![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Tan0018011 (gene) Snake gourd v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATTATACCAACTCCCCTTGACTCACCTATCAGTAATATTATCAAAGTCTCCCCATCCTCCTTTCTAATGCCTCATCCCTTTCTAGTTTCCTCCACATACTGAGATTTCAACGCTTCTAAAAATTTCCTGGAAATTTCCATCGCCCTTCGTTCAACCACTCGGTATATTTCGTTTCTCTTGAATGTTTTTTATTCATCTGCTTCAGTTCCGATCTTGTTGAGATCTTTTTCTTTTTCGCTTTCCTAGTTCTTGGATTTTCGATTCTTCTTTTCATGTTCAATTTGGCGCCGTCTGTTGAGGGTTCCGGTGCTGTTTATCTGTAGGTGTTAATAATTCGTAGATCTAACTCCTAAGTAAGTAAACTTTTTATTACTTGTTGTTCTTGTAAGTAAACTTTTTATTACTTGTTGTTCTTGTATGTTTTTTTTGGATATCTGTTTGGTTGCTTGTAATATTAGATTTAGATTTCCATGCTTTTTGTTTGAGTTAGCTAATTCTGTTTTTGGAGTGATTCTGGATGCGGTTTGCTTCTTGGAAGTTTTATTTTAGAAGAGCGTTTAATGGATCTTTGAGGTTGACAAACTTTATGTTATGTTTACGACAAAAAGGATAGATCAGTAGATGTATAAACGAGATCTGGAGACTTCATGTCTGAACAGCTCAGTTTCTATCCATGGTTCTCTGATATCATGAAAAGGATGTACTCTATGAGGTCAATTTGATTTTAGTGGATTGGATCTCTGCAGAACAGAACTACAGAAGGCAAATTCAAGATATTTTTTTGCTGTTTTTGTATTTTATGTTGCTTTTGAAGTTGGATCTGTAGATCTATGTTTGAGATGTCTGTTCTGTAAAGTTTTGTTGATAAGAAGAGTTTCTGTTTGTTTCCTCTGATCTTGTATGTGGAATATAACCTGTATAATGAGATTAATGAGTTCTTAGAGCTGTCTCCCCCACCCCCATATCTAGTTTTCTTCTATATTTTGAAAGCTAAAAAAAGTAGTTTTCAAAAACTTGTTTTTGTTTTTAGAATTTCGCTATGAATCCAAATACTTGCTCGAGGGAGATGAAGACTATTGTGGAGAAATTGAGAGAAAACAAGCTTAGTCTTCAAAAACCAAAAACTAAAACCAAATGGTTATCAAACGGGGCCGAAAAGATTTGATTTTGACTTTTCCTTCTCGCTCTCCCTATTGCTTGAAAATCTGACATCTGAGTATTGGGACCTTGCAAGAAGGTTTAGACTTTTATGTGTAGAATATAATATCATTTCTCAATCTTCTATGTATTTATAAGGAAATTGGCTGAGGAGATTTTCCTGCTGTTGATTGTAGATGAAATTTCCAAATGCAATGTTCTGTTAAATGAGCTCACATGTAATCCAAACTTTTGATATATTCTGGCCATTAAGGTTTTATTTTTTGATGTGAAATTACGGCTGAAGCATTCCGCCTCTTTGGTCAGAACTATACCTTATATGTGGTTTGATATTCCTTGCAGTCATTTCGTAGCATCAAGAGCTCATCTACCTTAGTTCACAAAAATGAGCCGCCCACAGGAACCACACAGACAATTTTTCCCCTTTGGGAACCCTTTCCGCATGATATCTCCGAAAGGTTCAAATTTGCCTTCAAAACTTGTTGCAATATTGAATGCTTTTGAGAGAAGCCTAGCTGAAAGACTAAGAAAGCTCCATCCATCTAGTAAAGATGATGTTCTTAGCCTTTCATGGATGAAATTAGCAATGGAGTTGCTTTGTGAAACTCACAGTGATGTTAAAACTCTCATCAAAGACTTAGAGCTCCCCGTGCCTGAATGGAATGAGAAGTGGATCGATGTCTATTTGGACATCAGTGTGAAATTGCTTGACGTCTGTAATGCTATTAGCTCAGAGCTTTCACACTTGAATCAAAGCAACCTCATGCTCCGATGCATCACCCATAATTTGGATTCTGCCGAGTCAAAGCGACTCACTCGAGCCCGTGCTTCCTTAGATCAATGGAGATTGAACATCAGCTCCACAAATTCTAGAATTAAGAATTGTTGCGCAATCTTAGACAGCCTTGTAGAATCACTCGATCTTCCAAAAGTAAAGAACTCAGCCAAAGGTAAGGTTCTGATGCACGCTTTGTACGGGGTAAAGGTACAGACAGTTTTTGTGTGCAGTGTCTTTGCCTCAGCCTTCTTAGGTTCCCCAAAACTCTTTGATCTAAACATTGCTGATACATATTCATGGGGACAAACTTTCTCCACCTTGCAAAATGATGTAAATAGTGAAATTAGAAGTATATACTCACGTGGAAAGTTTACCCCACTGAAGGAGCTTGAAGCTATCGATCAATGTGTGGCCACTCTTCATCAAATAATCCCAGAGAATCCAGAAGTTGTGGAAGTTCAATCGCTGAAGAACACCGTGTCGGAGTTGGGAGGAAAGGCAGAGAGACTTTCAGAAGGTCTTCATTTGCTGACGAAGGAAGTCGACAGCTTTTTCCAGATTGTCTTGGGAGGACGTGATGCTTTGCTATCAAACCTGAGGGGCTGTTAAATCATATGGAGCTAAAACTTGAACCTGTGTACAGGGATGGGTTTGTCTCTCTTGTGTTTCAACTAAAGTATATTAATTAACTAACCATAGTCATAGTGTAGTGTAGTCTTTTGCTATATGCTAAAGCTTTTGGGTTGTATTTCTAATTGTGTGTGTAAGAATGAACTTTGAAATGGAAGTAATATTAATATGGGGTTTCTATGTTTGAGAAAATGGTTCTGTTTTCTCCCGGTTATAATTGACTATAGAATTGAGTTTTGTGCATGATTTGTGGTGATTCGTGGGGTTTTCGTACGGATAATCTATTTACACGCGCTTTAATGGTTGATGATTTGCATTATGAAAATAACGAAATACTCATAAGGGTAAAATATGTAAGATGGTCTTTCTTGTTCACGCTCTCGTTCTCTCCCTCTTATTTTATTGCTAGGAAAAAAAATCAGAGAAGAGCTACGGTAGCAGGAGTAGAGCGAAAGCGAGAGCTATAGTGCGAAAAAATGTCAGAGAAGAGCTAGAGTAGCAGAAGTACAGCAAGAGTAAGATTTATATTGCGATTTTTCTTGTTTTTTTTTTTCTTTTCTCTAGCATTTTGACAACCACATTACTATCATGAGCGAGAGTGAGACTTAAGTGAGAATGAGTCTTGAGTCAGAGCGAGAAAACTAGAGCCAAAGTACAATGTTCTTATGGTAATAATTTCAGAACATGGGTCAAATCACATCAAGGCGTGTGAAAAGGAGTTTTCTATGAAAATTTCTCAGGTTTTTCTTTCCATTTTTTTTTTTAATAAATTTATTTTAGGGTAGTAGGAAAAAAAAAGTAGTTTTGAATGTTCAAACTGAAAATGTCAAATGCAAACCAAAACGAGAAGCGTAGACCGTGGACCCTGGAGTTGGTGCATGGAGGAACGGAGGAACAGGTCTCTTTCATTCTATGCATCTCCTCTATATCTCGTTTTATATTTTGTGTTTCAGTCTGATTAAATCTTACTAATGCTTCATATTATTTGTTGCTGTCTTGTTATTCGAGTGCGAGAGGTGGAGCTTTTATCGGCAAAATAATAGTATAGGAAAAAAATAAGTGAAAGAACTCTATGAAACTTTATTGTGTTTGCATTGCGTGGCATCATTGCACCCTTTAATTTTAATTTTAATCTTAATTTTTTTTTTTGGTGTCATTGATAGATATATAAAAGGATTTGAATAAATGGAGAAAGATAAATAAAATTTAAAATAAATATAAAATAATTCCTTATTTGATTAGGAAAAAGGGGTTTTCCACTCCAAATTCACTTATTTTCTCTATTTAGATGAGGTTGAATTTGGGAGGTGACAGATTAGATCTTAGAGGTAGCCATAAGAAGACGAAGTTGGAGGAGACAAGAAGATAAAAGATTTGATCAAGGGACGTGAGTTTCTGTTAGGTATCTTGTTAGACCCCCAATTATACACAAATATTCTAGAAGGGGCAAGAGGGTAAATACGGTTGGGAAGTCGGGGACCACAGGGGAGGAATGAGAGGGGTACGACCGAGAACGTGGGAGTGAGGGCTTAAAAGGTTTTTGGGGATCCCCTGAAGGGACAGTTTTTTGGGTTTTGGAAGTTGTTTTTGCAGGAGGGAGCCAACCTCTCGAATAGCTGTGCCATTGTTGTTATCTTTTGTTATCGGAAATCAATGAAATAACCCCCCTTCGTTGTTGAAGAACTCTCAATCAACGGAGGGTTGGTTCTCTACTTCTCTGTTTTTCTCTCTTATTACTCTTAGAACTATTATCTCTGGGTTTGGATACCTAACAAATTGGTATTAGAGCACGTCGACCTGGGGAAAACACGTAGAATGGCCATGGAGGAGAGAGTCTCCGGCACCGAGAGAGATATCGCCGAAATCAAAGAAAAGTTACGTGGGTTGGAATCAACCTTAGAGCGAGGTTGGGAAAGAGTAGCCACGGATATGCGGGAAAACCGTAAGGCGCCGATCTTTATCTTTGGCCAAGGATCGTCCAGAAAAAGCGCGCACGAGAATGTTGAAACCAAAGTGACATCGAGGGCAAGCAACCGGGATGCGTCCCCTGCTTTCTAGCACCATGGGGAAGGAGGACTCATCACAAAGCAAGCCGATAGAGATAACCTCGGACCGAAGTAAGTATAAAAACTTGAAATGCCCGTGTTTACAAGGGACAATCCGTCGTGGATGATACGTGCGAGAGACTTATTTTGAAGTACACCACTAAGCGAGGTAGAAAAGATTAATGTGTCGATAGTCAGTTTTGATCCTGATGTAATCGAATGGTTTCGCTAGACGAACAATCGGAAGAAGATCACCGACTGGAACGACGTGAGGGAGAGACTTCTGTTGAGATACCGGCCAACTCAGGAAGGCAACCCTTGCGGGCGATTCCTTTCGATTAAATAAGAAAGCACGGTGAGAGAATACAGAAAGAAATTTGAGTCTTATTCAGGACCGTTACCCGGAATGGCGGAAGACGTGCTTGAAAACACGTTCATCAACGGCTTGATTCCGTCGATCAGAGCAGCCGTCATCAGTCGTGAACCAAAGGGACTAGAGGATGCGATGAAACAGACACCCAATTAATTGAAGACCGCGAATGGGCCTAGCTGCGTGGGGAAGGATGGGGCTACGACGGAGAGAAGGAAGTGATGGGTCGGTCACCAAGGGTTGATTCTAAGACAATGGGGCCCAACAATGGGAAGCCAACCCAAAGCCCAACGACCATCTCCTCGGCCCATTTCGGTTCTTTGAAAAACCCACCCCAACCGCCGCTTACCTATGCCCCGAAGGTTGACTGATGCTGAGTTTCAGGCAAAAAGAGAGCAGGGTTTATGTTTCCGATGTGACGAAAAATACTCTAAGGACCACCGTTGTAAAAAACTCGAGATGCGAGAGCGAGAGAGTAGTTTGGGAAAGCAACACCGACGACAATCAAGTGAAACAAGAAGAGATTGAACCTAAAGAAGAGTGGGTTCTTGCCGACACCGAAGTTTTCGCATCTGCAGTGGAGCAAATTAAGCTCAACTCAAATCCATGGTGGGATTTTCAAACCCGAGTCACGATGAAATTACGCGGAAGATTAAAGGAAAGAAGTAATCGTGTTGGTCGATCGTGGAGAAACTCATAACTTCATCTCTCGACATCCGCCGAAGAACTGAGCTCCCAAGGGTAGACACTCTTAACTATGGAATAGTGATGGGAAATGGGTCGACGGTGTGATCGGACAAGGAATGTGTCGGAGGTGATGATCCACTCAAGCGAGATGTCCTTCCAAGAGGACTTATTACCGATTGACCTAGGAGGAGTGGATGTAATTCTAGGCATGATATGGCTACGATCCTTGGGAGTGATGGAGGTAGACTGGGTCGAGCTCACGATGATGTTTAACTGCGGTGGAAATCGAATTACGATAAAAGGGGACCCTCGTTAACAAAGGCACAAGTCTCCTTGAAAATGTTGTTGAAGGATCGGGACGAAGAGAAGACCAAGGTTTCTGGTAGGCCTCTGAGACACCGAAGGGGCGAGAGATGATGAAGGCCGCTTGTTCGGACCCGAATGGAAGGGTCGAGACATGGCGAAGGAAATACAACAAGCAAATGCCGATATGGTGAGTTGTTCATCGAAAGAAAGGACCTTCACGGAGAGGATGTCGACCACCGGATTATATTGATGGAAGGTAAGGACCAATCAATGTGAGGCCTATAAATACGCACACGCCGCGCAGAAGAATGAAATAGAAAGACTTGTGACGGAGATGCTCTCTTGGGTATTATACGGCCAAGTACCACCCTACTCAAGTCCAAGATTACGGTCAAGAAGAAAGACGGCGGATGGCGCTTTTTGTGTCGACTCACCGCTCACCGAACAAGGTCACCGCTTTGGATAAATTTCCCATTCCCATGATCGAAGAATTACCGGATGAGCTAAAGGGATCTGTAATCTTTTCAAATTGGATTTGGAGTCCTGATACCACCGGATCGGGATGAACAAAAACAGGACATCGAGAAGACCGCATTCCGCATACACACGAGGGCATTATGAATTCTTGGTAATGTCGTTTGGTCTCACGAATGCTCCCGCCACTTTCCAAGCTCTAATGAACAAGGTATTTCGTCCTTTCCTCGCATTGATGTGTGTTGGTTTTTGACGATATTACGGTTTTACATCCTAGTTATGAGACTCATCTACTTCATCTAGACCTTGTGTTCAATGTGTTTGAAGGAAAACAAACTAGTGTTAAATGAAAAGAAATGTAGTCTAGCGCAGGATCGCATAGAATACTTGGGACACTGGATCTCCTGTAAGGGAGTGGAGGCGATGACGGCAAGATAAAAGCCATCTTTGAATTGGCCGAGGCCAACATCTCTTAAGGAGCTCGGAGGATTTCTCGGGACTCACGGGGGTATTATCGTCGATTTGTGTTGAATTATGGAAGTATTGCCGCCCCACTACACAACATGCTTAAGAAGAATTGTTTTCTATGGAGTGATGAATCGATTGAAGCTTTTGAGAAAGCGAAAAGGCAATGACCACTCTGCTCATCCTAGCCTGCGGATTTTAATCTACCTTTTATCATAGAAACAGATGCGTCGAGAATGCAGTGCGGGAGCAAGATTACACAAACCAACGACCCATCGCCTATTTTAGTCAAGCTGCCGCTTTGGACAGAGCAAAATTGAAACCCATCTATGAAAGGAGGCGATGGCGATCGCTTTTTGCATCCAAAGGTGGCGACATTACTTGTTAGGGGCGTAAATTTGTGGTCCTATCCGATCGAGAGCACTTAAGAACTCGTTGGAGCAAGGGAAGTTCAACTTTGAGTACCAAAAATGGTTAACGAAATTGTTGGGGTACTCTTTTGAAATCAAGTATAAAGTCGAATTTCAACCCAGGCGGCGGATGCCTTATCTCGCTTACGCTCAGCAGGTGAATGTTCCTCCTTGTCCGCGCCTGCATTATTGACATAGACACTATCCTGAAGGAAGTAGAGGAAGATGTTGAATTATCCAAGATCATGAGAGACATTGAGGTTGATCCAATGAGTCACCCAAAATATACCGTCCATCGGGGACAACTTCGGTACAAGGATCGATTAGTTATCTCTAGTCACTCCACTCTCATCCCGACCATCCTACAAATGTTCCATGATTCGGTTTTGGGAGGTCACTCGGGTTTTCTCGTGACATACAAACGGATGACCTGGAGAACTCATGATCGATAGGAATGAAGAAAGCGATTCAGAAATTATGTGGCGCAGTGTGTGTTGTTTGCCAACGAAACAAGGCCGGGCCGCCGTGGCCCCGCGGGTTATTTACAACCCCTACCTATCCCCGGAGATAGAGTGTGGGAGGAAATCAACATCGATTTCATTGAAGGACTACCTAAATCTCACGGGTATGACTCGATTCTTGTAGTGGTGGACCGTCTGAGTAAATATGCACACTTCGGCCTGTTGAAACACCCGTATTCAGCCAAAGAAGTTGCGACCCTATTCATCAAGGAGATTGTGCGGTTGCACTTACATCAGAAGTCCATAATATCCGATAGAGACGTTATCTTCTTAAGCAACTTCTGGAGTGAATTATTTCGCTTGCGGGGGCACATCCTCAAGAAGAGCACTGCTTTTCATCCACAAACCGACGCCAAACCGAAAGGGTGAACAGATGTCTCAGAGACATATCTCCGATGCTTTTGTAACGAACAACCTCGGCGGTGGGAGAGATGGATCGATTAGGCGGAATCTCGGTACAATACCAACTACCATGTGTCCATCAATACCACCCCTTTCAATGTGGTGTATGGCCGAGCTCGCCTCCACTAATTTCCTATGGGAAAAGAAAACAACAAAGCGCACTGGAACAACAACTCATTGATCGGATGTTGCCTTAACAACACTCAAAGAACAACTACGAGTAGCACAAGAGAGAATGCGGAAGCAAGCACCGCCACCAAGAGAAGTGGAATTTGAACCGGAGATTGAGTATTCTTGAAGTTGAAACCGTGATCGGCGTGTAAGTCCGTGGCTAGGAGAAGGAGCGAGAAACTATCACCAAAATTTTATGGTCCGTATGAAGTGATGGAACGATCGACCAAGTAGCATACAAGTCGCACTCTACCCCCTACCGCCGCAATTCATCCGCTTTTCATGTCTCCCAACTTAAAAGAATGATAGGAACGCACGCAGTCCTACAATCAGCACCACCTCGTTTCTTTGATGAGTATGAATGGACAGAAACACCAAAGGAGGTCCTGGGTTATTGCTGGAACGAGGACTTGTTTATTTGGGAATGCCTGATCAATTGGGAGAAACGACTACGTAGTGATGCTACTTGGGAACCGTACGAGGAGATCAAGAAGAACTACCCCCATTTCCACCTTGAGGACAAGGTGGTTGTTTACCCCTGGCATCTGTTAGACCCCATACACAAAAATTCTCTAAGGGGCAAGAGGGTAAATATACGGTTGGGAAGTCGGGGACCACAGGGGAGGAATGAGAGGGTGCAGCGAGAACGTGGGAGTGAGGGGGCTTAAAAGTTTTTGGGGATCCCCGAGGGGACAGCTTTTTGGGTTTTGGAAGTTGTTTTTGCAGGAGGGAGCCAACCTCTCGAATAGCTGTGCCATTGTTGTTATCTTTTGTTATCGGAAATAAATGAAATGACCCCCCTTCGTTGTTGAAGAACTCTCAATCAACGGAGGGTTGGTTCTCTACTTCTCTGTTTTTCTCTCTTATTACTCTTAGAACTATTATCTCTGGGTTTGGATACCTAACATATCTACACCTCTTCCTCCTGCAGTCTAAATATCGAACAAGTATAATAACAACAACGCAATAATGTATGGAAACCAACCCTCCGATAAAGATAGTTCTTCGATATCAGAAGGGGGTTATTAATCCGTTAGCATTCTCACTGTCACCTTGTCCTCAATGTGAAACTTAGGATATTGCTTCCTGATATCTTCATATGCCTCCCATGTTGCATCACTCACATGGCATTTCTCCCATTGAATTAAACATTCTCATCGACTGGCTTCTTCATTTCATCGGGCCCCCAACACTTTTTTAGGTTTCTCAGTCCACTCGTATTCATTTGAAAAGGATGGATAAATTGATTGAATTATTGCATGTGAACCAACAAGCTTTTTTCAATTGAGATATGTGGAAAACTGGTACGTATAAGGAAGATGAAGTTTGTAAGCCACTTGGCCAATTCGTTCAATCACTTCATAAGGTCCATAAAACTTTGGGGAAAGCTTCTCACAACGCCTCTGAGTAAGATATTTCTATCGATACTTCCTAACTTTCAAATAAACTCAATCTCTCGCCTTGAATTCCAACTCTCTTCTATGCTTATCAGCCTGTTTTTTCATCCTTTCTTGTGCAAGTCGCAACTATTCCTTCAATGCCACCAGTGCTATGCCGCATTCCATTAATTGTTGGTCGAAGGTGTTATTTGTAGTTATTTTCTCCCCACAAGAGATCGGGGGTGGCGATGGTCTCCTATACATTACATTAAAAAGTGTTGTGTTGTGTTATAACAATACTCAACCCAACTTATCCGCTACTCCCATCTTCTTGGTTGTTCATTGCAGAAACACCTTAGAAAAGTTTCGAGACACCGATTCACCCTTTCGGTCAGACCATCTGTTTGGGATAGAACGCTATACTTTTCTTCAACCGTGTGCCTTGGATTCTAAAGAGTTCACTCCAAAAGTTACTCATAAAGATCACATCACGATAAGAAATTATGGATTTGGGAAATCCATGTAAGCAATGCAACCTCCTTAGCAAAAAAAGGATGTTTCAACGTCAGAAAATGAGCATATTTACTAAGGCGATCAACTACTACTAGAATTGAATCAATTCCATGAGTCCTGGGCAATTCCTCTATAAAATCTAAACTGATTTCCTCCAATTGCCCATAAAATCTAAACTGATTTCCTCCCATATACGTTCGGGAATCAGAAGGGGTTGTAATCCAACTGATGCTATTGCTTTCATCTTATTCCTCTGGCAAATATTACATTCCTCCACATATATCTTTGACATTTATTTTCATTCCTCCCCAATACAATTCCCTTGTCAATCTTTTATAAGTTTTCAAGAATCTAGAATGTCCCCCTAATACCGAGTCATGAAACATTTGAAGAATGGTTGGTATTAAAGAGGACTTGTTAGATAATACTAACCTGTCTTTGTAACGTAATTGTCCTTGAAATATAGAGAATTTTGGATGGCTTAATGGGCCTGCTTCAATTGCCTCCACTATCTTTTGTGACTCTACATCTTCGACTACTTCCTTCATAATTGTGTCAACATCAATTATCTTTGGTGCAGATAAGGAAGAGCATTCACCCACTTGCTTCATCCGAGACAAGGCGTCAACTGCCTTATTCAATATTCCCAATTTGTATTTAATCTCAAAATCGTATCCCAGTAGTTTTGTCAACCATTTTTGGTATTCTGTCCCTCTGTTCCAATAGGATGTTCAAAACTCTTTGATCAGTCATGACGGTAAATTTCTGGCCTAGAAGATAGTGTTTCCATTTTTGAATGGCAAAAACAAAAACGATTGCCATCAGTTCTCTCTTGTAGACGGATTTCAGCCTAACTCTTTTGGTCAGCACTTGACTAAAGTATGCAATAGGTCTTTGTTTCTATGTGAGGATCGTTCCCAATCCCACACCTGATGCATCTGTTTCGATTATAAAGGGGAGTGAAAAATCTGGAAGGGCTAAGGGAGAGTAGTCATCACTTTCTTTAGTTTTTCGAACGCTTCAATGGACTCTGGGCTCCAATGGAATGGATTTTTTTCAACATTTGGTGCAATGGAGCTACAATAGTCCCATAATTCAAGACGAATCATCGATAATATCCCGTGAGACCCAAAAACTCTCTGAGTTCCTTCAATGAGCTTGATCGGGGCCAGTTCAACATTGCTTTAATTTGATGTTACTTTCATCTACTTCAACGCCTTGCCTTTGTTGGGGGTTTTGCCCTAAGCTCGTGGTGTTTCTAAATGTTTGATGTTATTAATAAAGAAGTTATTTTCATCAAATTCTTGTAAACTTGCATTTAGGGTTATGTTTATGGGATCTTGAACAGTGTGTAATGGATGCACAAGTAGGGTCATGTTCAAGTTAATAACCCAAATGGTCTATAGTATATGGATAGGTTTGGGAACCTCATCCTGGTAATAATATGGATGCGACTCACTTTGTATTTGATACAAACGAGGCAATCCAACTCATTTATGTAGTTGACATGCGAATGGGGGCATCTTGTGCGATGAGATTGTACAAGACCGAACCACAAATGATTAGACTACTGTTGTAACACCGTTAAAAGATTAGGACTAATAATTCATAGATGATCATTAGTGATTCGACCTGAATTCTGAACGAGTTACGAACTTCTGTATGCGGGGGTTTGTCCTTAGACTAGTATGTGAGAGTGACCAGAGTTGTCGACTCAATTTGCCTACCTTCTTAGGGACGAAACCTCATTGGAGCTGGAAACTTAACTCCATAAGAAGGAATTAACTCGTTCCCGAGTTAGAGAAATTTAGATCGGTTGTTGCCTTAAGAACTGAATCCAGGTCTTGAACAACAGGGCCTCACCCTCTCACTGACCCAAGAAGACTTTGTTTATGGTAGGACCATAAGCTAGTTGTTCATTAAAGGATCAATGGTACTTAAGGAGCAAGAGGTAGTCACAGGGGTAAAATGGTAATTTGACCCAGCTGTGACTACGAACAACCTGTGAAAGGTCAACTCACGAACATTGGTTAAATCAATGGGCACAACTTGTCCTACAGTGAGAATAGTGCAACTACAAGTCTATAGTGGAATGACTCGTAATTAATAAATGTTAATTAACAGGATCAAAGAGTTTGATCAGTTAATCTCGTATCATTAGAACTCATGATCTGTAGGTCCATTAGGTCCTTATGTTGGCTCAATGTGGATATATCGAGGGTATAAAGTTTTGGAATGAATTTGAAGTGTTCAAATTCATATAAGGGATTTATATCAATTATATAATTGATATAATATATAGTTTGATGTGAATATGATTCATAATGAACTATATACTTGAATTATTGCTTAATTATGAAATTGTTTCATAGTTAGAGGAATTAAACATGAGAGATATGAAAATTGAATATGATTCAATTTATAATGCACATTATGCAAATATGATTTGCATAATAAGGTATAAGATACCTTATATTATGCAATTATGCAAATATGATTTGCAGAATGCATGATATGTGTATTTAGTGGGATAGTGGATGAAGAATTTATCTTCATCCTTACTCCCTATATAAAGATGCATTTGGATGCATTTGGTAGCTGAAGAAGTCACTTTTTGGAAATTGAGATTTCCATAACAAGAGAACTCTCTCTATTCCTTTCAAACCTCTCCCTTCACCAAAAAGAATCTCACATATTCTCCCTCTCCTAAAGAACAACCGAGAAGCCCTTTTGGTAGTGTTCGAGGTGTTCGTGATTGTAGAGAACGAGATGAGTACAAATGAGGAGAAGAACTAGAAGAAAGGTCTTCAAAGGTAATCTTTTCTTCTACCCAATTATGCTTAATCTAATTTACTGTTTTTGTGATATTCTTACAATGAAATTGTGAACAAAGCGATTCAAAACGCTTCACCACCACGATATGATCCCTTTAGCCCTGTGATCCAGTGGCCTAAATACTCGACCCTACTCTGGCCAAAGGTACATTTTTTTCCATTCAACATCAAGTGATTATCACGGAGGACATTGAATACCATTCCTAGGTGTTTCGAATGTGTCTCATAATCTGGGCTATAGATCAAGATGTCATAAAAAAAACCAGCACACACCTTCTCAGAAAAAGACGAAACACCTTGTTCATGAGGGATTGGAAAGCCGCAGACGCGTTCGTAAGGCCAAAAGGCATGACAAGGAACTCGTAATGCCCCTCGTGAGTGCGGAAAGTTGTCTTCCCAATATCTTCCTTGCTTATTCTGATTTGGTGCTATCCCAATTTTAAATTCAATCTGGAGAAAACTGTAAATCTGTGTAATTCATCGAGTAGCTCCTCAATCATAGAAATCGAGAATTTATCTCGGATGGTCACGCGATTCAGGGCTCGGTAGTTGACATAAAATCTCCAATATCCATCTATTTTCTTTATAAGTAGTATTGGACTTGAGAAAAAGTTTGTACTAGGTCAATCCTCGAAGTCAACATTTCTATCATCAACCTTTCGATTTTGTTTTTCTGGGCATGAGAATACTTATACAACCTAACATCACATGCCCCTTTCCCTCTATAATTATCCAATGATCAACCTCTCTCCGAGGTGGCAACTCCATTTTTGCTTGAAATAAATCGACATACTCCAATTTTAATTTACTCAGTTCCTCAGGAAGGATCACTGGTGACTCTTCCGGGATATTTTCGTCCATCTCCCCCTATCCCCTTGATGAAATATCTTGGAGTTCTACTAGGAACCCTTGATCAAATTTATTCCAGTCTCTTACCATCATCTTCAACAAATCTTGGGCTTTGTTAAGGATGGATCTCCTCTTAAAGTAATTTGCCATCTTCCTACAACAAATGTCATCGTCAACTTCTTCAAGTCAACCTCCATGATTCCTAGTGTTCTCAACCAAAGCATCCCCAAAATAACGCCAACCCCTCCCAACTAAATAGGTAGCAGGTCTTCCTGTATTGAAATTTCTATTAAGTGGATCATGACCTTTAGGACAAAATTTGATTTGAATAAGATTCAAATTTAAACTATTAGGACAAAATTTGATTTGAATAAGATTCAAATTTAAAACTATTGGTTATATGAGAGATATACAATAGAATATAATTCAATGTAAATCTAATTAAGTATATGATGCTTAATTAAATGCATTATGCAAATTGATTTGCATAATGCTAATTTGGTGGAAATAATGGGGTGGTGGATGCTAATTTGCCTCCATCCACACCCATTATATAAAGATGCAATTAGTTGCATTTTTGGCACTCAAGTGACAATTGAAGAAAGTTCTCTCATTTCAACTATCCACCAAAAACCAAATTCTCTTTACAACTTCTCCCTCTCAAAATTCTCTATAGAATTTCTTATTCCAAAAAGGGTTCCTGATAACTCGCCTTAGAAGAGTTATTTTACTAGAATTTTAGTGTTTAATCTACTTGAATTGCATAGAATTTATTGAGCTTCATGTTAATTTATCCCTAAATTATGTGTGTTAGCTGAAAAATCTTGAATTTAAGTATTAGGTTCGAAAACGATTAATTTTGATGTTTTTGTGCTTCAATTTAAGAAATTTAGGAAAATAAGCTAACGATTAATTAAAAATCGAAATTTGAGATTTTTCTTAACTCCAAAAATCCTTACATATTTAGTTTGATTTATAATTGAATTTATGATTTATTGGGATTTTTCTGTGTGCAGGAGAATAAAAATGACAGGAATCTCCAAGGGCATTTTAGACATTTTATCCGAAGGGTAAGGTGATCTTTTTACCCCTAAGGAAATTTTTGTAATTTGCGGAGTTAGGACAACATCATCTTATAAGGAGGGTAGGGTTTACAAGTTGAAAAAGAGGAGGCAGAAAAACGAGAGGAGAAAGAGGCGTGCATTGGAGAGAGCAATCGAGAAGGCTCGTTTTACTGAAGCAAGGTTGTCGCTTTCGGGAAGAAGGGTGTGCCTTTGATGAAGCAATCGAGGGAGCCCTAGTTGCAGCAAAACACAAGAAAAACGAAAAGAAGGGGCTGGAAACTGAGAGCTACAAGGGGAGATCAATGCAGTTTAGTTTTTCACAGACGACGTTCACAAAGTTGTTGTTTGCCAGAGTTTCAACCGTTGGATTTTTCTGAAATTTTGTCAGCTTTTTGGGGACTCAAAGGGCCTCGTTTGAATGGTTGGATCGTCATTATGTGCTTCGATTTATCAGATATTTCTGTCAGATAAAACTTGCGAAAACGTGAGAAGTCAGAGAAACGGTTGTTTGCAATTGCGTACAAAACCGCGTGGTTGTCATCCATAAAACGATCGCGCAATTGTTGAAGCAAAAAACGTGGCTATCACCTGCAATCAGCTGCTGCCTTATGGAGTCTCTTGGCCTCTTGTTGAAGCAAGACACTGCCCTCTTCCTTGCGTAAACCACTCCCAATCTCTATTAGTGTTTGCTCACTGCAATTTTGAGCTTTGATTGGGTTGTCTTTACTCACTCTTTTAGACTAAATTCATGACTTTTTTTGGGCTGAAATTGTGGTTGATTTAGGCCGTCTTTGTGATTGATTTTATAACACGTTTATTTAAATTTGTTGAACATCACAAGCATGC ATTATACCAACTCCCCTTGACTCACCTATCAGTAATATTATCAAAGTCTCCCCATCCTCCTTTCTAATGCCTCATCCCTTTCTAGTTTCCTCCACATACTGAGATTTCAACGCTTCTAAAAATTTCCTGGAAATTTCCATCGCCCTTCGTTCAACCACTCGGTATATTTCGTTTCTCTTGAATGTTTTTTATTCATCTGCTTCAGTTCCGATCTTGTTGAGATCTTTTTCTTTTTCGCTTTCCTAGTTCTTGGATTTTCGATTCTTCTTTTCATGTTCAATTTGGCGCCGTCTGTTGAGGGTTCCGGTGCTGTTTATCTGTAGGTGTTAATAATTCGTAGATCTAACTCCTAATCATTTCGTAGCATCAAGAGCTCATCTACCTTAGTTCACAAAAATGAGCCGCCCACAGGAACCACACAGACAATTTTTCCCCTTTGGGAACCCTTTCCGCATGATATCTCCGAAAGGTTCAAATTTGCCTTCAAAACTTGTTGCAATATTGAATGCTTTTGAGAGAAGCCTAGCTGAAAGACTAAGAAAGCTCCATCCATCTAGTAAAGATGATGTTCTTAGCCTTTCATGGATGAAATTAGCAATGGAGTTGCTTTGTGAAACTCACAGTGATGTTAAAACTCTCATCAAAGACTTAGAGCTCCCCGTGCCTGAATGGAATGAGAAGTGGATCGATGTCTATTTGGACATCAGTGTGAAATTGCTTGACGTCTGTAATGCTATTAGCTCAGAGCTTTCACACTTGAATCAAAGCAACCTCATGCTCCGATGCATCACCCATAATTTGGATTCTGCCGAGTCAAAGCGACTCACTCGAGCCCGTGCTTCCTTAGATCAATGGAGATTGAACATCAGCTCCACAAATTCTAGAATTAAGAATTGTTGCGCAATCTTAGACAGCCTTGTAGAATCACTCGATCTTCCAAAAGTAAAGAACTCAGCCAAAGGTAAGGTTCTGATGCACGCTTTGTACGGGGTAAAGGTACAGACAGTTTTTGTGTGCAGTGTCTTTGCCTCAGCCTTCTTAGGTTCCCCAAAACTCTTTGATCTAAACATTGCTGATACATATTCATGGGGACAAACTTTCTCCACCTTGCAAAATGATGTAAATAGTGAAATTAGAAGTATATACTCACGTGGAAAGTTTACCCCACTGAAGGAGCTTGAAGCTATCGATCAATGTGTGGCCACTCTTCATCAAATAATCCCAGAGAATCCAGAAGTTGTGGAAGTTCAATCGCTGAAGAACACCGTGTCGGAGTTGGGAGGAAAGGCAGAGAGACTTTCAGAAGGTCTTCATTTGCTGACGAAGGAAGTCGACAGCTTTTTCCAGATTGTCTTGGGAGGACGTGATGCTTTGCTATCAAACCTGAGGGGCTGTTAAATCATATGGAGCTAAAACTTGAACCTGTGTACAGGGATGGGTTTGTCTCTCTTGTGTTTCAACTAAAGTATATTAATTAACTAACCATAGTCATAGTGTAGTGTAGTCTTTTGCTATATGCTAAAGCTTTTGGGTTGTATTTCTAATTGTGTGTGTAAGAATGAACTTTGAAATGGAAGTAATATTAATATGGGGTTTCTATGTTTGAGAAAATGGTTCTGTTTTCTCCCGGTTATAATTGACTATAGAATTGAGTTTTGTGCATGATTTGTGGTGATTCGTGGGGTTTTCGTACGGATAATCTATTTACACGCGCTTTAATGGTTGATGATTTGCATTATGAAAATAACGAAATACTCATAAGGGTAAAATATGTAAGATGGTCTTTCTTGTTCACGCTCTCGTTCTCTCCCTCTTATTTTATTGCTAGGAAAAAAAATCAGAGAAGAGCTACGGTAGCAGGAGTAGAGCGAAAGCGAGAGCTATAGTGCGAAAAAATGTCAGAGAAGAGCTAGAGTAGCAGAAGTACAGCAAGAGAGAATAAAAATGACAGGAATCTCCAAGGGCATTTTAGACATTTTATCCGAAGGGTAAGGTGATCTTTTTACCCCTAAGGAAATTTTTGTAATTTGCGGAGTTAGGACAACATCATCTTATAAGGAGGGTAGGGTTTACAAGTTGAAAAAGAGGAGGCAGAAAAACGAGAGGAGAAAGAGGCGTGCATTGGAGAGAGCAATCGAGAAGGCTCGTTTTACTGAAGCAAGGTTGTCGCTTTCGGGAAGAAGGGTGTGCCTTTGATGAAGCAATCGAGGGAGCCCTAGTTGCAGCAAAACACAAGAAAAACGAAAAGAAGGGGCTGGAAACTGAGAGCTACAAGGGGAGATCAATGCAGTTTAGTTTTTCACAGACGACGTTCACAAAGTTGTTGTTTGCCAGAGTTTCAACCGTTGGATTTTTCTGAAATTTTGTCAGCTTTTTGGGGACTCAAAGGGCCTCGTTTGAATGGTTGGATCGTCATTATGTGCTTCGATTTATCAGATATTTCTGTCAGATAAAACTTGCGAAAACGTGAGAAGTCAGAGAAACGGTTGTTTGCAATTGCGTACAAAACCGCGTGGTTGTCATCCATAAAACGATCGCGCAATTGTTGAAGCAAAAAACGTGGCTATCACCTGCAATCAGCTGCTGCCTTATGGAGTCTCTTGGCCTCTTGTTGAAGCAAGACACTGCCCTCTTCCTTGCGTAAACCACTCCCAATCTCTATTAGTGTTTGCTCACTGCAATTTTGAGCTTTGATTGGGTTGTCTTTACTCACTCTTTTAGACTAAATTCATGACTTTTTTTGGGCTGAAATTGTGGTTGATTTAGGCCGTCTTTGTGATTGATTTTATAACACGTTTATTTAAATTTGTTGAACATCACAAGCATGC ATGAGCCGCCCACAGGAACCACACAGACAATTTTTCCCCTTTGGGAACCCTTTCCGCATGATATCTCCGAAAGGTTCAAATTTGCCTTCAAAACTTGTTGCAATATTGAATGCTTTTGAGAGAAGCCTAGCTGAAAGACTAAGAAAGCTCCATCCATCTAGTAAAGATGATGTTCTTAGCCTTTCATGGATGAAATTAGCAATGGAGTTGCTTTGTGAAACTCACAGTGATGTTAAAACTCTCATCAAAGACTTAGAGCTCCCCGTGCCTGAATGGAATGAGAAGTGGATCGATGTCTATTTGGACATCAGTGTGAAATTGCTTGACGTCTGTAATGCTATTAGCTCAGAGCTTTCACACTTGAATCAAAGCAACCTCATGCTCCGATGCATCACCCATAATTTGGATTCTGCCGAGTCAAAGCGACTCACTCGAGCCCGTGCTTCCTTAGATCAATGGAGATTGAACATCAGCTCCACAAATTCTAGAATTAAGAATTGTTGCGCAATCTTAGACAGCCTTGTAGAATCACTCGATCTTCCAAAAGTAAAGAACTCAGCCAAAGGTAAGGTTCTGATGCACGCTTTGTACGGGGTAAAGGTACAGACAGTTTTTGTGTGCAGTGTCTTTGCCTCAGCCTTCTTAGGTTCCCCAAAACTCTTTGATCTAAACATTGCTGATACATATTCATGGGGACAAACTTTCTCCACCTTGCAAAATGATGTAAATAGTGAAATTAGAAGTATATACTCACGTGGAAAGTTTACCCCACTGAAGGAGCTTGAAGCTATCGATCAATGTGTGGCCACTCTTCATCAAATAATCCCAGAGAATCCAGAAGTTGTGGAAGTTCAATCGCTGAAGAACACCGTGTCGGAGTTGGGAGGAAAGGCAGAGAGACTTTCAGAAGGTCTTCATTTGCTGACGAAGGAAGTCGACAGCTTTTTCCAGATTGTCTTGGGAGGACGTGATGCTTTGCTATCAAACCTGAGGGGCTGTTAA MSRPQEPHRQFFPFGNPFRMISPKGSNLPSKLVAILNAFERSLAERLRKLHPSSKDDVLSLSWMKLAMELLCETHSDVKTLIKDLELPVPEWNEKWIDVYLDISVKLLDVCNAISSELSHLNQSNLMLRCITHNLDSAESKRLTRARASLDQWRLNISSTNSRIKNCCAILDSLVESLDLPKVKNSAKGKVLMHALYGVKVQTVFVCSVFASAFLGSPKLFDLNIADTYSWGQTFSTLQNDVNSEIRSIYSRGKFTPLKELEAIDQCVATLHQIIPENPEVVEVQSLKNTVSELGGKAERLSEGLHLLTKEVDSFFQIVLGGRDALLSNLRGC Homology
BLAST of Tan0018011 vs. ExPASy Swiss-Prot
Match: Q9LMM6 (Protein BPS1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=BPS1 PE=2 SV=1) HSP 1 Score: 347.1 bits (889), Expect = 2.3e-94 Identity = 180/333 (54.05%), Postives = 244/333 (73.27%), Query Frame = 0
BLAST of Tan0018011 vs. ExPASy Swiss-Prot
Match: Q337C0 (UPF0496 protein 4 OS=Oryza sativa subsp. japonica OX=39947 GN=Os10g0513300 PE=2 SV=1) HSP 1 Score: 249.2 bits (635), Expect = 6.5e-65 Identity = 134/297 (45.12%), Postives = 187/297 (62.96%), Query Frame = 0
BLAST of Tan0018011 vs. ExPASy Swiss-Prot
Match: A2Z9A6 (UPF0496 protein 4 OS=Oryza sativa subsp. indica OX=39946 GN=OsI_033149 PE=3 SV=2) HSP 1 Score: 245.7 bits (626), Expect = 7.2e-64 Identity = 132/297 (44.44%), Postives = 185/297 (62.29%), Query Frame = 0
BLAST of Tan0018011 vs. NCBI nr
Match: XP_038874452.1 (protein BPS1, chloroplastic [Benincasa hispida] >XP_038874453.1 protein BPS1, chloroplastic [Benincasa hispida] >XP_038874455.1 protein BPS1, chloroplastic [Benincasa hispida]) HSP 1 Score: 601.3 bits (1549), Expect = 5.1e-168 Identity = 300/333 (90.09%), Postives = 318/333 (95.50%), Query Frame = 0
BLAST of Tan0018011 vs. NCBI nr
Match: XP_022147201.1 (protein BPS1, chloroplastic [Momordica charantia] >XP_022147202.1 protein BPS1, chloroplastic [Momordica charantia] >XP_022147204.1 protein BPS1, chloroplastic [Momordica charantia]) HSP 1 Score: 600.9 bits (1548), Expect = 6.7e-168 Identity = 298/333 (89.49%), Postives = 312/333 (93.69%), Query Frame = 0
BLAST of Tan0018011 vs. NCBI nr
Match: XP_023000267.1 (protein BPS1, chloroplastic-like [Cucurbita maxima] >XP_023000268.1 protein BPS1, chloroplastic-like [Cucurbita maxima]) HSP 1 Score: 590.1 bits (1520), Expect = 1.2e-164 Identity = 297/332 (89.46%), Postives = 313/332 (94.28%), Query Frame = 0
BLAST of Tan0018011 vs. NCBI nr
Match: XP_023514376.1 (protein BPS1, chloroplastic-like [Cucurbita pepo subsp. pepo] >XP_023514377.1 protein BPS1, chloroplastic-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 590.1 bits (1520), Expect = 1.2e-164 Identity = 297/331 (89.73%), Postives = 312/331 (94.26%), Query Frame = 0
BLAST of Tan0018011 vs. NCBI nr
Match: XP_023006608.1 (protein BPS1, chloroplastic-like [Cucurbita maxima] >XP_023006610.1 protein BPS1, chloroplastic-like [Cucurbita maxima]) HSP 1 Score: 588.6 bits (1516), Expect = 3.4e-164 Identity = 295/331 (89.12%), Postives = 311/331 (93.96%), Query Frame = 0
BLAST of Tan0018011 vs. ExPASy TrEMBL
Match: A0A6J1D0B6 (protein BPS1, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111016210 PE=4 SV=1) HSP 1 Score: 600.9 bits (1548), Expect = 3.2e-168 Identity = 298/333 (89.49%), Postives = 312/333 (93.69%), Query Frame = 0
BLAST of Tan0018011 vs. ExPASy TrEMBL
Match: A0A6J1KM61 (protein BPS1, chloroplastic-like OS=Cucurbita maxima OX=3661 GN=LOC111494547 PE=4 SV=1) HSP 1 Score: 590.1 bits (1520), Expect = 5.7e-165 Identity = 297/332 (89.46%), Postives = 313/332 (94.28%), Query Frame = 0
BLAST of Tan0018011 vs. ExPASy TrEMBL
Match: A0A6J1L5F0 (protein BPS1, chloroplastic-like OS=Cucurbita maxima OX=3661 GN=LOC111499286 PE=4 SV=1) HSP 1 Score: 588.6 bits (1516), Expect = 1.7e-164 Identity = 295/331 (89.12%), Postives = 311/331 (93.96%), Query Frame = 0
BLAST of Tan0018011 vs. ExPASy TrEMBL
Match: A0A6J1HIM9 (protein BPS1, chloroplastic-like OS=Cucurbita moschata OX=3662 GN=LOC111464379 PE=4 SV=1) HSP 1 Score: 585.9 bits (1509), Expect = 1.1e-163 Identity = 296/332 (89.16%), Postives = 310/332 (93.37%), Query Frame = 0
BLAST of Tan0018011 vs. ExPASy TrEMBL
Match: A0A6J1H565 (protein BPS1, chloroplastic-like OS=Cucurbita moschata OX=3662 GN=LOC111460240 PE=4 SV=1) HSP 1 Score: 585.1 bits (1507), Expect = 1.8e-163 Identity = 293/331 (88.52%), Postives = 310/331 (93.66%), Query Frame = 0
BLAST of Tan0018011 vs. TAIR 10
Match: AT2G46080.1 (CONTAINS InterPro DOMAIN/s: Protein BYPASS related (InterPro:IPR008511); BEST Arabidopsis thaliana protein match is: Protein of unknown function (DUF793) (TAIR:AT1G01550.2); Has 153 Blast hits to 139 proteins in 20 species: Archae - 0; Bacteria - 2; Metazoa - 1; Fungi - 0; Plants - 150; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 390.6 bits (1002), Expect = 1.3e-108 Identity = 194/332 (58.43%), Postives = 255/332 (76.81%), Query Frame = 0
BLAST of Tan0018011 vs. TAIR 10
Match: AT1G01550.1 (Protein of unknown function (DUF793) ) HSP 1 Score: 347.1 bits (889), Expect = 1.6e-95 Identity = 180/333 (54.05%), Postives = 244/333 (73.27%), Query Frame = 0
BLAST of Tan0018011 vs. TAIR 10
Match: AT1G01550.2 (Protein of unknown function (DUF793) ) HSP 1 Score: 347.1 bits (889), Expect = 1.6e-95 Identity = 180/333 (54.05%), Postives = 244/333 (73.27%), Query Frame = 0
BLAST of Tan0018011 vs. TAIR 10
Match: AT4G01360.1 (unknown protein; BEST Arabidopsis thaliana protein match is: Protein of unknown function (DUF793) (TAIR:AT1G01550.2); Has 99 Blast hits to 99 proteins in 25 species: Archae - 0; Bacteria - 10; Metazoa - 0; Fungi - 0; Plants - 89; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 205.3 bits (521), Expect = 7.6e-53 Identity = 130/329 (39.51%), Postives = 198/329 (60.18%), Query Frame = 0
BLAST of Tan0018011 vs. TAIR 10
Match: AT3G61500.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G46080.1); Has 90 Blast hits to 90 proteins in 16 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 90; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 117.9 bits (294), Expect = 1.6e-26 Identity = 71/167 (42.51%), Postives = 99/167 (59.28%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
|