Cla97C07G133460 (gene) Watermelon (97103) v2.5

Overview


Name	Cla97C07G133460
Type	gene
Organism	Citrullus lanatus subsp. vulgaris cv. 97103 (Watermelon (97103) v2.5)
Description	NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic
Location	Cla97Chr07: 6415037 .. 6433312 (-)
RNA-Seq Expression	Cla97C07G133460
Synteny	Cla97C07G133460

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGTTTGATTGTCAATTTTACCATTTTTGCTCCTCGTGCTCTCCCTTGTTATATTTTATCTAAGGTTTAAATACTATTTTCAAAGATACTATTTTAGATTTAACTTTTTTTTCTTTTTTTTTTTTTACATTTTGACCCCTATATTTTAAAAACATCCGTTTTAGTCTTTCAATTTTAAAAAATAAGTTATTTTAGCCATTGTTGTTAACTTTAGACTAATGAGATATTTGTGAAGTTTAAATAATCTGTGTTTTGGATACAGAGTTGTGTATGATTTTCAATTCCATTCTATTTTGATATGAGATGAATGTGAATGCAACAAATTTTCTTTAACTTGAATTTGAATTTTGCCTTTTTACTATAACAAATATTTTGGGTAAATTTTGAAATTTGTCCTAAATTCTTTACTTTTCCATCTGGTTATTGAGGGAAGCAATTTCATGATCTATCTCTTTTCCTGAAAAGCATGTAGATCTACTTTTTTACTTCAATCATTCTTTCTTCATTAATTGTTGCATTAGTCATTACAATAGACGTTATGTTAGCATTGGATGCTATTTTGTTTTGTTGAGAGAAAATTTACCAAACACAAGATATATTTGCAGAGGTGATATTAGTTTGAGCAGAATTTTTCATGTGTCTCGACATCTTGCTTGTGATAGCATGTGTTTTAACTCTTTTTGTGTTGGTCTTGTATACGAGTCACTTGAAGTAGCAATTTTTTAAGAAACTTCTTTGGATACCATTACCTTCTTGGAGAGAAATTTGTTCATGCGAGTTATTGAAAATAAATTTAATGTGTGGAATGAAGTTGCTTTTATTGATTTGTAGTAGCGTTAAAATATCTAATGTGTAATTCTCTTATGCTTTCTCTCGAATGTAGACTTTGATCTTAGGACTTGCAAGTTTTTTCTCAAATCAAGGAAGATGAGTCTTCAGCTTGTAGATTGTGAAGAGACAAACAATTTGTTAAATCCTTCTAGTTTTTTAATCTTATGAGTATTGAATCTTCTTAATTCTAAATATTGAAACTCTCTAGATTCTTTCTCATGTAGACTCTGGTTTCTAATTCATCTTCGTGAATAAATGACTAAATGCTCAAGATGAAGGGTGACATCCTCTGTTTACAAAGTTTTGAGATGAGCTCGGATAAATTAGCTTTGAGTCTAATTGTCACATTACATAATTTAATTTGACTAGTTGATGCCACATGATGGATCATTGCTAAGACAAGTGGCATTATTTAATTTCTCAATTTTTTTTCTTTTAATTTAATTTGAGGATGCGTGTAAATTTGTAATTGGTCTAAAATTTATTAATCATTATGTTCAAGTAATGATGTGACAATTTGTGATTGGCCAAAATTTCTCAATCAACAAGATATTTCCTATTAATTCAACAATCTAACGAATAACTCATGAAAATAGTTGAAACATGTTGATGCCAAATTTTGGTCTAGGGAAAACGCACTTGAACTTTACGTGCCATCAACGGTAAATTTGTAATTTAGGGAGGAGGGGACTTACTAAACAAAGAAAAAAGGTTTTGATGCCTAAGTTAGTAAGAGAACTAGAAAATAGAGAAGAAGTCAGAAGTTCTAAGTTATCTTTGATGAAGCTTTGATGGTCTATTTATAGGGGATTTGATCTAGGGTTTTATCTTAACCCTATTAGCAAGTTAGGATCAAATCTCATATTATTTTACATTGTCTTATATTTTATCTTGATTTTAAGCTTGATTTTGTCAAGCGAAAGTCCACCCTCAACATTGACCCACACTCCTAAGTTTATCTTTGAAGTCCAATTATTCTACGCAAACTTAGGAGTATAATTTTTTGCTTCCATCGCTTCTGTCTTTAATGTTTACGGTGTTCCAACTTTGGTATAACTATACAGAACTTGGCTCCTAACAAGATCACTCTTCGATCCCTAGTCGTACTTGGAATATCTATCTGAACCCTCCTTTTCGAGTGTTCAGCTAAGTTCCTGGTGTATTGGTATCGTGCCCGTCTTATCCTGAGGGGTATAGACACTTGAACTTGGCTATTCTTGTCAACGTTAGGCAACCCCTATTTGACAAGCTCAATCGAGAGTGTTGACTAGTTCATCTAATCTAATCAGTTCCTTGGATTTCATCCTCCTACACTTAAGCGGAGTTAGCCTGCCTATCTATCGAACAGACTTTGGCACATGTCTTTAGTCTGACCCGAGGTGGTCCTCAGATTTTGGACTTCAAATTTGGTTAATTGTCTGTAGGGTGGCCAGCCCCTAGTTTTTCACCAAATATCTTTACTCAGAAAATTGTTTAAGTCTCAATTTGCCTCCTTAAGGAAATTTTCTCTTTACTGAATAACTGAATCTCCAGCTCCTAGCTGTTGAAGTATATTTCATAATCTCTCCAAATAATTTATTATATAAAGAGTTGCATTGATTCACATATTCTTTTGAACATCTATATTCTTTATGTATTTCAGTTAAACTATGATCCTTGATATATGTAAATCGACTATTGAATTTCAGTATAGCATCAAACTAAAACTTATTTGGATATTCTGGTAGAAATCTTCTGGAACGTTGCAATAAACTTGGGAGTACAATCTCCCCTTCGATTTCCACACTATCCTGTTGCGAAACTTTAATTCGGACTTGCTAAGGGCTGTTGGGCCAATCGAGCCAAACCCATTTGAGGTCCAACTAATTTCTCAATGTGCTTTTCCATCTCATGACAAAGGTACACGCCAAGCTCTGTCGAGCCCACCCAAGAATAGACTCCTCACAAATTTTTGCCACTTATACCCTAGGTGTTCCTCGAGTCATAAGCTGACCTAAAATATTATCTGGCTAACCCTTTTAGGACTTAAGCAGCTTCCTGACCTAATTCCCCGTCCCTAAAACAGGGTTATGGTCGCTTCTCCTTTTCATTATAGCTTCTTTGTGTCAATCTTTCCCGTTACATTACCCTTCCAACTGCAACTATCTTGCTTCTAACAGTTTGTGTTGCTTCCATCTCTACTACCACTTGACAAATTCTACCTTTAATCTATCTAGTGCCACGTGTCATCTTCTCCCTGGTCGACCATGGACTTTGAACTTGCCTCTTTTGAATTGAATTATCCCCTCTTTATCTATTACATTACCTCTCACAATGTTCAAGGGAATCTCATCACATAGTTATATGCCAAATTGTCCCAGGCCCACCCTAGGTTAGTCTCGACAACTGGTCATTGCTCCCCTAACCCAAGGTGGGATCGGGTCATGATTGAACCTAGAATGTTATCTGACCAAGCCTATTACAACTCAATCAGCTTCCTGGTATCCTTCCCTACCCTATGGCCAAATTTATGGTTACTTCACCTGTCACATCCCCTCCCAGATTAACCTCTTTAACCTAAAAGGAGGTGTGAAGATAGTAAACATCACACTTTTGTGACACTTACTGTCCATCTCATACTATTCTCATACAACCACCCATACCAAACTTAAGAAGTAAGTATGGAAAAACAAACAATTCACTTTAATGCTTATACAAATCCTTTATTAAAATTACAACTCCTTCCGAAACTCATCTCTAACTATTGAAAAGTACAACTATCCTGAGGCAGACCTCCACTTCATGTGGCAACCAAGACTCCTATGTTACTTAAGAAAGAAAAACATAAAAGAAAAGAATGAGTTAGAAGTCTAGTGAGAGGTAAACAATATACAAGTGTGGGGCTCCTCTCAACCTTTATCAATAAAACAAGTTCATCATCAACGCATCATAATGAGGTTATCTACTCAAACCTCAGCACTAGTTATCTTTGTACTATATATACTTCTTGCTAGCTCTACTTTACGCAGTAGATCGTCATTTCTTCTATGTGCACATAATCTACCTCTGGCTCAGAAGCTAGACCCGTCGATCTTCTGATCATCCCACGTGAGGTTCTTTCCACAGGCTCAGAATCTAGGTCCTATGACCCTCTGACTATCCTATGAAATTCTACCACAGACTCAGATAGTAGATCCGAAGATCCTTTGACCATCCTGGGCATAACACCGTCATAGGCTCAGAAACTAGATATGAATATCCTTTGACTATCTTGTGAGGCATTCATTTTCTCCACCATACAAATATTAATACTATGTATGGAAAAACATGAACTTTTAAAAGAGAACCACTCCTAGTTTGCAGGTAAGGACTTGGTATCTAAATCTTGTTAACCTCGTCCCCAATCCTTTTATCTTCCAAAACCTAGCTTGCCATTCACTTCGAGCACACGACTAGGCTTCTAGTTTAAAAGAAACAGCAACATGCCTTTAAACTGCAAGCTGGACGCCCAAACCTACCTTCTAGTCGTTTGAAACATCTTTTTGGACGCTTGGACATTGTGTTAGACGCCTTGACACTGAGCTGAACGCCTAGGCTCCCCTTGTTAGATGCTTGGGTGGTTCTTTCTCCCTTCCTCGAGCAAAATTCTTCCTTTTCTCTCAAGCTCTCTTGGAAAAACTTGTTTAAAATGAATTGTGTAAGATTCCCTTGGCTCCAACATCCTATTTTATAGGCTCGAGAATTCATCCTTATCATCCAATTTCTCTTCCAAGCATGACACATTAACACTTAAGTGGCCTCAACATGCATGAGCCAACATACCCCTTCATGCATGCTATCAACTCCTCCTTCACATGACTAAGTGTCTAACTATGGTGAAACTTCACCTCAAAGTTCACCACCTCCTACTTTGACCCTTAGTCAAATTCACACTATATTGTCACCGCACCTTTTAAGATGTTCACCTCAAAGTTAGCCACCTCTACCTTTGAAATTTGGTCCAACCAACCCTATGAACGCATAGTTTAGCCTTTCTCATGACCTTCCATGCGTCCATCTATGCCCGTTTTCACTTACTATGTGTGCCCATTTTCACCTACTATGTGTTTAACATAACCTTACTATGCATCCAACACCACCATTTTCACCCTCCATGCATCCTACTTGTCTTCAATAAAGTATGTATCCAATGTGCCTCCTTTTAACCAACATAAGCTATCCAACACTTAGCCAAAATCTCACCCCAAGCACATGGTACATGTCCAACTCTCCTATGCGTCCAACTTGGCCCAAGTGTGTCACCTTTCAACTAACATGAGTTGTCCAACACTTAGCCAAATTTTCCCCCTTAACGTATGAGTCCAACATACTAGGCTCCAAGTTCAACTCATAGTGCCAAGTTCACTCCATAATACCAAGTTAGAGTTCACCTCATAGTTTCCGTTTCAAAGCATAGTTAACTTCCATTCTCAAAGCATAGTCCACAACTTTGAAAGTTCACAGCGCAGTTTTCTCTCATCTACTTTTATGACCAATTTTCACCTCATAAATCAAATTTAGACAAACTCACTTCCTCCCCTTTTCGAGTTCAACAACTAGCCCTACCAAAGCACCCAACACATAGAAGTTCAACGCCTAGACCTATTAATCCTCCTTAGAATTTTCCTAACTCCACAAGGCACACTTCAACTCTTCACAAAGAAGCTTATTTAGGATTTTGGGTGTCACATCACCCATCATTTTCCCCGATGGTTCGTCGTTTTTGCTTATCTTCAATAATCCTATAGCTTGATCATTAGTCTCGTATCTTCTTGGGTTATCTCTAGTAATCATGTTACTCGATCACTTGTAACGTAATTTCTTCATGTTTGACACCTGAATAGCTCCATTCCTCCTGATGACACAATCCTATCAAGCTATTTGTCATCACCGTGCCTTATCGCAGATAAAGTCATTATTGGAAACTGCCTAAGACTGCTTGATACCGTTGCTCAAGGTTGACCATCGCCACGTCGCTGCTCATTGCTCATCTCTCGTTGCTGCATTTATTCAATGTCACTGCTCATCACTTGTGTACTATCGCTTGATGTTACCACTCATCACTACCACTCACCATTTAGATGCACTTGTTATTGCCATCGTCATTGCCGCTTGGAGTTGTCGCTACTTGTAGTGGCAAACCATCATCATTTGAAGTCACTTTAAGATAATTAGATAAGCTAGTGAGCCAAAGGGGCGTGTCTAGTTTCTCGCTTGGCTAGGGTCAGCCTTGGCCTCAGCTAAGGCCAAGAGTCTTCATTTCGCCATATTTCAGTCCTAAAATGTTCTCTTGGGCTAGGAGTTGTGTGAAGCAAGCCCCATTGTGCATTTGGCTAGGGTCGGCCTCGGCCTCGGCCAAGGCCAAGGCCAAGTGTCTTCATTTGGCCATACCCCGAATCTAACATGATCTTTTTGAAGGGATTTAATCCCAACACGGAAGCGTATAATCGCTTTTGTCTTTGAATTAGGAAAATAAAAACCTAATTGATTTTAAGAAAATAAGGTTAAGCATATTGTAAAAGAGAATTTAGAAAATACCTTTTAAAACGAAGAGCGATTTTTTTGCATTACTTGGTGTTTTCTAAAACAAAAACTCCAAGATCACAAACACCACCATTACGCAACCCTACTATGACTTAGGGAATATCAATGGGATGGTGGGATCCCTTCTTGTTCTAGAGAATCAAAGAATTTGAGAGAAAGTTTAAAGAGAATTTCAAAGAGAAGAAAGTATATGATTTTCTTGTCTATTGTTAGCTTATGGTATCTCTACATCATTATATAAAGATAAAACTAACCCTAATCCCTAAAATGCTATTACTTATTAAATATAATTATATCAAATCAAATATAATATAATATACATCATCAAATAAATAATAATCAATCAATTAATTAATTAATATCAAATATTTATTCATAATGCATTTAAATCATATAAAAATGCATATCTCTCTCATAAGTTATAGTTTTAATATGAATCTAATTCATATTAAATTAATGTTTAAATCTCATTCAAATAACAATCTCTCATCTCTTATAGTTTTAATTATAAATCACATTTATAATTAACTATATACTATAATGAAACATAGTACATTAACTATAGTATAAAATGTATCATAATACATTATACTTTATATTAGTCCTTATTAATATAAACTTCCCTTAAATAATTTGAACATTTCAAATTATTCTATAAATTACCATCTTTATTTTTTCCTTAGTGAGCTATCAGAAGGACCTAATGGACCTACAAATTAGAAGCTCCAATGATTTGAAATTAAATTAATTAAACTATTTAATTAACATTCATTAACTGTAGGTCACTCCACTAAAGATTCATAGCTACACTTTTTGCACTGTAGATATGTTCCTTTCCTATGTCCATGGATATGACCAATCATCAATAAGTCGACCCTTCACAAACGGCTCATAACAACTGTGTCAAAATTATAGTTTTATCCATTCTTAAGTCCCACTGATCCTCTAATGAACAACTTGTTTATGGTTGACCATAAACAAATCCCTCTCATGCCACGGGCCCCTGGTTTAAGACTTGGATTCAACACTTAAGAGAGCAATTTATCTACTTTCCCTGAGGATAGGAAAGAGTGAACTCCATCTTATGTAGTTATGTTCCCAGTTCCCTACTCAGACGAATCCCTAAAATGGTAGGCATATTAAGTCGGCCAAAGGATTGTCCTCATAAACAGGAGTTCATAACTCACTTAGGATTGAGATCGAGTTACTGATGGTCATCCTAATGAAAAGTTATTCTCTTCAATCAACGATGTTTATAAAAAGAGATCAATCATTTCGTGGTCTAGTCTTATATAAATTCTTTATGTAGGATGACCCCACTCACATGTCTCCACATGAATGATTTGGATAAAATCATTTGTAACACTTACAACTTTTGTGACAATTACAAAGTGGGTCATATCTGCAGTGTCACCAAGATAAGGTACTTAACTTTATCCATATACTACAGACATTTTAGGTTATTACTTGAGCAAGATCCACTTATATGTCTACTATATACTCTTCAAACTACATATAATAGCCTTGGATATTAGTTTATTGGATCGAGTAAAATGCAATCTAAATGTCAAATAAAATACCTCTTATTTTATTAATTAAATAATTTATATTTACATAAATTATTTTATTAATTAAATAATTTGTATTTACATAACTACAAACTACGAGACCCACGAGATTTAGGGCACCAATCCCAACACTTTTGTGTTGAGGCATGCGTAAAATATGCACCATTGTTATTTGACAAGGGTCAGCCTCAACCTTGGCTGAGTGTCTTTGTTTGGCCATATCTTGGGCCTAACATGATCTTTTGTGTTGGGTTATGTGTTAAGCATAAACCGTCGGCATTTGGCAAGGGTCGGCCCTAACCTTAACTAACGTCAGACGTCTCCCTTCAGCCATATCTTGGGCCCATTTTGGTCCTTAGTTGTTTAGGGTTGGCTATGGCTCAACCTCGGCCTTGACCTTGGCCATTTTCTCATTTTCTATAGTGCGCATGGTGTACTTGAGTGTGTATGGATGGTAAAAATATTTTACCTTTTTGAGCTTAGGGTCGACCTTGGTCAACCCCCTTTGAAATTTTGATCTTAAATTCACATTCTATTAAAAATTTTGAGTCTTGACTCTTCACTTTAACTTGGTCTCCTCGGCCTCGGCATTGGTCGCCTCAACCTTGACTCTTCACTTCAACTTGAACTCCTCAGTTTTGGCATTAGTCGCCTCCACCCTGTCTCTTCCCTTCAACTTGATCTCCTTGGCCTCAACATTGGTGGCCTCGGTCGTGGCTCCTCACTTCAATTTGATCTCCTTGGCTTGACATTGGTTGACTCGGCCTTTCCTCTTGGCCTCTTCGCTTCAACTTGATCTCCTCGGCCTTGGCATTGGTCACCTCGACCCTAACTCTTCACTTCAATTTGGTCTCCTCAATCTTGGCATTGACTGCCTTGACATTAGACCTTCGCATCTTCGCTTCAACTTAATCTCCTTGGCATTGGTCACCTTGACCTTGGCACTTTGCTTCAATTTAGTCTCCTCGAGCTCGACATTAGTCACCTTGACCTTGGCTCTTTGCTTTAACTTGGTCTCCTCGGTCTCAGCCAAGATTGTCTCGACCTTAGCCTCAGGTTGGTAGCCTTAGCCTCGACCTTTTCCTCAGTCTAAGCCATCTTGAACCAACTTTGACTCGTCAACACATTGGCTTCCTTTGACTTTGATCATGGGGATCTAATTTGCCCATGGCTTCCTCTATTAGAATCTCTTCCTTAACAAGATTAAGGAACTTAGTCATCGTGACCTTGATTTTCTTAATTTTGCCAAGATTTCAATCTTTGTAAAGGTAGATTATCCTTGTCCCCACAGACGGCACCAACTATTGATGCCAAATTTTGGTAAGGGAAAGACACACCTGACGTGCCATCAACAGTAAATTTGTAATTTAAGGAGGAGAAGACCTCCAAAACAAAGAAAAAGGGTATGATGCCTAAGTCAATAAGAGAACTAAACAATAGAGAAGAAGTTAGAAGTTCTAAGTTACCTTTGATAAAGCCATGAGGGTCTATTTATAGAAGATTTAATCTATGGTTTTATCTTAACCCTACTAGGATTAGGATACGAGTTTCCTAATCCCTAGCAAGTTAGGATCAAATCTCATATTATTTTATATTATCTTATATTATATCTTGATTTTTTATCAAGCCAAAGGCCACCCTCACCAAAACACAAAAGAATTGAGCAAATATACAAAGAATAGTTTGCATATACATACTCTATATGCAGACAAACGAATTAGAAAAATTCAAAAATTAGAACAAGAACAAGAATATAATTGTAAAATGCCAAGGATTATAGTGGTTCTAACACTTAGTCCTACTCTAGTATTAGATGGGAACAATTTATTAAAAAAAAAAAAATAGTTAAGTGTATTATGGGCCACGCTTATCTTTATGCATCTTACAAAATTGTTCAATCATAATTTGTCACGTGGCAAATTCTTCTAATTTTTTGTTTGAAATATTTTAATTCTTTTTACGTGTATGATGAGAATGAGATGTATAATGGGTGTTGTCCGCACCCAAATATTACTTTTATTTAAATGTTTAGAAAAGAATATAAAGAAATACTCTCATAAAGTTTGTCTGTTTTCGACACAATCTATTTTTCACTCTTGTATTTTCTATCACCATTGGAATCTACTAGACAACAAAACCTGTAACACCCCCACCCTAGATAATATATATACTTCTATATATGTACCTAGGAGTGAGTGTTACCTAATCTGTATTCTATTATACCCTGTTATAAAAGCATTTTTATTTTATTATCATAACTAGCCAGTGAAATGCTCAGCCTTACAACAGTTATACAAAACTTCTTAATAAGATCGTATCATAAGTAAGTTTTAAAAGACCATGTTTAGAGTTTACAAGTATGCCCGATGAAACTCACGTATGCCACTTAAAATAAGTTCAACCTCTACTAAGGGATGGGGTTTACAGATTTCCAAATTACAAAAATTCTATTCTGGCACAAACGGATCTTGATGGTAGGCTAGGCACCCCGAACACGCTTGCTACCTGGAAAGGAAACATCAGAGAAACAGAAATCCATGAGCTACAATGCTCAGTGAGTGACTACTAAAATACAAACTCAATAAAATCATAACTACAATCTTTGGTATGATTTGCTCAAACATGCCTTATATCACGCTTCATAAACTTGTAAATGACTATAACCTGTAAAATCACTGTCATTACGTAAATGATTGTCTTTTCATTAAACCTTTGTTGAGGTGGAGCGAACTCAACACACCCAACGTCAATAAGCCTTAGTTGTGTGAAGTAATCTCTACACATCAGCGTCAAGTATTTTCTATTATGTTCATAAGTCTATCTGATCTCAGGCTGCCTGTGTACCTTCTCATGTCCTTCGGTACCAGGGTCCCAGGGAATTACTTACTCACTATCTTTAAATCCTTAGGTGAGAGTTTCATATAAATTAATTACTAGGGCTACCCATATGCCTTTAACTAACCTTCAGCATTGGGTCCCATTCAATTCTCTTTAGTGCATAGGCACGTATAATACCTTTAACATAAATTAACTGTAATCACGATATCTCAGAATTCTCGAACACTCATCTGGTAACTATCTTGGTAAAACTTAGAACGTTATCTGATACGTTTCAAGCTTAACCTCATATTTTATAAGATATGTGCTAGTTCATATACAATAGTACATTTCAACTCATACTTCAAAGATAGTGTTAAACATATAGAAAACAACACTGAATTTAAGCTTATCTCAAATCATAAAGTCACTCACGACTTATTCCGGGCTCCGAGCGGGTTATACGCTTTCCTTAGCTCCTCTTGACCTGTAAACATACCTTTTTCATGTTAGACATTTCTAACATTCCTCCTTATATTCTTTATGTTTACTTAGATATCTTAGATATGGGTTTTTATCACTAATTTTATCTAAATCTCTAGTATAGTAAGAGTCTACATAACTACAAAATTTATTTACAACATTATTATTCTTCTTCTACACGAGTCTAGCTTTTTTGGTACCTTTTAAGATACTTAGGGATCCATTTTACAACTTTCCAATGTCATTTGTCTAATTTTGCCTTATAACTGCTCACAAGGATAGAGGCATAAGATAAATTATGGTCTTATAAAAACCATTAGATTAGGTTCATCAAACAACCAACTACTAGAGGGTAGGGTACTTTGGATAATTTAATCTTTTCTAAGAGACCTAGTCGTTCATAACTTGAAATATTGAACAATGGGAGTTGACGTTGTCTTTGCATCATCCATATTAAATTTTCCTTTTAAAAAGAGACTTGACTTGACTTGCAAAATCCCTTTAATTCTTCTTGCCAACAACATATCATCAACCTATAGAAGTTAGAATACACTGTCAAGAATGTAAGTCTTGGAGTTTATGTAAACAAATCTATCAAGTGAGATTTCGAGGAACTTAATTTTCACAACAAATTCATCAAAATGATAGTACTAGCGTCTTTTGGAGACTGTCTTTAAACCATAAATTGATTTATTAAGTACATGTGGTGCTCTTCTCCCTTTTTCTAATAACCTTGTAGCTGTTTCCATATAGATATAGTCTCATTGAGGGTGGCCATGTAAGAAGGCTGTTTCGACAACCATCAAGTAAAGCTCCAAATCATGTTCAACTACTAAGGATTGAAGCATCCATATAGATGTTACACTACAAGAAAAATCACTTTTAGTGGTGAAAAAAACGCATTGCTAGAAAACCAAAAACAACACTAAAAGTATTAGCAACGCCTACCTTCGTGTCGCTAATTACGCCACAATACTTACGTAGTTGATAGTTTTAGTAACGTAATCACCGAGCACCGCTAAAACTCGACTTTTACTGATGCGTGCGTGTTACTAAAACCTCACCTTTAGCAACACGTTACTTTGTCGCTATTAGTGTTATAAAAGTGATGTAGCAAGATTGTCACTAAAACTTAAGTTTCAACGACATATAAACTGTTCATAGATGTGGATTTCTGATTCGTGCAAACATTTTTTTGCGACATAGGTAAGCGTCGATAAAATTTATATTTGTCACTATGAGTATCAACATATATTTTTAAGAAAAAATTGATTTACTGGCATTATAAAAAATGTCGCTAAAAGTATTTTATTAATTAAAAAAATAATGTTCAATTTAAGTTGTAAACTTGTTATAAAACTTAAAATGTAATCATCTTTTGAACAAATTAAGAATCAACTATCAACTATCAACTATCAACTGTCATTTTACGTTTAAATGAAAAATTATAAAGGGAGATACATATTTCCAACGTCAAGACTATCATTGAAACAAAATGAAATAATATCAACTTATTCACAAATTTGCATAATAAATTATATCAACTTACTTCCGGTCGTTGATGCGTAAAATTTCATTTCGCAACAAAAGTATAAAATACCAACCAAAAATATTTGCATGTCCATCTTTTGAATTCCGTCATAAGTCAATACTCCAAACCATCTAAACAAAAAATCTAACAAATAAACAAAATGAAATGTGCAATCACATAACAACGGCTTCCCAGCAAGAAACTAGAAGACAAACAAAACCAACATAGAAACAAAGCATAAACTCCCAATAGGCAAAAGAAAGAATTTATGGACCAGCACCAAAATAAAAAATGAACAAGCACTAATGAAAATCATGCACAACATTGCAAACAAAACAAAACTCATTAACATAGAAAGAAAACCCCCCTAATAAGACTAAAACTAAAAATGAACAGACACTTGACATCCAACTTCTTCTAGTAACATCATACACTTCTTAATCTAATCCAACACATTACATAAAAACAGGAAGATTAATTAGCTTCACCACTTAAGAGAAGGTTTCTATATAATAAATGTCTTTCTTTTGGGTGCACCCACTTACACACAAACGTTCTTTAAATATTGACTCTTGAATGCAAGGAATGCATTCATTGTAATTATAAATCCACATTGAAGCAATTGGTTAAAAGCCTTTAGTGAGATTTTCTACGGAATAATTATGGAGATTTAAGTGTTCCCTTCTTCAACTTTTTGAGATTCTTCAACATTTCTAGAATCTTCTTGAGAAATCGAATTAGGTGAAGGGTCAATAGTCCATCACCAAGAATTAGGTGAAAGACGAAATATGACAGAGAACAGCAGTTGGGATAAGGAAACCCATTCTAAAGTTTCAAGCTCATTAAGATCACAACGAAGACGTAAAGTCCCATGCCTCCAAACCACACATCAGCCACCTTAATGTTAGGAGAACGAGCAAGACTAAACAACCTAGGAAAAGCCACTAAGAGGATACCACAATCAAACCAATGATCCTTCCAAAAAGAAATGGTTGAACCCATACCAAGGTAACATTGTGTATGAGTTGTAACCAATTGATTTGACTAATAAACTACCATGGGGACTTGGAAGAACCACAAGTAACAAATGGCCAAATACACTTGGCAGAATAGTATTTTGCCACAATGAGCTTTTTTCACAAAGCATCATGTTCAGGTAAAAACTGCTAAATCCATTTGCAAGAATAGCAGAGTTACAATAAGGGAAATTACCAATACCAAATTCGCTCATTAACTTGGGATGTTGGATAGTCTCCTAATTCACATTATGCATCCCATCATCACCATGGGAACTTAGACATGACATGAAATGTATGTTTTTTGCCTTTAATTTCATGTATTCACTTAGGAAAAATGGACTCTTGCGTGTGTTTCCCGCTAAGATCTAGATCATGATAGTGAAATAAGCTTATGAGGACTGTAATTATCTTAAAAGATGTTATTTACAGATTTTGAGGTGATTTGGTGAACTTTGGCAAGTGATCTGACCGGTTTGAAGATTTTTGTTCACTATGGCCACATTGCCAAATTTCACTATAGCCGCATCAAGGAGCCCTAGTTTTCCAAATTCATGCCTAGTCCACTTTGACTTCTATTTTCTCTATCAGAAGCAATTGTTTAATGTCTAAAAAGTTGGGTAATCATTCAAACCATGATTTTAGGCTATTCATCAACCGATTTGAGCCTATAAAAGACAAGAAGTTCCTCATTCTAGGGCAGCAACTCTCCACCTCTGAGATCATCACTACTCTTCACCATTCCTGTCAAAAAACTCATGGACATCCTCTCAATTTCCCAAGTCAGTAGCTTGAAGAACGAAAGTCCCTCTGAGGTGTAGTGGCTTTAAGTCATCTCATCCCTTGAAAGCATGTGGTGAGGAACGGTTCTTGGAAAGACTAGGGAATTGAGAACTTGTCCCATTACTTTTTGAGTTGTCTTTCTAGCCTTCCCCATTATACAATTTTCATATTTCATGTTTTTGCCCTCATTCAAACTCTATCTTGTAGCTATAATTTCTGATTTAATAAAGTTAAATATTTTATCATTATTCATGGGCTAAATTCTCCTAAAGGTCCAACAATGTGGATGCCTAGGGTTGTTATGGCTTAAGCAATATTGCACACTTCATACCACTTTGTTTTATGCATTCTCTTTGTTGATTTTAAAGATAAAATTGCTAAGTTAAACTGGTCACTTAATTTATCAATCTAGTGGAGCTCTAATGCTAAGGAGGTTAGGGCATAAACAGATGCCATAAAGGAATATGGGACTACGAGCCTAAAAATAGGATTGTCATGTCATGTTAGAAATAAGGGGCACCTTAAGATAAAGAAACTTAGCTTGAATTAATCTCAGATCCAACTAAACATAGAAATATTAGGCATTAGCTGCTTAGTCCTCCTAAAGGAACTTGACACAAGACAGAATAGGAGTTGATTTATGTTCATGCATAACTCAATGCACTGGTATGATGTGGCTGCATCACTTAAGGCACAACACCCGAAGGTTGAATCATTATTTGTCTCTATTTATCCATCAATGTTTACTGCTTTTACTTTACTTTTCTGCATTCTCAATACAAACTTCATTTATAGGTCACCTTGGTTTCATTGGTCTAAATTCATAATCAACTTAAAAGTCAACCTAGTTCTGTGGGATTCGATATTGAAATACTCTAAGTTTATCACTTCATTGACACTGTATGCTTGCACTTAGACCTCACCTACCTATATTCTTATCACTCATACATTAGGTAGATCAGGAACCCTCCCAAAGAAAGTCACAAATTGAAAGAGTAAGGATCATGCAAGCGGAAGCATTGGATCTAAAAAACTCTAATTACATCAATTTTATGGATTAAGCATGCTTGTTCATTAACCAAAAAACAGAGTTTCAGAAACTTACATTGGTATAGCTCAAAATTGAAGTAATCCTTAGGTTGTTTTTTTATCATGAACACTTCGTGGACCACTACCAGAGTCTTTCCAGCTATTCTTCAGCCTTAGAACGAATTGTGGGATCCAAATTTGTGATGAATTTGGGTCAAGTATGAAGGTTGGAGAGAGTTTGAAGTTGATGGTTTTAGAGAGAAAATTAGCACCAAAATCCCAGCTTTTTGGCATCCCTTTTTTTCACTAAATTAACCTCTATATATAGAGGAATTCATGCTATTCAAATTACTCACATAAAGACACCAAGTTGATGATTAATTTAGTGGGAAAATATGTATTTATATGAGGTTTAAAAAGGGGATTGAGTCAACACCCACCACCTCCTAAAATTCATGCAATTTTTCATTTCTAAAATTCAAATATTAAAGTGAATTTTTCTCTTTAAATAAAATTAATTTTAAAAAATTAATTAAATATTTTAATTAATTATATTAATTTAATAATAAATATTAAATTATTAAATAAAATTAATTCAAATAATTAATTAAACATTTTCATTAATTATATTAATTTAATACTAAATATTAAATTAATAATTTTTGCACTAACTTTTCTCAATCCAATAAATCTCTATTCATATGATCAATATTTAAATCACATTTAAATATTTTCAACTCTCCTTTATCGTTCAATTCATAACTCAATGATCATACGTTTAAGCAAATCGTATATGATTAATGTTTACTCCCTAAATCGAATTCGAACAATTCAATTTCTCTCATCACACTATTCTAAGGTTTAGTCCGATATGACCTAGTAAGGAGATCTAATAGATTTACAGATCAGGAGCTCCAACAATCTAAAATTAATTGGCTAAACTCTTTAATCTAGCTAATTAACATTCATTAACTACCGTGACACTTCACTATAGCCCATTAATTGTACTCTCTTTACTGTAAATATATTTATGTCCACTTGATATAACCATAATTAATAAGTTGATCTTTCACAAGTTGTTCGTAATTATAGTTGCATCAAAATTACCGTTTTATCCCTGTAATTACTTCTTGTTCCTTAAGTCTCACTAATTCTCTAATGAACAATTAGTTCGTGGTCTAACCACCAAACCGAGTCCTTCTCGGGCCAATGAGAGGGTGGGGTCCCTTCTTCAAGACTCGAAGTCAGTAGTTAAGGGATCAACCTCTCTATTATCCCTAGAAACAGGTAGGAGTGAATTTCATCTCGCAAGACTATGTCCACAACTATCTATCCTGTCTTATTCCTAAAATGCTAGGCTTATTGAGTCGGCGAACTCGAGCCACTCTCACTCATGCAGATCAAAGGATAATCCTGAATAAACGAAAGTTCATGGTTAAACTCAAGATTAAAATCGAGTTACCTAGGTCATCATATTAAAATAATCAGTCTTAACAGTAAACAACGTTATAAAGTAAAAGTGACTATCTCGTGGTCCGGCTTTGTGCAAACTCATTACACATGATGCCCCCACTCGCATGTCTTTACATGAATGATTTAGGATCACATCGTTTGTATCAAATACAAAGTAGGTCGCATCCATAGTGTCCCTAGGATAAGGTGCCCAGCCTTATCCCTATACTATAGACCTTTTTGGCTTTTACTCAAACTTTGATCTATTTTTATGTCTACACATAAAGTCTAAGTATTGATGCTATAGTTAGGGGTTCTTAGTTTATTAGATTTAGATTTATATTATACGCAACTCACATATTCAATAACATATTTACTGAAACAATTTTATTGAAAATAGAATATGTTTATTGTTTACAAACTACAAGTTTTAGGACATAAAACCCAACACAGATAAGTTTGTTCAAACTCTTAATAACATCAAATGGAGCTTGGAGAGTGATAAATAATAAATGGACAAACTAGATAAGATAGGCTGAAATAGAGTATGTGACTACAACAAATATACCTTTTAACAGCATTTGAGCATAACATTTTGATTCTGGATTTATCAGTTTTCATTTTCATTCTCTCGCCATCGATCGATTCTCTCTCAAGTCATCTGCTTCATCTTTTCAATCTATGTAGCCATAGCTCCTCTACATATCCCCCTGCGCATCTACAATATATCATCTCCATGTCTCCCATTGTCTCCAATTTATTGTACATTCTCTGAAATTCCAGTGCCTCTCTATATCTCTACGCATCCTTCTCTCAAATTCCAACGCCCTCTTTTGTTCTCCAAAGATCCAGCATCATGATTCTTGAAATATTTTTAGCATTTCCACTTTTTTTTATTTTTCTTTAGAGTTGGGCTACTTGATTGATCCACTTACTTATATTCTGTCAATATTAATCACGACGGTTGGAATTATGATTCTTATTTATAGTGACAATTATATGTGTCGTGATCAAAGATATTTGAGATTTTTTGTGTATATAAGTTTGTTCAATATGTCAATGTTGGGATTAGTTACTAGTTAGAATTTGATCCAAATTTATATTTTTTGGTAATTGGTTGGAATGTGTTCTTATCTATTAATAGGTTTTTGGTTCACTGACGACCTACTGTGGTGAATGCTTGTTAAAAGGCATTTGTAACTAA

mRNA sequence

ATGTTTGATTGTCAATTTTACCATTTTTGCTCCTCGTGCTCTCCCTTCTCCATTCCTCCTGATGACACAATCCTATCAAGCTATTTGTCATCACCGTGCCTTATCGCAGATAAAGTCATTATTGGAAACTGCCTAAGACTGCTTGATACCGTTGCTCAAGAGTTGGGCTACTTGATTGATCCACTTACTTATATTCTGTCAATATTAATCACGACGGTTGGAATTATGATTCTTATTTATAGTGACAATTATATGTGTCGTGATCAAAGATATTTGAGATTTTTTGTGTATATAAGTTTGTTCAATATGTCAATGTTGGGATTAGTTTTTGGTTCACTGACGACCTACTGTGGTGAATGCTTGTTAAAAGGCATTTGTAACTAA

Coding sequence (CDS)

ATGTTTGATTGTCAATTTTACCATTTTTGCTCCTCGTGCTCTCCCTTCTCCATTCCTCCTGATGACACAATCCTATCAAGCTATTTGTCATCACCGTGCCTTATCGCAGATAAAGTCATTATTGGAAACTGCCTAAGACTGCTTGATACCGTTGCTCAAGAGTTGGGCTACTTGATTGATCCACTTACTTATATTCTGTCAATATTAATCACGACGGTTGGAATTATGATTCTTATTTATAGTGACAATTATATGTGTCGTGATCAAAGATATTTGAGATTTTTTGTGTATATAAGTTTGTTCAATATGTCAATGTTGGGATTAGTTTTTGGTTCACTGACGACCTACTGTGGTGAATGCTTGTTAAAAGGCATTTGTAACTAA

Protein sequence

MFDCQFYHFCSSCSPFSIPPDDTILSSYLSSPCLIADKVIIGNCLRLLDTVAQELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGSLTTYCGECLLKGICN

Homology

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BLAST of Cla97C07G133460 vs. NCBI nr
Match: QWV60888.1 (NADH-plastoquinone oxidoreductase subunit 5 [Cucurbita ficifolia] >QZL38817.1 NADH-plastoquinone oxidoreductase subunit 5 [Cucurbita ficifolia])

HSP 1 Score: 91.3 bits (225), Expect = 6.6e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

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BLAST of Cla97C07G133460 vs. NCBI nr
Match: QZL38642.1 (NADH dehydrogenase subunit F [Citrullus naudinianus])

HSP 1 Score: 91.3 bits (225), Expect = 6.6e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

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BLAST of Cla97C07G133460 vs. NCBI nr
Match: ALO21756.1 (NdhF [Cucurbita argyrosperma])

HSP 1 Score: 91.3 bits (225), Expect = 6.6e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. NCBI nr
Match: ALO22793.1 (NdhF [Cucurbita pepo subsp. pepo])

HSP 1 Score: 91.3 bits (225), Expect = 6.6e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. NCBI nr
Match: YP_009447583.1 (NADH dehydrogenase subunit 5 [Cucurbita moschata] >ATY70008.1 NADH dehydrogenase subunit 5 [Cucurbita moschata])

HSP 1 Score: 91.3 bits (225), Expect = 6.6e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy Swiss-Prot
Match: Q2QD43 (NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Cucumis sativus OX=3659 GN=ndhF PE=3 SV=1)

HSP 1 Score: 88.6 bits (218), Expect = 5.6e-17
Identity = 46/59 (77.97%), Postives = 50/59 (84.75%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGY IDPLT I++ILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYFIDPLTCIMAILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy Swiss-Prot
Match: A9LYE7 (NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Acorus americanus OX=263995 GN=ndhF PE=3 SV=1)

HSP 1 Score: 88.2 bits (217), Expect = 7.3e-17
Identity = 46/64 (71.88%), Postives = 51/64 (79.69%), Query Frame = 0


Query: 49  DTVAQELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGL 108
           +T + E GYLIDPLT I+ ILITTVGIM+LIYSDNYM  DQ YLRFF Y+S FN SMLGL
Sbjct: 79  NTFSLEFGYLIDPLTSIMLILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSFFNTSMLGL 138

Query: 109 VFGS 113
           V  S
Sbjct: 139 VTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy Swiss-Prot
Match: Q3V4Y7 (NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Acorus calamus OX=4465 GN=ndhF PE=3 SV=1)

HSP 1 Score: 88.2 bits (217), Expect = 7.3e-17
Identity = 46/64 (71.88%), Postives = 51/64 (79.69%), Query Frame = 0


Query: 49  DTVAQELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGL 108
           +T + E GYLIDPLT I+ ILITTVGIM+LIYSDNYM  DQ YLRFF Y+S FN SMLGL
Sbjct: 79  NTFSLEFGYLIDPLTSIMLILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSFFNTSMLGL 138

Query: 109 VFGS 113
           V  S
Sbjct: 139 VTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy Swiss-Prot
Match: Q0ZIX1 (NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Vitis vinifera OX=29760 GN=ndhF PE=3 SV=1)

HSP 1 Score: 88.2 bits (217), Expect = 7.3e-17
Identity = 46/59 (77.97%), Postives = 49/59 (83.05%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           E GYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+S FN SMLGLV  S
Sbjct: 84  EFGYLIDPLTSIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSFFNASMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy Swiss-Prot
Match: A1XG02 (NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Nuphar advena OX=77108 GN=ndhF PE=3 SV=2)

HSP 1 Score: 87.4 bits (215), Expect = 1.2e-16
Identity = 45/56 (80.36%), Postives = 48/56 (85.71%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLV 110
           E GYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+S FN SMLGLV
Sbjct: 84  EFGYLIDPLTSIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSFFNTSMLGLV 139

[Close]

BLAST of Cla97C07G133460 vs. ExPASy TrEMBL
Match: A0A1P8LEA9 (NAD(P)H dehydrogenase subunit 5 OS=Citrullus mucosospermus OX=519315 GN=ndhF PE=3 SV=1)

HSP 1 Score: 91.3 bits (225), Expect = 3.2e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy TrEMBL
Match: A0A515BLN2 (NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Siraitia grosvenorii OX=190515 GN=ndhF PE=3 SV=1)

HSP 1 Score: 91.3 bits (225), Expect = 3.2e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy TrEMBL
Match: A0A1P8LET2 (NAD(P)H dehydrogenase subunit 5 OS=Citrullus lanatus subsp. vulgaris OX=260674 GN=ndhF PE=3 SV=1)

HSP 1 Score: 91.3 bits (225), Expect = 3.2e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy TrEMBL
Match: A0A0S2IE76 (NAD(P)H dehydrogenase subunit 5 OS=Cucurbita argyrosperma OX=34294 GN=ndhF PE=3 SV=1)

HSP 1 Score: 91.3 bits (225), Expect = 3.2e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. ExPASy TrEMBL
Match: A0A7T3USK6 (NADH-plastoquinone oxidoreductase subunit 5 OS=Benincasa hispida OX=102211 GN=ndhF PE=4 SV=1)

HSP 1 Score: 91.3 bits (225), Expect = 3.2e-15
Identity = 48/59 (81.36%), Postives = 51/59 (86.44%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           ELGYLIDPLT I+SILITTVGIM+LIYSDNYM  DQ YLRFF Y+SLFN SMLGLV  S
Sbjct: 84  ELGYLIDPLTCIMSILITTVGIMVLIYSDNYMSHDQGYLRFFAYMSLFNTSMLGLVTSS 142

[Close]

BLAST of Cla97C07G133460 vs. TAIR 10
Match: ATCG01010.1 (NADH-Ubiquinone oxidoreductase (complex I), chain 5 protein )

HSP 1 Score: 84.0 bits (206), Expect = 9.8e-17
Identity = 43/59 (72.88%), Postives = 47/59 (79.66%), Query Frame = 0


Query: 54  ELGYLIDPLTYILSILITTVGIMILIYSDNYMCRDQRYLRFFVYISLFNMSMLGLVFGS 113
           E GY IDPLT I+SILITTVGI++LIYSDNYM  DQ YLRFF Y+  FN SMLGLV  S
Sbjct: 84  EFGYFIDPLTSIMSILITTVGILVLIYSDNYMSHDQGYLRFFAYMGFFNTSMLGLVTSS 142

The following BLAST results are available for this feature:

BLAST of Cla97C07G133460 vs. NCBI nr


Match Name	E-value	Identity	Description
QWV60888.1	6.6e-15	81.36	NADH-plastoquinone oxidoreductase subunit 5 [Cucurbita ficifolia] >QZL38817.1 NA...	[more]
QZL38642.1	6.6e-15	81.36	NADH dehydrogenase subunit F [Citrullus naudinianus]	[more]
ALO21756.1	6.6e-15	81.36	NdhF [Cucurbita argyrosperma]	[more]
ALO22793.1	6.6e-15	81.36	NdhF [Cucurbita pepo subsp. pepo]	[more]
YP_009447583.1	6.6e-15	81.36	NADH dehydrogenase subunit 5 [Cucurbita moschata] >ATY70008.1 NADH dehydrogenase...	[more]

BLAST of Cla97C07G133460 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q2QD43	5.6e-17	77.97	NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Cucumis sativus OX=36...	[more]
A9LYE7	7.3e-17	71.88	NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Acorus americanus OX=...	[more]
Q3V4Y7	7.3e-17	71.88	NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Acorus calamus OX=446...	[more]
Q0ZIX1	7.3e-17	77.97	NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Vitis vinifera OX=297...	[more]
A1XG02	1.2e-16	80.36	NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Nuphar advena OX=7710...	[more]

BLAST of Cla97C07G133460 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A1P8LEA9	3.2e-15	81.36	NAD(P)H dehydrogenase subunit 5 OS=Citrullus mucosospermus OX=519315 GN=ndhF PE=...	[more]
A0A515BLN2	3.2e-15	81.36	NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic OS=Siraitia grosvenorii ...	[more]
A0A1P8LET2	3.2e-15	81.36	NAD(P)H dehydrogenase subunit 5 OS=Citrullus lanatus subsp. vulgaris OX=260674 G...	[more]
A0A0S2IE76	3.2e-15	81.36	NAD(P)H dehydrogenase subunit 5 OS=Cucurbita argyrosperma OX=34294 GN=ndhF PE=3 ...	[more]
A0A7T3USK6	3.2e-15	81.36	NADH-plastoquinone oxidoreductase subunit 5 OS=Benincasa hispida OX=102211 GN=nd...	[more]

BLAST of Cla97C07G133460 vs. TAIR 10


Match Name	E-value	Identity	Description
ATCG01010.1	9.8e-17	72.88	NADH-Ubiquinone oxidoreductase (complex I), chain 5 protein	[more]

InterPro

Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
None	No IPR available	PRINTS	PR01434	NADHDHGNASE5	coord: 88..108 score: 51.95 coord: 60..85 score: 54.68
None	No IPR available	PANTHER	PTHR42829	NADH-UBIQUINONE OXIDOREDUCTASE CHAIN 5	coord: 50..112
None	No IPR available	PANTHER	PTHR42829:SF2	NADH-UBIQUINONE OXIDOREDUCTASE CHAIN 5	coord: 50..112
IPR001516	NADH-Ubiquinone oxidoreductase (complex I), chain 5 N-terminal	PFAM	PF00662	Proton_antipo_N	coord: 51..99 e-value: 2.5E-14 score: 53.1

Relationships

The following mRNA feature(s) are a part of this gene:


Feature Name	Unique Name	Type
Cla97C07G133460.1	Cla97C07G133460.1	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0042773	ATP synthesis coupled electron transport
cellular_component	GO:0009535	chloroplast thylakoid membrane
cellular_component	GO:0016021	integral component of membrane
molecular_function	GO:0008137	NADH dehydrogenase (ubiquinone) activity
molecular_function	GO:0048038	quinone binding