MELO.jh102094.1 (gene) Melon (Harukei-3) v1.41

Overview
NameMELO.jh102094.1
Typegene
OrganismCucumis melo var. reticulatus cv. Harukei-3 (Melon (Harukei-3) v1.41)
DescriptionSerine hydroxymethyltransferase
Locationchr07: 21239382 .. 21259744 (-)
RNA-Seq ExpressionMELO.jh102094.1
SyntenyMELO.jh102094.1
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.
ATGGGTTTCAATTTCAGTGTACTCAAAGATGTTGAATTTAAGGTATCCAATGCTAATTATTGCAGAATTAACAATGATTTTGTTGGTGATTACAGATAATTCGAAAATAAATACTGATCATTTATTTGTTAGTATGAATGGTTTTGAACAAAAATTTAATTTCACGTGCTTCACTTTTTTTATTTGTTTTTTTTTTTTTTTTTCCTTTTCTAATAATGTGAGCCAATAGCCTTATTCATATTGAAACTGGATCAAGAGTTGTAATATTTTCTTAAATTAAGATATTGTACAACATTCAGCCATCCACTATCTTATAGAGTAAGTGATGTGTCTTAATATATTTAAAAGAATGACAAACTTTATAAGCACTTTATGCTTTATTATTCATAAATTGCAAAAATAAGAAAATAAGAACAAAATAAATAAACAAAACACCAATTATGTTTCACAATTCATGGTTCCACCTTTTCTTTCAAAATAGAATATTTACGTTGGTACTTTTTTTCTTTGATATCTAAATTTTGAAAATCAACTTCCAGTCCTTGAATTTTTAAGAATAAATTCAAATAAGCTGTGGATGTCATTCGATTAGTTTTATCTTCCTCTTTCATTTATGTCCTTTCGTTACAAGGCTTTTCATTATTATTTTTAATAGACAATTCAGTCATCTGTCCAATTTTATACATTTAATTTAATTCAAAACTCATATTAAAAGCTACAACTTCTAAATATTAAATCCAACTAAAAAAACATTAAACTCACACACTCATAAATATCTTCAATATAATGTTTTGCTCAAACTTTTGATATTCTTCGAATTCATAATTATACGCATAACTTTTCATTTATTCTAAACGATTGATCTTCTTCAAGTTTATAACTAATTGTTCACACGAGATTTCATGAGAAATTTAATTCGTAGAATCGAACTTTGTATTGATTTATGTATTGTGAATACAATCTCTAATATTTACTCCTTTGATTCTTTCTCTCGAATACAAAAAAAATAAAATTTAGAACTTCGTGGTCTTCGATCTTCAAGATGTTGTAATTACAAGTCAATTCGAGCTTCAATCTTCTGGAATTCAAGGAAAGTTTGATCTTCCAAGTCTTCGATCTTTCAGAAGGATGATTTCGAGATTGATGATAACTTGCACGTCTTGAGAGTCTTTAGAAGTTTTTGTCTTCAATTTTTCAGAGCTTCGATTCTTCTTTTCAACCAAAGGTCCCTCAAATGAATGGTAGATGTCTCTATTTATAGAGAAATTTTATGGGCTTTAAGTGGGCTTGGGCCTGTTTGTTTGTTAGGCTTGGGCCTATCTGTCTGTTGGACTTAGGCTTGGCCCATTTGCTTATTGGGCTTGGGCTTGAGCCTACCTGACACTCTGGGCTTGGGCCCATTTGCTTGTTGGGTTCGTGTCCGGGTCCAATTGTTTGACGGGCTTGGTCCATTATTTCTTGCCCTAATTTATATTTAGGGCTTAATTAGATCAGATACAAGAAAGCTTAATTATCCAAACCCAATCAAATTATGATTATCACAATATTTATTGTGATGACGTGGCAGAATTTAATTGGCCAAAATTTATTGCTCAACACTAATCACTCTATATCACTATAAATATCAATATTTCTTGGTTAAGCTTGAACCAAATAATATTTATCGTTTTTTCTTCCTTCTTTATTCAAAATACAAATTTCTTTTCACTTGTTATTTTAGCACGGTTATTTAGATTTCTTCTCAATGGTCAATTGCTCAAACTTAAACTTTGTACATGTGTTGATGATATAGATGTTCAAGTATGAAATAAAGTTGTTGGTTTCTTTTTTATATATTTGTTAACGTTGTGGATATTATGTATGTGTTGTTGACATAGTTAAGATTTTTGTTGCTTTTATTCTCTCCACTCCTTATTCGTAGATGACTTCTAAATTTCTTTTTAATTTTTTTTATTTTAATTATTTAAAAGTGAAATGTTGTAAAAACACATATTTCTAAATATATGTATTGTCTTTCTTCGTTGTATGTTTTTCTATTTATCTCTCTCAATCCCAAGTTTCTTCCACTCTCCTATCTCATCCATAAAATAATTGATCTCACATATTAACATTGTTATCTCACAATCTAACCAAATATAATCATAAATTGTTAATATTAATTAAGATGGTATAATTCCACCATAGGTTATAAATTAAAATAAAAATTGAGAACTAATTTATAGACTATTAAAACATCCTTATCATTATCCTTACTGTATTAAAAGTAACTCAGGGGAAGAATCATTTTTACCCCTTGCCAAATTTTAAATCTACAATATTATCATTTTATTTTCTATCCTAAATTATTCTCATTAGAGTGTTTGTGTTTCTATCAAGTTATTAGGTTGATAATTAGAAAACAAAATACATACTCCGTTATTTTTCTCCTTTTTTTTTTCTTTTTTTCTTTTTTAACAACCTACCTGGGTATTCAAGAGTTTGTTTTTTTTTTTTAAGAAAATTTTTATTTACATACAATAATTAATATTATTTGTTATTATTTAATTAATACAAAATCTTCAAACTTGGAGAATCATTTTTAAACTATATTTCATCCAAATATTTATCCTTAATTCCAAATATAACTCTCATTTAATTTTTATTTGTTAGTATTTTAAAAAAATTAACTTATAAAAAAATAAAATCTAGAGAGAATTCTATAATTATGGGATTCTTCAAATTCCACGACTCTTTCATATTCAACTTGGGCTTAATATTATATTCATTGATTTACTACTCTTTAAGTTGGTTTTAAATTCTATACTCCTAATTTCATAATAACAAAAAAGAGTGGATTCAAATTTTTATAACCGATTGAATTTGAAAGGTCTTTTTTCAAAAGATATATAAAAAATAAATATTTATATTATTTTGATATATTTTTATTAATCTTGACTCCAAAAAAACCAATGAAATATCCAACTTAATCTTCCATGTAAAAAGTCTCATGTATTTTTCTAAAGGAAAAAATGATTATTTTTCTTTTAACTTTTACCTTTATTTTTCTTTTACATTCTATTTTGAATTTTGTTATATTACAAGTTAAGATTTATAATTATTTGTTTAAGTTTCGATTTAGACTACTCTTACGCTCTTGCCAATACAATACAAAACCTCAAACATATTAGAAATATGCTCATACATGTTTTGGAAATTTCTTAAAATAATTAGAATTGTTCAAATATAAGAACTCTTTGAAGTACAAAGACAAACACCAAAGTCTCTAATTATCAAATATTTTAAACAATAATAATTATAATTTATTAATTATTTTATTTTTACCTCTCAAGAATGATTTTTTTCTAGCACGCATATTAATCAATAATATCAAGTATGTATGATGATCTTGAAGTAAGAGGTTTAATCCCCACATCACACATATTGTCAAAAAAATAATAATAAATTTTCAATTTTCTTGAATGAATGAAAAATTTGTAGTTGAAGATACAAAAAATTTCATGATAAATATAATTATAATTTAAAACATTTGTCTCTTTACAAAATATATTTATTTGAAATACTTGGAATATTTGATAATTTTATAGGATTTAGATTAAAAGAATAAAACGAATTTTCTTTCTAAAAGTCAAAGGTTTGATTCTCATTTTTGAAATTGTTATAGTAAGAATTTTATAATAACATTAACACATGCAATGAACGTCAATATTCTCTAATATATATATATATATTAAAAGGATGTAACTTTTCTTTTTAAAGTCACATTCCTTATTTTAAATCACCAGTTCATTAAGCATAAATATCAAAGATTGTTTGATATTAATGTATATGTTTTGAACTATCGATTTGTTTGTCCATTATCAATCAAAGTCTACACATTCCTTTTTATAAAGCGCACGACCTATAAAGATCTTTTTGTGTCTAGTAGATCTTCAACATGGTCAACGAATATATTATAAAATTAACGAACTCAACTTATTCTATAACGTAATTAACATTATATCTAACGCACAATAAATTTTTAATTATGTTTAACCCACCATTAAGCCCTTAATTTCATGTCAACAAGTTTATGATCTTTTTCTTCCTATGTCATATATGTGATGGAATGACAAAGCCCATCTTAAAAGTTGAAGTGCATATTAGGTACAAAATTAAAAAAGTTTATAGCTTTAAGAGGCAATTAGGCCCCAACTTGCCTTGAATATGTTAGTCGTTATCCCACTAAATATTGAACCTCACATTTATAATGGTTGAAGTTTCCAATTATTGTAACACACGATCACCGCAATAAAAACTATTTGTCTCATGTGTTTCTACAACATTTGTTATTTTATAACAACACATATTATAATAACCAACATGACGTCCTTAAATAGACACATTTTGAAATTTATAAATTTACCATACACACAAATAGGAGTTTAACGACTTGTTAAATGATTCGTTAAAGTTAACGAAAAGACGTTTATAAAAGACTAAACTTGTAATTTTTAAAAAACTATTATAAACTTATTTAAATTCCATATTGACTGGATTTCTAAACTAAGAATTAAAATAGAAAATTTGAGAGCGTAAAATATTGTGTAGACGATAAAATAAAGAAAAAAGACAGTCCTAACTTCTCCCCACTGATCTATACGTCTTATACTAACTATCGCAAGAAGAGAAACGTCTCACACATTGATACATTCTCAACAATGTAGATAAAATAGTGGACTACTGCAAGTACGTATTTCCAACTTTATACTTCATTGACACTTGATTAAAATTTTTGTATTTCGAAATTATTTAAAAACAACACTATGCACTTGATTATTAGTCCTGAATTTATATTAATTTGCTCATCACCCTCCTCATTCTTATATCTACATACCAATATGTCACTATAGTAAATAGACAAATTATATCATAATAGTGAACAGACAAGTATTTGACTATCCATATCTAAACTTCTCAACTTCACCATTCAAATTGACAAAATTGAAGTTCAGAGTTCAATCTAAACATTCTCAAAATTTTGAAAATTAAACCTGTGATAGTGAGAAATGAACTTTTTTCTAAACGTTATGAATTAAACTTGTGATGACACATATGAACTTTTTTTTCCCTAAATTTTATTAATGGAGATTGGTTGGATTAACAAATGAACTTCTATAAATCAGCACACATTGGAGTGAGACCTTTAATAAAGAAAAAGGAAAGAATACAGAGAAAAATCCACATAAAAGTAGCTAATTAAGTATAGTTATGCAAAGATTTTACCTATCAAAATGGATTAGAATAAGACAAACCCACCTAATGAACTCTTCTTTTTTAGGCCTGCCCACCTGTGTGTTGTTTTATTTTTTCTCAAAGAAAATTCGACTGTTCAAAAAATAATAATGGGCTGTCTATCAAATAGCTAAGGATTTTGGGTAGGGAGAAAGGGATGGTTTTCGAACATATTGCCATTGGTATCCATTGTGAGTGATAATTTCTTCGTGCTATTTCTAATTCATAAAAGTAGCACCTGCGAATGGTTTGATGATATTAGGCATAGATGGACTAGTCGTTATGAAGCTCATCTTTGGGATAAAAGCACATGGAACTAGAACAAGAAGGGAAAGCAAGGCATTTCTCTCTCACACACACAAACATCAGTGTGAAACCAATCACCGGTTTGCTTTGGAGTACTGTGTATTGACAACACTTTTATCTTTAAAATGTGCATGGAACGTCTGGCTCATGATTGATCATTCCAGTGTATCTGGGTCAGTATTCTAATTTAATTTCCTCTTTGTACTTTTTAACATTGACTAATATTAAATTATTTTGCTCTTTACGCACACTTTCAATGAATAACGTGTGAATTTACAGAAGCATATGATAAAGAAGAGTCTGCTGCTAGGACATACGATTTGGCTGCCTTAAAATATTAGGGTATTGGGACTCTTATTAATTTTCCAGTGAGATGTCACTTAATGCTCTTCCCCTTCAAGAAATGGAAAAATTGAAACTGATTCTCTCGTTACCATAGTTTCTCGATAATTATTTTTATGCTTTGTCTTACAATCCTAGAGTTGTTTCTATTTAAATTTTGGGATGCTTTCTAGCTTTTCGAAAAGTGTATTAAACAATTACAGAGTTTTGGAAAAAGTATTATATTAACTAGAGAAAGTATCTTCCATATCCTATTTACATACTTTGTGTTACTCGACTTTCTTTGTGTAATAAGAAATGTAACAATTGCATTTTGCAGGTTACTAATTATACAAGGGACCTTGAACAAATGCAAAATGTTTCAAGAGAAGAATACCTTGCATCTCTAAGGAGGTAAGTAGAAACTCCTAAAACATCTAGTGTGATACAATCAGCTACTTCTCATACAATTATATACTTTTCAAAAAGAGAAGTAGATTCTCAAGAGGAATATCCAAATATCGTGATCTATTAAGATATTGTTTTTTCCTTGTTAATATTAACTGTTAACACATCAACGTTATTTACTGGTTGAAGAATTATTTGTTTGCGAGATATGTGTTGACCTCCTCTATGCCCTCATGATAATTTAGAAATATAATTTATGATTTTATAATTTTAATACCTCATGATTAAAATTGTTACTATGTTATGCAATTATTTTCTTTTCTTCCTTTTTTTCTTAGTAAATGTATGTAAACTGCTCTTCGATCAATAAAAACCGAAAGAATACAATCATGCATACAAGGCAGCCGATCTAAAGGAGCCATACAAAATAATACATTACGAAAGACATGTTTTTGTGGGTATTTTATGCCCTTTTATTATTATTATTTTTTTTTTTAAGTTTAGCTATCATAAAAAAAAATATAATATTATTATTTTAAAGTACAAGGGCTTACTAATGATAGAATGATTTAGAGGAGATGATTCTAATATTCTTTTTTAGAAAAAGGGAATAGCTAGCTAAGTTGCTGGCATTAGAAGTTTTTGGGAAACAAGATTGATGTGGTTCAATAACATGGTAGAGTTTGATGTAGTGTTAGACATAGTACGAATTACATCTAAAATGGATAAACTTTCTCCTTATTGATTAAACCTAGATTGTATTGATTGTGACTCGGGAAGATTTGCTTTGTATCATGCTCTTCAGTTCAGATGGTACTTGCAAGAATATGTTGCTTTGTATTGAAGGGAAACTTAGATTTGATGTTACAATTGAACCTTTTGTTATATATTAACTTTATTATATATCATGCTTGGATTCAAAACAAGAAGTAAGTGGGGAGCACAAATCTTAGACAGGATAACATCAATGGGCCAAAGGTCATTTCTGTCATGCTTGGACAATCCTTTCATCGAGTAAAAGTAAGGACATATAAGCACTCTCTTTTGGAACCGCCTTTAGCGTGGAGGGAGCATTAGACCTTCAACATCTTAGAAAATACTTTTAGTATGGGCTTCGCTTCCGTTCCATATTTTGTTCTTTTCCTATCATCTGTGAAATTTTTTGGTTTTTTATTTTTTAAAGAAATATTTTACTTTTTTTTACGGTGTTTTATAGGATGAATTCTTAAACTATGTATTACACCATGAAGAAAGTTCATTTGTCCGCTTATTAAGAAGGTTAAATTTGTTTGGTATGTACTTAATGTATGTTAGCTAAGGTTCATTTTCGACAAATTTGTAGGTAGTTAACGAATTCGTGGACCATGAGATCGATCAAGATGGTTTTCAAATATATTGCCATTGGTATATCCATTAGGAGTGATAATTTCTTTGTTTTCATTGTCCTTGTTTCACTTTACTGATGAAGATGTGGATGCTTTTGAGGTCATTCATTTGGATGGGCTTTGTCCGTTTCATGTTTTCCTTGAGCTAAAATAGAAGATTTTTTTAGTTAGTTTTGTGCGTGCTAGTTAAACTTAGAGCACAATAAGATTACTTCTATTTGGACGTGTAATAATGATGAATACTGGAACTAACAAGAAGAATTACTCTCTTTATTTCAACAAATTGATAGGATATTAATTGATGAGATCTCAATTCAATGAATTAGGGCTACACTTCTTGATCTCCTTTCTCTCAAGGATGAACAAGCCTAAATTCTCTAGTACATAATTCATATCCCTCTTTCTGCCCAACTATGCTATTTATACTTCACTGTTAGCTAACTGCCTTAACTAACTAATACAGCTTCATCACAATTGTTATTTCTCACACGTGCTCTTTTCACCCCTTCTACTATATTGTAGAATAATTGGAGGATTATCATTACTCCTCCCTTCCAAATTCACCTTGTCCTTAAGGTGAAAATCTAGATAAGTCATCTGCACTTCTTTATACCTCTCCCATGTTGCTTCATGCTTCGGTAGTTCTTCCCAACTAATCAGCACTTTCCACTTTTCTGCCTTGTCCTTTCAATAATCAACACTCTCTTGAGGAACAGCCTTCCATTCATGAGTCTCAGTCAAATACTATGTTGTAGAATACACATTCACATGTTCACCAATTATCTTCTTCAGTTGAGAAACATGAAAAACTGGATGAATAGATGTACCAACTAGTAATTCCAGTTTATAGGCCATAACACCAATCTTCTCAATAACCTTGTAAAGTCCAAAGAATTTGGGAGAGAGTTTCTGATCATTTCTTTTCTTTCTTAGAGACGACTGCCTGTAGGGTCTCAATTTAAGAAACACCATGTCACCTACTTGATATTGCACATCCCTTCTCTTTTTATCAACATATTTCTTCATGTTTTCTTGTGCCACCCGCGAAAGTTCTTTTAAAACACCTAGAGCCATATCTCTTTCTCTTAATTGTTCATCCAAGGTAGAATTCGTTGTTTCTCTTTCACCATAATTGACTAAGGGGGAAGGTTATCATCCATACACAACTTGAAAGGGTGTTATCCTCAACGCTCTCTGATATGTTGTATTATACCAGTATTCAGCCCACGACAACCACTTTACCCATTTCTTTGACTTTTCACTGCATAAACATCTTAGATAATTCTCTGCTCCACGATTTACAACCTCAGTTTGCCACTCTGTTTTAGGGTGATAGGCCATGCTTCGGTTCAATTTAGTTCCTGCTAAGCGAAAAAGTTCCCTCCAAAAATGACTGAGAAAGACCTTGTCTCGGTCTGACACTATTGATAAGGGAAAGCCATGTAATCTTACAATTTCTTTGACAAACACATCAGCCACTGTCTTGGCCGTATATGGATGTTTGAGTAATAGAAAGTGACCATATTTGCTAAGACGGTCAACTACAACAAATATCACCTCAAAACCATAGGCCTTAGGCAATCCTTCTACAAAATCCATAGAAATGTCACTCCAAATTTGATTAAGCACTTTCATGGGTAGAAGTAAACCAGCGGGAGATAAAGTAAGTGTTTTATTTCTTTGGCATACTAAGCATTCATCACAATATTTTTTTACATCGACTTTCATTCCCTCTTAGTATAATTCAGCAGTCAATCTTTTATAAGTTCTTAAAAGTCTAAAGTGACCTCTAAAAACTGAATCATGATATGTATAAAGTATAGCAAGAATTAAGGTTAAAGATTTAGAAATTACCAGCCTGTTCTTATACTTCAACATATCCCATGCTGGATTGAAAATTTTCCTTCGGTTGCTTCTCCTGAACCACTCATTTCTACCATTATCTTTTGCAACTTGTGATCTTTTTTCACCTTCTCTTTAATTGTTTCAAGATCAACAATAGTTGGAGCTGACAAACTGTATAGATTCATGGCTGGTGATAACCTAGAAAAAGCATCAGCTGCTTTATTTTCCAAGCCCTGGCTTATACTTCACTTCGAAAGAATATCTCAAGAGTTTGGCTAGCCATCTATGATACTGTAGTTGAACTAGTCTTTTTTCAAGTAGAAACTTCAATGACTTCTGATATGTTTTGACTATAAATTTAGTCCCTAACAGATACAGCCTCTACCTTTGGACAGCAAAAATCACTGCCATCAGTTCTCTCTCATAAACTGGTCATGCCTTATCCCTTATAGCCAAAGTATGACTATAAAAGGCAATGGGTTGCTTCATTTGAACCATCATTGCTCCTATCCCATATTCTGATGCGTCTGTCTCAATTTCAAAAGGGGGAGAAAAATCAAGCATTGCTAGAATAGGGAGAGTCATCGTAGCCTTTTTAAGCTTCTCAAAGGCTTCTTCTGCTTAACTGGACCACTTAAACCCCCCCTTTTTTAAGTAGTTGAGTTAGAGGAGCACCAATGGATCCATAATGACAAACAAGCCTTCTATAATACCCTATCAAACCAAGGAATCCACACACTTCTCTCACATTAGTTGGACACGACCATTCAACTGCTAATTTGATTCTTTTCGAATTAGCTTCTACTCCTTGTTCTGATATTATATGACCTAAGTATTCAACCTTAGGTTTGGCAAAACTACATTCTCAACCTTAGGTTTGGCAAAACTACATTTCTTTCTATTAGCATATAGCTCGTTTTCTTTTAGGATTTTAAGTATCTCTTCTAGATGTTCTAGATGCTTTTCAATGCTTCTGCCGTAAATCAGATTATCATTATAAAAAAAAAAAAACTAACACAAAATTTCCTCAAAAGTGGCTTGAATACCTTGATTAAAAAGTGGTATGTGCATTAGTAAGCTCAAAAGGCATGACTAAGAACTCATAATGCGCTTCGTGAGTTCTAAAGGTTGTCTTTTCGATATCTTCTTCATTCATTCGAATTTGATGGTATCCGGCCTTCAAATCAATCTTTGAGAACAAGGATGCTCCAATCAACTATCAAACAACTTTTCTATAACTGGAATGGGAAATTTGTCTAGAATAGTAGCATTATTCAATGCTCTATAATCCACACAAAAGCGCTAGTTCTCATCCTTTTTTACTAGAGCATTAGGCTTGAATAAGGACTATTACTCAGCCTTATAACTCTTGAGACCAGCATCTCTCCTACTAGTTTCTCCATTTCTTGCTTCTGGTGATAGGTATACCTATAAGGTCTCACGTTTATAGGATTGGTGCCTTGAAGTGTATGTGATGTTCAATGCTTCTACTCGGGGGTAATCTTTCAGGCCATTCAAACATGTCTGAAAAATTATCTAACACTGTCTTCACTAACTCTTTCGCAGTACATATGCTCTCATCTTTGTTTGGTTCAACCATTGGCATTTCCTTCAACTCAATCACCTTACATTCCACAAGAAAGCCTTGATCATCGTCTCCACAAGTTTTCATCATATTTTTAAGGCTCACTTGAGATTTGGTAAGGCTTGGATCCCACTTAATACTCACTTTTCTTCCTTGATGCTAGAATGTCAAAAGTAAATTCTTTCAATCAACTTCGGTTACTCCCAAGGAGTATAGCCATTGCATCCCAAGAATAATATCAACACGTCCAAGTTCTAAGGGCAGGAATTCATCTTTCACAGTCCATTCTTCAAGTTGGATTTCTATCCCTTCGCAAACTCCTTTTCCTTGGACTTCCTAGACCCTAAAATGACTCCATAATGAGGAGTTTCTTTAGTGGACAGTTGTAGTAGCTTCACTAATTTCTCGAAGATGAAATTGTGAGTGGCCCCACAATCGATCAACACAATAACCTCTTCGTTCTGCAGCTTCCCTCTCACCTTCATGGTCCTTAGATCATTCAATCCTCCATAGAGTTTATTGATAATTCAATACAAGTTGTGTTAATTCCTTTGACTTCTACAGTGTTTAACTCCTTCCTTTCTGCTTCATCTTCTTCGATAATTTCGAATTCTTCATTGTTATCGGTTACTACAAACATCTGCAACTCTCTTTAATCTCTCATCTTACATTTATGATCAGTCGAATACTTATCATTGCACTTGAAACACAAGTCTTTCTCTTTACGAGCTTGGAACTCAACATCAGGCAACCGCTTGAATGCTCCTTCTCTTTCAACTTCATTGGCATTCGATCCTCTCAAAGTAGTAGTCCTTATAGTGAATGTAGTATTTCCCTTGTTTTCAATTACAGAAGTGTCCCCAGCACTTTTTGAAATTCCTCCAGAATTTGGCTGGTATTTTCCAACCGCATACCCATTTAAATTGGCTTCCCCTCTAATGATTTCTTTATTCTCAACTAACTGAACAAGTTACATCATCTCAGTTATTCCCTTTGGTCTGCCTCGGCCTTTATAAGGCAACAATCCATTCATGAATGTTCCTTCAATTAACCTTTCTTGTAAATTAAATAAGGGAGCTACTAGTTTATCAAACAAATTTCTATATTCTTCTACGGTGGTTTCCTGTTTAATTTGAAGGAACCTTTCACATATTGATCCCTCTCTCACTAATCGAAAATGTATTAATAATCGCTCCTTCAAATCCGTCCAGCCTAGAAACTTATTCCTCTCCTTTTGTGATTGGTACTAGTTTAATGTTGAATCTTCGAAACTAATGGTCGAAACTACCATTTTCTTGGATTCACTAAGTTTGTGAATTTGAAAGTACCTTTCTGCACGAAACAACCACGAGTCAGGATCCTCGCCATTGAAGACTGGCATCTCGACTTTCTTGAACTTGTTTTGGTCGCCATTGTTATCCTCTGTATCGAACTTCTTATCTGCTTTTTCAGAATCGATTTTGCGACTAATAAATGGTTTATTTTCTTTCGTGCTTGTCGCCAGCGATTCGCGCGACATAGATTCTGATAATCTTTCGCTCATCATTGATCTCTCCTTTTCTGTCGTTTCCATCAATCTCAGTATCGCCTGTTGTTGTTTCTCGGATTGCAGTCGCACCAATTCCAAGTTCTTCGTGATTTCGATCAGGCCAAGTTCGATAGCATGAATTTTACTCGTTTCTTTCTTCATTCCGTCAATCTCCCGATCGATCAATTCCGTTCTTTCCTCGATTCTTGTCTGAACCATTTTGGATTTCTTCCCCAGAATTCGGCTATAATACCAAAATGATTAATACCGTAACTAACAAGAAGAATTACTCTCTTTATTTCAATAAATTGATAGAACAGTACATAACTTGGAGATCTCAATTCAATGAATTAGGGCTACACTTTTTGATCTCCTTTCTCTCAAGAATGAACAAGCCTAAATTCTCGAGTACAGAATTCCTATCCCTCTTCCCGCCTAACTATGCTATTTATACTTCACTATTAGCTAATTAACTTAGCTAGCTAACTAACTAACACAGCTTTATCACAATTGTTATTTCTCACGCATGCTCTTTTTCCCCTTCTACTGTATTGTAAAACAATTGGAGGTTTATCAGATAATTACTGATTAGATATTTATTCCATACACGGCTTATGCCGTGCAATTTCTTTCTCTAGTTGGATTGCTTGTTCTTCATCGCAGACATAATTCTTTCCTTTCCAGGGATTTTAGAGTTTTTACCTTTGTTTATCAATGTTTGCACCATTTCGCCCATGAATAATATTTTTCTTTACGATTTTAAAGAGGTCATGCGTGATGCTGCTTTCTGAGCAACTGGGGACTGGGGTAACTATTATTTTCTTTCATCTTCTCTTAACTGTGCCTCATATGATAACATGATCAAGTTTATGTTTTGAAATGCATTTACTAAAAACTTTATTTGTTCCCTGAGAGTATTTTTTTCGAAGTCCTCATTTTTTATGCTAATCATACATTTATGTACTCACTATTTCATGTCAACCATTTTTACTGTTTGTTGCTGCTGCTCTTTTTTGGTTATAATATGCATAATAAAATAACATATATTTACAATGGCTCAGAGGAAGATTTGGAGTCAAATTTAATTTTGCCTCTTTTTTCCCCTCCTTTTTCTTTTTCAGAGTGCAAGGATGGGATCTTTATCGGAAATGAATGATTTGGCAAGTACTTTTGCAAAGGTACGCCTTCATTGGCAAATATGCAAATAAAAATGGATAAACCTCTCTTGAAATCTTTTATTGGTGTGGTCTACTAATAACACCATTTTACTGAATGTTCTTCACCGTTGTGGTCTCCATGTGAAATCTGTCCTTAGGTTTTCTCTTCTTAACCCCTTTTTCCACTGATCTAGAGATAACACCTGTTTGGTTGAATTAAGTTACAAAGTTCTTTAAATAGAGAAAAAATCCAGATGATATGCAGCAGCTCTCTTTTCCAAAAGTAATGATTTCAGTTCCAACTTCGATTGCTACTTTGCTAAAAGATTTATACCATGTACCATCATGATATCAGTTTCCTCTTCTTCTCTCCTCTTGATGTAAATGTAGGATATAAGTGTATTTGGTTACTGGATTGTAACAACTACTCTGCTGACAGAAATATACTAACCCATTGAATAATAACTACGAGCCTACCAACAAAAAATGGTTTCTATTCTTGAATAGTATACTCTGTTTTAATATTAATTTACAAATTACAATATTCTTCCATTAATCAGTCTAGCTGTTCCAACAGTCATCGTTCTTCCTTTCTTTCTTCTTTCCATGATTCTTCTTGTCAATGGAAACAGTAACTTTCATTGTCGTATCACTCATTTTTCTTCTTTTGTGCAGTTGAACAAAGTTGTTACTGGAACAAGACATCCAGGAGTCATTGGAGATCGAGGATCTGTTTCTTTTTCTCAAGAAAGTGAGTTTTTTTGTCAATGGAATTTCTATATATACATTATACACATATGTACATATTTACTTATTTATTTGAAGAATAAGTATGAACTTGGATATTTACGTAAAAAATGTAAAAAAGGAGATGAGGTATCTTCCAACTGCCAGAGGCTCATGTTACAGAAAGGAAGTCTCAAAATGGCATAAATTTGGATGTTGCAATGAAGTAAAATTGTAGAAGTTTTTGTGGAGGGAGCACCATAAAGAACCTGTCAATCTCTTTATATGCTTCTGTCCATGGACTAATCTTCCTATTCCTTTCAACTTTCAAATGAAAGTCTCCAAGAAGGTAAACATGAAAGGGAAATATGAAAGGAACAGACATGGAGATCCTCTTATCCTCCTTTCTTTTCCTTCTTGTCGGATGTTTTAAGTAGCCTCATCTCTTAGAGCATTGTTGATTAAATGACTTAAATCCATGTGTTCTATGTTGTTGAGAATGAGAATGAGAATGCGTTTCTTTCCCACAAAATCACTAAAGAAAGGGTTTCCAATAGGTGCCTAGAGAGGAATTATTAAAAGCCTTAGAAAACGAAGCCCTAAGAGAAACATGAAACAACACTAAGGATCAAACCTCACTAGGGCCTCTTTTCTCACCTTTTTCAAACTTTTGTTTCTCACCCACACACCCTTGGAAACAAAAGAAAGCGCTTCACACACCCTTGGAAACCAAAGAAAGCGCTCCATCTAAAAGGTAGAAGGAAGAGGAACTCCCCTATCAATCAATCATCGAGCGGACATCCCTCTGGCTAGCAAGCCATCAATATAATTCTCAATTCTCATTCTTTGAACATCCATAGACTACATCAATATAAACATACGTCCATGGACAACATTCTTTGAAGATGTGAGTTTGTGGGATGCGTGTGGAATCATTTAAAGCGCCAACGAGACAAAACTGTAGAAGTAATTATCGACAGAACCCCAAATCAAGAAGTCAAGAGAATTAAAAAAGGCTCCTTTTCATCGAATTAACTAAATCAGGGGGAGGGGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGCAACAAAACAATAGAATGACACATTTCCCAAATCCTATAGAGTATACTACACAGTGAAAACAATCAAACAGACATATAAAACCCACGTAGCGGTATGAATGGGAGAGGTATTTAGCGAGAAAGAGGCCACCGCTCCGTGGGGTAGAATCAGACTTCCAGAGTCATTGGAAGTTAGACTTTTGCAAAATGGAAAAACCCAAGAGAAAACACAATGAAAACAGCACAAGGATCTCAGAAAAGTAAGAGAGAAACCCAGAAACAAAAATAGAAGAACAAGAGAGGCGGATAAATATAAATTCAACTGATGGAAATGTAATTTGCACAATCCATAACACCAATACATAGAAATGTCAAATTGGAATACCAAAACCATCACATAAAAGCAGAAAAATATATGAATCTATATAAATGCGTCTCAAATGTATCATTATAACCATAGAAATTTCTCATCCAAGCATTCAAAGCACGTCCAGACAAAAATTAAACACCAAAACAAACTACATTAGCAAGATAGAACGTACGATAACTCGAAAACAAAAAAAATTAAATTGCTCAATAACCTAATACGAGAGTAATCCAGAAGAAACCAGTAACTGAATGAGCTACTTTAGAATCTGAGCTTAGTGAAAAACCACCTGTTCTTCCCGGTTTTGAACCTTTCCTCGAACCTCTTCTTGGTCTCTTTGGCGGCGGAGACCTTTTTGTCTTTTGACTGCAACGAATCGATAGTGACAACGTCTTTAAGATCGACATCGAGAGTGTACCTAGTGGGCATCAGATGCCTATAATTGACGAGCTTAATGAAGGCCTTGACACGGGATTTTTTAGCGGTCTTCTTCGCAGAGTCCTTGCGGATGACCTTGGCCGGGTACTTCTTGATTCCAGCGACCAAGCAGTGGCCATAAGCGCGATCCCGAGTCCCGTCATCGAAAGCGCGAATGATGACCGCCTTCCGGCCGGCGTAACGGCCTTGAAGGACGATGACGGCTTTGTTAGGCTTGAGGAACTTCACCATTTTGGAACTTTCACCTCTGCTCTGTGTTTTCCGTCTCCTTGCTCTCTGCCTCCAAGCCTCCAACGGATGAAGATTTAGGTTTTCCCTAAAAATAGGGTTTTAGGGCTTTTCAAGTCGATTTGGGCCGTAATTTAAATGGGCTTTTTGTAATCGACTGGGCCGTAGTTTAAAGTCAATTTCCGTCTCCTTGCACGTTCTACTCTTGAATTAATGATATAAGTTAGAATTAATGATATAAGTTAGTATTTGAATAATAATTAGATTTTCATATTTTTATCAAATTTTTACCTAATTTAGAGCCGCATCCCATCATTTTTTTAATTTGTAATTAATATTTCATTTGTTAATTATAATCGATGAGAGATATTTCAAATTTAATTTTTATGATATAGTGGATATAAACTTTTTATATTCATATTATTATTACTACTTAAGCTTAATATTTGGTAGTTTTAAAACGTTTCTCACTTTTATTTTTTTTCTATTTATTTTAAAATTTAAAAATCGGTATCTAAAAATATTTATTTGAATTTAGTTCCACCCTATTTCATTTTCCAACTCTTTCTATTTTATGTTTGTGTCTAAATATCAAGTTTTTATCATCTAAAACAATACTAATTTTAAATTTAAAAACACGTCCTTCAAAGAAAATATTAGAAACTTTAGAGTGTTTGATCTAGAAAAACACAACAAAAAGATATACTAATTTAACACAAAAGACATAATGAAAAATAAGGTTTTATGTCATTTGACTTTCTTATTTCAACTAAAAAAGGAAAAATATAATAGAAAAGAACGTGTAATAAAAAAATTTGTTCTATTCATGTATATAACTAAAAAAATAACAAAAAGAAAAATAGTTTCAAGAAACTATAAAATTAGGTAATATTTACAAACGATAAAAGATATTTGTGCATATGATTTCTAACATCGAATAAATAAATTTTATCTTATTGCATTTTTCTCTCCATCTAACTGATGATGCAATTTTCTACATTCATTATTTATATTTATCTTCTCATATTTCTTGTCTCCTTGCCTTTCTCTTTCCATTGACAATGGCTTGTTGTTCATTGAACTTATTATCATGCCTATAAAAACTATTTATGTATCTATAAAGTTAATTTAGGTAATAAATATTTTTCAATCAAATATTGAAATGGTCAGAAAAATGAAGATTAAATTGGTAGAAAGTGCGGGTTAGAGAATTTTAAAAAACTTCATCGAAATTATTATGATTTCCATAAAAATTCTTACGACTACGACTAAGGTAATAAATCAAATATTGAAATAGTTAGAGAAATGGGGAGAAAGAGTTAAAATTCACCCTTATTCATACATTAAAGTTGGATGATAAGTCTGTCATCCAATAAATAATAAGAATATTTATAGTCAAAAGAGTTAAACGGACATAAAAAGAAATTTCTGGGACTTTTATATATACAATAGAATGATTAATTTAGTTAATCAACATACGACATTAAATTTAAAATCAATAAAAGAGACCATAAATGGGTCTATGTGTGCATTTTATTTGGTTTAATTGTAATTACATAGTAATGTATATGGGACGGGGTTGGCTTTCGTCGATTGTATATATGACCAAAACTCCTTAAAATCTCCCCAAAAAAAAAAAAAAATTAAGGGAAATTTGATGACTCAGCCGCTCCTTCGCCGTCACCGTCGCCGGTCAGTTTTTCTTCTGCAATCACTCTGAACCGTCATCTCATTTTTTTCTATTGCTGTTATTTTCCGTCCATTTCTGTGTTGTCTGACTTCGGCTATTTCTGACTCTCCGTTGAAGTATTGGTTTGTTGGCTATTACCGATTACTAGTTTATGTTTTCAAATATCAGAGCGTGTCTCGAAGTGGTTTGTGGATCATATCGAAAATATCCGTGCGTTCAAATTCTCTGTTAGACTATGTTGTGTGTTGTTTTTTAACTTTTTGATGTTTGATTGAAGTTATGCTATTTTGTTATGGTGTTTGGTTGTTGTTATTGAAGTTCGTTTTGTTATATGAATTTTTGTAGGGATTTTTGAAGATTTAAGTGGACAGGATGCAGGCTACGAGTGGTGCTGCAGTCATGGGCTCTCTGGAAGTTGCTGTTTGTGGGTAGGGGTCGTGTTTTCCTTCTAAAAGTTCTAGCATCTGTGTGTTTCCGCAACACAAGAAAATGAACATCCTGACACCCTGTAAATCCTCCAAGGTTAAAGCAAGCATGGTTGCGGGGAAGCCACCATCTTCTGTATCTGTCACTGTTCCAGAAATTGGAAGTGAAATATTATCTAAAACTGTTATGATTTTCTTGAAGATAAATTGGCAATTGGCATATCTGCTTGAGCTTGACCCGTGTTAATAGAATGGCTCGAAAATTTGACCCTCTTCTGGGAGGAATATTGGTGAAATATTCTTTTTGTTTCTTAATCTTTGGTTAGCCTAGTTGGTGCCTATGAATGAAAAAGTTTAAGTTTGATTGAGTGGGAGAATCTACTTTAATGAAAATACTCGCCCGAGTTAGAATTAACATTAACATGATTACTGTGATTGCAAAAAAGTTTCTTTGTGAATGACACTTGTATGAGATTGCAAGAAAAGTTAAAAGAACTATTGAATCTTTTGGTTTCTTTGTCCCTCTAAAACCCACAAAAGAGTTCTAACCTTGCACTTCCAAAACTTTTTTGCTTCGTCATTCAGCCCCCAGCCCAAGAGAGCTTCATGAAGTCAAACACACGACTTTACTTGAAAAGTAAAGGATTTTAGAATTTATTTCTTAGATAATATTTCTTGAGATTCAGTCTTTCGTCGCTCCGATTTAAATATTCATAATTTATTATATCCTTATTTTCTTGTATTGAACTTTTGTCATTCTCATCTCATGTTGCCTTCTCTTAGAACATATTAGCTTTGTATATGATTTGAATTTGATATGATGCTGATTGTTCTTCACATTAAAGAGACTGTTTTCTCCGCCTTAAAGAAATGTCAAATTATTTGCAGTCTCTGAGAGGTCCAAGAGGGGGAATGATCTTCTTTAGGAAGGATCCTGTTCTCGGAGTTGACTTAGAATCTGCTATTAATAATGCTGTGTTCCCAGGATTACAGGTTGGTCTAACTAGCCTTGTAGTAGCATGTAGAAAAGAGTTCATTTGTCTTGCTGGATACTTTTTATTTGGTTCTTAAATATTGTCAGTTTTATGGTTGATATACAGGGTGGTCCTCATCATCATACAATTGGGGGACTAGCTGTCTGCTTGAAGCATGCACAATCCTCAGAATTTAAGGTCTATCAGAACAAGGTACTTCACTTTCTCAATGATCTAGACATGGTGTGAGATGCTGTTTTCTTATTTCTAACAACATAGCTCTTTATACTTTAGGTCATTGCCAATTGTAGAGCTCTTGCGATTCAGCTGGTCGAGTTAGGTTATAAGCTAGTTTCTGGGGGAAGTGACAATCACCTAGTTCTTGTAGATCTCAGGCCATTGGTAAATCATTGCTCCTTATAAATGTGCTTTCAGATATTGAGGTGAGGTACCATATGTTAATGCATGTGTAAACCCTAATGACAGGGTATCAAGCGCGAGTGGAGAAAATTCTTGACATGGCCTCAGTCACTCTCAACAAGAACTCAGTACCTGGTATCTACTCATGTTTCAACACGCTGATCATGGTCCAATTTTCTTGAACCGACTCTTGGCTCTTTTGTGCATAGGTGACAAGAGTGCTCTAG

mRNA sequence

ATGGGTTTCAATTTCAGTGTACTCAAAGATGTTGAATTTAAGGTATCCAATGCTAATTATTGCAGAATTAACAATGATTTTGTTGGCATAGATGGACTAGTCGTTATGAAGCTCATCTTTGGGATAAAAGCACATGGAACTAGAACAAGAAGGGAAAGCAAGGCATTTCTCTCTCACACACACAAACATCAGTGTGAAACCAATCACCGGTTTGCTTTGGAGTACTGTGTATTGACAACACTTTTATCTTTAAAATGTGCATGGAACGTCTGGCTCATGATTGATCATTCCAGTGTATCTGGGTCAGTTACTAATTATACAAGGGACCTTGAACAAATGCAAAATGTTTCAAGAGAAGAATACCTTGCATCTCTAAGGAGAAATATTTTACTTTTTTTTACGGTTTCATTTGTCCGCTTATTAAGAAGCGATTCGCGCGACATAGATTCTGATAATCTTTCGCTCATCATTGATCTCTCCTTTTCTGTCGTTTCCATCAATCTCAGTATCGCCTGTTGTTGTTTCTCGGATTGCAGTCGCACCAATTCCAAGTTCTTCAGGTCATGCGTGATGCTGCTTTCTGAGCAACTGGGGACTGGGAGTGCAAGGATGGGATCTTTATCGGAAATGAATGATTTGGCAAGTACTTTTGCAAAGTTGAACAAAGTTGTTACTGGAACAAGACATCCAGGAGTCATTGGAGATCGAGGATCTGTTTCTTTTTCTCAAGAAAGGATTTTTGAAGATTTAAGTGGACAGGATGCAGGCTACGAGTGGTGCTGCAGTCATGGGCTCTCTGGAAGTTGCTGTTTGTGGTCTCTGAGAGGTCCAAGAGGGGGAATGATCTTCTTTAGGAAGGATCCTGTTCTCGGAGTTGACTTAGAATCTGCTATTAATAATGCTGTGTTCCCAGGATTACAGGGTGGTCCTCATCATCATACAATTGGGGGACTAGCTGTCTGCTTGAAGCATGCACAATCCTCAGAATTTAAGGTCTATCAGAACAAGGTCATTGCCAATTGTAGAGCTCTTGCGATTCAGCTGGTCGAGTTAGGTTATAAGCTAGTTTCTGGGGGAAGTGACAATCACCTAGTTCTTGTAGATCTCAGGCCATTGGGTATCAAGCGCGAGTGGAGAAAATTCTTGACATGGCCTCAGTCACTCTCAACAAGAACTCAGTACCTGGTGACAAGAGTGCTCTAG

Coding sequence (CDS)

ATGGGTTTCAATTTCAGTGTACTCAAAGATGTTGAATTTAAGGTATCCAATGCTAATTATTGCAGAATTAACAATGATTTTGTTGGCATAGATGGACTAGTCGTTATGAAGCTCATCTTTGGGATAAAAGCACATGGAACTAGAACAAGAAGGGAAAGCAAGGCATTTCTCTCTCACACACACAAACATCAGTGTGAAACCAATCACCGGTTTGCTTTGGAGTACTGTGTATTGACAACACTTTTATCTTTAAAATGTGCATGGAACGTCTGGCTCATGATTGATCATTCCAGTGTATCTGGGTCAGTTACTAATTATACAAGGGACCTTGAACAAATGCAAAATGTTTCAAGAGAAGAATACCTTGCATCTCTAAGGAGAAATATTTTACTTTTTTTTACGGTTTCATTTGTCCGCTTATTAAGAAGCGATTCGCGCGACATAGATTCTGATAATCTTTCGCTCATCATTGATCTCTCCTTTTCTGTCGTTTCCATCAATCTCAGTATCGCCTGTTGTTGTTTCTCGGATTGCAGTCGCACCAATTCCAAGTTCTTCAGGTCATGCGTGATGCTGCTTTCTGAGCAACTGGGGACTGGGAGTGCAAGGATGGGATCTTTATCGGAAATGAATGATTTGGCAAGTACTTTTGCAAAGTTGAACAAAGTTGTTACTGGAACAAGACATCCAGGAGTCATTGGAGATCGAGGATCTGTTTCTTTTTCTCAAGAAAGGATTTTTGAAGATTTAAGTGGACAGGATGCAGGCTACGAGTGGTGCTGCAGTCATGGGCTCTCTGGAAGTTGCTGTTTGTGGTCTCTGAGAGGTCCAAGAGGGGGAATGATCTTCTTTAGGAAGGATCCTGTTCTCGGAGTTGACTTAGAATCTGCTATTAATAATGCTGTGTTCCCAGGATTACAGGGTGGTCCTCATCATCATACAATTGGGGGACTAGCTGTCTGCTTGAAGCATGCACAATCCTCAGAATTTAAGGTCTATCAGAACAAGGTCATTGCCAATTGTAGAGCTCTTGCGATTCAGCTGGTCGAGTTAGGTTATAAGCTAGTTTCTGGGGGAAGTGACAATCACCTAGTTCTTGTAGATCTCAGGCCATTGGGTATCAAGCGCGAGTGGAGAAAATTCTTGACATGGCCTCAGTCACTCTCAACAAGAACTCAGTACCTGGTGACAAGAGTGCTCTAG

Protein sequence

MGFNFSVLKDVEFKVSNANYCRINNDFVGIDGLVVMKLIFGIKAHGTRTRRESKAFLSHTHKHQCETNHRFALEYCVLTTLLSLKCAWNVWLMIDHSSVSGSVTNYTRDLEQMQNVSREEYLASLRRNILLFFTVSFVRLLRSDSRDIDSDNLSLIIDLSFSVVSINLSIACCCFSDCSRTNSKFFRSCVMLLSEQLGTGSARMGSLSEMNDLASTFAKLNKVVTGTRHPGVIGDRGSVSFSQERIFEDLSGQDAGYEWCCSHGLSGSCCLWSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEFKVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLSTRTQYLVTRVL
Homology
[Close]
BLAST of MELO.jh102094.1 vs. NCBI nr
Match: XP_008451850.1 (PREDICTED: serine hydroxymethyltransferase 3, chloroplastic-like isoform X2 [Cucumis melo])

HSP 1 Score: 268 bits (685), Expect = 3.00e-86
Identity = 129/130 (99.23%), Postives = 129/130 (99.23%), Query Frame = 0 

Query: 271 LWSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 330
           L SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF
Sbjct: 5   LQSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 64

Query: 331 KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST 390
           KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST
Sbjct: 65  KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST 124

Query: 391 RTQYLVTRVL 400
           RTQYLVTRVL
Sbjct: 125 RTQYLVTRVL 134

[Close]
BLAST of MELO.jh102094.1 vs. NCBI nr
Match: XP_016901167.1 (PREDICTED: serine hydroxymethyltransferase 3, chloroplastic-like isoform X1 [Cucumis melo] >XP_016901168.1 PREDICTED: serine hydroxymethyltransferase 3, chloroplastic-like isoform X1 [Cucumis melo] >XP_016901169.1 PREDICTED: serine hydroxymethyltransferase 3, chloroplastic-like isoform X1 [Cucumis melo])

HSP 1 Score: 262 bits (669), Expect = 8.71e-84
Identity = 125/127 (98.43%), Postives = 126/127 (99.21%), Query Frame = 0 

Query: 271 LWSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 330
           L SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF
Sbjct: 5   LQSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 64

Query: 331 KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST 390
           KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST
Sbjct: 65  KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST 124

Query: 391 RTQYLVT 397
           RTQYLV+
Sbjct: 125 RTQYLVS 131

[Close]
BLAST of MELO.jh102094.1 vs. NCBI nr
Match: KAA0062919.1 (serine hydroxymethyltransferase 3 [Cucumis melo var. makuwa])

HSP 1 Score: 211 bits (538), Expect = 5.75e-63
Identity = 102/104 (98.08%), Postives = 102/104 (98.08%), Query Frame = 0 

Query: 271 LWSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 330
           L SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF
Sbjct: 5   LQSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 64

Query: 331 KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 374
           KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPL I
Sbjct: 65  KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLKI 108

[Close]
BLAST of MELO.jh102094.1 vs. NCBI nr
Match: XP_008245916.2 (PREDICTED: serine hydroxymethyltransferase 3, chloroplastic-like, partial [Prunus mume])

HSP 1 Score: 197 bits (500), Expect = 3.47e-57
Identity = 92/102 (90.20%), Postives = 98/102 (96.08%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEFKV 332
           SLRGPRGGMIFF+KDPVLGVDLESAINNAVFPGLQGGPH+HTIGGLAVCLK+AQS EFK 
Sbjct: 6   SLRGPRGGMIFFKKDPVLGVDLESAINNAVFPGLQGGPHNHTIGGLAVCLKYAQSPEFKA 65

Query: 333 YQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 374
           YQNKV++NCRALA +L ELGYKLVSGGSDNHLVLVDLRPLGI
Sbjct: 66  YQNKVVSNCRALASRLTELGYKLVSGGSDNHLVLVDLRPLGI 107

[Close]
BLAST of MELO.jh102094.1 vs. NCBI nr
Match: XP_008451853.1 (PREDICTED: serine hydroxymethyltransferase 3, chloroplastic [Cucumis melo] >TYK16426.1 serine hydroxymethyltransferase 3 [Cucumis melo var. makuwa])

HSP 1 Score: 205 bits (521), Expect = 8.74e-57
Identity = 98/102 (96.08%), Postives = 100/102 (98.04%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEFKV 332
           SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPH+HTIGGLAVCLKHAQS EFKV
Sbjct: 314 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHNHTIGGLAVCLKHAQSPEFKV 373

Query: 333 YQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 374
           YQNKVIANCRALA +LVELGYKLVSGGSDNHLVLVDLRPLGI
Sbjct: 374 YQNKVIANCRALASRLVELGYKLVSGGSDNHLVLVDLRPLGI 415

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy Swiss-Prot
Match: Q94JQ3 (Serine hydroxymethyltransferase 3, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=SHM3 PE=1 SV=2)

HSP 1 Score: 190.7 bits (483), Expect = 3.3e-47
Identity = 87/102 (85.29%), Postives = 97/102 (95.10%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEFKV 332
           SLRGPRGGMIFFRKDP+ GVDLESA+NNAVFPGLQGGPH+HTIGGLAVCLKHAQS EFK 
Sbjct: 315 SLRGPRGGMIFFRKDPINGVDLESAVNNAVFPGLQGGPHNHTIGGLAVCLKHAQSPEFKA 374

Query: 333 YQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 375
           YQ +V++NCRALA +LVELG+KLVSGGSDNHLVLVDLRP+G+
Sbjct: 375 YQKRVVSNCRALANRLVELGFKLVSGGSDNHLVLVDLRPMGM 416

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy Swiss-Prot
Match: P34896 (Serine hydroxymethyltransferase, cytosolic OS=Homo sapiens OX=9606 GN=SHMT1 PE=1 SV=1)

HSP 1 Score: 139.8 bits (351), Expect = 6.7e-32
Identity = 70/110 (63.64%), Postives = 84/110 (76.36%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRK-----DPVLG----VDLESAINNAVFPGLQGGPHHHTIGGLAVCLK 332
           +LRG R GMIF+RK     DP  G     +LES IN+AVFPGLQGGPH+H I G+AV LK
Sbjct: 258 TLRGCRAGMIFYRKGVKSVDPKTGKEILYNLESLINSAVFPGLQGGPHNHAIAGVAVALK 317

Query: 333 HAQSSEFKVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLG 374
            A + EFKVYQ++V+ANCRAL+  L ELGYK+V+GGSDNHL+LVDLR  G
Sbjct: 318 QAMTLEFKVYQHQVVANCRALSEALTELGYKIVTGGSDNHLILVDLRSKG 367

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy Swiss-Prot
Match: Q5RFK5 (Serine hydroxymethyltransferase, cytosolic OS=Pongo abelii OX=9601 GN=SHMT1 PE=2 SV=1)

HSP 1 Score: 139.8 bits (351), Expect = 6.7e-32
Identity = 70/110 (63.64%), Postives = 84/110 (76.36%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRK-----DPVLG----VDLESAINNAVFPGLQGGPHHHTIGGLAVCLK 332
           +LRG R GMIF+RK     DP  G     +LES IN+AVFPGLQGGPH+H I G+AV LK
Sbjct: 258 TLRGCRAGMIFYRKGVQSVDPKTGKEILYNLESLINSAVFPGLQGGPHNHAIAGVAVALK 317

Query: 333 HAQSSEFKVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLG 374
            A + EFKVYQ++V+ANCRAL+  L ELGYK+V+GGSDNHL+LVDLR  G
Sbjct: 318 QAMTLEFKVYQHQVVANCRALSEALTELGYKIVTGGSDNHLILVDLRSKG 367

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy Swiss-Prot
Match: P07511 (Serine hydroxymethyltransferase, cytosolic OS=Oryctolagus cuniculus OX=9986 GN=SHMT1 PE=1 SV=2)

HSP 1 Score: 138.7 bits (348), Expect = 1.5e-31
Identity = 69/110 (62.73%), Postives = 83/110 (75.45%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRK-----DPVLG----VDLESAINNAVFPGLQGGPHHHTIGGLAVCLK 332
           +LRG R GMIF+R+     DP  G     +LES IN+AVFPGLQGGPH+H I G+AV LK
Sbjct: 258 TLRGCRAGMIFYRRGVRSVDPKTGKEILYNLESLINSAVFPGLQGGPHNHAIAGVAVALK 317

Query: 333 HAQSSEFKVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLG 374
            A + EFK YQ +V+ANCRAL+  LVELGYK+V+GGSDNHL+LVDLR  G
Sbjct: 318 QAMTPEFKEYQRQVVANCRALSAALVELGYKIVTGGSDNHLILVDLRSKG 367

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy Swiss-Prot
Match: P50431 (Serine hydroxymethyltransferase, cytosolic OS=Mus musculus OX=10090 GN=Shmt1 PE=1 SV=3)

HSP 1 Score: 137.9 bits (346), Expect = 2.5e-31
Identity = 68/110 (61.82%), Postives = 84/110 (76.36%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRK-----DPVLG----VDLESAINNAVFPGLQGGPHHHTIGGLAVCLK 332
           +LRG R GMIF+RK     DP  G     +LES IN+AVFPGLQGGPH+H I G+AV LK
Sbjct: 252 TLRGCRAGMIFYRKGVRSVDPKTGKETYYELESLINSAVFPGLQGGPHNHAIAGVAVALK 311

Query: 333 HAQSSEFKVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLG 374
            A ++EFK+YQ +V+ANCRAL+  L ELGYK+V+GGSDNHL+L+DLR  G
Sbjct: 312 QAMTTEFKIYQLQVLANCRALSDALTELGYKIVTGGSDNHLILMDLRSKG 361

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy TrEMBL
Match: A0A1S3BTK7 (Glycine hydroxymethyltransferase OS=Cucumis melo OX=3656 GN=LOC103493015 PE=3 SV=1)

HSP 1 Score: 268 bits (685), Expect = 1.45e-86
Identity = 129/130 (99.23%), Postives = 129/130 (99.23%), Query Frame = 0 

Query: 271 LWSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 330
           L SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF
Sbjct: 5   LQSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 64

Query: 331 KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST 390
           KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST
Sbjct: 65  KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST 124

Query: 391 RTQYLVTRVL 400
           RTQYLVTRVL
Sbjct: 125 RTQYLVTRVL 134

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy TrEMBL
Match: A0A1S4DYW5 (Glycine hydroxymethyltransferase OS=Cucumis melo OX=3656 GN=LOC103493015 PE=3 SV=1)

HSP 1 Score: 262 bits (669), Expect = 4.22e-84
Identity = 125/127 (98.43%), Postives = 126/127 (99.21%), Query Frame = 0 

Query: 271 LWSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 330
           L SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF
Sbjct: 5   LQSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 64

Query: 331 KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST 390
           KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST
Sbjct: 65  KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGIKREWRKFLTWPQSLST 124

Query: 391 RTQYLVT 397
           RTQYLV+
Sbjct: 125 RTQYLVS 131

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy TrEMBL
Match: A0A5A7VBD7 (Glycine hydroxymethyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold468G00110 PE=3 SV=1)

HSP 1 Score: 211 bits (538), Expect = 2.79e-63
Identity = 102/104 (98.08%), Postives = 102/104 (98.08%), Query Frame = 0 

Query: 271 LWSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 330
           L SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF
Sbjct: 5   LQSLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEF 64

Query: 331 KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 374
           KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPL I
Sbjct: 65  KVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLKI 108

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy TrEMBL
Match: A0A5D3D173 (Serine hydroxymethyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold21G002230 PE=3 SV=1)

HSP 1 Score: 205 bits (521), Expect = 4.23e-57
Identity = 98/102 (96.08%), Postives = 100/102 (98.04%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEFKV 332
           SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPH+HTIGGLAVCLKHAQS EFKV
Sbjct: 314 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHNHTIGGLAVCLKHAQSPEFKV 373

Query: 333 YQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 374
           YQNKVIANCRALA +LVELGYKLVSGGSDNHLVLVDLRPLGI
Sbjct: 374 YQNKVIANCRALASRLVELGYKLVSGGSDNHLVLVDLRPLGI 415

[Close]
BLAST of MELO.jh102094.1 vs. ExPASy TrEMBL
Match: A0A1S3BSI5 (Serine hydroxymethyltransferase OS=Cucumis melo OX=3656 GN=LOC103493017 PE=3 SV=1)

HSP 1 Score: 205 bits (521), Expect = 4.23e-57
Identity = 98/102 (96.08%), Postives = 100/102 (98.04%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEFKV 332
           SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPH+HTIGGLAVCLKHAQS EFKV
Sbjct: 314 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHNHTIGGLAVCLKHAQSPEFKV 373

Query: 333 YQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 374
           YQNKVIANCRALA +LVELGYKLVSGGSDNHLVLVDLRPLGI
Sbjct: 374 YQNKVIANCRALASRLVELGYKLVSGGSDNHLVLVDLRPLGI 415

[Close]
BLAST of MELO.jh102094.1 vs. TAIR 10
Match: AT4G32520.1 (serine hydroxymethyltransferase 3 )

HSP 1 Score: 190.7 bits (483), Expect = 2.3e-48
Identity = 87/102 (85.29%), Postives = 97/102 (95.10%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEFKV 332
           SLRGPRGGMIFFRKDP+ GVDLESA+NNAVFPGLQGGPH+HTIGGLAVCLKHAQS EFK 
Sbjct: 315 SLRGPRGGMIFFRKDPINGVDLESAVNNAVFPGLQGGPHNHTIGGLAVCLKHAQSPEFKA 374

Query: 333 YQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 375
           YQ +V++NCRALA +LVELG+KLVSGGSDNHLVLVDLRP+G+
Sbjct: 375 YQKRVVSNCRALANRLVELGFKLVSGGSDNHLVLVDLRPMGM 416

[Close]
BLAST of MELO.jh102094.1 vs. TAIR 10
Match: AT4G32520.2 (serine hydroxymethyltransferase 3 )

HSP 1 Score: 190.7 bits (483), Expect = 2.3e-48
Identity = 87/102 (85.29%), Postives = 97/102 (95.10%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRKDPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKHAQSSEFKV 332
           SLRGPRGGMIFFRKDP+ GVDLESA+NNAVFPGLQGGPH+HTIGGLAVCLKHAQS EFK 
Sbjct: 315 SLRGPRGGMIFFRKDPINGVDLESAVNNAVFPGLQGGPHNHTIGGLAVCLKHAQSPEFKA 374

Query: 333 YQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 375
           YQ +V++NCRALA +LVELG+KLVSGGSDNHLVLVDLRP+G+
Sbjct: 375 YQKRVVSNCRALANRLVELGFKLVSGGSDNHLVLVDLRPMGM 416

[Close]
BLAST of MELO.jh102094.1 vs. TAIR 10
Match: AT4G37930.1 (serine transhydroxymethyltransferase 1 )

HSP 1 Score: 130.6 bits (327), Expect = 2.9e-30
Identity = 66/110 (60.00%), Postives = 78/110 (70.91%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRK--------DPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKH 332
           SLRGPRG MIFFRK           +  D E  IN AVFPGLQGGPH+HTI GLAV LK 
Sbjct: 287 SLRGPRGAMIFFRKGVKEINKQGKEVLYDFEDKINQAVFPGLQGGPHNHTITGLAVALKQ 346

Query: 333 AQSSEFKVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 375
           A +SE+K YQ +V++N    A  L+E GY+LVSGG+DNHLVLV+L+P GI
Sbjct: 347 ATTSEYKAYQEQVLSNSAKFAQTLMERGYELVSGGTDNHLVLVNLKPKGI 396

[Close]
BLAST of MELO.jh102094.1 vs. TAIR 10
Match: AT5G26780.1 (serine hydroxymethyltransferase 2 )

HSP 1 Score: 126.3 bits (316), Expect = 5.4e-29
Identity = 64/110 (58.18%), Postives = 76/110 (69.09%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRK--------DPVLGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLKH 332
           SLRGPRG MIFFRK           +  D E  IN AVFPGLQGGPH+HTI GLAV LK 
Sbjct: 287 SLRGPRGAMIFFRKGLKEINKQGKEVMYDYEDRINQAVFPGLQGGPHNHTITGLAVALKQ 346

Query: 333 AQSSEFKVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 375
           A++ E+K YQ++V+ NC   A  L+  GY LVSGG+DNHLVLV+L+  GI
Sbjct: 347 ARTPEYKAYQDQVLRNCSKFAETLLAKGYDLVSGGTDNHLVLVNLKNKGI 396

[Close]
BLAST of MELO.jh102094.1 vs. TAIR 10
Match: AT4G13930.1 (serine hydroxymethyltransferase 4 )

HSP 1 Score: 117.9 bits (294), Expect = 1.9e-26
Identity = 61/111 (54.95%), Postives = 72/111 (64.86%), Query Frame = 0 

Query: 273 SLRGPRGGMIFFRKDPV---------LGVDLESAINNAVFPGLQGGPHHHTIGGLAVCLK 332
           SLRGPR GMIF+RK P             D E  IN AVFP LQGGPH+H IG LAV LK
Sbjct: 245 SLRGPRAGMIFYRKGPKPPKKGQPEGAVYDFEDKINFAVFPALQGGPHNHQIGALAVALK 304

Query: 333 HAQSSEFKVYQNKVIANCRALAIQLVELGYKLVSGGSDNHLVLVDLRPLGI 375
            A +  FKVY  +V AN  AL   L+  GY++V+ G++NHLVL DLRPLG+
Sbjct: 305 QANTPGFKVYAKQVKANAVALGNYLMSKGYQIVTNGTENHLVLWDLRPLGL 355

The following BLAST results are available for this feature:
BLAST of MELO.jh102094.1 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008451850.13.00e-8699.23PREDICTED: serine hydroxymethyltransferase 3, chloroplastic-like isoform X2 [Cuc... [more]
XP_016901167.18.71e-8498.43PREDICTED: serine hydroxymethyltransferase 3, chloroplastic-like isoform X1 [Cuc... [more]
KAA0062919.15.75e-6398.08serine hydroxymethyltransferase 3 [Cucumis melo var. makuwa][more]
XP_008245916.23.47e-5790.20PREDICTED: serine hydroxymethyltransferase 3, chloroplastic-like, partial [Prunu... [more]
XP_008451853.18.74e-5796.08PREDICTED: serine hydroxymethyltransferase 3, chloroplastic [Cucumis melo] >TYK1... [more]
BLAST of MELO.jh102094.1 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q94JQ33.3e-4785.29Serine hydroxymethyltransferase 3, chloroplastic OS=Arabidopsis thaliana OX=3702... [more]
P348966.7e-3263.64Serine hydroxymethyltransferase, cytosolic OS=Homo sapiens OX=9606 GN=SHMT1 PE=1... [more]
Q5RFK56.7e-3263.64Serine hydroxymethyltransferase, cytosolic OS=Pongo abelii OX=9601 GN=SHMT1 PE=2... [more]
P075111.5e-3162.73Serine hydroxymethyltransferase, cytosolic OS=Oryctolagus cuniculus OX=9986 GN=S... [more]
P504312.5e-3161.82Serine hydroxymethyltransferase, cytosolic OS=Mus musculus OX=10090 GN=Shmt1 PE=... [more]
BLAST of MELO.jh102094.1 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BTK71.45e-8699.23Glycine hydroxymethyltransferase OS=Cucumis melo OX=3656 GN=LOC103493015 PE=3 SV... [more]
A0A1S4DYW54.22e-8498.43Glycine hydroxymethyltransferase OS=Cucumis melo OX=3656 GN=LOC103493015 PE=3 SV... [more]
A0A5A7VBD72.79e-6398.08Glycine hydroxymethyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27... [more]
A0A5D3D1734.23e-5796.08Serine hydroxymethyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_... [more]
A0A1S3BSI54.23e-5796.08Serine hydroxymethyltransferase OS=Cucumis melo OX=3656 GN=LOC103493017 PE=3 SV=... [more]
BLAST of MELO.jh102094.1 vs. TAIR 10
Match NameE-valueIdentityDescription
AT4G32520.12.3e-4885.29serine hydroxymethyltransferase 3 [more]
AT4G32520.22.3e-4885.29serine hydroxymethyltransferase 3 [more]
AT4G37930.12.9e-3060.00serine transhydroxymethyltransferase 1 [more]
AT5G26780.15.4e-2958.18serine hydroxymethyltransferase 2 [more]
AT4G13930.11.9e-2654.95serine hydroxymethyltransferase 4 [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR015422Pyridoxal phosphate-dependent transferase, small domainGENE3D3.90.1150.10Aspartate Aminotransferase, domain 1coord: 337..375
e-value: 5.1E-39
score: 135.7
IPR039429Serine hydroxymethyltransferase-like domainPFAMPF00464SHMTcoord: 273..375
e-value: 4.9E-37
score: 127.5
IPR015421Pyridoxal phosphate-dependent transferase, major domainGENE3D3.40.640.10coord: 273..336
e-value: 5.1E-39
score: 135.7
IPR001085Serine hydroxymethyltransferasePANTHERPTHR11680SERINE HYDROXYMETHYLTRANSFERASEcoord: 272..375
NoneNo IPR availablePANTHERPTHR11680:SF34SERINE HYDROXYMETHYLTRANSFERASEcoord: 272..375
IPR015424Pyridoxal phosphate-dependent transferaseSUPERFAMILY53383PLP-dependent transferasescoord: 273..377

Relationships

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

Feature NameUnique NameType
MELO.jh102094.1.t1MELO.jh102094.1.t1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0019264 glycine biosynthetic process from serine
biological_process GO:0035999 tetrahydrofolate interconversion
molecular_function GO:0003824 catalytic activity
molecular_function GO:0004372 glycine hydroxymethyltransferase activity
molecular_function GO:0030170 pyridoxal phosphate binding