
HG10018174 (gene) Bottle gourd (Hangzhou Gourd) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCGCTTTCTCTATCCCTACAACTTATCCGATTCCCTCCTCAAGCATTATCTTCATCCTCTCACCATCTTCACATCTCTGACCTTGGCTCCGTCTCGCGCTTCTTCCGATCTCCATGTCTTTCCTCTTTGACTCCGTCGCGGAGCTGCACGATGACGTTATCTTCCAGAACGAAATGTTTCTCCATGTCCACCGAGGAGGAGCAGTGGAGTGAACCGGAAGCGTTGGTGTCAGATGTGGACGGAGGGGGAGATCTTGAGGACGATATTGATATTGGTGTTCAGGAAGACAGCTCTGTGGCCACTGCTGCTTCTGCGCAGAGGATTTCTTCCTCGTCGCCGAGTGATTATCTGTCGCTTGCGATTCGAGAGCAGGTTTATGAGGTCTGTTGCCTTGATGCATTTTGTTTTATTTTGTTTTTCTTTTTCACGTGAATTCGGACGTGTTTGCTGCTAGTTTGGGTGCTGGATTGAAGTAGGAAATTTGAACATCGAACCAAAAATTTCAATCAAACTAATAGTAAGATTTCCTCGCATTTGATGTTAGGTTGCAAATGGTTTAATATTAAAATTTTAAACAGTAGTAAGTGCTTCTAATCTTGTAGTAATTTAATGGTTTCTAAATTGATTTTTAAACATAAAAGACATTAGCAACATAGAAACTTTTTTTTAGTTCATGAATTCAAATCTCTAACCTATTGGTCGAAGAAATGAGGTAACTTTATGCTTTAACTAGTTGAACTATATTAGGTTGGTGATCATACACCAACATTTAATTAGTTAGAGGATATAAATCATATAAAATATGCATAGTATAAATTATAGCCCTATCAAAGAAATGATACAAAATTATGACTTTTGAGGGGTTCAACTCCAGGTATTCACTCTTCTTTGAGGTCACAATTTTTTAATTATTTTTTTGGATATGACTACAAATCCTGTTTGAAGGGCAGAATGTTTACAAAATTTCAGCTCAACAAATTCTGTTTGAAGGGCAGAATGTTTACAAAATTTCAGGTCAACAAATTCTTTTTGAAGGGCAGAATACTTACAAAATTTCAGCTTAATTTAAGACCTTGTGTTATAATCCTTCCACTGATTGGAGTTAATGGTTTGGAGCTAGTTATCGTTTTGATTCCTCAATCAAATCTTTTCCTGTTAGAGATATCTCTGCGGGTTTCTTTCTTAGATAAAGTTCTTACACTCAATGTTCATCTCTATTGACCACTTAGGTGTTAGAGGTTAAAGCTGATGGAACCGTATCTACCAGGAAGGTTAACAGACGGCAACTATTGAAGTCAAGTGGTGAGTAAATATTACCAGAAATTTCAGCTTCTCATTTCAATGCGTAGTTTCTGGATGTATACCGTTGAAAACTTTTAGTCTGCATTGACTTGTGTATACTTTCTTTCGGAAATGTCGATTACTACTGGATGTCTCACGGTTGGTTTTTTGGATTCACCGATAGATAACCGTGGGATGACGACTACATACTTGTTAACAAACTATATATTTTCCTATTGTGGATATATATTTTTTTAATTATCAGGGCTTCGTCCACGTGATATCCGAAGTGTTGATCCATCTTTATTTTTGACAAACTCGATGCCTACATTACTGGTATATTGATTTTCACCTTTTTAATTCCCGGTCATATTCTTTTATATTATAAGCTTTCTATGTTGAAGAATTAGCATTTGGGATAAACATATGAAATTAAGAAATTAAAGTCTATAAATGATACTCAGCAACAATTTTCTTTGTGGTTCACATCTCAGGTCCGTGAACATGCTATTTTGCTTAATCTGGGATCGTTGCGAGCAATAGCTATGCAGGATTGTGTCCTCATATTCGATTATAACCGGTATCCATCTGACTTGAAAATGGTGCCATATTTATATCTCATACAAAATTTCGACATTGCAATTCCTTTTGCATGATGGTGATCATCTTCAGTCCAGGAGGACAAGCTTTTATTGAATCATTGTTGCCTCGATTGAACCCAAAAAACATGAATGGAGTGCCAGCAATGCCATTTGAACTCGAGGTTAGTAATTCTTGTTTATATATGTATTTTTACATCATATAAATAGAGTTGGCAGATGAATGCAAAATTAGCTTACAGACTGCGATACTTCTGTACACCTAACAATAAGATGTTTCCCAATTGGAATTTGGTCCTTAGGAAGCTTACCCCTAGAAGCAATGAAAAATTACCACTAACTGCCTTTTAGCATTCTTATATCATTCTGCGAGTCCCAATGGAAATTGCTGAGAAGATCAGATAATTATTGTTAGCAGATAAGTGAGATCAACTTCTGCTCACAAAGATTTTCAAATTAAAATCTGACCTTGAGAGGTCAATGAAGGTTCCTACCAATTCTGAAACTTACATCGAATATTTTCTATGATGGAGGCCAGACAACCAAATACTATTAAATAACCGTTGAGGGGAAGTCCAAATAGGTAGTGAGCCATTTCTCATTGTCTGCTATGAAGGCTAAACTTTTGCACTTCCAGATCATCTCTCGGCTAATAATCTGTCTCCGATTATTGTTTAGACCTGAGAAAGGCTATAAACGCTTGGTGATATTGAACGGATTAACAAACTCATCTTCAAGAGCAATGGAGAAAAGAATAGTACAAAACTTAATACAGAACCATTGGTCTAACCTTGGTTTTCCATAAGCAATAATGGTCTTTTAATCTTCTGGTGGCTTCTCCAGTTCCACGATAGCATTTACAAAATTTAAATCAACTATAACAAAGGCCTTTTATAGATCCAGTTTGACATATGCACCCTTCTTCCTTTTTCAAACATCACCGAATTCTGGACAAGAATCAATAATTTGTTTTCACCCGAAAAAGCCATTTGATGTTCTTTAATTGTGTATCAAATAATCCTTTAGATATTTTAATAAAAACTTAGTGGGTAAAACCATTAAGTTTGAACTTGTTAAGTCACTAGTTGACCCAAAAACTTAAGTTGATGTGTGAAGGTAAATGTAATATTATATCAAAACTTTAACACTCTCCTTTACTTGTGAGCTTGAAAATTTGTAGAAGACCCAATAAGTGGAAATCAATATTAACTGGGGAGGAAATAACATTGTAAGGTTTTGAACACAGGACCTCTTGCTCTGATACAACGTTAAATCACCAATTGATCCAAAAGCTTAAGCTAATGGGTGAAGGTAAATTTGATATTATATAATACTTTAACGGAACTCAATTACCTTTTTTGCATTACACTTCATTAGAATAAGGTGTACATCTCATTAATGCTCATTGCTCATGTGAGTAATGTCATTTTAGAAAAGTCCATGGAACAATTTCATAACTTATGCAGAAGAATGTTCGACCTTTTCTGAAGAACACTGCTGTTAAATGGTCTAGCCTAGGGGCCTTGCACATACAAACTTCGCATATCTTTCAAGATCTTGCCGTAGTAAAACTGATTCCCATGCCTTCCTTTAGTGATCAGAAAGAGGATTCAAATCAAGATTAGATTGGAAAACCTTGTAGTTGTACTGGGGGCCTCTAGTAAATTTGAAAATCTTGTATTAGGGGTCTCAGTAAAAGGGAATGGAAGAAGTTAAAGAAGTTTTTCCTTAACCTGCCAATTGTTACTAAGCTTTGGAAATGCGACCAAAGTTTCATATTGGTTATACAAGAGAAAGATCATGATTTCATGAGTACATAAGCTGTGAGACAAAATCTTCATTCATACAAGATCTTTTGAGTGAAACCAAAAGCAAAGACATGAGGACAATCCGCAAAGTGGATAATTTCATACCATTATGGAGATATGTAGGAATTCCATTGTCCTTAACAAAAGTGGTATGAGAGTCATACATATTTATGGATGAATCCTTAGATCGAACAAAAAATACTTGAGTAAAGAGCAAAAAATGCTTTTGTGTTGAATGCTGGAATTGGAATACTCGGACTTGGGATCTTGGCCTTAAACATGGCAATTTTGATTGGGAGTTTGGTATTTGGGCGATCATTTGTGAGAAGTTGGACACAGTTCATCTTAATCAGGAGGTTGGCAAGATTGTATGAAGGATTGGTTCAGGGGGTGTATTTACATTAAAATCGGCTTTCCACTCTTTATTCCCTCAGGAGGGTGAGTCCAAGAGCTGGCTGAATATGATTTGGAAGGCCCCGACTCCTAAATCGGTCAAGGTGTTTTTGTGGACAGTTTTATATAGGGGCTTGAATACTGGTGAGAAGTTGCAAGGAAATTCCCCTACTAAACCGAGTCCCCCTTGGGTTGCTGTATTTGTTTTCAAGGAGAAGAAACGATTGATCATTTGTTGCTACACTGTCCTTTTGTGATAAGGGGTTGGTGGTTTATTTTAAATGAACTCGGGATATCAATTTGCTTCCCTAGGAAAACTGATAATTGGTTGATTGAAGCTTTGCTAGGTACTGATTTCAAAGGAAAAGCTGAAGTGTTGTGCGATTGCAAAGGCTATGGTTTGGAGAATGTGGAAAGGAAACGAAATGACCGTAGGACTTTTGAGAATGATTTTATCTTGGCTGAGTCTTTTGTTTATAGTATACATCACTTGGCTGTGGAGCTCAAGTCACAAAGATTTTTGGAGCTTTTATAGCCTTGCTTTGATTATTAGAAATTGGAAGGCATTTTTTGTAGTAGGTTTCTCTTTGTGGGAGTGGTTCTCTCTATCCCTTGCCCGTAAATTGTTCCTTTTGTTAATATGAATATATATATTTTTTGTTTCATATATAAGAGAAAAAAAAAGAAAAAAAAAGAAAGAAAGAAAGAGCAAAGTAGCACTATGTTAAGTTCGGCAAATTCATAGAAAGATAAGGAAGACCGATAGGAGAGGTATATCTTTGTTGGAGGGGAGGGGATTTAGAGTGATAATGGTCGACAGTAGATATATCCTAGAATTTGATTCATTGTTGTGGTTCATTCAATGGTGCCACTGGCCTTGATGACAAGAAGCTCTCGTTGTCAATACTCATTAGAGGGTAGATAGGTGAATGACTATATGCTAAGAAGCACGGACACTTTAATTTGAATAGTGTGTCTGTGTCGGACACTTGGACACTCCGACACTTGTCGGACACGTATTGGACACATGTTAGTGCAACAAATATGTTAGACATGCATTGAACACTTGTTGAGTAGACCAAAAAGACACATATATGACAATAATAATAACTTTTGAGTTGAAATACATCAAGCTAAGTCTTTTAAGCATATAAATGCATCAACCCATTTACTTTGAATTTTATTTTGGTATGAAAATGATATCTATTTTAAAAAATGTATATTCGAATAAACGTGTCCTTGCTGTGTCATGTCCTAGATATTTAAAATATGGCATGTTGCCGTGTCCATGTCGTGTCGTATATGTGTCTCGTATCCGTATCCATACTTCTTAGACTATATGAGGGTACACTTAAGTGGTACTTTGTTTGAGAGAAGGTTTGTTAGGAGTACAAAGTCCAACATCGTCTATAGAAGGAAAAGATCCATGATATATAAGTTAGGACAATTATCTCCTATGAGATTTTTTGGGTGAAACCAAAGGCAAAGCCACGAGGGCTGCTGCCCAAAATGAATAACAACATACCATTATGACAATGCAACTTCTAATCCATGGTCTCCATTTTGTGCCTAAGCTCTTAAACAAAGCTTTTTCCTTTTAAACAGACTGAAATATTTTTCTATGTGCTATTAGCCTAATGATGGAAGGAAGAGATATTTTCATCATGGAGCCGGTTAGAGGTCGTTACCTCTATATAAATTTCTTCAGTGTGAAATGGAAATGTGGAACTTTAGGTTGAGCCTAGTATCACGTTGAGAATCAAAGAGGCGATAAGAGTCCTCTAAATCATCCTAGGCTAGGCTTTTATCATGTCATGAAGCCTTGACCGCCCAACTTTGCATATGTGCTTCATCCCGATCCTATTACCTTTTTTTATTTCTTATTTTTTTTAATGATCAAGCTACTTATTTTCAAACCTGAAAGAGGTGAAAGCCCACATTTGGATTTCCAAGCCTTTCTAGTAGGATAGGAAATGATTAGAAGCCATTCTCTCTAATCTATAAACCCAACAAATTTGGACATCACTTTTGAGTGGCCAAGAGACTTTATCAGCTTGTCATAAAGCCTCATATTTCTTGTTCGAGTATCATTTAGTAAGCTATTGTTGGAAAGTACCATATATTTGCAAGAAAAGAGTGCATAAGAGGGAAAACTTGACCAAAAATTAAAAAGAAAAAAGTAATACAATTAAAAAGGAACTAGCCAACAAATAAAAGTTTTCGTAATTTTCAATCCATAATGACTACCTGTCATAAGGTTTTGGTGAGATGTAGGACACCAAGAGGTTTGAGGGAGCACGAGACTAACATGCGACAAAGAACGTATGAAGAGGGCATACCTTGGTTGGATGGCGCAACTGGTAACATGGCTTGGTGCATGACCAAGACTGGTGGACAACACAACAGGACACATGGACATGAGTGGGTTTTGGGCGGACGCACAATATGCTGGTGGGTGTCATGGGGCGTTTGTAGGTAAGCGCACGCCTCATTGAACACGACGTGTGTAGGGCGCACACACAGGGCGCGAGGCAGCGCGCATGATGAGCGTGCGCGTGGTAGGCTGTTCGAGGATTTAATATCCTACGAGTTTCTATGGTTCTTAAATGTTGTGAGATTAGGTGATTGGTTTCGTGAGATTAGTCAAGGTATGCGCAAGCTGATCGAATACTCACAAATTTCTAAAAAAAGAAGTTTTTCATACTAAAAAAAATTAGACTAGAAAGGATATAGTCTTCTTTTGATCCGTGGTGTATATTTGTATGTGTGCGTGTATATATATATATATATATATATATTTGATAGGATACAACCAATTTCATTGATCAGATGAAATTACAAATGAGAGTCCTATCCAGATGATTACATAAAAATCATATTCAATAGGCTATAAGTGAGGTTAAATCATACTTACAAAAAAGTGATATCAATTTACATAGTGTGAGAGCAGTGAAGAATAAGATAACATAGGAAATAAAAGGTTCAAAATCTTATTGTGTATCTAAGGAGATGCACAAATTTCTCTCGAGCCGCAAACACCATAAAAAGGCTCGGATGAAATTGAGCGAGAGTCTCTCCTTCCTCGTTCTTGAAGGGACGCCCAAGGAGAATGATATTTAAAAGAGACCAATAGGCCAATAAGTAAAGTCAATGACCGACCACCAAAACTCTATGTGGCGAAAGCCCAAAAAGATCTAGCAAATCAGCATGAAATGAGGGTTGGCTGTGTTTCAGGACCATTAGTGCACAAGCACATAACCTAGCAGGAGGGAGACAAAGGAATTACCGGTGATCTGCTTTGAAGCTTTGTGATCTGCGTTGAAGCTTTTCTTGGGTGATAAGGCAAAAATTGCTGATTTCCCACATCGAGTAAAATGTTTCTTTATCCTGAAAATCCATGGATGAAAGGGTTCTGGACAAAGATTTGTAGGAAACCATTTTTGTCTAGTTTCCACTCCCACAGGTCCTCTCGGTGAGTGAGCACAACATTAGTAAGAGCATAGGAGAGCCTTGCCCATTCAACAATTTCAGACTCAGTAAGGTGTCTTCTAAGTTTTAAATCCCAAGATGCTGATTCAATCTGTGGGCAATCTGTGGAAATGGAGGCCTTTTTATTGAGCGATTGATTGTGAGGGCAATCCGTGAAGTACTTCAATAATTCATGGTCATTATGTCAGCTTCTAAGCACGTGTTTCCACAATTTGCATGAAACTTGCTTGACATTCATCTTAAGCACACCTTTGTTATTGCTTTTTCTTTTCAGAGTCTATTACTATAGTTTGTTATAAATGTTTTACTTTATATTATAGGTTGTTGAAGCTGCATTGCTTTCACGAACTCAGCGTTTGGAGCAGCGATTAATGAAAGTAGAACCTCGTGTGAGTATGGAAACATAGTGAGTATATATAATTATATATTAATATTCGTTTTCTGTTTCTCCCATTTAATTTTCCTTTTTCCTTGGAAAAGATGGAGTAGAATAAACTCGAGCAAGTTGCCGTCAGTGCAACCTGGCCAGATTTAGTATTCATTGCAATATCTTCTTCTCAGGCTAGAAATGCAATTTCAAACTCTTAATTTCTTTCTGTTTCTATGTTTAAAAATTTACACGTGGTTCTGTGACAAATTTTCTTCTTGATTAAAGAATTATACTGCTTATATAGAGCCGTGGCTACATGAAAACAAATGGAAAATTCTTTGACTAGGCGACAAACTTGAAGAGAAACCTAATCAGAAAATGTCTGTCCAGTTGAGGAGAAAGTTATCAATTGATTCAATCCCTTTGTGATCTGGCCTTAGGATATATTTTTCGAAAACAATATTACTGGGCATTAATTTCAGTGCTGAGGAGTTCTTTCTTTTCGAACACTTCAAACGTTAGGATGATATTTCTTTTTTGAAAAAAAAAAAGTAATAAAATGAACATACTTAAATTAATAATGCATTCATGGAATACAAACATAAAGGATAAGTGTTCTTTCCTTTGTTTTCGCCGCTCTTTCCCCAAACGTATGATCAAGGTAACCTCATTTATACAAAGAAAAAAGAACGAAAATGGAGAACTTATGTATAAAGTTCGTCTGGCTTCAGGTTCAAGCTCTGCTTGAGGTATTGCCCAACAAATTAACTGCAGATGTGTTGGAAAAACTTCGTATTAGCAAGCAGACATTGGTACAGTTTATGGAATTTGTTCTGGATAGAGTTGTTTAGTTCAAAATATACCTCGCTATGATATGCGGAAATGAGTAGTTTCAATCTGATTCCCCTCTACTGCCAATTTGGACACAAGGTTGAATTAGGTTCCAGGGCAGGGGCTCTCAGACAAATGCTTCTTGATCTTCTGGAGGATCCGCAAGAAATACGACGCATCTGTATTATGGGAAGAAATTGCACGCTTAATAAAAGAAATGATGATGTGGAGTGCCCTCTCCCTTTGGATAAGCAGATTGCTGATGGTAAGTTATACACTTTAGAATTTAAATTATTACATTCACGATTTTCATCAGCCTTGATTTCATTGTTCAATTTTTTTTTTTTTTAATGATATTTTATTGAACTTTTTATCTGCAGAAGAGGAAGAAGAAATAGAAATGCTGTTGGAAAATTATCTCCAGAGGTAATTTTGATATTAGATAAGCCACCTTCCGTACTTCTGAAGAACAAACTATAAATATGGAAATAGAAAATTTTTACTGTCTATTAACGATAGACCGCGATAAAATTCTATCGCGTTGATAGACAGCGATAAAATTCTATCGTTTGAGCGATAGACTTTAACAATAAAATTGTTGATAGACAATGAAATTTTTCTGTATTATACTTTTTCTGTTTATGGAGAAATTTATTTGGAAGAATAGAGAAACTGCAAAAATATGCCGGGAATCTTTGGAAGTGGTCTCGTCAATGTTTCCTACCGTCAGCAGTAGTCTTTGACAGCCCCCTCTTCTGTGATTCACAAGAAAAATTTATATGATGCCCTTTCTTGTGATGCCTAGAATCACGAGGGCAATAATCTAAACTCAGCCAATTAGATACATTGGCATTGCGATTTATTTGATATTCCAAATCTGGGATACTCATTTATAGAACTGAAATCAAAGGTTTAGAGGTAAAAAATAATAGAAAAAAACATTTGGTCCCGGAACTTGCTTTTAATGCCCACACTCGTGTACTTTCAAATTTAACAATTTAAACTTGTACTTCAATAAAGACTAAATCATTACGAACCGAATTTAAACCAAGGGATGGTAGTCTTGTTTATTTTATTTCTATGTTATTCCTTATGGGTCATCATCATATTTGAGATGGATTTTATTTACTGGAATTGAAACACCTTCAAACTAACTGTTGTATTTAGTTGCGCTATTATTTGACCAGCCCAAATAATGTGTTATCTTATTCACGAGTTTGTGGAATGAACCGTGCAAGTTGATGGAATTTTATTTGTCTGCATCTGCAGATGCGAATCTTGTCATGGTCAGGCTGAAAGGCTTCTGGATTCAGCAAAAGAAATGGAAGATTCAATTGCTGTAAATTTGAGGTCTAAACAACCTTCTTACATTTACCTGTTAAATGGTTTCTTCTGCTTGTATGTTTATTTCTCCTACTTTTAATTAGCTCGCGGCGACTAGAGGTTAGCAGAGTGGAATTGCTTCTCCAAGTTGGGACATTTTGTGTGGCAGTTGGTGCTTTAGTTGCAGGTATGTCCTTTTATAGATATCATGAACATTCAATTGGTAAATCTTTCTTGAACCGAAGGTATCAACTTCGAATGGAATATTGTGCTGAAGAGATCTAAATCATTCTCATTTACCATTAAGGAAGCTTTATATGCTGAGGAGAAAAAAAGAAAAAAGATCTGAAAGCAAAGATCAAATCTAACCTAGGTAACTTCGCTGATAAAAAAGCCAGATAAGGCATTAAAGGAAATTACAATAGCAGCCGGAAGAAAATAGGGCGACAGTTAGCAATACCTACAAAATACTCAAGTCAATTACCATACCTTTCGAAACTAATCTATAAAAAGAAAAAATTCATTCCGGAAAAATTGAAAGAATACATATGACAGATACCCTAACAAAAGGGGGCAACCAAACTAACGATACTAAAAAATGCTCCTATTTTGGCAGTAGCCTAAGAGAAAGAGAACCTAACTAAAAAAAAAAGAAGCTCCAATCCAAGATAACGGTTAGCAGACACTTACAAAAATCCTTGAAAATTTTGAAAATTGTTGACCAAATAAAAATATTATATCCAGAGACCAAACCTCTTCTCAAGATCTATCAAAATCTTTAAAAGTGATGTATAAATCCAAAGGCTTCAAAGAGTTGCGAAAAGAAAAGCCAGCCTGCCAAATGGGGCGGATGTTCAATGACCTCCTCTACCTTAACCTATTTATTGGTGGAGACAGCATTAGTTTGTCCGAAAAATCAAGTAACCTCACTTCATAGTCTTTAAAAATATTTAAAGATACATGGCAACTCTTCATCTCAAAATATAGAATCCTTAGTATCTAATATGGTATCGAGTCTATTAAATTCAGACAGCACATTCAATGATGAACAAAAAAAAGCACTATCTTGAGGAATAAATTGAGGATTCCACATCGAAAAAATCGATCATAATCTTTAAAAGATATGTAGACTACTCTTTGTTGTCAATATTCTTTGTTGTCAATATTAATTTTGAGATGAAACTATACATTAACTTTTTTGTACAACCAACTAGTCTTCCTCTGATTGCCTCCTAATGTCAAGCCTAACCTAGCAGTAAGAATAAGAGGAATATAGCAAAAGAATCAAACTGTTGCTAGCTGCAGTTTATTCCAGTAATAGAACACAAGTAAATTATTTTCGATCCCGAAGCAAATTCAAGCAAGATTTTCTTCTTCTAATAGAGTCTGGGCTGAGTCACTAGCAAAATTTTGAGTAAGAAAATGCAGTCAAGCTGCTTCTAAACATGTTGCATGGATAACTTCAACGAAAGAATTTCTTTCCAATTGTCCTTTAGCCTTTTTTTTTCACATCCATTTTGCAGGAATATTCGGAATGAACTTACGATCATACCTTGAAGAACACGTGGTACATTCTCTAAAAGCCAATTCTTAAACAATCTTCAAGTTCATGCAACGTGGTCAATTGTCTTGATTTTGTGTGAGTTGTAACTTTGATGCACTTGTCATGATGCATGCAGTTTGCCTTCTGGTTAACAACAGCTGGGATAATTGTTGGCGCTGTCGTGGCATTCTTTCTCATGTATTCATATCTCAGAGCTAGGAGAATCCTATAG ATGGCGCTTTCTCTATCCCTACAACTTATCCGATTCCCTCCTCAAGCATTATCTTCATCCTCTCACCATCTTCACATCTCTGACCTTGGCTCCGTCTCGCGCTTCTTCCGATCTCCATGTCTTTCCTCTTTGACTCCGTCGCGGAGCTGCACGATGACGTTATCTTCCAGAACGAAATGTTTCTCCATGTCCACCGAGGAGGAGCAGTGGAGTGAACCGGAAGCGTTGGTGTCAGATGTGGACGGAGGGGGAGATCTTGAGGACGATATTGATATTGGTGTTCAGGAAGACAGCTCTGTGGCCACTGCTGCTTCTGCGCAGAGGATTTCTTCCTCGTCGCCGAGTGATTATCTGTCGCTTGCGATTCGAGAGCAGGTTTATGAGGTGTTAGAGGTTAAAGCTGATGGAACCGTATCTACCAGGAAGGTTAACAGACGGCAACTATTGAAGTCAAGTGGGCTTCGTCCACGTGATATCCGAAGTGTTGATCCATCTTTATTTTTGACAAACTCGATGCCTACATTACTGGTCCGTGAACATGCTATTTTGCTTAATCTGGGATCGTTGCGAGCAATAGCTATGCAGGATTGTGTCCTCATATTCGATTATAACCGTCCAGGAGGACAAGCTTTTATTGAATCATTGTTGCCTCGATTGAACCCAAAAAACATGAATGGAGTGCCAGCAATGCCATTTGAACTCGAGGTTGTTGAAGCTGCATTGCTTTCACGAACTCAGCGTTTGGAGCAGCGATTAATGAAAGTAGAACCTCGTGTTGAATTAGGTTCCAGGGCAGGGGCTCTCAGACAAATGCTTCTTGATCTTCTGGAGGATCCGCAAGAAATACGACGCATCTGTATTATGGGAAGAAATTGCACGCTTAATAAAAGAAATGATGATGTGGAGTGCCCTCTCCCTTTGGATAAGCAGATTGCTGATGAAGAGGAAGAAGAAATAGAAATGCTGTTGGAAAATTATCTCCAGAGATGCGAATCTTGTCATGGTCAGGCTGAAAGGCTTCTGGATTCAGCAAAAGAAATGGAAGATTCAATTGCTGTAAATTTGAGCTCGCGGCGACTAGAGGTTAGCAGAGTGGAATTGCTTCTCCAAGTTGGGACATTTTGTGTGGCAGTTGGTGCTTTAGTTGCAGGAATATTCGGAATGAACTTACGATCATACCTTGAAGAACACGTGTTTGCCTTCTGGTTAACAACAGCTGGGATAATTGTTGGCGCTGTCGTGGCATTCTTTCTCATGTATTCATATCTCAGAGCTAGGAGAATCCTATAG ATGGCGCTTTCTCTATCCCTACAACTTATCCGATTCCCTCCTCAAGCATTATCTTCATCCTCTCACCATCTTCACATCTCTGACCTTGGCTCCGTCTCGCGCTTCTTCCGATCTCCATGTCTTTCCTCTTTGACTCCGTCGCGGAGCTGCACGATGACGTTATCTTCCAGAACGAAATGTTTCTCCATGTCCACCGAGGAGGAGCAGTGGAGTGAACCGGAAGCGTTGGTGTCAGATGTGGACGGAGGGGGAGATCTTGAGGACGATATTGATATTGGTGTTCAGGAAGACAGCTCTGTGGCCACTGCTGCTTCTGCGCAGAGGATTTCTTCCTCGTCGCCGAGTGATTATCTGTCGCTTGCGATTCGAGAGCAGGTTTATGAGGTGTTAGAGGTTAAAGCTGATGGAACCGTATCTACCAGGAAGGTTAACAGACGGCAACTATTGAAGTCAAGTGGGCTTCGTCCACGTGATATCCGAAGTGTTGATCCATCTTTATTTTTGACAAACTCGATGCCTACATTACTGGTCCGTGAACATGCTATTTTGCTTAATCTGGGATCGTTGCGAGCAATAGCTATGCAGGATTGTGTCCTCATATTCGATTATAACCGTCCAGGAGGACAAGCTTTTATTGAATCATTGTTGCCTCGATTGAACCCAAAAAACATGAATGGAGTGCCAGCAATGCCATTTGAACTCGAGGTTGTTGAAGCTGCATTGCTTTCACGAACTCAGCGTTTGGAGCAGCGATTAATGAAAGTAGAACCTCGTGTTGAATTAGGTTCCAGGGCAGGGGCTCTCAGACAAATGCTTCTTGATCTTCTGGAGGATCCGCAAGAAATACGACGCATCTGTATTATGGGAAGAAATTGCACGCTTAATAAAAGAAATGATGATGTGGAGTGCCCTCTCCCTTTGGATAAGCAGATTGCTGATGAAGAGGAAGAAGAAATAGAAATGCTGTTGGAAAATTATCTCCAGAGATGCGAATCTTGTCATGGTCAGGCTGAAAGGCTTCTGGATTCAGCAAAAGAAATGGAAGATTCAATTGCTGTAAATTTGAGCTCGCGGCGACTAGAGGTTAGCAGAGTGGAATTGCTTCTCCAAGTTGGGACATTTTGTGTGGCAGTTGGTGCTTTAGTTGCAGGAATATTCGGAATGAACTTACGATCATACCTTGAAGAACACGTGTTTGCCTTCTGGTTAACAACAGCTGGGATAATTGTTGGCGCTGTCGTGGCATTCTTTCTCATGTATTCATATCTCAGAGCTAGGAGAATCCTATAG MALSLSLQLIRFPPQALSSSSHHLHISDLGSVSRFFRSPCLSSLTPSRSCTMTLSSRTKCFSMSTEEEQWSEPEALVSDVDGGGDLEDDIDIGVQEDSSVATAASAQRISSSSPSDYLSLAIREQVYEVLEVKADGTVSTRKVNRRQLLKSSGLRPRDIRSVDPSLFLTNSMPTLLVREHAILLNLGSLRAIAMQDCVLIFDYNRPGGQAFIESLLPRLNPKNMNGVPAMPFELEVVEAALLSRTQRLEQRLMKVEPRVELGSRAGALRQMLLDLLEDPQEIRRICIMGRNCTLNKRNDDVECPLPLDKQIADEEEEEIEMLLENYLQRCESCHGQAERLLDSAKEMEDSIAVNLSSRRLEVSRVELLLQVGTFCVAVGALVAGIFGMNLRSYLEEHVFAFWLTTAGIIVGAVVAFFLMYSYLRARRIL Homology
BLAST of HG10018174 vs. NCBI nr
Match: XP_038894959.1 (magnesium transporter MRS2-11, chloroplastic isoform X2 [Benincasa hispida]) HSP 1 Score: 758.1 bits (1956), Expect = 4.2e-215 Identity = 413/456 (90.57%), Postives = 420/456 (92.11%), Query Frame = 0
BLAST of HG10018174 vs. NCBI nr
Match: XP_038894956.1 (magnesium transporter MRS2-11, chloroplastic isoform X1 [Benincasa hispida] >XP_038894958.1 magnesium transporter MRS2-11, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 748.4 bits (1931), Expect = 3.3e-212 Identity = 412/463 (88.98%), Postives = 419/463 (90.50%), Query Frame = 0
BLAST of HG10018174 vs. NCBI nr
Match: KAA0052093.1 (magnesium transporter MRS2-11 [Cucumis melo var. makuwa] >TYK00707.1 magnesium transporter MRS2-11 [Cucumis melo var. makuwa]) HSP 1 Score: 747.3 bits (1928), Expect = 7.5e-212 Identity = 410/459 (89.32%), Postives = 416/459 (90.63%), Query Frame = 0
BLAST of HG10018174 vs. NCBI nr
Match: XP_008462287.1 (PREDICTED: LOW QUALITY PROTEIN: magnesium transporter MRS2-11, chloroplastic [Cucumis melo]) HSP 1 Score: 744.6 bits (1921), Expect = 4.8e-211 Identity = 409/459 (89.11%), Postives = 415/459 (90.41%), Query Frame = 0
BLAST of HG10018174 vs. NCBI nr
Match: XP_023519709.1 (magnesium transporter MRS2-11, chloroplastic-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 716.8 bits (1849), Expect = 1.1e-202 Identity = 395/456 (86.62%), Postives = 408/456 (89.47%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy Swiss-Prot
Match: Q058N4 (Magnesium transporter MRS2-11, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=MRS2-11 PE=1 SV=1) HSP 1 Score: 507.7 bits (1306), Expect = 1.3e-142 Identity = 298/439 (67.88%), Postives = 331/439 (75.40%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy Swiss-Prot
Match: B8APK3 (Magnesium transporter MRS2-A, chloroplastic OS=Oryza sativa subsp. indica OX=39946 GN=MRS2-A PE=3 SV=1) HSP 1 Score: 474.2 bits (1219), Expect = 1.6e-132 Identity = 258/385 (67.01%), Postives = 307/385 (79.74%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy Swiss-Prot
Match: Q9AUK4 (Magnesium transporter MRS2-A, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=MRS2-A PE=2 SV=1) HSP 1 Score: 474.2 bits (1219), Expect = 1.6e-132 Identity = 258/385 (67.01%), Postives = 307/385 (79.74%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy Swiss-Prot
Match: Q7SFQ9 (Mitochondrial inner membrane magnesium transporter mrs2 OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) OX=367110 GN=mrs2 PE=3 SV=1) HSP 1 Score: 99.4 bits (246), Expect = 1.1e-19 Identity = 103/415 (24.82%), Postives = 193/415 (46.51%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy Swiss-Prot
Match: Q4I298 (Mitochondrial inner membrane magnesium transporter MRS2 OS=Gibberella zeae (strain ATCC MYA-4620 / CBS 123657 / FGSC 9075 / NRRL 31084 / PH-1) OX=229533 GN=MRS2 PE=3 SV=2) HSP 1 Score: 99.0 bits (245), Expect = 1.4e-19 Identity = 86/309 (27.83%), Postives = 151/309 (48.87%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy TrEMBL
Match: A0A5A7U838 (Magnesium transporter OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1371G00610 PE=3 SV=1) HSP 1 Score: 747.3 bits (1928), Expect = 3.6e-212 Identity = 410/459 (89.32%), Postives = 416/459 (90.63%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy TrEMBL
Match: A0A1S3CI47 (Magnesium transporter OS=Cucumis melo OX=3656 GN=LOC103500679 PE=3 SV=1) HSP 1 Score: 744.6 bits (1921), Expect = 2.3e-211 Identity = 409/459 (89.11%), Postives = 415/459 (90.41%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy TrEMBL
Match: A0A6J1HK11 (Magnesium transporter OS=Cucurbita moschata OX=3662 GN=LOC111464814 PE=3 SV=1) HSP 1 Score: 716.1 bits (1847), Expect = 8.9e-203 Identity = 394/456 (86.40%), Postives = 407/456 (89.25%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy TrEMBL
Match: A0A6J1I090 (Magnesium transporter OS=Cucurbita maxima OX=3661 GN=LOC111469313 PE=3 SV=1) HSP 1 Score: 709.9 bits (1831), Expect = 6.4e-201 Identity = 391/456 (85.75%), Postives = 405/456 (88.82%), Query Frame = 0
BLAST of HG10018174 vs. ExPASy TrEMBL
Match: A0A6J1DHI9 (Magnesium transporter OS=Momordica charantia OX=3673 GN=LOC111020540 PE=3 SV=1) HSP 1 Score: 701.8 bits (1810), Expect = 1.7e-198 Identity = 388/465 (83.44%), Postives = 403/465 (86.67%), Query Frame = 0
BLAST of HG10018174 vs. TAIR 10
Match: AT5G22830.1 (magnesium (Mg) transporter 10 ) HSP 1 Score: 507.7 bits (1306), Expect = 9.3e-144 Identity = 298/439 (67.88%), Postives = 331/439 (75.40%), Query Frame = 0
BLAST of HG10018174 vs. TAIR 10
Match: AT5G09690.1 (magnesium transporter 7 ) HSP 1 Score: 84.0 bits (206), Expect = 3.3e-16 Identity = 92/358 (25.70%), Postives = 163/358 (45.53%), Query Frame = 0
BLAST of HG10018174 vs. TAIR 10
Match: AT5G09690.2 (magnesium transporter 7 ) HSP 1 Score: 84.0 bits (206), Expect = 3.3e-16 Identity = 92/358 (25.70%), Postives = 163/358 (45.53%), Query Frame = 0
BLAST of HG10018174 vs. TAIR 10
Match: AT5G09690.4 (magnesium transporter 7 ) HSP 1 Score: 72.0 bits (175), Expect = 1.3e-12 Identity = 90/358 (25.14%), Postives = 158/358 (44.13%), Query Frame = 0
BLAST of HG10018174 vs. TAIR 10
Match: AT5G64560.1 (magnesium transporter 9 ) HSP 1 Score: 71.2 bits (173), Expect = 2.2e-12 Identity = 90/367 (24.52%), Postives = 155/367 (42.23%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01 Position : 0 Zoom : x 1
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.
|