCATTGTGCCTTGAAGGTAGCCAAGGAGAGCTCCATCAATTGGGCGCTCGCTTTTCTGTGCATTCACCTTGTGTTAAGGTGAATGCACGATATTTAGCAATATATATACATATATTGCTTTTGGGGTTAAGAAATCAAAGATGGTGAGAAGAAATCATTAGTTGTTTAATCCTAATTTTTTTGGGTTTAAGAAGAAGAAAGATTGGAAAGGAAGAAAAAGAATCAGAGTTGATGAGACAAAAAGGAATAAGAAAAGAGTGAAAAAGAAATTGAAGAAACTGCGTGTACAAGCTTCAAAATCTCCCATGTCTTTCCCATTCTCACATTATCATGCAACACTAAAGAAGTAATTGCGTAGACGAAGTAGTAGCACCCACTCACATGCATGCTTCATTGCCATTTGTAGTAAAACAACCATGTGGCAGTATTACTAATTCTAATTCTTAGTTAGCAGCTTAGTGCTGTTTATGTGGCTGTATTACTAATTCTAGTTCTTTGTTGGTGGCTTAGTGCTATTTTTAACAAGTGTTTTGTTTAATTTCATTTAACCTTTTATTCATAACTTTATTGAATTAATTTACCAAATTTTTTATATATACATATACATATTTATTAAGTACGGCTAGCTTCACTCAGGCAACACATTTTTGTTGCCTCTCGCCTAGAGGCGATTATGAAACTTGTTGCCTTAAGATGCACCTTGCGCTTTGAAAACGTTTTCTGGTTTTTGTTCCATTATCCCATTTTGTTGAGATGTACGCGGACAAGTAATGCCATGAAGTGATGACTTAGAATTTAAAATATTAAACCAAGTACAATGGCTATGGACATCCATGAAACGAATATAGTACTGAAATCCATTACGATAAAGAGTACAAGCAGGACCTCATAAATCACACACCTTAAGTTGTAAAGGAGCAGTATACATAGACGTGGAATTAGGAAACTGTGTTTTCCTAAAGTGCAAACATTCTAGAAGCTCATTTTATTTATATTCACTCTTGACTCTGAGATGCTTGAATGGTTGAAGAACAGACTTAACAACAGGGAAATGGGGATGGCCATGCCTGTGCCAAATGTCAACCGTCTCAATAGCTGAAGAGTATGATATAGTGGAGACAACATTCAACCCTTAGTAGAAGAACATTTAGTAGTCTCATGTATTGGTGTAACATTGAAATGATGAAGACCCTCATGAAGTGTCCCTTGGAGTAGTACATGGCTAGTAATTCGATCCTTTCACGTAACAAAAATTTGGGTGCTTAAAAAGAAAATTATGATACTCTAGTAGGCAGGGCACCAATTACTCTCAATGCTTAAATTAGGGTAAGTCACCAAATTTGATTAGAGGATATAGGTAAATTTGTTGGAAGAAAATCTGAGGTTTGTTGATTGTTGAGGCAATATGCCCAAATTTTGTGCAAATCTAGCACTAAGGCTTATTTCTATTATTCCAAGAGTTGTTTGTTTGACCTCCTCAATTTCCATGACCTTTTTCACGTCATGTTCGACTTTGATTATTTTGTTTCGACGAATGGTCTCCCTCTCTCTGATATGTTTCGGATATGTTTGAAGTAAGATTAGAAGGCGGCAAAGAGCCATAGGGCTGGTAATATTACTCTCTATTTGTGTTTCTTGAGTAAGTAAGAGAGGAATATTTTCTTTAATAGGAGAATCAGTTGAAGTAGAAATGACATAAATGACAGAAACCATAGATTCATATTTGAACCACAAACTAGCAAGTATGTATAAAATATGATAATCAATAGAAGTGGTCTTATGCATATATGCTTAAGCATCAACACACTGTAGGATCTTCATAGGACACTCCTTGAGAGGCATTGCCCCCTTCTCAAGTTTGTTTTTAAATTGCATAGATTGAGCAAGACTTCTTGTTGAGTAAATATCTTGTAGAGTGGACCATATCTTTTTCGTTGAAGTACAGTGAAGCATTGGGAATTAGGATATCTTTTGTCATTGATTCGAGATGCCAAGGTGGAATAAGATGATCTTGATATTTCCATTTCTTATATTTGGGGTTCAGATTTTGAGTTGTAGAAGAGGAAGTTGCATTATTTGGTGTGTTAGAAACTTCGAAGGTGGTTCAACATCTCCTTCGATAAAATTTTCCTTATTGTATCCTTTTAGGGTAGTGAACACCTGAAACTTCTATCAAAGAAGATTATCATCATTGAGTTTCACAATTGCGATTTTGGTACTCGGACTGAACATTAGAGTAACGGGAGAGGTCTCCTCGATTCCATCAATTTCCATAGTTGTTGATGAAGAGCTCATCACAACAAGCTCTCAAACAAAAGTAATCAGGGCCCTCTGGGTTAGACATGAGCTCTAATACCATCTATAAATTGCACTAAGAACATTGATAAAGAGCCCTAATCAAATGCAAGAGATATCCTTGCTTCTTTTTTATATATTTTTTTGGGAAGATGAACAGGCCATATATATAATAATAGAAAAGAAGCTTGGGCCTTGGGCTTTTTTTACATGAGAAATAATATGTACTTCAATGGTCTGTCTTAATATATTGTATTCTATTGATATTTCAATATATGTGATGTTGCTTTTGTTTTGTATTTTAATGTTTGTATTGTATTTTGTACAGTTGTCATTATTTTGACATTCAATGCTTTTTAGTTGATTACAATTAGTATCTGCATCGTCAACGTATCTCTATCTTAATTTTTTAGAAATTGAAGTTTCGCTATATCCTATCGTATCTCATATTCTTATGTGTATGTGCTTCATAGGAAATACGTCAAATTAATTTTTTACGCATGTAAATGCATCAACCCGTTTACTTTGAATTTCTACTATAAAAATAATATATATTTTTAAAATGTATATTTTAATAAATGTGTTGTTGTGTTTATTCCCTAGATTTTTAAAAAAATGATGTGTCTTAATGTCTTATCAGTGTCTAGTATCTTTATCTGCGTTTCTTAGGTGTTTTCTCACAGTTCTTTGTGTGATGTACTCATGACGTGTGTGCTGTTGAGAATGTTCTTTTTGGAAAGAAAGCACCATGTATTTTCTGATTCTTCACATCTGAAGATGTACATTTTGATGGTTCGCATATTCCATTTCTTATTCTAAATGAGCCATCATGATATATATTAATCCATAGATTCAATAAGTTTGAGGATTGAAACTGCAGCTTTCAACTTTTGTCTCTCCAAGTTTTTCTTTGTTCTTTTCTTCTTCTAATTAGGTTGTAACTTGTAATCAACTAATATTGAACGAAATGTTTCAGATTGAGATGCTGTTAGATGACCTAAAATGGGATGACAAAGGTCTGGTAGTAGCTACAGCTCAAAATGTTGACACAGGAACTATATTAATGCAAGGATTTGCAAATAAGGAGGCTATTGTTAGAACTGCTACCCAACGTAAGGCTACATTCTATAGTCGATCACGATCTCAACTGTGGACAAAGGGAGAGACCTCTAATAACTTCATCAACATTCACGACATATTTTTTGACTGTGATCGTGATTCTGTATGGCTCTAACTGACTATGACCTAAAACACAAGTTTATTGTGCTTTACTGTGCATGGCTAACTCAGTTTTAAAACTGATTGTTAGATCATTTATCTTGGAAAGCCTGATGGGCCTGCTTGTCATACTGGAAGTGACACATGCTTCTATACATCACTAGATGATTTGATAGATGATCCAAAGGTCTACTGCATCAACTTATTTGTTCTTGCTTAATAATGAGGAGAATAAGTTTGCTGACTTATCTGTATGATAATTCTTGTAGAATGTAAAGCATAGGTTGGCCTCTTCCACTTTGTACTCGTTAGAGAATACAATTTCCCAACGCAAAGCAGAATTAGCAGCTCCACAAACTGGCAAGCCCTCGTGGACGAAACGTCTATTGCTCGACAACAAGTTGCTCTGTTCTAAAATTCGGTATAGTGTTTAAAGTCAACCTTCGCTTTCTGCTCCATGTAGATGTAGTTCCAGTTTTTGACATGGTCAGTGTTTGTTCCAATAATATTGACAGGGAGGAAGCCGATGAGTTATGTCGAACCTCGGAAGAGGGCGAGGATAAGTCTCGCACGGCCTCAGAAATGGCAGATCTGGTGTATCATGCCATGGTTTTCCTAGCAGTTCAAGGGGTAAAGTTGGAGGATGTTTTTGAACACTTGCGCGAGAGATTTGCTCAGTCTGGTATCGAGGAGAAGAAAAATCGGGCCCGGAAAGTTGATCAATCAGCCATTACCAAGGATTAAAAATCGTCCTCATGTCGATATATCGTATATAGAAGAGTTTGAACATCGAGATCAAATATCCATGGGTATCTTCTTTATCTTTTATGAATACTCATGAAACATAAGAATAAGTCATCTATTTAGTCTAATATGAATAAAAATACTAATAACAATATTTATAATTTAGTTGGAGTAAAGATGACCTAATTGTTCTAAATATTTTTTATAATTTTTTTGGCTTATAGAAATAACCATCGATATTGATATTTTTTTTTTAGATATATCTGTTATATTCATAAAATTGAAATCTGAAATCTATATTGACATCAATATTTTAATCCTTGGCTATTATTAGTTTGCGAGGATTAAAATATCAATATCAATATTGATACTATGATTTTAATTTTATGGATATATCAATTGATATATCCATAAAATATCGATATTGATGTATATTTTTATAAATTAAAGAATTTATAAAAATTATTTTTAGACTAAAAGGATGACTTTTATTTTTAATGTTTTACGAACATTTTATAAAAGATATTGACGATATAAATAGATATTTAGTATTGTTGTCGAGCCTTTAATTTACATATAAATTGACACGTTGATCAGTTAGATCATCGCGGTCTTTGATTATATAGTAATGTAGTATGATGAACAGGATTACAAGGAAAGCTCTAATAAGAGTTTGTCATAATTTTTGTTTGTTTGTTTTATTATGCAGTAGCTGTTATTGTTGCACGAAATAAGGTTTGTTTTCTTTTTTGCTTTGTTTATGTACAAAATTTTGGGATGGAGATTCTCAAAGCTTATGGAATTTGAGATATATTTACATTGGCCAATGGGAATTTAGTATGCTTATTCAAATAGAATCTTGATTTATATTTTGGCAATTGAGCTTTCATTCATACCTACTCCATTCTATTTTTCGTAATTTCTGTACAAGACAAATTTGAAGTCGCAACTAGTGGGGTTAGATGTTGAGTTTTGAAATGAATTTGGGTTATCATTTCTTTATGATGAATAAGTTATAGGGACAGTGTGTATATATATAATGATTTGAGTGTAAGATAGAAGGGTTGAAATAAAGTAATTGAGAGTTGAGGGTTGAAAATGATATAATGAAAAGTCAAAAGTGTTTTTTTTGGTTAATCATGCAATTGAACTTTGTATTTCATATTTAGAAAATTTGTATGGATGGCCCTTATGAAAATTAGCTTAGTCCAAGAAGAAGGTTGATCAAACGTATTCATAGGAGAATTTCTTATCTTATCCTCTACTTTAGTTTTATTGTATGGTAAAGCCCATATTAGGACATGTCTACCTTGACTAA TTTTGGTGAGCATGGTTGAAGCAATTGTAACTCAAAGCCCACATTTTTTTTTAAAAGCCCAGCCCAACTGGGAGAAACAATAAAACCTAAGTTAGGGCATCTCCTTCCACACTCAACGCTCCACTGCAGCACAGTACTTCCACCTCCACGCCTCCACGGCAAGGCAGCAACAAAGGATTGATCGTGAGGTTTTCTTATACCGCAATGTCGTATTTTGGATTCCAGTCTTTGACATTTTCGGGACCCCTTTTTGTATTCAACAATGTCTGTTTCAAGAAGTATAGATATAATCCTGCTTTTGTTTCAACAAGCAAATCGGACCTCTCACTTCAATCAAAGAAGAAGAAAGATTGGAAAGGAAGAAAAAGAATCAGAGTTGATGAGACAAAAAGGAATAAGAAAAGAGTGAAAAAGAAATTGAAGAAACTGCGTGTTGTAACTTGTAATCAACTAATATTGAACGAAATGTTTCAGATTGAGATGCTGTTAGATGACCTAAAATGGGATGACAAAGGTCTGGTAGTAGCTACAGCTCAAAATGTTGACACAGGAACTATATTAATGCAAGGATTTGCAAATAAGGAGGCTATTGTTAGAACTGCTACCCAACGTAAGGCTACATTCTATAGTCGATCACGATCTCAACTGTGGACAAAGGGAGAGACCTCTAATAACTTCATCAACATTCACGACATATTTTTTGACTGTGATCGTGATTCTATCATTTATCTTGGAAAGCCTGATGGGCCTGCTTGTCATACTGGAAGTGACACATGCTTCTATACATCACTAGATGATTTGATAGATGATCCAAAGAATGTAAAGCATAGGTTGGCCTCTTCCACTTTGTACTCGTTAGAGAATACAATTTCCCAACGCAAAGCAGAATTAGCAGCTCCACAAACTGGCAAGCCCTCGTGGACGAAACGTCTATTGCTCGACAACAAGTTGCTCTGTTCTAAAATTCGGGAGGAAGCCGATGAGTTATGTCGAACCTCGGAAGAGGGCGAGGATAAGTCTCGCACGGCCTCAGAAATGGCAGATCTGGTGTATCATGCCATGGTTTTCCTAGCAGTTCAAGGGGTAAAGTTGGAGGATGTTTTTGAACACTTGCGCGAGAGATTTGCTCAGTCTGTAGCTGTTATTGTTGCACGAAATAAGTTTTATTGTATGGTAAAGCCCATATTAGGACATGTCTACCTTGACTAA ATGTCGTATTTTGGATTCCAGTCTTTGACATTTTCGGGACCCCTTTTTGTATTCAACAATGTCTGTTTCAAGAAGTATAGATATAATCCTGCTTTTGTTTCAACAAGCAAATCGGACCTCTCACTTCAATCAAAGAAGAAGAAAGATTGGAAAGGAAGAAAAAGAATCAGAGTTGATGAGACAAAAAGGAATAAGAAAAGAGTGAAAAAGAAATTGAAGAAACTGCGTGTTGTAACTTGTAATCAACTAATATTGAACGAAATGTTTCAGATTGAGATGCTGTTAGATGACCTAAAATGGGATGACAAAGGTCTGGTAGTAGCTACAGCTCAAAATGTTGACACAGGAACTATATTAATGCAAGGATTTGCAAATAAGGAGGCTATTGTTAGAACTGCTACCCAACGTAAGGCTACATTCTATAGTCGATCACGATCTCAACTGTGGACAAAGGGAGAGACCTCTAATAACTTCATCAACATTCACGACATATTTTTTGACTGTGATCGTGATTCTATCATTTATCTTGGAAAGCCTGATGGGCCTGCTTGTCATACTGGAAGTGACACATGCTTCTATACATCACTAGATGATTTGATAGATGATCCAAAGAATGTAAAGCATAGGTTGGCCTCTTCCACTTTGTACTCGTTAGAGAATACAATTTCCCAACGCAAAGCAGAATTAGCAGCTCCACAAACTGGCAAGCCCTCGTGGACGAAACGTCTATTGCTCGACAACAAGTTGCTCTGTTCTAAAATTCGGGAGGAAGCCGATGAGTTATGTCGAACCTCGGAAGAGGGCGAGGATAAGTCTCGCACGGCCTCAGAAATGGCAGATCTGGTGTATCATGCCATGGTTTTCCTAGCAGTTCAAGGGGTAAAGTTGGAGGATGTTTTTGAACACTTGCGCGAGAGATTTGCTCAGTCTGTAGCTGTTATTGTTGCACGAAATAAGTTTTATTGTATGGTAAAGCCCATATTAGGACATGTCTACCTTGACTAA MSYFGFQSLTFSGPLFVFNNVCFKKYRYNPAFVSTSKSDLSLQSKKKKDWKGRKRIRVDETKRNKKRVKKKLKKLRVVTCNQLILNEMFQIEMLLDDLKWDDKGLVVATAQNVDTGTILMQGFANKEAIVRTATQRKATFYSRSRSQLWTKGETSNNFINIHDIFFDCDRDSIIYLGKPDGPACHTGSDTCFYTSLDDLIDDPKNVKHRLASSTLYSLENTISQRKAELAAPQTGKPSWTKRLLLDNKLLCSKIREEADELCRTSEEGEDKSRTASEMADLVYHAMVFLAVQGVKLEDVFEHLRERFAQSVAVIVARNKFYCMVKPILGHVYLD Homology
BLAST of Clc01G08280 vs. NCBI nr
Match: XP_038876033.1 (histidine biosynthesis bifunctional protein hisIE, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 402.5 bits (1033), Expect = 3.5e-108 Identity = 213/308 (69.16%), Postives = 232/308 (75.32%), Query Frame = 0
BLAST of Clc01G08280 vs. NCBI nr
Match: XP_008465390.1 (PREDICTED: histidine biosynthesis bifunctional protein hisIE, chloroplastic [Cucumis melo]) HSP 1 Score: 388.7 bits (997), Expect = 5.2e-104 Identity = 207/308 (67.21%), Postives = 232/308 (75.32%), Query Frame = 0
BLAST of Clc01G08280 vs. NCBI nr
Match: XP_038876034.1 (histidine biosynthesis bifunctional protein hisIE, chloroplastic isoform X2 [Benincasa hispida] >XP_038876035.1 histidine biosynthesis bifunctional protein hisIE, chloroplastic isoform X2 [Benincasa hispida]) HSP 1 Score: 384.0 bits (985), Expect = 1.3e-102 Identity = 189/223 (84.75%), Postives = 205/223 (91.93%), Query Frame = 0
BLAST of Clc01G08280 vs. NCBI nr
Match: XP_038876036.1 (histidine biosynthesis bifunctional protein hisIE, chloroplastic isoform X3 [Benincasa hispida]) HSP 1 Score: 383.6 bits (984), Expect = 1.7e-102 Identity = 189/221 (85.52%), Postives = 204/221 (92.31%), Query Frame = 0
BLAST of Clc01G08280 vs. NCBI nr
Match: XP_004143768.1 (histidine biosynthesis bifunctional protein hisIE, chloroplastic isoform X1 [Cucumis sativus] >KAE8648475.1 hypothetical protein Csa_007981 [Cucumis sativus]) HSP 1 Score: 383.3 bits (983), Expect = 2.2e-102 Identity = 205/308 (66.56%), Postives = 230/308 (74.68%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy Swiss-Prot
Match: O82768 (Histidine biosynthesis bifunctional protein hisIE, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=HISN2 PE=1 SV=1) HSP 1 Score: 308.1 bits (788), Expect = 1.2e-82 Identity = 148/221 (66.97%), Postives = 182/221 (82.35%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy Swiss-Prot
Match: P62349 (Histidine biosynthesis bifunctional protein HisIE OS=Photobacterium profundum (strain SS9) OX=298386 GN=hisI PE=3 SV=1) HSP 1 Score: 131.7 bits (330), Expect = 1.5e-29 Identity = 80/215 (37.21%), Postives = 121/215 (56.28%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy Swiss-Prot
Match: Q8D8Q6 (Histidine biosynthesis bifunctional protein HisIE OS=Vibrio vulnificus (strain CMCP6) OX=216895 GN=hisI PE=3 SV=1) HSP 1 Score: 127.9 bits (320), Expect = 2.2e-28 Identity = 76/219 (34.70%), Postives = 120/219 (54.79%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy Swiss-Prot
Match: P06989 (Histidine biosynthesis bifunctional protein HisIE OS=Escherichia coli (strain K12) OX=83333 GN=hisI PE=3 SV=3) HSP 1 Score: 126.3 bits (316), Expect = 6.4e-28 Identity = 76/212 (35.85%), Postives = 116/212 (54.72%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy Swiss-Prot
Match: Q8R886 (Histidine biosynthesis bifunctional protein HisIE OS=Caldanaerobacter subterraneus subsp. tengcongensis (strain DSM 15242 / JCM 11007 / NBRC 100824 / MB4) OX=273068 GN=hisI PE=3 SV=1) HSP 1 Score: 125.6 bits (314), Expect = 1.1e-27 Identity = 76/215 (35.35%), Postives = 118/215 (54.88%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy TrEMBL
Match: A0A1S3CQ97 (Phosphoribosyl-AMP cyclohydrolase OS=Cucumis melo OX=3656 GN=LOC103503018 PE=4 SV=1) HSP 1 Score: 388.7 bits (997), Expect = 2.5e-104 Identity = 207/308 (67.21%), Postives = 232/308 (75.32%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy TrEMBL
Match: A0A6J1CKR4 (Phosphoribosyl-AMP cyclohydrolase OS=Momordica charantia OX=3673 GN=LOC111011879 PE=4 SV=1) HSP 1 Score: 376.3 bits (965), Expect = 1.3e-100 Identity = 200/313 (63.90%), Postives = 226/313 (72.20%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy TrEMBL
Match: A0A5A7VLA1 (Phosphoribosyl-AMP cyclohydrolase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold21G00900 PE=4 SV=1) HSP 1 Score: 372.5 bits (955), Expect = 1.9e-99 Identity = 184/221 (83.26%), Postives = 201/221 (90.95%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy TrEMBL
Match: A0A6J1CIX5 (Phosphoribosyl-AMP cyclohydrolase OS=Momordica charantia OX=3673 GN=LOC111011879 PE=4 SV=1) HSP 1 Score: 362.8 bits (930), Expect = 1.5e-96 Identity = 176/230 (76.52%), Postives = 204/230 (88.70%), Query Frame = 0
BLAST of Clc01G08280 vs. ExPASy TrEMBL
Match: A0A6J1HJP3 (Phosphoribosyl-AMP cyclohydrolase OS=Cucurbita moschata OX=3662 GN=LOC111464194 PE=3 SV=1) HSP 1 Score: 360.5 bits (924), Expect = 7.4e-96 Identity = 198/313 (63.26%), Postives = 221/313 (70.61%), Query Frame = 0
BLAST of Clc01G08280 vs. TAIR 10
Match: AT1G31860.1 (histidine biosynthesis bifunctional protein (HISIE) ) HSP 1 Score: 308.1 bits (788), Expect = 8.4e-84 Identity = 148/221 (66.97%), Postives = 182/221 (82.35%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (cordophanus) v2
Date Performed: 2022-01-31
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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