MELO3C034712.jh1.t2 (mRNA) Melon (Harukei-3) v1.41

Overview
NameMELO3C034712.jh1.t2
TypemRNA
OrganismCucumis melo var. reticulatus cv. Harukei-3 (Melon (Harukei-3) v1.41)
Descriptionprotein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like
Locationchr11: 12815583 .. 12834145 (-)
Sequence length782
RNA-Seq ExpressionMELO3C034712.jh1.t2
SyntenyMELO3C034712.jh1.t2
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonpolypeptideCDSstart_codonstop_codon
Hold the cursor over a type above to highlight its positions in the sequence below.
AAGTAAGAGTTAGTTCTCTCTTGTTCATATTCCGAAACCAAGAAGAACAACCTTCAGAATCTATCATTTCTTCTCGTAATCAATGGCCTCAATTGGTGCTCGGTCTGCTTTCCGGTCATTCTCTGGTTCGGCACGCCGTGCTGCTGCTCACATCGGTTCTCAACCCAAGCCCTCATCAACCTCTCCCTTTCGCATGGCAACTAACAAACCCCTCTCTCATCCTACTTTCAGGTTCGTTGCTTAATGCTTTTGCAACCGTTTTAAGTGCGAAAAGCTTCTGAATCTAGAGCTTTTTGGGGTTTTTTTTTTGTTCTCACTAAAAGTAGAGCAACGAAAACAGTGTTCAATCTTCATCTTTATTTCTCTCTTCAGCGTTTTAGTCGTGAAACGTTTCAGTAAAATAACGTTATCTATTTTGCTTGAAGGTGTGCGCCTGTGATGAGCTTCTGTTTGGAGTCAATGATGCCATTTCACTCTGTGTCGTCCTCAGCTTTAATGACTTCCATGCTCTCTATCTCGCGCCATAGCTGCGGTTGGCTCCCCGAAGGTGCATAACTGATAATTTAATTCTTTACTTTCTTGACCTGTTGTGAGCTACATCGAAAGAGAGGACAATATGATGTATTTGTATAGTTTAGAATTTAGACCATATCCATAATTTCAGAATGACTTCTTCCGTGGACAAGAAAGAGTGGATAATTTTCTGGAAGTTGATTTTCTTTTTGCATTTGTTTTTCGTTGGATGAATTTTAGCTTTATAATTTTTTCATGAATCAGGAAAAATAAAGTTTGAGTGGGACTAATAATCAACTATATTTTGAAATAGTGATATCTATATTTAGGTTTAGGGGTCATATTAGCCACAGTGATCTGATGCTTTTGGCGGATGAAGTATCTATGCTTGTAATCTATGATTAGGGTAGTTAATGTGTTTGAATCATAAGAAACTACACCATGAAAAACTTTCTTTTGGCTTAATTTAAGTACTGATGTGTATAAATATTTCAGTAACTTATAAACTTTCATAAGCATTTTATGTGTACATCAATTTGAATGTATTGCGCTAGTTTTGTGATCCCTTTGTTAGACCCCAGTCCTCCAAACTTATAAAAGAAAGGGCAGGAAGGGAAATTCATAGAATAATTCAAAGGGAGAGCTGATGGGAGAGGAAAGAAGCACCGGACAGCCCGCCTTGTATGTGGGTATAATTATAAATAGGGAATGTATTGGGATTGAGGGATTAGGTCAGGATTTTGGTGAAAGTTGCTGTAGGCTTTTTAGGAGAGGTTTCCAGCCTTCTCGAAGGAGCTGGCTTTATTATTTCTTATTACTTTGTTGCATTTACTTTCTGTTCATCATGTGATCACAGTTGGTTTGTTGAACATTTTGGTTATTACATCAATATTACAGTAGAGTACTGTCTCTGTTTTGTCATTGTTGGGATTTTTCTAAGTTTTAGGTTGAGAATCTCAACAAATTGGTATTAGAGCTTCAACATCCTGGGGGAACACGATCTATAGATAAAAAAAACAACTCATCGAAAGAATGAAGTCTAGTGAAAGGGAAATTATGGATTCAAGGAAATCATACTCAGGCTGAAGAAGAGTGTGGATCAACTAGCGAAAGACATGAAAGAGAATACGGTTAGTCGGAGAAAAGAGGAATCAGGGACGTCCAATGTTACAGTGCTCAAAATGAAAGGAAAAATGGAGGATATGGAAGTTGGTTCGACAGTCGAACATGGAACAATTGACAAGAGCAAGTATAAGATGTTAGAAATGCCGATCTTCAATGGTGTGAATACGGAATCGTAGGCATACAGGGCTAATCATTTTTTTGAGATAAATGACTTAGCGGATAACGAGAAGGTCAAGGTAGTGGTGATTAGCTTTGCTCAAGATGAAATAAATTGGTTTCACTCGAGTAACGATCGAAAGAAGGTAACATCATGGGAAGATTTGAAACAGAGGATGTTCAATCACTTTCAACCTACTGGCAAAGGGAGCATTGGGGCTTGGTTAATTTGGATCATGCAAGATTGCCGTATACAAATTAAAAACATTTCTGAACTATTCTGTACCCTTACCAAGTATGGTGGAGAGTGGTCTAATGGATGCTTTTGTGACAGCAAACGGAAGTGGTAAGTCTTCATGTGAAGAACTTGGATGAGTGTATGAAGGAAGCCCAACTGGTCAATGATCGTAATGTTCCCCTAAATTGGCCTTGAGTGAATGGGGAGCCAATAGACGATCAATTATTTTACAATATAGTATAAAGGGGAAGTGAGGAAAGGCATGTGTGAAGGAGAATAATACCATTACGTATGGGGACCACAGTGGGGCCATGGTAGTCAGAGGAAATGATACTGTTATAAGGGAATTTAAGGGAGAGAGAGTGGGGAGTTCATTTTGGTGTTGAAGTTCTGTTCCATCCTTGAGAGAAAGGACAAACAGACATTTCGTTTTCATTCCATTGTCTTTCTAAGAATTGATCACAAAATAAATTCTCCTTTGTATTTCTTTCTTACTAATATCAATTGAATAAGAACACACTACTTCGGTGTTCTATGACATTGGTATCAGAGCAGGGAAAATTAAAGAAAATGGCACAAAAACGCATCGGGGAGAAGCTGGAAATGTTCGATTGAGAAATTTCGGGAATATGAGCTGAATTACACAAGTTACTGGCGATTGAGGAGAATCTGATGTCGTTAGTGAAAAATATTGATAGGTTGGGATTAAAGCCCAAAAGCGACAACAATTGCTGTTGAAATAAGTTGAAGGTAACGCGAAGGAGAAATCCACGACGATCAAAGAAGTAATGGAATCGGCAAGGAAAGTACCAATGATGGAGAGCACGATCGAAGGAGGAAGTACTTCAATGAAGGAAATCGGAGCCGAAGGGAAAACGAGCAAAAGTGAAAGCGAAGAAAATCAAAATGATTGAAATAAGTTCAAGAAAGTTGAGATGTTGGTATTTAATGGCATTGACCCGGATTCATGGTTGTTTAGAGCCAATCGATATTTTCAAATACACAGACTAATCGATTCAGAGAAGTTGATTCTTTCACTAATCAATTTTCATGGACCAACACTAGACTTGTATCGATCGCAAGAAAACATGATGCGTTCAAAAACTAGGCAAACTTGAAGCAACGACTACCGGTGCTATTTCGATCAATCAAAGAAGGTTCCATTTGTGGACAATTTTTAGCGATCAAACAAGAAACGACAGTGGAACAATATTGGAACCTTTTCGATAAGTTAGTGGCGCCATTACCGTATTTACCAAATGAAGTGTTGGAAGAAACCTTCATGAATGGGCTCACACTGTGGATTAAGGCTGAGGTTGAATGTTGGGAACCAACTGGGCTGTCGCAGATGATGAAACTAGCCCAAAGAGTGGAGAATCGTGAAATTACGCGGAGAGAAGTAACCTTAAAGAATATCGAAGGTAAGGCCCAAACAACTTTTCCTATTCGAAATTATGTTATTCCGATAAGTGTGAATTAAAGCAAACCTGGAAATAGTTACCCTATGAGTAAAGTAACATTGAAAGGGGTGGCGTTGGAGAAAATTGACGAGAAGGACTGGCGAAGAGTCTATTTGACGCCGAATTCCAAGCAAGGAGAGATAAGAGATTGTGTTTTCGGTATGATGAACGATATCATGCTGGTCACCGTTGTAAAATCAAACAACAGAGGGAACTGAGAATGTTTGTGGTTGACGAGAACAATGAAGAAGTGGAGATTATAAAAGAAGACGAATATGAGAAGAATAAGGAAATGAAATCAATTGAAGTAGAAGAAGAAATAGGATCGGTCGTTGAACTGGCCATAAATTTAGTAGTTGGCCTATTTAATCTTAGAACTATGAAAGTAAAAGGGAAGATTAAGGAAGAAGAAGTTATAGTATCGATTGACTACGGAGCTACCCACAATTTTATATCAGAAAAATTGGTGTCATTGCTAAATTACCAACAAAGGATACTTCTCACTATGGAGTTGTATTGGGATCTGGAATAGCAATAAAAGGGAAGGGAATTTGTGAAGCAGTGGAGTTGATGTTGAATGGATGGGGAGTAGTTGAAAGCTTTTTACCATTAGAGCTTGGAGGGGTGGATATTATCATAGGAAGGCATTGGTTGCATTTGTCGGGAGTAGCTGAAATGGTCTGGAGGAACCTTACCATGACTTTTTATCATGAGAATAACAAGGTGGTAATAAGGGGTGACTCGAGTTTAACCAAGACTAGAGTATGCTTAAAGAGCATGATTAAGTCGTGGACAAATTCTTATCGGGGATTCTTGATTGAATATAGACCAATGGAGGAGGAATGACACTAGCGGAGTTTTGTGGAGTGGAAGAAGTGCCAATGATAAGGGAATCAATCCCAGCATTGTTAGACAAATACAAAGATGTTTTTGAATGGTTGGAAGAATTACCTCTAAGGAGGAGCATTGAGCACCATATACACTTAAAGAAGGGCACAGACTCGGTGAATGCAAGGTCATACAAATATGCTTATCAGCAGGAGGAAGTGGATGAAATATTAGCTTCGGGTGTAATTCGTCCAAGCACCTAAAGAAGGGCACAGACGTGGTGAATGCAAGGCCATACAGGTATGCTTATCAGCAGAAGGAGAAAGTGGATGAAATGTTAGCTTTTAGTGTAATTCGTCCAAGCACCAACCCTTATTCCGACCCAGTATTGCTCGCGAAAACGAAAGATGGAAGTTGGAGATTTTGTGTAGATTACTATGCCTTAAACAACGTGACTATCCCAGATAAGTTCCCTATTCCTATAATTGAAGAACTTTTTGACGAATTAAATGACACAACACTATTCTCAAAGATTGACCTGAAGGCAGGGTATCATCAAACTCGGATGTGTGCAGAAGACATAGAGAAGACTGCATTTAGAACTCATGAAGGCTGTTATGAGTTCCTAGTCATGCCCTTTGGGTTAACTAACGCTCCATCCACCTTCCAATCTTTAATGAATGCTGTTTTCAAACCTTACTTGTGGAAGTTTATATTAGTGTTCTTTGATGATATTTTAATCTACAGAAGAAGCCTAGAGGAGCATTTGTAGCATCTGGAACTAGCATTGGAAGGGATTATGAGTTGTATGCAAATAAGAAGAAATGCAACTTTGCCTGCACGAGTTGAGTACTTGGGGAATATCATATCTAGAAAGGGTGTTGAAGTTGATCCTGAGAAGATACGGGAAATCAAAGAGTGGCCTATACCTACTAATGTAAGAGAGATAAGGGGATTCCTAGGTTTGACCGGTTATTACAGATGCTTTGTGCAAAATTATGGAACCATGACGGTCCCTTTGACCCAATTACTTAAATTGGGAGCTTTTAAATGGACAGATGAAGCACAAAAGGCATTTAAGAAATTACAAAATGCTTGATGACACGACGCCTGATTTTAATCTACCCTTCGAAGTAGAGATAGATGCTTTAGGATATGGGGTGGGAGCAAAGAGTGATTCAACCACAACACAAAATGCTATAGGCCTCTTGGCTTGGTTTTATTGGAGCAAAGGGTGATCAACACCAAAAATGGATAGCAAAACTATTGGGCTATACATTTGAAGTTGTTTATAAACCAGGGTTGGAGAATAAGGTTGTTGACGCATTGTCAAGAATGCCACCAACAGTACATCTCTACCATCTAATTGCTCCAACATTATTAGCTCTAATTATCATAAAAGAGGAAGTGGAAAAAGATTCTCGTTTAAGGGAGATAATTGCTGAATTACAGGAGGGAGAGGTTACTGATTTTTCTTTACAGTAGGAATGCTAAGGTATAAAGGAAGATTAGTTATATCTAAATCTTCAACACTAATACCAACACTTCAGCACACGTATCATGACTGTTTTTGGAGGACACCTTGGATTTTTGAGAAGATACAAATGATTGACAGGCGAGCTGTATTGAGAAGGAATGAAACATGATATAAAGAAGTGCTGCAAAGAATGTTTGGTTTGTCAGTGCAATAAGGCTTTAACTCATCTCCAGTAGGATTGTTGATACCTTTCAAGGTTCCAGACATTATTTGGAGCGGAATATCAATGGATTTCATTGATGGTCTTTCTTAGTCTGCAGGGTTTGATGTGATCTTAGTTGTGGTAGACAAGTTGAGCAAATATGCTCATTTTATAGCAATGAAGCACCCATACACATCCAAGACCGTGGCTGAAATATTTGTCAAAGAAATTGTGAGACTGCATGGTTTTCCTACATCTGTAGTGTCAGACAGAGATAAGGTGTTCCTTAGCCATTTCTGGAGGGAAATGTCACGTTTATCTGGAACAAAATTGAGTAGGAGTTCGGCTTATCATCTGCAGATTGATGGATAGATAGAGGTAGTAAATAGAGGGGTAGGAGTTTATCTGCGTTGTTTTCTTTTGTAAGAAACTGAAAGAATGGGTGAATTGGCTTCATTGGGCGGAATATTGGTATAATACCTGTTAGAATTAGTACTTTTGGAAAGAATAAAATATACTTTTGGAAAAAATAAAATATAAGATTTTATTTCCTAAATATTTCCTAAATCTTTTCCTTTCTTATTCCTATTGTACTCTATTTATACTCCCTTTGTACCTATTGTTTTTGTTCATAAGAAAAATAATAAAAACTAAAGTATCGTGGTTTTTCTCCCGGTTCTCGGGTTTCCACGTAAGTCTCGGGTTGTTGTTAATTGCTTTCAATATGGTATCGAGCAAAGCAATAACGAAACCCTAGAAAATAACCTAGGAGAAACCCGGTCAAACCGAACCCGTACCGCCGCCGCCGCCGCCGGGATCGCGCCGCCGTGACGCCGCCGTCTCCGCCGCCATGGAGAAACGCTCCAGAACCTACGAAACCGCCGATCTACCCAACGGGAGTGGTTCCCGGCACGCGCCGCCGTCGACGAAGTTGATTCACGCGCCGCTCGTGTCCGGCGCCCACGCGCGCCGCCGTTTCACGTCACCGCCCATCCCTTCCCTTCTACGCGCGTCGGATGTCCACGTCAAACCCTTCGGCCATCCGCATCCTCATGCGCCATCTACGAGCTCCGGACAGCATCCTCAATCGTAAATCTCAATCGCATAAGGGCAAGCTGACGTTGACCCTTTACAAGAACCGCTGTTTTCGTAACGAATTGATCAACCCAAAACAGATCGGACATTGAAGCGGGCGAATCTTCAACGCATTCCAAACCAACCGAGTTGCCGATGTATTCCAAGAACCCGTAACTGCGTTCCTAATCACAATCAAATTATATAACCGGCTCTTTGGGTTCGTCTGGGAATTTTCGCGAAAAATTAAATGGTCAAAATTATTTTTCTTGGTCACAATCAATAAAGATGTTCCTCGAAGGTCGATACCGGTTCATTCTTGGAGAGACGTCCTCCACCAGAGACGCCTTGGAACGACTGGAAAGAGAGGACTCACTTATTCGGTCCATGCCGATTAATAGTATGGAACCACGATCGGCAAGCCTTTACTATATGCGCCACAGAAAAGATTTGTGGGATACAACTCGGACCCTTTACTCGAAACGACGAATGCCTCTCGGTTATATACACTGCGAAAACAGGTCCATAATTGCAAACAAGGGACCCTGGACGTAACTACCTATTTTAACAAGCTCTCTCTCCTCTGGCAAGAGATGGATTTGTGCAGAGAGACAGTTTGGGACACACCAAATGACAGTACACAATATGCTAAACTTGAAGAGGCTGACCGTGTTTATGACTTCCTTGCAGGACTTAATCCCAAATTTGATAATGTTTGTGGTCGTATACTCGGACAAAGACCTCTTCCCTCCCTAATGGAAGTTTGTTTTGAAGTCCGCCTGGAAGAGGATCGCACTAATGCCATGGGTGTATTGACTACCCCTACCATCGACTCCGCAGCCTTTAGCGCTCGGTCCTCAAATCATGACAGTGACAAGAATAATGGGAAGTCAATTCCTGTGTGTGAGCACTGCAAGAAACAATGGCACACCAAGGATCAGTGTTGGAAACTCCACGGTCGTCCCCCAGGAGGTAAGAAACGGTCCTCCAACGAGAAACAGAACTCAGGACGTGCCTACATTAGTGAGACTACACCTGCTAGCACTTCTCAATCAACTGATCCTACTGTGAGCCAGACCAAGACTCCGACTCTGGGTGCCATTGCTCAGTCAGGTATGCCTCAGTCCCTTGGGCTTATTAGCGTTGATGGGAAGAATCCCTGGATCTTAGACTCGGGGGCTACAGATCACTTGACAGGTTCTTCAGAACACTTTATCTCATATGCCCCGTGTGCCGGTAATGAAAAAATCCGAATAGCCGATGGCTCTCTAGCTCCGATCGCTGGCAAAGGACAAATAGTTCCCTTTGACGGTTTTGCTCTCCAGAATGTTTTGCATGTCCCTAAACTGTCTTACAATTTGTTATCTATAAGCAAGATCACTCGTGAGTTGCATTGTAAAGCTATCTTCTTACCTGAATCGGTTTATTTTCAGGACATGAGCTCGGGGAGGACGATTGGCACTGCCCGGCATAGCAGGGGACTTTACATCCTTGATGATGATACCTCATGTAGTAGTTTGTCTAGGGTTAGTTTACTGTCATCCTACTTTAGCACTTCTGAACAAGACTGTATGTTGTGGCATTTTCGACTGGGCCACCCAAACTTTACATATATGCAACATTTATTTCCCCACCTTTTTTCTAAAGTTGATGTCTCTTCTCTATCTTGTGATGTGTGTATCCGGGCAAAACAACATCGAGTCTCTTTTCCCTCACAACCATATAAACCTACACAACCGTTTAACCTCATCCATAGTGACGTTTGGGGTCCTTCCAAGGTCACCACCTCCTCGGGAAAGCGGTGGTTTGTAACTTTCATTGATGACCATACCCGTCTCACCTGGGTCTACCTTATCTCAGATAAATCCGAGGTTCCATCCATTTTCCAAAACTTCTATCATACTATCAAAACACAATTTCATACAAAAATTGCAATTCTTCGAAGTGATAATGGTCGGGAATTCCAAAACCATAACCTTAGTGAATTTCTAGCCTCCAAGGGGATTGTTCACCAAACCTCATGTGCCTACACTCCTCAACAAAATGGAGTGGCCGAACGAAAAAACCGACACCTTGTGGAAGTAGCCCGTTCACTTATGCTTTCCACTTCCCTTCCATCATACCTGTGGGGAGATGCTATTCTTACAGCTGCTCACTTAATCAATAGAATGCCTTCTCGTATCCTCCACCTTCAGACTCCCTTAGATTGTCTTAAGGAGTCTTACCCCTCTACTCGTCTTGTTTCTGAGGTTCCTCTTCGTGTGTTTGGGTGCACCGCCTATGTCCATAATTTCGGCCCTAATCAGACCAAATTTACCCCTCGGGCTCAGGCCTGTGTGTTTGTTGGGTATCCCCTTCACCAACACGGTTATAAATGTTTTCACCCGCCGTCTAGGAAATATTTTGTCACTATGGACGTTACTTTCTGTGAAAACCGACCCTACTTTCCTGTTAGCCATCTTCAGGGGGAGAATGTGAGTGAAGAGTCTAACAACACCTTTGAATTTGTTGAACCTACTCTTATTACCGTGTCTGACATTGATCCTCATCCCATAATCTTACCCACAAACCAAGTTCCCTGGAAAACATATTACAGGAGGAATCTCAGAAAGGAAGTTGGGTCCCCTACTAGTCAACCGCCGGCTCCAGTCCAAAATTTCGAACCTCCTCGAGACCAAGGTATGGAAAACCCTACAAAACCTTGTACTAATAATACAATGAGTGAGAATGACAAGTCTGATGTTGCTGTTCTTGAAAATATGGAAGAAAAGAACCGTGATGATGAGACTGAGGTTAGAATAGAAACCAGTAACGATGAAGCTGAACAGGGTCATACAAGAAAACTTGATGAGTATGATCCCTCTCTTGACATTCCAATTGCATTGAGAAAAGGTACCAGATCATGCACTAAACATCCCATTTGCAACTATGTTTCCTATGATAATCTCTCTCCACAGTTTAGAGCGTTTACAGCAAACCTTGACTCTACCATAATACCGAAAAATATCTACACTGCTCTAGAGTGTCCTGAATGGAAGAATGCTGTTATGGAAGAGATGAAGGCTCTCGAAAAGAATAGAACTTGGGAGATCTGTGCTCTACCCAAGGGACATAAAACTGTAGGATGCAAATGGGTATTCTCTCTCAAATACAAAGCAGATGGTACGCTTGATAGACACAAGGCAAGGTTAGTTGCAAAGGGGTTCACTCAAACCTATGGTATTGACTATTCGGAAACCTTTTCTCCAGTTGCTAAATTGAATACTGTTAGAGTCCTGCTATCTGTTGCTGTGAACAAAGATTGGCCTCTATACCAGCTGGATGTTAAGAATGCTTTTTTGAATGGAGACCTTGTGGAGGAAGTCTACATGAGCCCCCCACCAGGATTTGAAGCCCAATTTGGTCAGGAGGTGTGTAAACTCCAAAAATCTCTATATGGTCTGAAACAGTCTCCGAGAGCATGGTTTGACAGATTCACTACCTTTGTCAAGTCCCAAGGGTACAGTCAAGGGCACTCTGACCATACTTTATTTACAAAGGCTTCCAAAACAGGAAAGATAGCTATTCTAATTGTTTATGTGGATGACATTGTTTTGACTGGAGATGATCAAACAGAAATCAGTCAACTAAAGCAGAGAATGGGTGATGAATTTGAAATCAAAGACTTGGGCAATCTGAAATATTTCCTTGGAATGGAGGTGGCTAGATCAAAAGAAGGTATTTCCGTGTCTCAGAGAAAATACACCCTTGATTTGCTAACCGAGACAGGTATGTTGGGATGTCGTCCTGCTGATACTCCTATTGAATTCAACTGTAAACTAGGAAACTCCGATGATCAAGTTCCAGTTGATAAAGAACAATATCAGCGCCTTGTAGGTAAATTAATTTACTTATCCCATACTCGTCCGGATATTTCCTTTGCTGTGAGTGTTGTCAGCCAGTTTATGCAGGCTCCCTATGAGAAACATATGGAAGCTGTTAACAGAATCCTGAGATACTTGAAAAATACACCTGGTAAAGGGTTGATGTTTAGAAAAACAAATAGAAAGACCATTGAGGCATATACTGACTCAGATTGGGCAGGATCTGTTATTGATAGAAAGTCTACCTCCGGTTATTGTACCTTTGTTTGGGGCAATCTTGTAACTTGGAGGAGTAAGAAGCAAAGTGTTGTGGCCAGGAGCAGTGCTGAGGCTGAATACAGAGCTATGAGTCTGGGAATATGTGAGGAAATTTGGCTCCAGAAAGTCTTGTCAGATCTTCATCAGGAATGTGAGACACCATTGAAGCTTTTTTGTGATAATAAAGCCGCTATTAGTATTGCTAACAACCCAGTGCAACATGATAGAACTAAACATGTTGAGATTGATCGGCATTTCATCAAAGAAAGACTTGACAGTGGAAGCATATGCATTCCGTACATTCCTTCAAGCCAACAGATTGCTGATGTTCTTACCAAGGGGCTTCTCCGACCACACTTCGACCTTTGCGTTAGCAAGTTGGGACTCATTGATATTTACCTCCCAACTTGAGGGGGAGTGTTAGAATTAGTACTTTTGGAAAGAATAAAATATACTTTTGGAAAAAATAAAATATAAGATTTTATTTCCTAAATATTTCCTAAATCTTTTCCTTTCTTATTCCTATTGTACTCTATTTATACTCCCTTTGTACCTATTGTTTTTGTTCATAAGAAAAATAATAAAAACTAAAGTATCGTGGTTTTTCTCCCGGTTCTCGGGTTTCCACGTAAGTCTCGGGTTGTTGTTAATTGCTTTCAATAATACCACATACCAAAGGTTAATTAGTTTCACTCCCTTCCAATCAGTTTATGGTCGTCTACCTCCACAACTTATCTATTATGGAGATGTGGAAACGTCAAATTCGACACTGGATCAGCAACTGAAAAAGAGATATTGCATTGGGAGCGTTGAAGGAACATCTCAGAGTTGCTCAAGATAAGATAAAAAGATATGCAGATTTGAAGAGGAGAAAGGTGGAGTTCCAGGTGGGAGAGATGGTATTTTTAACAATCTGCCCATATAGACAAGTATCCTTGAGGAAGAGAAGATTGGGCCAGTTGCTTACAAGCTCGAATTGCCATCCTCAACTGCTTAACATCCTGTGTTTCATGTGTCGCAGCTTAAGAATATGCTGGGGGAACATATTGAAGTGCACCAATTGATTCCATATCTTACTGAAACTCATAAGTGGAAGGCTATTCTAGGAGAGGTATTTGTGGGTATAGAAAGAATGCTTCAACGGATGGGAGGCGTTGATCAGTTGGAAGGGTTTACCAGCACACGAAGCTATATGGGAAGTGCGTGAAGATTTCCAGCAACAATTTTCAGATTTTCACCTCGAGGACAAGCTGGATTTGGAGGAGTGTAATGATAGACCACTGATTATTTTACAATATAGTAGAAAGGGGAAGAAAGGAAAGCCACGTGTGAAGGGGAATAATGCCATTGGGTATGGGGTCCACAGTGGGGCTAGGGTAGTTAGAGGAAATGATACTGTTATAAGGGAATTTGGGGGAGAGAGTGTGGAGTTCATTTTGGTGTTGAAGTTCCTTTCACATCCTTGAGAGAAAGGATAAATAGAAAGGGAGAGATAAACACATTTCGTTTTCATTCCATTGTCTTTTTAAGAATTGATCACAGAATCAATACTCCACTGTATTTCTTTCTTACTAATATCAATTGAATAAAAACACACTACTTCGGTATTCTATCAGGAGCCCATGGGCTGGGTAAGAAAAAAGCCTAACCCAATAGAACCCATTAGGCCCATGCAGAAAAAAATGGATAAAATGGGAATGAGACCCAGATGTGACAAATAACAGTACCTCTTCCAGGAACTACTAGAAGAAAGAGCAATCAGTCAAAGGTTGTCTGACAGTGAGCTCCAAGCATCTCTCAATAAGGGATTGTGTTTTGGGTGCAACGAAAAATGATCACATGGCCATCATTGTAAGGTGAGAGGGAATTGAGAGCTGATGCTTTTCATCATGAACGATGAAGATGAGTTTGAAGGAGTTGAGACAAGCTAGTGAGAATGAAACTGTAGAACTAAAAGTAATGGAAGTTGGGGATGGAACAAAATTTGCTCAACACCCCATTTATGGATTTTTGGAGAAAGGAACCATAAAGTTGAGGGGTAAGCGAGGCTAGAGGTGATTTTATTGATTGACAATGGAGCAATTCATAATTTTATACATCAAAAAATCGTGGATGAACCTAACCTACCAATCTTAGAGGGGACAAGATTTGAGGTTACTATAGGAGACAGATCAGTTGTCGAAATCTGCAAGAGTCAAAGTGAAACTTCTCGAGTTGATCATTCAGGCTGATTTCTCAGAAATTAATCTGGGAGAATGGATGTCATCTTAGGATTTCCTTGGTTGTGCTCCACTAGATTTATCAGGGTGCATTGGCCACCCCCCTTATTCTCAAGGGAGATTCGACCATGACTATTGCTGAATGTTCATTAAAAATCTTTATAAAGTCGGGGAAAAGGAGGATGAAGGGTTCTGGATTGAATTCTAGAATTTGGAGGTTGAGGAAGGTGAGAAAGCTAAAAATGAGATTAGTGAAAGGGGTGATGAAGAAGGGCTGTCGATGATCCAGCTCCTTCGGGGACATCCAATAAAATTGGAATGATATAGAGAAGATAGCATGACCCTTGTGCAAGGATGACACACACAAATCAAGAAGGGCTGTCGATGATCTAGGTTTTACTGAAACAATATGAATATATTTTTGCAATGCCCAGAAAGTTACCACCTCAAAGTGCAATAGATCACCAAATTCTAACAATGGAGGGTCGAAAACCTATAGATGTGAGAACCTATAAATACAGGTATGTACAATAGAAAAGCTAGTGACTGAAATGATGCAAGTTGAAATAATTAGACCAAGTTGAAGTGTGTACTCGAGTCAGGTGCTGTTGGCTAAGATGGATGAAGGGTGGGGTTTTTGCGTGGATTACCATAAGTTGAATTTAGTCAAAGTGTCGGATAAATTTCCCATTCTCGTGATCGAAGAGTTACTTGATGAACTACACGAGGTAGTTGTTTTTCTAAGCTTGACCTCAAATTCGGATATCACTTTTGCGTGGATTACCATAAGTTGCATGTTGGATGAAGGAAGAGGACTTCCATAAACAATATTTTGGATGCCTAAAGAGCACCATGAATTTTTGGTGATGCCATTTGGGCTAACTAATGCTCAAGCGACATTTCAATCGGTAATGAACCAAGTGTTTCGACCATTCCTATGCCGATTCGTGTTGGTTTTCTTCGATGACATACTAATCTATAGTTTGGATATTACAGAACATGAGAGGCATTTAGGGGTAGTTTTTAACATATTAAGATACAACGAACTATACGCCAACTGGAAGAAATGTTTCATTGGCCATTCAAGAATATAGTATTTGGGGCATTGGATCTTGAACAAGGGGTGGAGGCCAATAGGGAAAAGGCTAGAACAATGGTGAATTGGCCACAACCCAAGGATGTATCGGAACTCAGAGGATTCTTAGGGTTGACAGGATATCGTAGAAGATTTGTTAGAAAATATGGGGACATTGCAGGCCCCTTCACCAAGCTACTACGAAAAAATGTTTTTAATTTGAGTGAAGAAGCATCTACAGGATTTGAAGAACTTATAAGGGCCATGGTTTCAGTACCATTTATGGCTCCCTCCAACTTCACACTATCCTTTGTGATTGAAACTGTTTTGTTTGGGTTGTCCTATCGCAGAACTCAAGGCCAATAGCTTACTTTAGTCAGAAACTATCACCTCTGTGCTCAAACCAAGTTGATTTATGAAAGCGCACTCATGGTTGTGAGGAAGTTTACAGTTATTTCAGATAAAAAAAGCCCTCAAATTCTTGATTGAGCATAGAGTGGTACTATTCTAGTTTCAGAAATAGTTGATGAAACTTTTGGGATATGATTTTGAGATTTTATATCAGCCAATTCTCCAAAAATAAGGCAGCAGATGCCTAGTCTTGAGTCTACCGTCTAGCAGAACTCCTCGTGATGACGGCACTTGGGATAGAGGATGTGGAAGTGGTGATAAAAGAGGTTGAAGAGGATGAAGAACTACAGGAAATTATAGCCCTTTTGAAGACAAATCCCCAAGGAAAGCCGAGATATGAGTGGGTTAATGGCCAGTTACTGAAGGAAGGTTAGTCATACTATGCACTTCGTCCCTTATACCCTCCTTACTGCCCACCTTTCGTGATTCCATTATGGGAAGTCATTCTGGGTTCTTAAGAACTGACAAGCGAATGAGTGGAATGCTTCATTAGGTAGGAATGAAAAGTAATGTGAAGAAATATGTGGAAAAATGTGAAGTTCGCCAACAGAATAAATATGAATCAATCCATTTCTCCGACAACTCTGCCCGAATTGATTTTAAAAGATTGGACAATGGACTTCATTGGAGGGTTACCTAAAGTGGGAGGCTACCATTCCATTATGGTAGTGGTGGATTGTTTGAGCAAATTTGGTCATTTCATCATTCTCAAACACCCCTTTACAGAAAAGCAAGTGGTTGATGTGTTTATAGAAAGGGTTGTAAGTAAACACGAAATTCCAAAATCTATCGTCACTGACCGAGAAAGATCTTTTTAACTGGAAAGAGCTATTTACAGCCATCGGAACAGTTTTAAAGAGGAGTACGACATTCCACCCTCAAACTGATGGGCAAATAGAGAAAGTGAATCGGTGTCTAGAGACATTCTTGAGATGCATTTGCAATGAGAACAAATGCATGCCATGGGCAGAATTGTGGTACAACACAACATTCCATGCTTCTTCAAAGACCACACCATATCAAGTAGTGTATGATAGGCCCCCACCTCCCCTTATTTCATATGGTGAAAGGAAGGCAACCAACAACAGTGCTGATCAACTATTGAAAGAGAGGGATATGGTAATTAATGCCTTGAAGAACCTTCATCGGAGAGAGATGAACTTCCAAGTGGGAGAGGAGGTGTACCAGAAGTTGAGACATACCGGCAACGATCCTTAACAAAAAAAGGAAGCGAGAAAATCGCACCGAAGTTCTGTGGGCCCTACCTAATTATGGAGAGGATAGGAGAAGTGGCCTATCGCCTTGAGTTACTCCCGGAGGCAACCATCCATAATGTTTTTCATGTGTCACAACTGAAACTAAAGTTGGGACAAACTCAACCGGTCCAGCATATTCCCCCAACATTGATCGAAGAGTTCGAGTTGCACTTGAGGCCAAAATCAGTATTGGTGGTAAGATAGAATGGGGAAATCGCAGCAAACGAATGGTTGGTAAAATGAAAGGGATTGCAGGACAGTGAAGCCAACTAACAATCAGTGTACTTAATGAATCAACAATTTCTGTCCTTCCACCTTGAGGACAAGGTGCAATTCGAGCTGAGCAGTAACGTTAGACCCCCAATTCTCCACAGTTATAAAAGAAAGGGCTGGAAGGGGAATTCACAGAATAATTCAAAGGGAGAGCTGATGGGAGAGGAGAGAAGCATCGGAGGACCCACATTGTATATGGGTATAAATAGGAAATGTTCTGGGATTGAGGGATTAAGTCTTGATTTTGGTGAAAGCTGCTGTAGGTTTTTCAGCAGAGGTTTCCAGCCTTCTCGAAGGAGCTGGGTTTATTATTTCTTATTACTTCGTTTCATTTACTTTCTGTTCATTTGATCATAGTTGGTTTGTTGAACATTTTGGTTATTATATCAATATATTACAGCAGAGTATTGTCTCTCTGTTTTGACATTGTCGAGAATTTTTTGAGTTTCAGGTTGAGAATCTTAACACATTTCTCAAGCTTTTTTCTTATGAATGACTATTTCTTGTTTCTCCACTCGATATAAAACTTGTAAACATAGAGATACCTGATCCGGTTCCATAAGTTTCCTTATCTTTTTGTTTTGAAAGGAGAAATGGATCTGCTTCTAGGCCGTCTAACTAGTGGATTTTTTACTCTTGAATTAGGTAGCTAGCACACTTTATAGGCCATTGATGCTTCTTGCCTTCTTGTTGCTCTGGTGAGTTGGTGCCTGTAAACTCATAAAGAAATGATAAAGTTGAACGAAATTGTATAATAACATGCGTGCACAACAAACTCGATCATATGCCCCCTATTGTACAGGTTGTTACATCAAGTAGATAGTCTTCAAACTAGGATGCAAACGAGCTTAACAGACAAGATTGATTCATTCTCTTTCCTCCACCTCTCATTATCATTTGTCGATCAGAGTTCAAGTCCTTTTGCTGAACTCGGAAATTTTAAATTTTGTTGTTATGTTACTGAAATGAGTCATTTAAGCAAAAACCTTCCATTTCTGATTCAAATTGTTAATTAAAAAAGCACATTCCCCTGTTTTCAATGTAGGCAAAGACAAGACTAGATGAGGATCGAGAGGCAGGAAGGAATGACTTGATTTGTTTTTTGAATTTCCCCTTTTAAGTCCTAGCGATGCTACCTACCCCCCTTGGCCCATCCCCAAGACAAAGTAAAGAAAGAAAAAGAAAACATCTCGAGAGGATTCCATCAATAGGTTAAAAGAGATGATTGTATTTGGAATGAAATAATAAACTATGATACTCTATTTCGTTCACTTCGTTTGTAGATGATTGTTTTTAACATGTTGAAAGATTATATATTCAATTTTATCCTGCAACTATATTGGACTACAGATTACTAGATCGTAGTAGAATAAATTTGGCTTCTACGTAGTTTAAATATTTGGGTTCTGTTGATTAGCTGTTATCTTTTCATTTCCACAACTTCATAGAGATGGAAGTTGCAAATTCATATATTACTGTCCATAAGTAGCATGGAAAGAAGTCTGAAGTAGTCCGTGGAAAGATGAAGTCTTCTTTATGAATATACATTGAAACATCCTCTGCTTCCAACTAGAATGAATGTTTTGTAGTTTCCATGACCCAAAATTAGGTTCTAAATTTCCATTTTTCAAGTTTGAACTTGGAAAATGTCAAATCTACACATCTCTTTAAGCATGCTCATCATCTACCTAATTATTTCTTGTTTTGATTAAAATATCAAACTGTCATTAGTAACACACTGGTCACTTGTGTTCATCAGCATGCAATGATGATAAGTGACAAGAGGATCTATACGGACGGTGACTTCTATTTAGTAGAGGCTTCCATGCTACAAATGAAGAAGAGCTTCCGATAATGGCAATGGATTGTTGCTATTTGAAGACTGATTTAATTTTAATATTTGGTCTTGATTCTCTATTTCATACTCATTGATTGTTAACAATTGTATGTGATCATGTTAATTTTTTCATTGAATATTCGTTGGGCAATTGATAATTTCGCTGGAAAAGTGGGTTTGTATTTTGTAGCAGCTTCGATATAAGTAATTTGAAATACGTGCTAGTGATGCCTGGTTGAATACCAGTGTCTTGAAACTTGGTTAAAATATCAAAGCGAAGATTTTCAATCCAGAAAGC

mRNA sequence

AAGTAAGAGTTAGTTCTCTCTTGTTCATATTCCGAAACCAAGAAGAACAACCTTCAGAATCTATCATTTCTTCTCGTAATCAATGGCCTCAATTGGTGCTCGGTCTGCTTTCCGGTCATTCTCTGGTTCGGCACGCCGTGCTGCTGCTCACATCGGTTCTCAACCCAAGCCCTCATCAACCTCTCCCTTTCGCATGGCAACTAACAAACCCCTCTCTCATCCTACTTTCAGGTGTGCGCCTGTGATGAGCTTCTGTTTGGAGTCAATGATGCCATTTCACTCTGTGTCGTCCTCAGCTTTAATGACTTCCATGCTCTCTATCTCGCGCCATAGCTGCGGTTGGCTCCCCGAAGGTAGCTAGCACACTTTATAGGCCATTGATGCTTCTTGCCTTCTTGTTGCTCTGCATGCAATGATGATAAGTGACAAGAGGATCTATACGGACGGTGACTTCTATTTAGTAGAGGCTTCCATGCTACAAATGAAGAAGAGCTTCCGATAATGGCAATGGATTGTTGCTATTTGAAGACTGATTTAATTTTAATATTTGGTCTTGATTCTCTATTTCATACTCATTGATTGTTAACAATTGTATGTGATCATGTTAATTTTTTCATTGAATATTCGTTGGGCAATTGATAATTTCGCTGGAAAAGTGGGTTTGTATTTTGTAGCAGCTTCGATATAAGTAATTTGAAATACGTGCTAGTGATGCCTGGTTGAATACCAGTGTCTTGAAACTTGGTTAAAATATCAAAGCGAAGATTTTCAATCCAGAAAGC

Coding sequence (CDS)

ATGGCCTCAATTGGTGCTCGGTCTGCTTTCCGGTCATTCTCTGGTTCGGCACGCCGTGCTGCTGCTCACATCGGTTCTCAACCCAAGCCCTCATCAACCTCTCCCTTTCGCATGGCAACTAACAAACCCCTCTCTCATCCTACTTTCAGGTGTGCGCCTGTGATGAGCTTCTGTTTGGAGTCAATGATGCCATTTCACTCTGTGTCGTCCTCAGCTTTAATGACTTCCATGCTCTCTATCTCGCGCCATAGCTGCGGTTGGCTCCCCGAAGGTAGCTAG

Protein sequence

MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLESMMPFHSVSSSALMTSMLSISRHSCGWLPEGS
Homology
[Close]
BLAST of MELO3C034712.jh1.t2 vs. NCBI nr
Match: XP_016901881.1 (PREDICTED: protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X3 [Cucumis melo])

HSP 1 Score: 176 bits (446), Expect = 2.32e-55
Identity = 91/91 (100.00%), Postives = 91/91 (100.00%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91
          SMMPFHSVSSSALMTSMLSISRHSCGWLPEG
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91

[Close]
BLAST of MELO3C034712.jh1.t2 vs. NCBI nr
Match: XP_016901879.1 (PREDICTED: protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X1 [Cucumis melo])

HSP 1 Score: 176 bits (446), Expect = 2.62e-55
Identity = 91/91 (100.00%), Postives = 91/91 (100.00%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91
          SMMPFHSVSSSALMTSMLSISRHSCGWLPEG
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91

[Close]
BLAST of MELO3C034712.jh1.t2 vs. NCBI nr
Match: XP_016901880.1 (PREDICTED: protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X2 [Cucumis melo])

HSP 1 Score: 174 bits (440), Expect = 2.16e-54
Identity = 90/90 (100.00%), Postives = 90/90 (100.00%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPE 90
          SMMPFHSVSSSALMTSMLSISRHSCGWLPE
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPE 90

[Close]
BLAST of MELO3C034712.jh1.t2 vs. NCBI nr
Match: TYJ97628.1 (protein NUCLEAR FUSION DEFECTIVE 6 [Cucumis melo var. makuwa])

HSP 1 Score: 176 bits (446), Expect = 5.62e-54
Identity = 91/91 (100.00%), Postives = 91/91 (100.00%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91
          SMMPFHSVSSSALMTSMLSISRHSCGWLPEG
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91

[Close]
BLAST of MELO3C034712.jh1.t2 vs. NCBI nr
Match: KAA0053240.1 (protein NUCLEAR FUSION DEFECTIVE 6 [Cucumis melo var. makuwa] >TYJ97635.1 protein NUCLEAR FUSION DEFECTIVE 6 [Cucumis melo var. makuwa])

HSP 1 Score: 171 bits (433), Expect = 2.23e-53
Identity = 89/92 (96.74%), Postives = 90/92 (97.83%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKP SH TFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPFSHCTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEGS 92
          SMMPFHSVSSSALMTSMLSISRHSCGWLPEG+
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEGA 92

[Close]
BLAST of MELO3C034712.jh1.t2 vs. ExPASy Swiss-Prot
Match: Q93ZJ3 (Protein NUCLEAR FUSION DEFECTIVE 6, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=NFD6 PE=3 SV=1)

HSP 1 Score: 52.4 bits (124), Expect = 3.2e-06
Identity = 40/89 (44.94%), Postives = 54/89 (60.67%), Query Frame = 0 

Query: 5  GARSAFRSFSGSARRAAAHIGSQPKPSSTSP--FR-MATNKPLSHPTFRCAPVMSFCLES 64
          GARS  R  + S+R AAA  G     + ++P  FR  A   PL  P  R    +SFC+ES
Sbjct: 9  GARSMLR--AASSRSAAASTGRFASQAKSAPPLFRATARRSPLLSP-LRNPVELSFCVES 68

Query: 65 MMPFHSVSSSALMTSMLSISRHSCGWLPE 91
          ++P+HS ++SALMTS LSIS  + GWL +
Sbjct: 69 LLPYHSATASALMTSKLSISGQTYGWLSD 94

[Close]
BLAST of MELO3C034712.jh1.t2 vs. ExPASy TrEMBL
Match: A0A1S4E0X5 (protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X3 OS=Cucumis melo OX=3656 GN=LOC103496017 PE=4 SV=1)

HSP 1 Score: 176 bits (446), Expect = 1.12e-55
Identity = 91/91 (100.00%), Postives = 91/91 (100.00%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91
          SMMPFHSVSSSALMTSMLSISRHSCGWLPEG
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91

[Close]
BLAST of MELO3C034712.jh1.t2 vs. ExPASy TrEMBL
Match: A0A1S4E0Y3 (protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103496017 PE=4 SV=1)

HSP 1 Score: 176 bits (446), Expect = 1.27e-55
Identity = 91/91 (100.00%), Postives = 91/91 (100.00%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91
          SMMPFHSVSSSALMTSMLSISRHSCGWLPEG
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91

[Close]
BLAST of MELO3C034712.jh1.t2 vs. ExPASy TrEMBL
Match: A0A1S4E1L9 (protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103496017 PE=4 SV=1)

HSP 1 Score: 174 bits (440), Expect = 1.05e-54
Identity = 90/90 (100.00%), Postives = 90/90 (100.00%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPE 90
          SMMPFHSVSSSALMTSMLSISRHSCGWLPE
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPE 90

[Close]
BLAST of MELO3C034712.jh1.t2 vs. ExPASy TrEMBL
Match: A0A5D3BHH0 (Protein NUCLEAR FUSION DEFECTIVE 6 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold469G00120 PE=4 SV=1)

HSP 1 Score: 176 bits (446), Expect = 2.72e-54
Identity = 91/91 (100.00%), Postives = 91/91 (100.00%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91
          SMMPFHSVSSSALMTSMLSISRHSCGWLPEG
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEG 91

[Close]
BLAST of MELO3C034712.jh1.t2 vs. ExPASy TrEMBL
Match: A0A5A7UDF2 (Protein NUCLEAR FUSION DEFECTIVE 6 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold469G00200 PE=4 SV=1)

HSP 1 Score: 171 bits (433), Expect = 1.08e-53
Identity = 89/92 (96.74%), Postives = 90/92 (97.83%), Query Frame = 0 

Query: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPLSHPTFRCAPVMSFCLE 60
          MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKP SH TFRCAPVMSFCLE
Sbjct: 1  MASIGARSAFRSFSGSARRAAAHIGSQPKPSSTSPFRMATNKPFSHCTFRCAPVMSFCLE 60

Query: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEGS 92
          SMMPFHSVSSSALMTSMLSISRHSCGWLPEG+
Sbjct: 61 SMMPFHSVSSSALMTSMLSISRHSCGWLPEGA 92

[Close]
BLAST of MELO3C034712.jh1.t2 vs. TAIR 10
Match: AT1G28395.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G33847.2); Has 89 Blast hits to 89 proteins in 11 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 89; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 61.6 bits (148), Expect = 3.8e-10
Identity = 37/89 (41.57%), Postives = 55/89 (61.80%), Query Frame = 0 

Query: 6  ARSAFRSFSGSARRAAAHIGSQPKP---SSTSPFRMATNKPLSHPTFRCAPVMSFCLESM 65
          ARS FRS +  A   A    + PKP   S+ + FRM    PL++  FR    +S C+E+M
Sbjct: 4  ARSVFRSAASRASSTAFRFSAGPKPMPSSARTAFRMPKQSPLTNRIFRSPVELSCCVETM 63

Query: 66 MPFHSVSSSALMTSMLSISRHSCGWLPEG 92
          +P+H+ ++SAL+ SMLS+SR   GW+ +G
Sbjct: 64 LPYHTATASALLNSMLSVSRR--GWIVDG 90

[Close]
BLAST of MELO3C034712.jh1.t2 vs. TAIR 10
Match: AT1G28395.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G33847.2); Has 89 Blast hits to 89 proteins in 11 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 89; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 61.6 bits (148), Expect = 3.8e-10
Identity = 37/89 (41.57%), Postives = 55/89 (61.80%), Query Frame = 0 

Query: 6  ARSAFRSFSGSARRAAAHIGSQPKP---SSTSPFRMATNKPLSHPTFRCAPVMSFCLESM 65
          ARS FRS +  A   A    + PKP   S+ + FRM    PL++  FR    +S C+E+M
Sbjct: 4  ARSVFRSAASRASSTAFRFSAGPKPMPSSARTAFRMPKQSPLTNRIFRSPVELSCCVETM 63

Query: 66 MPFHSVSSSALMTSMLSISRHSCGWLPEG 92
          +P+H+ ++SAL+ SMLS+SR   GW+ +G
Sbjct: 64 LPYHTATASALLNSMLSVSRR--GWIVDG 90

[Close]
BLAST of MELO3C034712.jh1.t2 vs. TAIR 10
Match: AT1G28395.3 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G33847.2); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). )

HSP 1 Score: 61.6 bits (148), Expect = 3.8e-10
Identity = 37/89 (41.57%), Postives = 55/89 (61.80%), Query Frame = 0 

Query: 6  ARSAFRSFSGSARRAAAHIGSQPKP---SSTSPFRMATNKPLSHPTFRCAPVMSFCLESM 65
          ARS FRS +  A   A    + PKP   S+ + FRM    PL++  FR    +S C+E+M
Sbjct: 4  ARSVFRSAASRASSTAFRFSAGPKPMPSSARTAFRMPKQSPLTNRIFRSPVELSCCVETM 63

Query: 66 MPFHSVSSSALMTSMLSISRHSCGWLPEG 92
          +P+H+ ++SAL+ SMLS+SR   GW+ +G
Sbjct: 64 LPYHTATASALLNSMLSVSRR--GWIVDG 90

[Close]
BLAST of MELO3C034712.jh1.t2 vs. TAIR 10
Match: AT1G28395.4 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G33847.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). )

HSP 1 Score: 58.9 bits (141), Expect = 2.4e-09
Identity = 36/86 (41.86%), Postives = 53/86 (61.63%), Query Frame = 0 

Query: 6  ARSAFRSFSGSARRAAAHIGSQPKP---SSTSPFRMATNKPLSHPTFRCAPVMSFCLESM 65
          ARS FRS +  A   A    + PKP   S+ + FRM    PL++  FR    +S C+E+M
Sbjct: 4  ARSVFRSAASRASSTAFRFSAGPKPMPSSARTAFRMPKQSPLTNRIFRSPVELSCCVETM 63

Query: 66 MPFHSVSSSALMTSMLSISRHSCGWL 89
          +P+H+ ++SAL+ SMLS+SR   GW+
Sbjct: 64 LPYHTATASALLNSMLSVSRR--GWI 87

[Close]
BLAST of MELO3C034712.jh1.t2 vs. TAIR 10
Match: AT1G28395.5 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G33847.1). )

HSP 1 Score: 58.9 bits (141), Expect = 2.4e-09
Identity = 36/86 (41.86%), Postives = 53/86 (61.63%), Query Frame = 0 

Query: 6  ARSAFRSFSGSARRAAAHIGSQPKP---SSTSPFRMATNKPLSHPTFRCAPVMSFCLESM 65
          ARS FRS +  A   A    + PKP   S+ + FRM    PL++  FR    +S C+E+M
Sbjct: 4  ARSVFRSAASRASSTAFRFSAGPKPMPSSARTAFRMPKQSPLTNRIFRSPVELSCCVETM 63

Query: 66 MPFHSVSSSALMTSMLSISRHSCGWL 89
          +P+H+ ++SAL+ SMLS+SR   GW+
Sbjct: 64 LPYHTATASALLNSMLSVSRR--GWI 87

The following BLAST results are available for this feature:
BLAST of MELO3C034712.jh1.t2 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_016901881.12.32e-55100.00PREDICTED: protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like ... [more]
XP_016901879.12.62e-55100.00PREDICTED: protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like ... [more]
XP_016901880.12.16e-54100.00PREDICTED: protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like ... [more]
TYJ97628.15.62e-54100.00protein NUCLEAR FUSION DEFECTIVE 6 [Cucumis melo var. makuwa][more]
KAA0053240.12.23e-5396.74protein NUCLEAR FUSION DEFECTIVE 6 [Cucumis melo var. makuwa] >TYJ97635.1 protei... [more]
BLAST of MELO3C034712.jh1.t2 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q93ZJ33.2e-0644.94Protein NUCLEAR FUSION DEFECTIVE 6, mitochondrial OS=Arabidopsis thaliana OX=370... [more]
BLAST of MELO3C034712.jh1.t2 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S4E0X51.12e-55100.00protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X3 ... [more]
A0A1S4E0Y31.27e-55100.00protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X1 ... [more]
A0A1S4E1L91.05e-54100.00protein NUCLEAR FUSION DEFECTIVE 6, chloroplastic/mitochondrial-like isoform X2 ... [more]
A0A5D3BHH02.72e-54100.00Protein NUCLEAR FUSION DEFECTIVE 6 OS=Cucumis melo var. makuwa OX=1194695 GN=E56... [more]
A0A5A7UDF21.08e-5396.74Protein NUCLEAR FUSION DEFECTIVE 6 OS=Cucumis melo var. makuwa OX=1194695 GN=E56... [more]
BLAST of MELO3C034712.jh1.t2 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G28395.23.8e-1041.57unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT1G28395.13.8e-1041.57unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT1G28395.33.8e-1041.57unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT1G28395.42.4e-0941.86unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT1G28395.52.4e-0941.86unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 20..39
IPR033251Protein NUCLEAR FUSION DEFECTIVE 6, mitochondrialPANTHERPTHR33156:SF48PROTEIN NUCLEAR FUSION DEFECTIVE 6, CHLOROPLASTIC/MITOCHONDRIALcoord: 3..91
IPR043459NFD6/NOXY2-likePANTHERPTHR33156OS02G0230000 PROTEINcoord: 3..91

Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameType
MELO3C034712.jh1MELO3C034712.jh1gene


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

Feature NameUnique NameType
MELO3C034712.jh1.t2.exonMELO3C034712.jh1.t2.exonexon
MELO3C034712.jh1.t2.exonMELO3C034712.jh1.t2.exon_2exon
MELO3C034712.jh1.t2.exonMELO3C034712.jh1.t2.exon_3exon
MELO3C034712.jh1.t2.exonMELO3C034712.jh1.t2.exon_4exon


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

Feature NameUnique NameType
MELO3C034712.jh1.t2.stop_codonMELO3C034712.jh1.t2.stop_codonstop_codon


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

Feature NameUnique NameType
MELO3C034712.jh1.t2.cdsMELO3C034712.jh1.t2.cdsCDS
MELO3C034712.jh1.t2.cdsMELO3C034712.jh1.t2.cds_2CDS
MELO3C034712.jh1.t2.cdsMELO3C034712.jh1.t2.cds_3CDS


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

Feature NameUnique NameType
MELO3C034712.jh1.t2.start_codonMELO3C034712.jh1.t2.start_codonstart_codon


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameType
MELO3C034712.jh1.t2MELO3C034712.jh1.t2-proteinpolypeptide


GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0000741 karyogamy