Spg029900 (gene) Sponge gourd (cylindrica) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TTCTTTACGCCGTTTCCTCCATTTCAGCAGATCCCTGTTGCCGCCGTCTCTCTCCCGTTCACTGCTGTCGCCGCCGTCATCTTTCTTCCACTCGTGCCCCTGCCACTGTCGTATTTCTTCCGTTCGTGCCGTCGCAGCCTTCGTCCAGGCGATTTTGCACTGATTTTATACTCCTCTGAGGTATTCTCTCAATCTCCATCTGGCTTTCTTCTCAATTGAGAAACAAAATTTAGAACTTGTCTAATGAGGAGTGGAGGAGTTGTTTGATTTTTTTTTAATTTTTTAAAATTTAATAACATTAGCCGAATAGCAACTGAAAAAAGGGGGATCGAAATGAGAGAGACTGTTTTGGAGGACGCAACTGGGGCATAGACCACGGAAGGATGGTTTTGAGACGGACATTGTGGAGGATCCAACACTCGGACTAAGAGATATTGCTACTGCATTCTGATAGAGAGAAAAGGAATTGGATTGAAAAAAAGAACCAAACCCGATCGAAGGTATTGTCGTTTGATTATGAATTGTCTTCCATTTTTTCCATTGGATAACTCAAATTAGGACTTTGTTTGATGGAGTTGCTTTGGTAGACTAAACAAGCTCCAAATATTTATAATGGTAGATTATAGTAGATTTTGATGAGCTATTGAATTAAAATTATCTGTAGGTTGAAGTTGTCTCTTGAAATTCTCTCAAGAATGGTACTTGGAATGAGAAGAGTTCATAGGTTTCTTTTTAATAAAAATAGAGGGATACATTCATTAATAGCATACGATAAATTGAAAATCGAAAAGCCAACTAAGTGGTTCACTATCTTGAACCAACTCACTTTCCCTTTTCTTAAATTTTGTCCTGATTCCAATACATTCAATGGATGTACTTAAAAGAATGAGGTAAAATAGACATATTTAAAATTTAGAAGGTAAAATGGGGAGATAAAGTTTCTTCCTATAGCCACTTTTATATATATAGTAGTAAGTATAAGTATAGGTATAGATTTATATATAGTATAGATTCAAAATATAGTTTCTTAAATTGTAAGTGAATTTTGTTTAGCCAGTAATGTAGTTGGATCAGTAACAAGTAGCAGTTGAAATATACAACGTATTTGTCAACATATTTCAGAACAGATTTTCTTGTTAATTTCAATTGAAGTTCTGGACATCATATATCGAGACAATATCTATATATGAGGTTGTATCTATTTGTAATCTTTTGAGTTTCTGCCGATCAATAAACAAACTACTTCCCATCCGACCATCTACCAAGACATTGAACTCTTTTTGGGGTTTCTTTTTCCAATTATGTCATTTCTCTTGGACCATCCTACTGTTCAACTTGAGTAAAATGCCCAATTTTTTCAACAATGGTTTTTATGCTTATTTCCATCAGATATTTGAAGTGGCAGAGGTTACCTTAAAGACAGCTTCCCTAAACTTTTCTATCATTTTCTGCCCAAAAAGATGCTAAGGATGCGTGGGACGGTATGTCTAATTGGCATCTAGTAGTTAGAAGGCCATTCTTGAACAGACAGATGGATGGATGGAATCCTTATCTCTCTCTGTTGGATGGAAGATCAAAGGGTTTGGGACCTTGATAAGAATGGGATCCTCTTTGTTAAATCCGTCCTTGTTGCTTTCAGAAGCAAACAAAAAACAAGACCTAAAGGCCTTAGGGAAGAGGGATCCCCAGGCCTAAGAAGGAAGAATCAAACAAAAGGCCTCCTATCTAAGTTGATGGTAAAAGAGGTAATCGTAATTCAAAAGACTTTCTTGGATGGCTAATTCAGGAACAACCGGGAGTGGAAGAATGGGCTGCTGGCTCCAACATATTGGTGAATTGTATAGTCAGTAATCAAAGCAGCCCAACATATTGGTGAATTGAATTGTATAGTCAGTAATCAAGGGAATTATAGAGTGTGAACGCTTGAAGGAAGTGGGTTGTTTCAATCTCTTGTCCCCAAGTTAATGAGAAATAGAGAATTTCTCAACCCTCTTTACTCAAAACCAGTTTGGAAAGCCAAATTTTCTTGTGGATCCTAGCTCACAAGAACTTGAACACACACGGCAGATTGCAAAAAATTACAGACCTTTTTAACACTATCCAAATCAATTGGTGTTTTCCAAAGAGCTGCTCAGAGGCTGTTTTTTAGCTATTGAGTGGCGTTGCTTTCTAAGGCCTTGAGAAAATTCTGTGGACAAAAAGCAGCGACGACACTTCTTTGGAGACTGTGGTTTGAGAGAAATAAGAGCAGTTTTTTAAGGGGAGGAGACTACTTGTCAAATTACCCCAAAGGAGAGGAGACTGGTCGGGAGGCTTTTTGGGATCTAGTCAAAACATTCACTTCTACTTGGTGTTCCATCTCAAAATTTGTATGTATATATACTCTCTCACATATACGGAAACTGGGAAATTATTTTGTAATCCCTTGGCTTGGTGGGGATACCTCATCTTCATTCATTCGTACTCCTTTTCTTTTATAATGATAATATTGTTTCTTGATAATAATAGTAAAGTAATAATAATAATAATAAAAAAAAGGAGGAAATATTACAAAAGGATTTTTGGATAGCAATCCTAATCTTCTCCGTATCGTTCCAATTTTATCAGATGTCCCCGAAGGGACAAGTCATATAACCATACATGGTTGCAAAAGTTATCAAAAGAGTCAAACTTGGAATGTGAATGCACACTTTTTATTACAACCTTCCAGTTCTCCTTTGTTAGTGATTTTATTATTGTTTTTTATAATCTTTGGTTGAATGATGGGCCTTTTTGGGATTGTGAATGGAATATGCTTACATTGGAACCACATGCTCCCCACAGAAGTAAGAAGAGATATTCTTCTAATATAATCAAGTCTGGTCTGTTAATTATCACGTATGGTTCTTTAGAGCTATGCCTGAAATGCCTTATCTTCATTTTTTTTTGTTCTAAAGACTCTTTGTTTGATTTCTAAACCAGCTTATAGAAATACTGCCTAATATGGCTGGCGGAGGAATGATCAGGCAGTTACTAAGTAGGAAGCTTAAGACCCAATCTACAGTAAGAACTTACTTTGCCTCTTTCTTTCTTTTTTCCCTGGAGAACTAGTTTGTCAAATCAAGCAGCACAGCTTTAATGATTGTATTTGAAATATATAATGGTTTTAAGAATTTGAATTTGAGTCCGCCAAACACAAAGTTGTGAAATGTAGTAATGTCTAATGAGAGAATATAACTTAGAAAGAAATTGGTTTATAATTTGTTTTCATAAGAAACAAAGCTTTTCATTCCATAATCAACCGGCTCTAATTTTTGGTCACTAAAGCCCATTACTTTATTTTTGAAGGGGGGGACCTTCCGTTAATTAGTCAACTTGTTTTTTAGAGATAGTTTCAATGCCTTCGTGATTAAATTTGGGGAAAGTAAGGATGCATTTGGTTGATGATCTGGAAACAAAAATTTGAAAACAAGAGATTCAATGAATTGCATACATGAAAACATTGTTGTTTTCAGAATTTTCATTATTTGGATCACAAAATCTGAAAACAGTTCTCAAAAACATATCTGCCAAACGTATATTTGTTGAACACAGTGAATTCAAAAACATAAAACAAAATCTGTATTGCTTACTAAATAGGCCCTAAACATTGCAATTGCTTTTTCTGTTACCATTTTGTTATCACATGTAATACATGTAGTGTAATGCCCCAAAAATGTTTCTTCAAAATTGTGCCTTTTTAATATATTATTATAGATGAAGGCCCCATCATTCTCGTCCCTTATCTCAAAGAATGATGACAATGAATCTGCTTGGTTTGATGCAGTCCTTTGGAGCACTTGCTTTTCTGGGAGGTGGTGCGTCAGAACATTTGAGCTTGGCAACAGTAGCATCCTGTTATGATGATCATGGGTTACATTGTCCAAGTTACATCTGGTCTCGCAATGGTAATCTCAGTTCACATGTTCATGCCTCGTAAGTTTTTCCTGGGACTATGGTTTTCCCTTAATGAAAGATACAGCTCAATGTTGATTACCATCAATATATTTATATTACTTAACTATCGCCTTCTAAACTTGGCGATATTCTGTATAGTTTTCCTTCTCGCTATGATTTGACATCTTGATAGTGAATTCTTCTTAAAACTGATTTGTGATATTCTTTCTTGACTAGTCTTCTCTTGCCTGTTAAGTACTTATAATAAAGAATCCAAGTGATTACTTTCATAAAAAGTGATGAGAATAAATTCTAGACTTTCCGTATAAGCAGGTGGTGTGACTTGTCGATAGAAGATTTACGTATGTTAAAAATGTATCATTCTTTATGTATATGCTAAGTTGAAGTTTTGTTAAAAAACAAAATGTAAATTTTCATTGATGCGTGAAAAGCTACAAAGTGGAGTAAAAGTCCACTGAGCAGAATTACAAACTAGAGTGACAACCAAAAGCCCTCCCCAATTTGCATGAATTCCAAAAGGAGTAGTTACTATATTCCCTATCAATAGAAACCTGTCCTGTTCTTTTCAATCCTTTCCACTCTTTTGGAAGTGCCTTACCTCACCTGGCGTTTTATTCTTTTGGAGAGAGAGTGCCGTCTTTGCTCCTGTATCCTTTGACTCGAGTTGTGGAATCGGGGGAGTAAGTCAATTTGTTTCGAACAGGCTTGTTGGTAGTGTTTCTTTACCCATTTACAATCCTAACATTCTTCAAGGATATCCGGTTAATGGGGGAAAATGGGTTCTGACAGCATGGATGGGTGGCTTTAGCTTCTGTGGGCATTCATGAGATTCCTGCTGAGTCCACACCTACAGGGCCTTCGACTAGTACTAAAAAGGGAAGAAACTTTTGCAAGAAGGGAGGGGATTCTACAAGAATGGATAGGGAATTGAGAAAATTGGAGTCTTCAGTGAATTATGTCGGAAGGAAGGTCTTTAAGGAGGTCGGGGAGCCCATAGGTTTTAAATGAAAGTTCTCTGGTGGAAAGTGAGGGGCATCAGGGGTATGGATAAGCATAGGATAGTTAAAGACATTTTATCCCTTCGTTTTCCTTTGGCTTTCTTCGTCTGTTATCTGATAGAGAAACCACAGACACCCTGACCCTCCTCTCTTTGCTAGAGGGGGTAAGTCTAAGACCGGGTAGGAGGGATATTCGCTTTTGGAGTCCCAACCCCTCTGGAGGCTTTTCTTGCAGTTCGTTCTTTCAATCCTTGTTAAATCCCTCTCTGAGTAGAGAGTCTGTCTTCTTGTGTCTGTGGAAGGTTAAAGTTCCAAAGAAAGTTATGTTCTATGTTTGGCAGGTCATCTTGGGTTGTGTTAACACTTTTGAGAGACTTTCGAGAGTGATGCCCCATGTGGTTGGCCGTTTTTGTTGCATTCTCTGTCGGGAGGCGGAGGAAGATCTTGATCATTTGCTGTGGGGTTGTGAGTTTGCCCTCTCTGTCTGAAGCCGCTTCTTTGAGGTTTTCGGGTATCAGACTGTGGGCCAGCGTCGCTGTAGGGAGATGATCGAGGAGTTCCTCCTCCATCCGCCGTTTCGAGAGAAGGGAAGATTTTAATGGCATGTTGGTGTTTGCACCATTTTGTGGGGTTTGTGGGGGGAGAGAAATAATAGAATTTTTAGAGGGAACGAGAGACATCCTTGTGAGGTTTGGGCTAATATTACATTTTCTGTTTCTTTATGGGCCTCAGTTTCTAAGGCTTTTTGTAATTACCCGTTAGGTATGATTTTGATTCACTGGAAACCCTTTCTGTAATTGGTTTCCTTTGTTTGGGACTTGGTTTTTTTGGATGCCATTGTATTCTTAAAAAAAAAAACATTTTATCCCAGGAGAATCTAGATGTTGTGATCATTTCAGAAACTAAGCGTGATAGGTATAATCAGGAGTTCGTCAAAAGTATTTGGGGAAAAAGAAAGGTGGAGTGGACGGGCATTGAATTGGTTGGGGCTTCGAGGGTGTGATTGTTATTTGAGACGGAAATTCTATTAACTGCCTTGAGGTGGTGAAAGGTGTGTTCTTAATTTCTATTTGGATTAGCATGCATGATAAGGATGTGGGGTGGGTTACTGGCACTTATGGTCCCCTAGACCTAAAGGTAGACATGCTTTTTGAAATGAGCTAGGTGATTTGTTTGGTCTGTGTGGGCAACACTGGTGTATTGTAGAGGACTTTATTGTTATCCGATCCTTGTACGAGAAGGCTTCGGGGGGGTAGGGTGATGAGGTCTATGAATCAGTTTAATGAGTGGATTGAGGAGTGTAGTTTATTTGACACTCCTTTGATGAATGAGAGGTTTACTTGGGCTAAAAGTAGAGCTCGAAGTAGAATTGATAGAGCCCTTTGCCCCAAGGGGTGGTTTGAGACTTTTAATTGTGTGAGACAGACCCTTGGCCCTAGAGTTACCTCAAACTATTGGCCCTTAATCTTTGTGTCGGGCCCTCAGAAATGGGGTCCGTGTCCTTTTTTAATTGAGAATATGTGGTTAGATCACCCTTCATTCAAGTCCTCCTCTCCTTCGTGGTGGAGTGTGGAAACCATAGGAAAATGGGAAGGTTATAAATTCATGGGAAAATTAAGGGCGCTCAAAAGTACTCTTAAATCGTGGAATCGAGAGGTCTTTGGTGATATTAGAGTTAAGAAGCAAGAGGTGATGAATAGGATTTGGGAGATTGATTCCCTTGAAGAGGAAGATCAGATTGATGAGACTCTTAAAGAAGAGCGTCTTACTCTCAAACTTGAGTTTGCTAAGTTGGTAGTGAAAGAAGCTATTAGCGGGAGACAAAAGGCCAAAATGAGATGGGCTAAGGATGAGGACTGTAATTTGACTTTTTTCCCTAGGGTGGCTAGTGGCTAGTGGCAGGAAGTAAAATCTCATTGGTCCCTTGGAAAACAATAAGGGGTTTTGATTCATGAGGAGAAAAAGATCGAGGATGAGATTCTTTCCTTTTTCTCCAAGCTCTATCCTCAGGTGACCCCTAAGCCCTTTATTGAAGGGGTGGATTGGAGTCCAATATCAGAAATGGAGAAAAAGGAGTTGGACTTGCCTTTTACTTTGGAAGAAATTAGGAAGGTGGTCTTTAAGTGTAATAGAGACAAAGTCCCTAGGTCGGATGGTTTTTCCATGGCCCTTTTTCAAGAGAGATGGAAGGAGATCAAGGTGGATCTGGAGCGCGTTTTCAAAGAGTTTTACGAAAGGGGCATCTTAGACAAATCTTTGGATGAGACTTGTGTTTGCCTAATTCCATAGGAGGGGACGAAGATGGTTAAAGATTTTAGATCTATTAGCCTGAGCAGAAGGTTTACAAAATCATTGCCAAGGTGTTAGCTAAGCTAATAGGCTCAAAAAAGTTCTCCTGTCGACGATCTCAGAGACCCAGGGTGCCTTCGTTGAAGGGAGACAAATCCTTGATCAAGCCCTTATAGCTAATGAGGCTATTGAAGAGTACAGGGCTAGTGGTCAAGAGGGGGTCATTTTTAAGATAGATTTTGGGAAGGCCTACGACCATGTGGACTAGAATTTTTTGGACAAGATTCTTGAGAAGAAAGAGTATGAATACAAATGGAGATCTTGGATTTGGAGTTGTACGAGATCAATGACCTATTCTATTCTCATCAATGGCAGATCTAGAGGGAGGATTCAGGCTTTGCAGGGCCTTCGTCAAGGTGATCCTCTCCCCCCCCTTTCTGTTCTTGTTGGTTGTTGATACGCCTAGCAAGATTCTCTACAAAGGGGTGGAGGGGAAGATTTTTGAAGGTTTTGAGGTGGGATAGAACAAGACTCCCTTATCCCATCTCCAATTCGCAGATGACACAATTTTCTTTTGCTCTAACAAAGATGAGTTATTTCTAATTTTGTATCATATCCTAGCTCACTTTGAGGCAATGTCGGGTCTAAAGATTAATAGGGGTAAATGCCAAATATTGGGTCTTAACTGCGATGAGAACAAGATGAGTAGGTGGGTGACAAGAGTTGGTTGTGAGGTCGGATCTTTCCCTTCCTCCTATCTCGGGCTCCCACTTGGGCACAATCCGAAATCTTCTATGGTCTGGGAACCAGTGGTAAGCAAGGTTAGGAAAAGACTTGCTAATTGGAAGAAGAGTTTCTTTTCTAAGGGTGGTAGATTGACTCTCATTCGTTCCGTGCTGAGTGGGATCCTGATCTATTTTTTCTCCCTTTTTAGAGCCCCTCGTTTGGTATGCCAAGCGATTGAAAAGCGTATGAGAGAACTTTTGTGGGAAGGGATCGACGAGGGGAGAAACACTCACCTGGTGAGTTGGGATATAGTGGGGAGGCCCTTGAACCTTGGGGGGCTTGAGGTGGGTAATTTGAGGACTTGCAATAAAGCTTTGTTGGCTAAATTGGTTATGGAAGTTCTCCACCGAATTCAACACTCTCTGACATAGGATCATTGTTAGCAAATACGGTCCTCATCCTTTCGAATGGGTGTCGGGTGGGATCAAAGGCACTTCCAAAAACTCTTGGAAGGAGATCTCCTTAGAGATCCCTTCTTTGACTGCTTTTATTTCACACTTTGTGGAAAACGGGGAGGAAACTTATTTTTGGGAAGATAGATGGGTGGGGGGATAGACCTCTATGTGCTACTTTTCCTCGGCTTTATCTCTTATCCTCGATGAAAAATCATTCAGTGGCAGAGATTTTAATTCATTCTGGGAGCTCTCCTTCCTATTATTTTGGCTTCTATCGTCCGTTGTTCGATAGGGAAACTACAGATATCCTGGCTCTCCTTTCTTTGATGGAGGGAGTCACCTTTATACCTTTATACCGAATAGGAGGGATTGTCGGTTGTGGAGCCCTAACCCCTCCCAAGGGTTTTCTTGTCGTTCTTTTTTCCAATGCTCTTGAATCCTTCTGTCAAAGAGTCAATCTTTTCCTTGATATGGAAGGTGAAACAAAGAACGTGCAGTTTTTCATCTAGCAGGTTCTCCATGGGAGAGTTAATACTCTTGATTGGTTATCGAGAAGGATACCTACCTTGATTGGTTTGTTTTGTTGTATCCTTTGTCGGATGGCAGAGGAAGACCTTGATCACATTTTATGGAGGTGCGATTTTGCTAGATCGGTGTGGAACGCGTTCTTCGAGATGTTTGGCTTGCAGTTTGCTAGACACTGGAGCATCAGGGAGATGATTGAGGAGTTCCTTCCCCATCCTCCTTATCGAGAGAGGGGAAATTTCTTATGGCTTGTGGGAATTTGTGCTATTGTTTGTGGGCTTTGGGGAGAGAGGGACAATAGAACTTTTAGAGGGTCAGAGAGGTGTTCTAATGATGTTTGGTCCTTGGGTAAATACTATGTTATCTTATAGGTCTAATTCTTTTGGATTGGAGTCCCTTTTTATAATGGGGTTTCTTCTTTTGGAGGGCTTGGTTTTTTTTGTTCGCCCTTGTATTTTTTCATTTTTCTTCTCAATGAAAGTGTGGTTCGTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTTGCTCCCTCCAATTTTTAGCTTTTCCATTGACTAGTCTATTATTTCTTTCTAATCAAATATCCTATGGACCATGCTAATCATGCATATCCTGAATTTTTTATTCAATTAAAATTGTTCCATGCCATATACAGTACACCACCTTTATCTCCAAATCTCAGAGAACTAACATCTTTAGATCTCATCGAATTATGTTATATCATCCCATTTTTGGCTAGTTCTTTATGGTCCTTAACTTGGGTATTGTGTCTTGTACGCATGGAGTGACTTGAATTATTTGATTACTCATGCTTGCTGTAAAGCGTATTTTTGGATCTATCTCAACTCTCACATCTTCCTGATTATTCACTGTTTTTGTTGGCATATGCTCACTGTGGGCTTTTTGGATGCAGGTCGACATCCGAATTTCTACCACATTCGACTTATAATGTTAGTCGAACTTGTAATGTTTATAAACGAGGTCCTGGCTTAGGTATTTGGGGCTTGAAATTGGGACGTGGTTTCCATTCACAGTCATTTCAAAAGTCTCATTGGTTTTCACCTCTTTCTACTCGTTATATTGGGAGGTGTTCTTCCTTGCACAATATTCAACGCAACTACTCTAAAGCTTCTATTGAACGGAAGTCCAAAAATATGCTTTTATACCTTGTAGCATTGGTTTTTGCCATGGTGGGATGTAGTTATGCGGCTGTTCCTCTTTATAGGAGGTTCTGCCAAGCTACTGGTTATGGGGGCACTGTTCAGCGCCGTGAGGTATATTTTTCTTTAGCTTTTGTTATCATGTCAGATTGCTCATTTCTTTGCTTTTCAATTGAGAAAGGATTTCCTTTATGTAGAGCGTTGAAGAAAAGATTGCTCGCCATGCTAAAGATGGAACAGTAACTACAAGGTTTAATTTCTCTTTAACATAGTTTTGTTTTGAAGCAATGATTGGATTCATTTTGGTTTTATTTTTCAAAGTATTTTGTTCCTCCCTAATGTAATTTTCCTTCTCAATCTTAGTACAGTTATTGCATTACGTTTGTTCTTTGTATCTTTTCATGTTTGCACTTGATAAGATATGCAGTTGCAGGCTAGTTTGGAATTGCAGATTGTGAGGCTTATAGATGTAGAAGTTAAGAAGTTGATGGAAAACGGATAAATCAGGCTAATAAATGTAAATGAAATAAAATTTTGAGTGCGATTGGTTCTTACAATTCTCATTATATTGCAATACTTTACCTAATCAATACTGCTTTTAAACAAGCAAAACAGTCCTTGTTTCTTCTTCATTATGCTTATAGCTATTTTTATGTAGAAAATTTACTTTTTTGAAGATATATTGAAGTACAAATTGTAGTTATCCACCACAATAGCCCAAAATAGTTAGGGGCTGTTTGGGGCAAGGAGTTGAGTTATGAAATTGGGAGTTGTTTTGTCATAAAAGTTGGAGTAGGAGTTAATAAGTCTGTGGGACCCACAATAAAGTGTTGAAATATGAGTTAAAAAGTTTGTGGGACCCACAATAGAGTGTTGTGATTGGTTGATAAATTTGTGGGCCCCACAATTGGATGTTGTCAGTGTTTTCGAGGCGCACTCGGGCACGCGCCTCAGGCGACGGGCGAGGCGATTTTGCCCGGGTGCACCTCATAGAGTGCCCAGGCGAGTGCCTTCAATCGGGCGCTCGCATGGGTGCGCCTGTCGCCCGATGCGAGGCGATCTGTCCCTTTTTTTTAATTTGTTTAAAGCTTAAAAAAAAACAAAACCCTCTCTCAAACCCTAACCCTTTCCTTTGCCAAAAAAAACCGTAACCATTCGAATAAACGAAAAAGATTGAAGAAGAAACGAAGAAGAAGAAGAAAGTAGAAACGAAGAAGAAGAAGAAAGAAGTTGAAGAAAGAAACGAAGAATATGATGAGGTAGAAGCGGCTAGGGTTGGATGTTGACAGGAAGTAAACAGAAAATTAGGGCTTCACTTAGAATTCTATAATTCTATTTATTAGGAGAGAGAAAATTAGGTTGGGCTAGCATTAATTCTATTTACTAGGAGTGAGAAAATTAGGTTGGACTGGCATTAATTCTATTTACTAGGAGAGAAAAAATGGAAGGTGAAAAGCCTTCATTAGAAATTTAAAAATAAAAACTTACAGAAATATTTACATATATATATATAATTTTTTATTTAAATATTAATTAAAAATTTATGTATCTTGTTAACATTTACTATGGCACTATTCTGATATTGATTTTTTAAACTATGTTTACTATATAAATTTATGCACTATATATATATAATTTTTATTTATTTATTAAGGTGCACCTCGCTTCACTCGGCGTCGCCTTTTTATCGCCTCTCACCTTCGGGCGATCAAAGGGCTCGTCGTCTCAAGGTGCGCCTTGTGCCTTGAAAACACTGCTTGGGCCAAACAAGGAGTTGGGTGGAGTTAAACTCCACCCAACTCCAACTTCACAACTCATTGCCCAAACACCCCCTTACCTATCAAAACTAACCATAGACACAATGGAAGGGTCTTGCCTTTTCTTAGCAGGCATTGCCAACCTGCTAAATTGTTGCAAGATTGAATGATTGAAAGATTTCTGTATGCACAAAATATATAATGGACGATGAGCTGGTGAAGGTTATTCTTGCTTGGATCACTAAATGGACACACACTTAGTCAACCTTCTAATGTTCTCTAACATTGAGATTCCTTCTCCCTCTTTCTTGTTGTTGCCAGTGCTGTGGGTCAGTGCTGTGAGTTAATTATTGGATAGGCAAGCTAGAAGATTGTGTCATGGGCAAAACCTGATTTTGTCAATCATCTTCAATTACGTGAATGATTCCTTGTTATTCTGTAAGACCTCCTATTACGCGCGTGTACAAAACAGTGTTATAAAAAGCGCGCCTAGGCGCAAGGCGCAACTTTCGAAGCGAGGCGTAGTGAGGAAGGTGCGGCCAAGGCACGCGCCTTCCTCGAAGCCCCCGAGGCGCGCGCCTTAGGCGCCTCTGGGGCTTCACATTTTTACATATGTTTTACATTTTTTTTAAACCTAAATACTTGTTATGAAGCTCCCGTACTTGGTCGTTCGGAGTGTCAAATATCATATTCAAGGCATATATTTTTTGTGGAGTATTGACATCATACTTGGTCATTCGGAGTGTCAGAAGGCATATTAACAATACTAAACTCACTGTTTTTTGTGGAGTATTGACATTTGACTCTATGTTGGAAGACTAATATTTGAACCTTATTTATCTTTTATCTATTTTTCTTGGTTAAAAACTTCATTACTTGCCATGAAAGTGTTTTATATACTTGTATATATTTTTGTAAGTTTTTTTTCTATATAGTGTGCCTTAAAGAAAAAAGTCCGCGCTTTTTTGTTCGCCTTGCGCCTAGGCCCCAGGAGGCCATTGCGCCTTAGTGCGCCTTGAGCCTTTTAAAACACTGGTACAAAAGAAAGGGCAAGATGGGAAAAGATGGGAAACCGTTAGAGAGAGAGGGGACCACTGAGAACGTGGGAGTGAGTGCTTGATGTATTGGGGAGCAGGGGATGTGGGGGGTAGGAAACATTTTGTCTTAGGCAGGGAATGTGGGGGTAGGAAACATTTTGTCTCAGGCTGAGAGTAGTCTGAGGAGAGAAACCAACCTCTTGAATTGCTGGGAAGTTATTTTCTTACCTTGTTCCCATTGTTCTTGTGTTTTCTTGGAAGATTATCAATATATTGCGGCTGAATAACCCACTTTGGCTATTGAAGAACCCTCAATAGTGCAGAGTTGGGTCTTTTATCTCCCTAGTTTGTGTGTTGTTTGTGTGTTCTTGGTGTTTTATCACAGGTTTATCGAGTTAGATACTAACATATTCCCTTCAGGGAATTTGATTAGGAACTTGTTCAAGGGTGTTACATTCTTCAGGAGAGTTTGAGTCTTAAAAGTTAACTTGAATAGGTTGGTGGTGGATGATATTGATTGTTCAACAATCAAAGGTACTCCAGGGAGTTTTTCTCATTTCAGTGGTTCTTTGCCACTTAAAATTCCTTGCCTTTTCCCTAGGAGGCAATCTTAAGAGTGGATCTTTTGATATTGCTTTTAGAGAGAATTCCTTGGGCCTTAAAACTTGAAAGGACCGTTAAGGATTTTTTGTGGAAAGGGTCTAAGATGGAAGACAGGTGTTCTGGAAGGAGATAAGTCTTAAAGGGAGTCGGAATTACAACAATTTGATGGAGTCAATCTAGATGGACGGATTTATCTGGAAGAAATATACTTTGAGGTTCACTTGATACAAAAAGATGATTCACTAAATCACTTTTACTTTAGAGTTTAGATCAAAGTCCACATCCTAGCTATTTAGATTTGTTGCTGGTTCTGGTTCTTAAAGGCTCTTCATTACGCTATCTAGTGGTGCTGTTTGTTAAGGTCAAGACGAACTGTGTCATCGAGTTTTCTTCAGTCTTGTGTTTTGTTTTACAAAGTTGCCAACAGAATGAAGTCAAAAAGTTCCTTCTGGAGAAGGGAAGTGGCTGCCATCTAGATCTTGTATTTAGATCTTGTGTTTTTTCCCTTGAGTTTGGGTTCAGAGTTTTGTACTTTAGTTTGTGCTTCAGATATTTCGTTCTTTGTAATCTGTTGGTACTCTTTTGTAATATTTCATTTCAACAATGAAAATTTCTGTTTCAATTTTGGGAAAAAAGAAAAAAAAAAAATTCATATCCTAGCTGGGAAATTAGGCTTTGGAATTTTCATTAATAGCACCGTTTTTATAATTACATTTCACTATTATATAATGTTATGGTAAAGATAAGTACTCGATGGATCCTGAATATGGTTAATTGATATAACTTTAATTCCTCTATTGCAACCTTGGTGGATAATTTTTTGTAGTAGTGTACAACATACATCTTGGTAGTGTTCAATTTTTTTGTAATGATACCATTCTCATCTTAATTAATGATTGGAAGGTATTTGATGGTTTAGTTTGTGTGGGAGATGTTTTCTCTACACCCAGCCCCTAGGTGGTTGACCTTTCTTTTGTGTTTATAATACATTTTCTTGTTTCTTATATAAAAACAAAAGAAATTAATTCCTCTATTGCCTGATAAATTTTCATTTGTTACTAGGGATATTGTTGTGCAGTTTAATGCTGATGTAGCTGATGGAATGCCTTGGAAGTTTATCCCAACACAGAGAGAGGTGTTCCCTTTTGCAGAAGCATGTATACACACACACACACATATATTCTGCACACAAACATCTTAATCTCGACACATCTTCTTGTATGCATGTGTACGTGCACTTTTGGTGTAACATCATTCATCTGTTGTCCTTATCTCCTGGAACATCAGTGCATGAAACAAAAAAACAAGGCACAAATACACATGCCCCACAAGAAAACAAGATTTCCAATAGGGTAAGAACTAACTTCATCTGTTGTCTTAGGTAAGGGTAAAACCTGGAGAAAGTGCACTTGCATTCTATACTGCTGAAAATCGAAGTTCAACTCCAATTACTGGTGTGTCTACGTATAATGTTACACCTATGAAGGTAACAACTAGTTTCCCTACATTGTGTCATAGAAACCACAATTTTTATAAGTTTCAACTACTGAAAAGGAAAGATTTTATGGCAAGCTTGTTTCTTTGCTACTCTGTGGAATATTTGGCTTGAAAGAAATGGTCGTATCTTTAGAGGGATAGAGAGATCAGGAGAGGAGATTTGGGAGTTGATTAAACTTAAATCTTCTTGGACGTCCGTTTGTCGGACCTTTTGTAATTACTCTTTGGGGCTTATTCTTTTGGGTTGGGATTCTTTCTTGTAATTAGGTTTTGGGGCCTTGTTTGTGGGCTTGTCTCTAGCATCTTGGGATTTGTTTTTTGTATGTCCTTGTTCTCCCTTTCATTCTTAATGAAAGTTTGGTTTCTTATAAAAAAAAATAAATAATTATAAATTTCAACCACCGTATTCGTACAACATTAAAGGAGAAGTTTTTGAAAGATACTTCATTTATGCAAATCTAGTGCTTTAAGTGGAAAGTGTTAAGATGATTGATTAAGTTTGGGATGGCTTTTTCAATTAGTTTCTCAAGTCACAGATCTTCTCATTGTGGTCTCCTATCATTCATATGTTAGTGTACTTTAGATTCAACTTAGGGTTAACAATCTATATGGGGTTTGCTTGGGTCTTTTTTAAAAAAATGTTGTCAGAAACTGCTTGTAGATTAATCTTTTAAAACTGTTTTCTATCTTTTCTAATTTTAGGATGAGTAAAACCAAAAAGATCATTTTGAACTCTTGCTTTATGAATGACCAACACGAATGAGTAATCAGAGTCCAAAGGAAACACTCCAATTTGCTTCCTTCCCCAAGTTGGCATTCCATATGCAAATATCTCATAGTTGTTTCTCAAAAAAAAAAAAAACTTATAGTTGTTTGATATGCAGTGGAGTTGCCCACAGTTGGTGGAAGTTTTTCTTCGTCTTTATTCAAATCCTTGGTGCTATTCTTAAAGATTGGAAGCTAAAATCCTTTAGAGGGGAAATGTTATCGAAGTAGGTTTGATTGTTGAGGGAGAAAAGTAGAAAAATTTTAAATGAAGTTCATAGAGTTGGATGAGTTTGAATTTATGAGATGTTTGCAGCTTCTTGGAAGGCATTCGACTCATTTGGATTTGTTTCTTCAAGTTTGTACAATCAGGAATGTACAAGGGAATAAATTTTAGAAGCTTTTGTATATCTTCTGTATAGTTTTTAAGTCTGTTTTGTAAAATTTTTCATGTAGCTTAAAATGTAGGCTTCAAAAACCTAAATTTCTGTGTAACTAGTGGACTTAACGAACCAGTAGCTTGTTGTTGTTGTTGTTGTTTTCTTTCTTTCTTTCTATCTTGTCCTATGATTAATTGAATTATTTTGTCCTGTGGTTCCTGCCAACTGTGATGTTTCATGTTAAGCTAGCTTCACTGCTTCTTGAGGAATGGCATTGTTCCCGAAACTAAGATTTTATCAGCATTGAGTTTTAGTCCACAAAAAATCAGAAGAATTATAGGTCATAAGCATTGGCTCTTAAATTTTTTCTTTCTGCACTTTCATTGAGATAATATTTTGATTTAAAGTGGTAAGGCTGCCAGAGTTTAAACTTTTGTAAAAACCCATCTAAATCATAAAGAATGAGATTTTTTTCGCACTTTAACTTTGTTTCAGGCTGCAATCTACTTCAATAAAATACAATGCTTCTGCTTCGAGGAGCAGCGCCTCCTTCCTGGGGAGCAGATTGACATGCCAGTAAGTATATGTTTCTATTTTCGAGTCGAGCTTTTAGGCAAGTCATCTGATCCACGACCTGATTCTGCAGGTGTTCTTTTACATTGATCCTGAGTTTGAAACTGATCCAAAAATGGACGGCATCAACAATTTGATTCTATCCTACACCTTTTTCAAGGTCTCAGAAGAATAGCACAGGGCCATCGGTTAGTTTTTAGATAGAGATAAACAACAGGGTTGAGAGTTCCAAATTTTTGCCATTGATAGAGATTAGTCCGAAGAAAATAATTGCCAGAAAGCTACTTGTTTTCTTTCTATAATTTATTTGATAATGAGATTCTATCATATGCCATGAGATTATGGAAATAATAGAAATTTATGTTAGAGGTCGTGGAACTCATATGGATATCCAAGATGTGGGTATCAATGTAACAAGTACATTGTTTTATATAATAGGCTAAAATGTAAGAAATGAACCATTTTTCTATTATGATTGGTGTTTCTAGTGGTGTTCAATCATCAAATCAGATGGGGATGTCAACTTGAGCCTAACCCATCTGAA TTCTTTACGCCGTTTCCTCCATTTCAGCAGATCCCTGTTGCCGCCGTCTCTCTCCCGTTCACTGCTGTCGCCGCCGTCATCTTTCTTCCACTCGTGCCCCTGCCACTGTCGTATTTCTTCCGTTCGTGCCGTCGCAGCCTTCGTCCAGGCGATTTTGCACTGATTTTATACTCCTCTGAGCTTATAGAAATACTGCCTAATATGGCTGGCGGAGGAATGATCAGGCAGTTACTAAGTAGGAAGCTTAAGACCCAATCTACATCCTTTGGAGCACTTGCTTTTCTGGGAGGTGGTGCGTCAGAACATTTGAGCTTGGCAACAGTAGCATCCTGTTATGATGATCATGGGTTACATTGTCCAAGTTACATCTGGTCTCGCAATGGTAATCTCAGTTCACATGTTCATGCCTCAGAGAGTGCCGTCTTTGCTCCTGTATCCTTTGACTCGAGTTGTGGAATCGGGGGACATGGATGGGTGGCTTTAGCTTCTGTGGGCATTCATGAGATTCCTGCTGAGTCCACACCTACAGGGCCTTCGACTAGTACTAAAAAGGGAAGAAACTTTTGCAAGAAGGGAGGGGATTCTACAAGAATGGATAGGGAATTGAGAAAATTGGAGTCTTCAGTGAATTATGTCGGAAGGAAGGTCTTTAAGGAGGTCATCTTGGGTTGTGTTAACACTTTTGAGAGACTTTCGAGAGTGATGCCCCATGTGGTTGGCCGTTTTTGTTGCATTCTCTGTCGGGAGGCGGAGGAAGATCTTGATCATTTGCTGTGGGGTTGTGATTTGTTTGGTCTGTGTGGGCAACACTGGTGTATTGTAGAGGACTTTATTGTTATCCGATCCTTGTACGAGAAGGCTTCGGGGGGGGAAACTACAGATATCCTGGCTCTCCTTTCTTTGATGGAGGGAGTCACCTTTATACCTTTATACCGAATAGGAGGGATTGTCGGTTGTGGAGCCCTAACCCCTCCCAAGGGTTTTCTTGTCGTTCTTTTTTCCAATGCTCTTGAATCCTTCTGTCAAAGAGTCAATCTTTTCCTTGATATGGAAGAGGAAGACCTTGATCACATTTTATGGAGGTGCGATTTTGCTAGATCGGTGTGGAACGCGTTCTTCGAGATGTTTGGCTTGCAGTTTGCTAGACACTGGAGCATCAGGGAGATGATTGAGGAGTTCCTTCCCCATCCTCCTTATCGAGAGAGGGGAAATTTCTTATGGCTTGTGGGAATTTGTGCTATTGTTTGTGGGCTTTGGGGAGAGAGGGACAATAGAACTTTTAGAGGGTCAGAGAGGTCGACATCCGAATTTCTACCACATTCGACTTATAATGTTAGTCGAACTTGTAATGTTTATAAACGAGGTCCTGGCTTAGGTATTTGGGGCTTGAAATTGGGACGTGGTTTCCATTCACAGTCATTTCAAAAGTCTCATTGGTTTTCACCTCTTTCTACTCGTTATATTGGGAGGTGTTCTTCCTTGCACAATATTCAACGCAACTACTCTAAAGCTTCTATTGAACGGAAGTCCAAAAATATGCTTTTATACCTTGTAGCATTGGTTTTTGCCATGGTGGGATGTAGTTATGCGGCTGTTCCTCTTTATAGGAGGTTCTGCCAAGCTACTGGTTATGGGGGCACTGTTCAGCGCCGTGAGAGCGTTGAAGAAAAGATTGCTCGCCATGCTAAAGATGGAACAGTAACTACAAGGGATATTGTTGTGCAGTTTAATGCTGATGTAGCTGATGGAATGCCTTGGAAGTTTATCCCAACACAGAGAGAGGTAAGGGTAAAACCTGGAGAAAGTGCACTTGCATTCTATACTGCTGAAAATCGAAGTTCAACTCCAATTACTGGTGTGTCTACGTATAATGTTACACCTATGAAGGCTGCAATCTACTTCAATAAAATACAATGCTTCTGCTTCGAGGAGCAGCGCCTCCTTCCTGGGGAGCAGATTGACATGCCAGTGTTCTTTTACATTGATCCTGAGTTTGAAACTGATCCAAAAATGGACGGCATCAACAATTTGATTCTATCCTACACCTTTTTCAAGGTCTCAGAAGAATAG TTCTTTACGCCGTTTCCTCCATTTCAGCAGATCCCTGTTGCCGCCGTCTCTCTCCCGTTCACTGCTGTCGCCGCCGTCATCTTTCTTCCACTCGTGCCCCTGCCACTGTCGTATTTCTTCCGTTCGTGCCGTCGCAGCCTTCGTCCAGGCGATTTTGCACTGATTTTATACTCCTCTGAGCTTATAGAAATACTGCCTAATATGGCTGGCGGAGGAATGATCAGGCAGTTACTAAGTAGGAAGCTTAAGACCCAATCTACATCCTTTGGAGCACTTGCTTTTCTGGGAGGTGGTGCGTCAGAACATTTGAGCTTGGCAACAGTAGCATCCTGTTATGATGATCATGGGTTACATTGTCCAAGTTACATCTGGTCTCGCAATGGTAATCTCAGTTCACATGTTCATGCCTCAGAGAGTGCCGTCTTTGCTCCTGTATCCTTTGACTCGAGTTGTGGAATCGGGGGACATGGATGGGTGGCTTTAGCTTCTGTGGGCATTCATGAGATTCCTGCTGAGTCCACACCTACAGGGCCTTCGACTAGTACTAAAAAGGGAAGAAACTTTTGCAAGAAGGGAGGGGATTCTACAAGAATGGATAGGGAATTGAGAAAATTGGAGTCTTCAGTGAATTATGTCGGAAGGAAGGTCTTTAAGGAGGTCATCTTGGGTTGTGTTAACACTTTTGAGAGACTTTCGAGAGTGATGCCCCATGTGGTTGGCCGTTTTTGTTGCATTCTCTGTCGGGAGGCGGAGGAAGATCTTGATCATTTGCTGTGGGGTTGTGATTTGTTTGGTCTGTGTGGGCAACACTGGTGTATTGTAGAGGACTTTATTGTTATCCGATCCTTGTACGAGAAGGCTTCGGGGGGGGAAACTACAGATATCCTGGCTCTCCTTTCTTTGATGGAGGGAGTCACCTTTATACCTTTATACCGAATAGGAGGGATTGTCGGTTGTGGAGCCCTAACCCCTCCCAAGGGTTTTCTTGTCGTTCTTTTTTCCAATGCTCTTGAATCCTTCTGTCAAAGAGTCAATCTTTTCCTTGATATGGAAGAGGAAGACCTTGATCACATTTTATGGAGGTGCGATTTTGCTAGATCGGTGTGGAACGCGTTCTTCGAGATGTTTGGCTTGCAGTTTGCTAGACACTGGAGCATCAGGGAGATGATTGAGGAGTTCCTTCCCCATCCTCCTTATCGAGAGAGGGGAAATTTCTTATGGCTTGTGGGAATTTGTGCTATTGTTTGTGGGCTTTGGGGAGAGAGGGACAATAGAACTTTTAGAGGGTCAGAGAGGTCGACATCCGAATTTCTACCACATTCGACTTATAATGTTAGTCGAACTTGTAATGTTTATAAACGAGGTCCTGGCTTAGGTATTTGGGGCTTGAAATTGGGACGTGGTTTCCATTCACAGTCATTTCAAAAGTCTCATTGGTTTTCACCTCTTTCTACTCGTTATATTGGGAGGTGTTCTTCCTTGCACAATATTCAACGCAACTACTCTAAAGCTTCTATTGAACGGAAGTCCAAAAATATGCTTTTATACCTTGTAGCATTGGTTTTTGCCATGGTGGGATGTAGTTATGCGGCTGTTCCTCTTTATAGGAGGTTCTGCCAAGCTACTGGTTATGGGGGCACTGTTCAGCGCCGTGAGAGCGTTGAAGAAAAGATTGCTCGCCATGCTAAAGATGGAACAGTAACTACAAGGGATATTGTTGTGCAGTTTAATGCTGATGTAGCTGATGGAATGCCTTGGAAGTTTATCCCAACACAGAGAGAGGTAAGGGTAAAACCTGGAGAAAGTGCACTTGCATTCTATACTGCTGAAAATCGAAGTTCAACTCCAATTACTGGTGTGTCTACGTATAATGTTACACCTATGAAGGCTGCAATCTACTTCAATAAAATACAATGCTTCTGCTTCGAGGAGCAGCGCCTCCTTCCTGGGGAGCAGATTGACATGCCAGTGTTCTTTTACATTGATCCTGAGTTTGAAACTGATCCAAAAATGGACGGCATCAACAATTTGATTCTATCCTACACCTTTTTCAAGGTCTCAGAAGAATAG FFTPFPPFQQIPVAAVSLPFTAVAAVIFLPLVPLPLSYFFRSCRRSLRPGDFALILYSSELIEILPNMAGGGMIRQLLSRKLKTQSTSFGALAFLGGGASEHLSLATVASCYDDHGLHCPSYIWSRNGNLSSHVHASESAVFAPVSFDSSCGIGGHGWVALASVGIHEIPAESTPTGPSTSTKKGRNFCKKGGDSTRMDRELRKLESSVNYVGRKVFKEVILGCVNTFERLSRVMPHVVGRFCCILCREAEEDLDHLLWGCDLFGLCGQHWCIVEDFIVIRSLYEKASGGETTDILALLSLMEGVTFIPLYRIGGIVGCGALTPPKGFLVVLFSNALESFCQRVNLFLDMEEEDLDHILWRCDFARSVWNAFFEMFGLQFARHWSIREMIEEFLPHPPYRERGNFLWLVGICAIVCGLWGERDNRTFRGSERSTSEFLPHSTYNVSRTCNVYKRGPGLGIWGLKLGRGFHSQSFQKSHWFSPLSTRYIGRCSSLHNIQRNYSKASIERKSKNMLLYLVALVFAMVGCSYAAVPLYRRFCQATGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGESALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPKMDGINNLILSYTFFKVSEE Homology
BLAST of Spg029900 vs. NCBI nr
Match: XP_008453793.1 (PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 [Cucumis melo] >XP_016901545.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 [Cucumis melo] >XP_016901546.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 [Cucumis melo] >TYK16744.1 cytochrome c oxidase assembly protein COX11 [Cucumis melo var. makuwa]) HSP 1 Score: 485.3 bits (1248), Expect = 8.5e-133 Identity = 300/627 (47.85%), Postives = 309/627 (49.28%), Query Frame = 0
BLAST of Spg029900 vs. NCBI nr
Match: XP_008453787.1 (PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_008453788.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_008453789.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_008453791.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_008453792.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_016901543.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_016901544.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo]) HSP 1 Score: 485.0 bits (1247), Expect = 1.1e-132 Identity = 238/272 (87.50%), Postives = 247/272 (90.81%), Query Frame = 0
BLAST of Spg029900 vs. NCBI nr
Match: XP_038894870.1 (cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 [Benincasa hispida]) HSP 1 Score: 483.4 bits (1243), Expect = 3.2e-132 Identity = 240/271 (88.56%), Postives = 246/271 (90.77%), Query Frame = 0
BLAST of Spg029900 vs. NCBI nr
Match: XP_038894870.1 (cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 [Benincasa hispida]) HSP 1 Score: 110.9 bits (276), Expect = 4.4e-20 Identity = 56/75 (74.67%), Postives = 61/75 (81.33%), Query Frame = 0
HSP 2 Score: 482.6 bits (1241), Expect = 5.5e-132 Identity = 239/258 (92.64%), Postives = 244/258 (94.57%), Query Frame = 0
BLAST of Spg029900 vs. NCBI nr
Match: XP_038894869.1 (cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Benincasa hispida]) HSP 1 Score: 92.8 bits (229), Expect = 1.2e-14 Identity = 47/68 (69.12%), Postives = 52/68 (76.47%), Query Frame = 0
HSP 2 Score: 482.6 bits (1241), Expect = 5.5e-132 Identity = 239/272 (87.87%), Postives = 247/272 (90.81%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy Swiss-Prot
Match: Q8GWR0 (Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=COX11 PE=2 SV=1) HSP 1 Score: 334.0 bits (855), Expect = 4.1e-90 Identity = 165/199 (82.91%), Postives = 177/199 (88.94%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy Swiss-Prot
Match: O21243 (Cytochrome c oxidase assembly protein ctaG OS=Reclinomonas americana OX=48483 GN=CTAG PE=3 SV=1) HSP 1 Score: 202.6 bits (514), Expect = 1.4e-50 Identity = 98/181 (54.14%), Postives = 126/181 (69.61%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy Swiss-Prot
Match: Q86ZU7 (Rsm22-cox11 tandem protein 2, mitochondrial OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=cox1102 PE=1 SV=2) HSP 1 Score: 197.6 bits (501), Expect = 4.6e-49 Identity = 108/235 (45.96%), Postives = 143/235 (60.85%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy Swiss-Prot
Match: A3KMZ6 (Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Bos taurus OX=9913 GN=COX11 PE=2 SV=1) HSP 1 Score: 196.8 bits (499), Expect = 7.9e-49 Identity = 98/186 (52.69%), Postives = 122/186 (65.59%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy Swiss-Prot
Match: Q6P8I6 (Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Mus musculus OX=10090 GN=Cox11 PE=1 SV=1) HSP 1 Score: 195.7 bits (496), Expect = 1.8e-48 Identity = 98/186 (52.69%), Postives = 122/186 (65.59%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy TrEMBL
Match: A0A1S3BXX3 (cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 OS=Cucumis melo OX=3656 GN=LOC103494414 PE=3 SV=1) HSP 1 Score: 485.3 bits (1248), Expect = 4.1e-133 Identity = 300/627 (47.85%), Postives = 309/627 (49.28%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy TrEMBL
Match: A0A5D3D0J0 (Cytochrome c oxidase assembly protein COX11 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold21G005840 PE=3 SV=1) HSP 1 Score: 485.3 bits (1248), Expect = 4.1e-133 Identity = 300/627 (47.85%), Postives = 309/627 (49.28%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy TrEMBL
Match: A0A1S4E012 (cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 OS=Cucumis melo OX=3656 GN=LOC103494414 PE=3 SV=1) HSP 1 Score: 485.0 bits (1247), Expect = 5.4e-133 Identity = 238/272 (87.50%), Postives = 247/272 (90.81%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy TrEMBL
Match: A0A0A0KXT4 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G028460 PE=3 SV=1) HSP 1 Score: 481.1 bits (1237), Expect = 7.7e-132 Identity = 300/627 (47.85%), Postives = 307/627 (48.96%), Query Frame = 0
BLAST of Spg029900 vs. ExPASy TrEMBL
Match: A0A6J1C4S2 (cytochrome c oxidase assembly protein COX11, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111008471 PE=3 SV=1) HSP 1 Score: 479.2 bits (1232), Expect = 2.9e-131 Identity = 236/272 (86.76%), Postives = 242/272 (88.97%), Query Frame = 0
BLAST of Spg029900 vs. TAIR 10
Match: AT1G02410.1 (cytochrome c oxidase assembly protein CtaG / Cox11 family ) HSP 1 Score: 334.0 bits (855), Expect = 2.9e-91 Identity = 165/199 (82.91%), Postives = 177/199 (88.94%), Query Frame = 0
BLAST of Spg029900 vs. TAIR 10
Match: AT5G40810.1 (Cytochrome C1 family ) HSP 1 Score: 59.7 bits (143), Expect = 1.1e-08 Identity = 38/91 (41.76%), Postives = 48/91 (52.75%), Query Frame = 0
BLAST of Spg029900 vs. TAIR 10
Match: AT3G27240.1 (Cytochrome C1 family ) HSP 1 Score: 55.8 bits (133), Expect = 1.5e-07 Identity = 37/91 (40.66%), Postives = 48/91 (52.75%), Query Frame = 0
The following BLAST results are available for this feature:
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InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
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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