Lsi07G008420 (gene) Bottle gourd (USVL1VR-Ls) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGGTATGTGTTTGCTCTTCATTTTCCTCTGTTTCTTCTCTTCCTTCAATGAGTGTTGAAAGTTCATATCAGTCAAAATGATAATTTCTAAAGGGAATTCATAGCTGAATCCAATGCTCTAGAGGAAATTGCAGACGTTTCTCTCTCGGTTGCAGGAAAGGTCTACTAAGTTTTCTTAATAGGTTTTGGGTTTAGTCGACTCTAGTTGAGAATTGACACTCACATTGGTTATATTTGGGGTAACATAAAAGTGCTTTTTGAAAAGGGAAAAAAAAAGTCAGAAGTAATTTAGTTAGAAATGCTTTTTGACCGATTACGGTAGGGCGGTTAAAAGGATGTTAAGGAACGTAAGTTTGTTGATGGTAGGATTGGGAAGCACGTTAAAAGCACACTAAACAGCAGGAATAGGAAGCATGTTAAAAGTACACTAAACAGTATGAATAGGAAGCTTGTCAAAAGCACACTAAACAGTAGGAATTGGAAGCATGTTAAAAGCAGACTAAACATTGAATAACTTGTTATTAAGCACTTTTTACTAATGTGTTTATAGTTAAAAGTATCATATCTATATGTATTTGCTAAAAGTACTTAGTTTGAAACTACTTGCAGATGCAGCTTTTAATGTGATGTGTGTGTTTTGTCACAGCTGCTCCTGCGACAAGGAACGCAAGTTTGCTGATGGTAGGGACAGATTCAGACGTATAGAGATATGTTATACACAGTCAATTGTTAAAAGTAAAGATCAACTGACATGGATCCTTTGGCATTTTTATAACTTTCCATGTTCAATTTTCAAACCACACCGATGAACTGATGACCAGTGACATGGTCTCTCGCTGGTTAAGCAAAAATGAAAGCCTATGGCAATTGTCAGGTAGATTCAAAACAAAACAAAGATCTTTTATGTGTAGATTTGTTCCCATCTTATAGAAATGATTCAGATTCTTTGACATATAACATTGGAATTGAGTTCTCTTGGCTCCGATGGTTGTAACTGTCCAACAATATTGTACTGTTGTGAATCTCAATGGTTTTACTTTCAGAATTCTGATAGAAAGTTCTTACCGTTTCAGTACTGTCTGTTCAACGTTCTGTGGAGTTCAAAATTTGTTGGCCTGATTCCATTTTATTTTTTCCTAGTTTGATTAATCATTTGACTGAGTTTCAATTTTGTATGTATTCACTATTTACAGTGAGGACTTGTATATATCTGGTTTTGATATGATATTTTGAAGGAAGTTTGAATCGTGATGTTAACAAACCTGAACTTGTAAAGTGTGGGGTTGGAAAGTTCCGGTTTGTGTAACAAGATTGTAGAAAGGAAAATGGATAAAGAGAGCTATAGAATTTTAGAACATTATGACATTTCATTTTACTTTTGTGGAAAAGAGATGAGGAAAGTTATAATGAATTATTTATTTTTCTTTTGCGGATATAATGGTGAAGAGGATATCAACGAATATTTTATTTCTCTTTTTGCAGATATGTTTTTATAAGATATTGCCATGCTGAGATATAATGCCATGTGGTATCAATATTTTCTTTTAATGTATTAAATTTGTCTCAAACAACCCTTTCGTAGACTATTTCATTAAAATGAGGGAAATGTGACGTGACTATGTATGTAAAACAGTGGTATGTTTATGTGTGTTAAACTTTAGGGTATGTTTCAATTATGCTTGTATCGTTTTACTCGACATTTGAAATTGTTATTGAACAATCATTTAAATTTGATTCTTTGTTAAAGTAGGATGAAAATATGATATGATGATTAGTTGAAAAAGTAGAGATAACATGTATGAAATAGAGATTTAGTTAAAATGGACGAGGAAACTGTACATTTGTGACAAGTTATGCACTAGTATAAATAAACATCTTGACTACAAAAAGCCAAACGCTAAAAAAAAAAAAATGGAGATAGGATAATTTATAGAGAGAACTTAGCGGTTGGCATAAACTTGATACAACTGTCATAAAACGTGTACTTTCGACCAAAATGTTAGAGGTTTGAGTCTCCCATCTCTATTATTTAAACTAAAAAATATGGTGAAAAGCTAAGCAGAAATATGTTTATGAGAAAAATAATAATAATAAAAAAAGAGATTTATGAAAATATTTTCATCGTCAGAAGTAAGAAATCCATGGTCAGAAGTAAGAAATTTATCAAGAAATAGTAGTAGAGGTCACTGTGTTAAAATGTCTTCCATTCATTCATGCTCTAACCTTAACTTTTGTCAAGTGGTTGTGAGTTAGAGGCTCAAATTTCGTTTGCATTTTGTTGTCTATCTACGTCTTACTCTCTCAAAAACTTCATTCTACACAAATCATTTGATTGTGAGAAATGAAACAATATTGTACTATATAATCTTTAAATTCACTCCTCTCAATCTACATGTCATATAATGTCATTTTGAATATAACTAAGCTCATTGTTTTTTTTTTTTTTTTACTATCATCACAACATATTTTCCTCTTCATTTTAATGAGGAAGTTAACAAAATGTTTCTTTTGAAACAATTTTAAAAGATAAAAATGAGCATTTTGAAATTATAAGGGTATAATTAAACACATATCTTAACACGTAGAATATAATTGATGTCACATTTGTCACATGTACTAATGTTATACCATTCACGCACCTAACACATTCTCATGTAACGAAAATTACAAGTTGATAGATTGATTATTTTGAAACAAATCTAAAGTTTTTGGATAAGAATGGAAGTGTTGAAATTTTTGGATATAATAAGAATATTTCATGTAATTTAACATAATATTAAGTTATTACGGTGGTTACCCTAAGGGGAAAAAAAGAAAAAGAAAAAGGAAAAAAAAGAAAGAAAACATAAACGGCAAGTAAAAGTAAAACCTATTAAATGAATAATAATAACAAAAATAACAATAAAAAAAAAAAACTTTAGGAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAGAAAAAAACCGCGTTTGGTTTAGAAGAGGAATTAATTTCAACGATTTGTCCTTTTTTATTTCGGTTGGAGGGAGAGAGGGAAGGAAGGGCCTAGAAGAAAGAAAGGGAGGGAAAACAAGGAAAAATAATAACGCTATGCGATTTCGCTGGTGGTGGTGCCGGCGGCGACAGTCGGGGAGTAGAGGTACCGGACCGGCGGCCTCAAATGCTCTGCACAAACCTAGCCAGGAAGAAGAAGGTCGTTAATGGCCTTGCAATTGCAAATGAGTTGGCAACCGAGTTTACTGAGTCAGAAGCGGCGGAACGGCCCTCCACTCGGTCTCAAAAACCTAGGCAATACCTGCTACCTCAACAGCGTCCTTCAGTGTCTCACTTACACCCCTCCCCTCGCCAATTTCTGTCTCCGCAACCAGCACTCCTCTCTCTGTAACTATTTTCTTCCTTCGTTTCTCTCTATCTTCGATTTGATTCCCTTTTCTGCCCTAATTAATATGTGTTTGTGCGTTTCAGGCGATTCTGCTTCCTCCGACGCCGACCGGAAACGCGAATGTCCATTTTGCGTTCTGGAGAGGCGGATAGTGAGGTCTTTGAGCTTGGATCTCACCTTGGACTCGCCTCTCAAGATCCAGAACTGTCTCAGGATCTTCGCCGAGCATTTTCGCTTGGGCCGTCAGGAGGATGCCCACGAGTTCCTTCGTTATGTCATTGACGCTTGTCACAACACCTGCCTCCGCTTGAAGAAGCTGCGTCGAAATGGCACCTACAACGGTGGAGCTACCAGTGGAAGCTCCACGGTCGTGAAGGAAATTTTTGGGGGTGCCTTGCAGAGCCAGGTGAAGTGTTTATCTTGTGAAAACGACTCCAATAAGGTTGACGAGATAATGGATATTAGTCTTGATGTTTTGCATAGTAGTTCTCTTAAAGAGGCATTGCAGAAGTTCTTTCAACTGGAAATTTTAGATGGCAGTAATAAGTACAAGTGTGACAAGTAAGCTTTTATATATCCATCTTCTTTCACCTCTGGTTTTGGAATCTTCTTTTGCTCGGGTCTGATTGGGGGAGATAATGTCTCTTTTGTAGTTGTAAGAAGTTGGTGGTGGCTAGGAAGCAGATGTCAATACTCCAAGCACCAAATATTCTTGTCATCCAATTGAAGGTTTGCTGTTCTGACCTTTGGTTTTTTCTTTTCACCGTTCAATTTACCGTTGTTTGTTCAAGTTCGTAGTGTTGCTGCTTTCATGTAAAGGCATTGTTCTTGGATGGGTTTGGCAGAGATTTGAAGGCATATTTGGTGGTAAGATTGACAAGGCCATTGCGTATGAGGAGAGTTTGCAGCTTTCAAATTTCATGTGCAAAGGAAATCAGGTGCGTGTCTAACAAAAAAAATGATCTTGCTGAAATGCCTCTTTATCAAGATTGCTGGTATGTTCGAGCTATGCATGTAAACATGTCCATTGAACTATATAAATATTATGAGGTACATAAGCGATGTAAACTTAGTTGGAATAAAATTTCACTGTAAGATCATGTGAGACTTTCTGCCTTAATACACTCTTAATGATAAATGATGAATGTCCATACTCCATATATTAAAGGTAAGGATTTCTCTGCAAGTTACTTGGAAGACCCTACCCTAGACATTCATCAACGATCTTTTTTAACATCTGGGAGGGACCAAAGACCAATCGTCTACTCTTCTAATTAGTTATAGGTTTCAGCCAAAGTTATAGACTAATTGTAGCACAATGTGGTTTCCAATAACAAATTCTTTGTTCCTTCTTCAGTCAATATTATATTTATATTTGGGATTGCTCTTTCCAGTATGCCTGTAACTTTTTTTTTTTTTTGCTGAGCACTTATATCTGCCATTTTCTTGGCTTGCATGCTAGAATATGCTGGTTTAGAAGTGCAACTAAACCAAAAGTTAATCAACACATCTTAGTTAGAATCTTAAATGGAGACTTGCTCATAAAATCGTTTGTTTTGGGTCCCTAAGCCCCAACTCAGCTTCCCTAATATGCAATCAGTCACCTCAGTACCCCCATCTGGTAGGGATGGTTGGTTTAAAAGGCGTAGTTCTCCGCAATGTAGTAATTTACTTAGGAAGTGGTTCGAAAAGATACATTTGACTTACAGAGCAAGAGAAAAGAGATCTTGTTAAATTAATCTATTGAAACAAAGGTTGCATCATGGCTCCAGTGTATCATTGCAAGGTCTTTGCATAAGCAATCCCACGTATTGTGATTGTCCTTTTGATTCTGTAAGGTAGGTCACCTTCAGACTAAATATCCTCGTTTCTTTTTAAGTCAAAGCCAACTAAGATGGGAGATGGGAGGAATATAAGATTCTGGTAATATCATTTGGACGGTAATCGGACCTTTAAAGAGCTTATGTGCTATCTAGTCTCTGACTCTCTATTGAGCGATCATTTTAAAAACCTTCCTGTATGAATTGCTGCGGTGAATCACGAAAAGTGTGGGACTTAGATTTTAGAAGTGGTCACGGTTAACTAAATTTTGATTCTAATCAACAATTAAAATATGATTTCTAGGAGCAGGTTATAGAATACACGGTTGCTCTACTGGAGAAAATTTAGGGGAATGGATAGATATAAAAGGGTGTGGAACTTGCTACCCTTTTTGTGTGTCGGTTTGTGCGGTGGTGGGGAAGAAAATTAGTAGAAAATAAGTATGTTCTCATTTGTCCCTTTTAAGATCAGTGTTTGTGACCGATATTACAATGATTATCTGGAAGCAATAGACACAAGGAAAGGATAACATTTTCTTATGGAACCTTGTCCCATGGGGTATTAATGTGGGAAATATGATCCAAAACAGCACTGCAAGTGGCAGCACGTTTCTAAAAGTACTGATATATTTGATAGGAAATGAAGAATTTCATTGATTGAATGAAATTACAAAATGAGAGTCCTATCGAGTAGATTACAAGAAAACATTTCCAATGGCCTATAAGAGAGCTTAAGCCATACTTACAAAAGGGAGAGAACTAATTTACACCAATGAAGCGCAACATAAGTGACACAAGAAGTAACAGATTCAAGATCTTGTAGTGTATTTGTGAAGGTGTGTGAGTTCCTTTGAAGATAGGGAAGGCATGATTGAGAATGGCTAGAGGAAGAAAGAGCCGTGCTAGTAGTTACTGGCCCTTGGTTTGTACAAGTTCCATTCTTAGAGCACATTATCTTCTTTGCTATCTCTTGGTGTAAATTGTCCAAATACTTCAAGTCATATAGTTTTGATTCTCTTTTATCCAATTGGAGATGTCTATTGTAACTCCATTGGCTTGGGGTTTTCCTTCCCCCCTCTTTCATACATCAATGAAATTCTCTTATAAAAATAAATAAAATGAATGGCTAGAGGAAGAAGACATCTGAATAGAATGAAAAAAATTCTTTTAAAACTTTGACTGGCATGTATACCATAGGCATCTTTGCTCAATTTTCTTCTATTGTGATGTCCTTAATTTTTTTGTTCTATTGCTCTTTTGCATGATTCATTTATGCTGCAAATTGTAACTTCCTTTTGGTCCTTTTTGTGGTGGCTTTTGTTAATTTGTTTTGTTATATTTTATTGTAATTGATTTCTTAAATCTCGTTGCAGGATTCACGGCCAGAGTACAAGCTCTTTGGTACCATAGTGCATTCAGGCTTCTCTGCAGAGTCTGGACATTATTATGCATATATCAAGGTAATTGTGGGCCATATTCATATAAAACCTACTAAATTTATAACAATTTCAGATCCTGACAAGGTTTTCTGTATTTCTTTTTGCAGGATGCATCAGGTAGGTGGTATTGCTGCAACGACTCATTTGTTACAGTTTCAACTCTGCAGGAGGTTTTGTCCGAAAAGGTTTATATTCTCTTTTTCTCACGTACGAACCAAAGGGCAGTAACTGCTAGCACAGCTCTTGCTTCCAATGGTGTAAAATCTCATGAATGTAATGGCAGTGATGGATCCAAAATCTCAAAACCTTCTGTCGTGACTAAAACAGCACAGACAAGATCCCATGTTGAGCAATCTTCTCGGAAGGAACTTTCAAGTTTATCTAAGGTAGATAAACCAACTTTCGGTCCACGAGGAAAGTCTAATATGAACGGACATTCTAATTCCATACGATCTCCTTCCACCATTAATGGAAAGATTGTTCTTGAGAAGGATCAACCCATCAAGGAGAATGAGAAAGAGAATGTTAACTCGTTGCCTCTGGAAAATGGTGCAAGGCATAAATCCTCTCTTGGGAATGGAAATGGCAGAAAAACTTTCGAAGTTGATCATGATGTCACTGAGGGGGAACATAAATCTGTGTTAATGAATAGTAATGGTAATGGTGGGAGTATGGGAAGGAAAGCTGATAAACATGACCTATGTGATAGTAATCCTATGAATAACAAGTTCACTGCAGGAAGAGGGTCTAGTCATGACGAAGTGAATAATGCAGTCAACTGCCCCTCTGAGGTCAAAAGGGCCAAAAGAAAGTCGAACTTCTGTATCTTGTTTCAACAGGATGCTCAATCTCGGGAAAGAGTTGAAGACCTGAAACAAGAGTATGTTAATTTCCTAAAAAATATTTACCCATTGAATTCAATAAAGTTTAGTACTTTCATTTTATGATCTTTGGTAGATTAAGATGAATGAGAATTTTCTTGTTCTGACTTGATTTGTCTTTTTGTTGACCTATATACACAATATGGTCGCCAAACAGGAGACCTTGTTTAGTGGGGTCTCAGTAATAACAAAGCTGTTAATCTTAATTGTGTATTTTCTTTTTATATCCGTGAGTGTTCAAACCAACTTACGCGCACTTCGACTAACTCACAGGATAACCAACTTGACACTACTAACATTTGGGTGTCAAGGAAACTCATAGGATATTAAATCCTAGGCAAGTGGCCACAATGGATTGAACTCTATGACCTCTTAGCCCTTTATCAAAGTCATGTCCTTTATTTACCACTAGGTCAACCATTGTTGGTTCTGTTAATCTTAATTGTTAAGGTTTAGATTTACTTAGTTGTTATTGTAGACCACTTAAAGCAAGTTATACCTTTGATGCAGCGTTGGTCAACCCCTTTTCTGTATGATTATTCTATGTGTGACATTTTGTGCAATTATTTTTCTATTGTGCATTTCCTTTTAGCTTGATTTACTATTTCATGCTTCTTTTTCGCTTTCTATTTCTATTTCTATTTCTATTTTTGTTTGGCCTTTCACTTACAATGTGTTTGGATTAATTTCGTAAGTGATTTTGGAAGACCAAAAGTGTTTGTTTTCCCTTAAATCTAGAGTGTTTGTTGATAAATAAAATTATTTTTGAAATAGTCAAATTGGTTTATATTCATTTTTAAAGAATCACTTTAAAGTTGATTATCCGAAAGGTGATTGAGCGAGAATCATTTTAGAATTGTTTTATGGTTAAAACATTTGTAACCAAGCAACTTGGGGTTAAAATTACTTCTAAGAAAATGTGATCAAACTTGCAAGGATTTTAATTAAAACCAATTTTATAAAACACGTTTTAATATTTTTACTTCAGAAGTATTTAAATTAGGTGTGCTAAACTCACGCTTACCAGTTGTATTATCTCTTTCTATTAGGCTTCTGATGTACCTCTGTAGATTATTTCTTTTATGCTTTACTTTTATCAAGTTATTTTGGATTCTGACAAACTTTTTATATCTATATTTAGTCTCAAGAGGGAAACTTTATCAGTGTTAAGATCATGCGGTTGGTTAGAGGAGGTCTTCAGTTGCATGCGTTCAAGGAAGAGATTATGTTTACGGGAAATGGACAGCACTCCAAGTAGTAATGATTTAAAGTAAGTATCACTTTTTACATGTTCGTATAACTTCAACATTGCTTTTCTGGAGAAAGCTAGTCAGTGTTTTTGGCTTCCCATTCTGTTGGGAATTCCTCAAACCTGGATTGTGAAATCCTTCTTGATAAGCTGTGACAGTGTTCGTAAATATAGAAGGGAACTGTTTTTCTTTCTAATGGTATTTAAATTGGCATGAAGAAACTGTACCTGTATATGTAGCCATGAAGCCATGAACATTTCAATTTGGGGAACATGTCCGACACTTGTCGGATACGTGTTGGACACTTGTTAAGCATAATAGAGATTTGTTATAGACACTACTTAAACAAATTGAATACAAGTCCGGCAATTGTTCGGCATGCGTTGAGTACTTGTTAAGCACAATAAATACACATCAAACACTTGTAATCAATTTGAGCGTGAAATGTGAAGTACATATAAATGCTAAATGCATAAGCATTATTGATTTTGAATTTTCTTTTCATTAAGATGTTAAATCATTTAGAAAATTGATTAGTTGGTTTGGATCTATCTGGAATATTTTGATAGAGAACGTGTCACAAATGCACAAGCATGGTAAATTAAAACAATTTTTTTAGTATGAAAATTATCGAAATATTAAAATAAAATATATTTTATTCTATATATGGCCTCACCCTGTCCTATACGTTTAGAATTTAACATGCCACCATATCCTTGTTGCGTCGTCTGTGTATGTGCTTCTTAGACAGTTACAATAATGTTTTACATTTGTAAGTGTGGTAGCTCTTCAGTTATTCTGTTGGTTCTTTCTCTGTTCACAGCTCTTTTCCAATGTATGTGGGTCGAACTCATTTGTTTTATCACGATGCATTGGTTATACTCAAATGCCAGTTAATTGAGATTTGATTCATTGTTTAATTAAGTGGATGGCTGCTCTTTCTATTGTGTAACTATATCTAGATTTTGTAATTGGTATTTTATTGAATATGAGTTTCATTGCTTGGGTTCTGCTCTTATTATTTTATTGACTATCTAGTTTTATACACACGATATGTTAAGGACTTGCTTTCATAATTTAACTGCAATATGATCCAGTCTTTTTCTGGGGATATATTTTATTCCAAAATTATAATTCACAATTTAGTTTACTTTAAAAATTCACTGTGCTGTACTGTTAAACTACCTTTTTCTATCATTGAGCTTGATATTTTATGGACTGCAGTCCTATAGGAAATAAGTCTATAAATATATGCCAATTTTTATTGTCACCAAAGGAAAATTATGTGTCAAGTTTTACTTATTTTAACTGTGGGTAAACACCCATAAACAGTGTGCCAATGCTGATAAGCCATTCTCGTTTCAAGTGCATGTGTGTCCTGCTCTTCATAATGATACTAAAGTTCTGTGTATCTGGATTTTCATTTGGTGGATTTCTTTTTTCCATTACCTTTTGTAATTGAGAGTTATGACCCTTTTATTTTTTTATTTTCAATTTTTTTTTGGATAAGAGACCAATTTTGATTGAGAAAAAAAAATGAAAAAATGGAGAGAAGACTTTGTAGTGGGGATGTCTCCTGCTGATTGAACTGTGCCTTAATTTCCCCTTCTTTTGGAGTCTTAATAACATTCACCAGGGGTTGGAAGAGCTTTTTTTGATTGCTTTTATTAGTTGATCTAGGGTTTGCTGGTTGGGTTTAGGATGTTAGAAACTTAGAATATTTGACTTAAATGCTTGGTTTGCGTGAATTATCTATGATAAATAATGACCATCGTGGCTTGATTTGGGGCATACTCGTTGAATTTAAGCATAATTTTTAGGCTCTGCCCCTCCTCTCGTACTTGACTTGGTATTTTGGGTACAATACAGTGGTTGGAATTTCAGCACAATCTTCTTGGTGGTGGTTTTATTCTTATCACGTTTACTCCAATCATATGCATGCAGTTCATTTACCACGGAGCTTTCCTGTCCTAATATATTGTAATTTACACATGGTTTCACATTCAATGCAGGCAATTGCTGATTGCAGATGCCAAACAAAAGTTTATTTCACGGATACCAGAACCTCTAAAAGAAGGCCTTATTAAAAAACTTCAACTATTTAGCCAAGAAAAGTAG ATGAGCTGCTCCTGCGACAAGGAACGCAAGTTTGCTGATGGTAGGGACAGATTCAGACAAAGGGAGGGAAAACAAGGAAAAATAATAACGCTATGCGATTTCGCTGGTGGTGGTGCCGGCGGCGACAGTCGGGGAGTAGAGGTACCGGACCGGCGGCCTCAAATGCTCTGCACAAACCTAGCCAGGAAGAAGAAGGTCGTTAATGGCCTTGCAATTGCAAATGAGTTGGCAACCGAGTTTACTGAGTCAGAAGCGGCGGAACGGCCCTCCACTCGGTCTCAAAAACCTAGGCAATACCTGCTACCTCAACAGCGCGATTCTGCTTCCTCCGACGCCGACCGGAAACGCGAATGTCCATTTTGCGTTCTGGAGAGGCGGATAGTGAGGTCTTTGAGCTTGGATCTCACCTTGGACTCGCCTCTCAAGATCCAGAACTGTCTCAGGATCTTCGCCGAGCATTTTCGCTTGGGCCGTCAGGAGGATGCCCACGAGTTCCTTCGTTATGTCATTGACGCTTGTCACAACACCTGCCTCCGCTTGAAGAAGCTGCGTCGAAATGGCACCTACAACGGTGGAGCTACCAGTGGAAGCTCCACGGTCGTGAAGGAAATTTTTGGGGGTGCCTTGCAGAGCCAGGTGAAGTGTTTATCTTGTGAAAACGACTCCAATAAGGTTGACGAGATAATGGATATTAGTCTTGATGTTTTGCATAGTAGTTCTCTTAAAGAGGCATTGCAGAAGTTCTTTCAACTGGAAATTTTAGATGGCAGTAATAAGTACAAGTGTGACAATTGTAAGAAGTTGGTGGTGGCTAGGAAGCAGATGTCAATACTCCAAGCACCAAATATTCTTGTCATCCAATTGAAGAGATTTGAAGGCATATTTGGTGGTAAGATTGACAAGGCCATTGCGTATGAGGAGAGTTTGCAGCTTTCAAATTTCATGTGCAAAGGAAATCAGGATTCACGGCCAGAGTACAAGCTCTTTGGTACCATAGTGCATTCAGGCTTCTCTGCAGAGTCTGGACATTATTATGCATATATCAAGGATGCATCAGGTAGGTGGTATTGCTGCAACGACTCATTTGTTACAGTTTCAACTCTGCAGGAGGTTTTGTCCGAAAAGGTTTATATTCTCTTTTTCTCACGTACGAACCAAAGGGCAGTAACTGCTAGCACAGCTCTTGCTTCCAATGGTGTAAAATCTCATGAATGTAATGGCAGTGATGGATCCAAAATCTCAAAACCTTCTGTCGTGACTAAAACAGCACAGACAAGATCCCATGTTGAGCAATCTTCTCGGAAGGAACTTTCAAGTTTATCTAAGGTAGATAAACCAACTTTCGGTCCACGAGGAAAGTCTAATATGAACGGACATTCTAATTCCATACGATCTCCTTCCACCATTAATGGAAAGATTGTTCTTGAGAAGGATCAACCCATCAAGGAGAATGAGAAAGAGAATGTTAACTCGTTGCCTCTGGAAAATGGTGCAAGGCATAAATCCTCTCTTGGGAATGGAAATGGCAGAAAAACTTTCGAAGTTGATCATGATGTCACTGAGGGGGAACATAAATCTGTGTTAATGAATAGTAATGGTAATGGTGGGAGTATGGGAAGGAAAGCTGATAAACATGACCTATGTGATAGTAATCCTATGAATAACAAGTTCACTGCAGGAAGAGGGTCTAGTCATGACGAAGTGAATAATGCAGTCAACTGCCCCTCTGAGGTCAAAAGGGCCAAAAGAAAGTCGAACTTCTGTATCTTGTTTCAACAGGATGCTCAATCTCGGGAAAGAGTTGAAGACCTGAAACAAGAGTATTCTCAAGAGGGAAACTTTATCAGTGTTAAGATCATGCGGTTGGTTAGAGGAGGTCTTCAGTTGCATGCGTTCAAGGAAGAGATTATGTTTACGGGAAATGGACAGCACTCCAAGCAATTGCTGATTGCAGATGCCAAACAAAAGTTTATTTCACGGATACCAGAACCTCTAAAAGAAGGCCTTATTAAAAAACTTCAACTATTTAGCCAAGAAAAGTAG ATGAGCTGCTCCTGCGACAAGGAACGCAAGTTTGCTGATGGTAGGGACAGATTCAGACAAAGGGAGGGAAAACAAGGAAAAATAATAACGCTATGCGATTTCGCTGGTGGTGGTGCCGGCGGCGACAGTCGGGGAGTAGAGGTACCGGACCGGCGGCCTCAAATGCTCTGCACAAACCTAGCCAGGAAGAAGAAGGTCGTTAATGGCCTTGCAATTGCAAATGAGTTGGCAACCGAGTTTACTGAGTCAGAAGCGGCGGAACGGCCCTCCACTCGGTCTCAAAAACCTAGGCAATACCTGCTACCTCAACAGCGCGATTCTGCTTCCTCCGACGCCGACCGGAAACGCGAATGTCCATTTTGCGTTCTGGAGAGGCGGATAGTGAGGTCTTTGAGCTTGGATCTCACCTTGGACTCGCCTCTCAAGATCCAGAACTGTCTCAGGATCTTCGCCGAGCATTTTCGCTTGGGCCGTCAGGAGGATGCCCACGAGTTCCTTCGTTATGTCATTGACGCTTGTCACAACACCTGCCTCCGCTTGAAGAAGCTGCGTCGAAATGGCACCTACAACGGTGGAGCTACCAGTGGAAGCTCCACGGTCGTGAAGGAAATTTTTGGGGGTGCCTTGCAGAGCCAGGTGAAGTGTTTATCTTGTGAAAACGACTCCAATAAGGTTGACGAGATAATGGATATTAGTCTTGATGTTTTGCATAGTAGTTCTCTTAAAGAGGCATTGCAGAAGTTCTTTCAACTGGAAATTTTAGATGGCAGTAATAAGTACAAGTGTGACAATTGTAAGAAGTTGGTGGTGGCTAGGAAGCAGATGTCAATACTCCAAGCACCAAATATTCTTGTCATCCAATTGAAGAGATTTGAAGGCATATTTGGTGGTAAGATTGACAAGGCCATTGCGTATGAGGAGAGTTTGCAGCTTTCAAATTTCATGTGCAAAGGAAATCAGGATTCACGGCCAGAGTACAAGCTCTTTGGTACCATAGTGCATTCAGGCTTCTCTGCAGAGTCTGGACATTATTATGCATATATCAAGGATGCATCAGGTAGGTGGTATTGCTGCAACGACTCATTTGTTACAGTTTCAACTCTGCAGGAGGTTTTGTCCGAAAAGGTTTATATTCTCTTTTTCTCACGTACGAACCAAAGGGCAGTAACTGCTAGCACAGCTCTTGCTTCCAATGGTGTAAAATCTCATGAATGTAATGGCAGTGATGGATCCAAAATCTCAAAACCTTCTGTCGTGACTAAAACAGCACAGACAAGATCCCATGTTGAGCAATCTTCTCGGAAGGAACTTTCAAGTTTATCTAAGGTAGATAAACCAACTTTCGGTCCACGAGGAAAGTCTAATATGAACGGACATTCTAATTCCATACGATCTCCTTCCACCATTAATGGAAAGATTGTTCTTGAGAAGGATCAACCCATCAAGGAGAATGAGAAAGAGAATGTTAACTCGTTGCCTCTGGAAAATGGTGCAAGGCATAAATCCTCTCTTGGGAATGGAAATGGCAGAAAAACTTTCGAAGTTGATCATGATGTCACTGAGGGGGAACATAAATCTGTGTTAATGAATAGTAATGGTAATGGTGGGAGTATGGGAAGGAAAGCTGATAAACATGACCTATGTGATAGTAATCCTATGAATAACAAGTTCACTGCAGGAAGAGGGTCTAGTCATGACGAAGTGAATAATGCAGTCAACTGCCCCTCTGAGGTCAAAAGGGCCAAAAGAAAGTCGAACTTCTGTATCTTGTTTCAACAGGATGCTCAATCTCGGGAAAGAGTTGAAGACCTGAAACAAGAGTATTCTCAAGAGGGAAACTTTATCAGTGTTAAGATCATGCGGTTGGTTAGAGGAGGTCTTCAGTTGCATGCGTTCAAGGAAGAGATTATGTTTACGGGAAATGGACAGCACTCCAAGCAATTGCTGATTGCAGATGCCAAACAAAAGTTTATTTCACGGATACCAGAACCTCTAAAAGAAGGCCTTATTAAAAAACTTCAACTATTTAGCCAAGAAAAGTAG MSCSCDKERKFADGRDRFRQREGKQGKIITLCDFAGGGAGGDSRGVEVPDRRPQMLCTNLARKKKVVNGLAIANELATEFTESEAAERPSTRSQKPRQYLLPQQRDSASSDADRKRECPFCVLERRIVRSLSLDLTLDSPLKIQNCLRIFAEHFRLGRQEDAHEFLRYVIDACHNTCLRLKKLRRNGTYNGGATSGSSTVVKEIFGGALQSQVKCLSCENDSNKVDEIMDISLDVLHSSSLKEALQKFFQLEILDGSNKYKCDNCKKLVVARKQMSILQAPNILVIQLKRFEGIFGGKIDKAIAYEESLQLSNFMCKGNQDSRPEYKLFGTIVHSGFSAESGHYYAYIKDASGRWYCCNDSFVTVSTLQEVLSEKVYILFFSRTNQRAVTASTALASNGVKSHECNGSDGSKISKPSVVTKTAQTRSHVEQSSRKELSSLSKVDKPTFGPRGKSNMNGHSNSIRSPSTINGKIVLEKDQPIKENEKENVNSLPLENGARHKSSLGNGNGRKTFEVDHDVTEGEHKSVLMNSNGNGGSMGRKADKHDLCDSNPMNNKFTAGRGSSHDEVNNAVNCPSEVKRAKRKSNFCILFQQDAQSRERVEDLKQEYSQEGNFISVKIMRLVRGGLQLHAFKEEIMFTGNGQHSKQLLIADAKQKFISRIPEPLKEGLIKKLQLFSQEK Homology
BLAST of Lsi07G008420 vs. ExPASy Swiss-Prot
Match: Q9FPS2 (Ubiquitin carboxyl-terminal hydrolase 25 OS=Arabidopsis thaliana OX=3702 GN=UBP25 PE=2 SV=1) HSP 1 Score: 489.2 bits (1258), Expect = 7.6e-137 Identity = 295/609 (48.44%), Postives = 378/609 (62.07%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy Swiss-Prot
Match: B2RQC2 (Ubiquitin carboxyl-terminal hydrolase 42 OS=Mus musculus OX=10090 GN=Usp42 PE=1 SV=1) HSP 1 Score: 213.0 bits (541), Expect = 1.1e-53 Identity = 135/399 (33.83%), Postives = 212/399 (53.13%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy Swiss-Prot
Match: E1B9W9 (Ubiquitin carboxyl-terminal hydrolase 42 OS=Bos taurus OX=9913 GN=USP42 PE=3 SV=1) HSP 1 Score: 210.3 bits (534), Expect = 6.8e-53 Identity = 135/416 (32.45%), Postives = 215/416 (51.68%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy Swiss-Prot
Match: D3ZU96 (Ubiquitin carboxyl-terminal hydrolase 42 OS=Rattus norvegicus OX=10116 GN=Usp42 PE=1 SV=1) HSP 1 Score: 206.5 bits (524), Expect = 9.8e-52 Identity = 151/545 (27.71%), Postives = 260/545 (47.71%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy Swiss-Prot
Match: Q9H9J4 (Ubiquitin carboxyl-terminal hydrolase 42 OS=Homo sapiens OX=9606 GN=USP42 PE=1 SV=3) HSP 1 Score: 202.6 bits (514), Expect = 1.4e-50 Identity = 152/510 (29.80%), Postives = 247/510 (48.43%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy TrEMBL
Match: A0A0A0KXI2 (Ubiquitin carboxyl-terminal hydrolase OS=Cucumis sativus OX=3659 GN=Csa_4G064660 PE=3 SV=1) HSP 1 Score: 949.9 bits (2454), Expect = 5.8e-273 Identity = 498/589 (84.55%), Postives = 532/589 (90.32%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy TrEMBL
Match: A0A1S3BT54 (Ubiquitin carboxyl-terminal hydrolase OS=Cucumis melo OX=3656 GN=LOC103492980 PE=3 SV=1) HSP 1 Score: 928.3 bits (2398), Expect = 1.8e-266 Identity = 493/596 (82.72%), Postives = 521/596 (87.42%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy TrEMBL
Match: A0A1S4DYY7 (Ubiquitin carboxyl-terminal hydrolase OS=Cucumis melo OX=3656 GN=LOC103492980 PE=3 SV=1) HSP 1 Score: 927.9 bits (2397), Expect = 2.4e-266 Identity = 493/606 (81.35%), Postives = 523/606 (86.30%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy TrEMBL
Match: A0A1S4DYX1 (Ubiquitin carboxyl-terminal hydrolase OS=Cucumis melo OX=3656 GN=LOC103492980 PE=3 SV=1) HSP 1 Score: 923.3 bits (2385), Expect = 5.8e-265 Identity = 493/607 (81.22%), Postives = 523/607 (86.16%), Query Frame = 0
BLAST of Lsi07G008420 vs. ExPASy TrEMBL
Match: A0A5D3CZH6 (Ubiquitin carboxyl-terminal hydrolase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold21G001530 PE=3 SV=1) HSP 1 Score: 897.9 bits (2319), Expect = 2.6e-257 Identity = 462/522 (88.51%), Postives = 481/522 (92.15%), Query Frame = 0
BLAST of Lsi07G008420 vs. NCBI nr
Match: XP_038894470.1 (ubiquitin carboxyl-terminal hydrolase 25 isoform X2 [Benincasa hispida]) HSP 1 Score: 980.3 bits (2533), Expect = 8.3e-282 Identity = 513/589 (87.10%), Postives = 533/589 (90.49%), Query Frame = 0
BLAST of Lsi07G008420 vs. NCBI nr
Match: XP_038894460.1 (ubiquitin carboxyl-terminal hydrolase 25 isoform X1 [Benincasa hispida]) HSP 1 Score: 975.7 bits (2521), Expect = 2.0e-280 Identity = 513/590 (86.95%), Postives = 533/590 (90.34%), Query Frame = 0
BLAST of Lsi07G008420 vs. NCBI nr
Match: XP_004147765.1 (ubiquitin carboxyl-terminal hydrolase 25 isoform X2 [Cucumis sativus] >KGN53534.1 hypothetical protein Csa_014645 [Cucumis sativus]) HSP 1 Score: 949.9 bits (2454), Expect = 1.2e-272 Identity = 498/589 (84.55%), Postives = 532/589 (90.32%), Query Frame = 0
BLAST of Lsi07G008420 vs. NCBI nr
Match: XP_011653270.1 (ubiquitin carboxyl-terminal hydrolase 25 isoform X1 [Cucumis sativus]) HSP 1 Score: 945.3 bits (2442), Expect = 3.0e-271 Identity = 498/590 (84.41%), Postives = 532/590 (90.17%), Query Frame = 0
BLAST of Lsi07G008420 vs. NCBI nr
Match: XP_031739553.1 (ubiquitin carboxyl-terminal hydrolase 25 isoform X3 [Cucumis sativus]) HSP 1 Score: 935.3 bits (2416), Expect = 3.1e-268 Identity = 491/582 (84.36%), Postives = 516/582 (88.66%), Query Frame = 0
BLAST of Lsi07G008420 vs. TAIR 10
Match: AT3G14400.1 (ubiquitin-specific protease 25 ) HSP 1 Score: 489.2 bits (1258), Expect = 5.4e-138 Identity = 295/609 (48.44%), Postives = 378/609 (62.07%), Query Frame = 0
BLAST of Lsi07G008420 vs. TAIR 10
Match: AT5G57990.1 (ubiquitin-specific protease 23 ) HSP 1 Score: 183.3 bits (464), Expect = 6.3e-46 Identity = 93/273 (34.07%), Postives = 163/273 (59.71%), Query Frame = 0
BLAST of Lsi07G008420 vs. TAIR 10
Match: AT1G17110.1 (ubiquitin-specific protease 15 ) HSP 1 Score: 173.3 bits (438), Expect = 6.6e-43 Identity = 111/292 (38.01%), Postives = 163/292 (55.82%), Query Frame = 0
BLAST of Lsi07G008420 vs. TAIR 10
Match: AT1G17110.2 (ubiquitin-specific protease 15 ) HSP 1 Score: 173.3 bits (438), Expect = 6.6e-43 Identity = 111/292 (38.01%), Postives = 163/292 (55.82%), Query Frame = 0
BLAST of Lsi07G008420 vs. TAIR 10
Match: AT5G65450.1 (ubiquitin-specific protease 17 ) HSP 1 Score: 169.9 bits (429), Expect = 7.3e-42 Identity = 100/285 (35.09%), Postives = 155/285 (54.39%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (USVL1VR-Ls) v1
Date Performed: 2021-10-18
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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