Chy8G151810 (gene) Cucumber (hystrix) v1

Overview
NameChy8G151810
Typegene
OrganismCucumis hystrix (Cucumber (hystrix) v1)
DescriptionNon-specific lipid-transfer protein
LocationchrH08: 13312083 .. 13325827 (-)
RNA-Seq ExpressionChy8G151810
SyntenyChy8G151810
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.
ATGGCGAGTAACTTAATCACGATTCTAAAGTTGGGTTTGACTGTAACATTTCTCTACGCCGTGATAGGTGGAGGGGTGACGACAGAGGCAGCCTTATCGTGCAACCAAGTGATCACCAATTTGCGTCCATGTCTTTCGTACGTGACGGGCGGAGGATACCCGTCGTCTAACTGTTGCAGTGGTGTGAAACAGTTGAACACGGCAGCTCGGACAACGCCGGATAGACAGGCGGTATGTCGGTGCTTGAAATCATTGGCGAATGGCGTTACGTATAATGGCAAAAATGTTGCTAATGCTGCTACTCTTCCGAACAAGTGTGGCGTCACTCTTCCCTACTCTATCAAACCCAATGTTGACTGTAACACGTAATATATTTCTCTCTCTCTCAAATTTTTTGTTTTATATGATCTTTTTATTTGAGTCTAAGTCTTGAGTACAGTTTTCATTTTGTTCATATTTTCAACTATGCATCTTGAGTTTAATTTTCACTTATTCACTTTTACATTTTGTTCATATTTTCAACTCTTCATATACATTTTTTTTAATTATTTGGTTACATAAAGTTTCGAAAGTTTACATTTTTCACTCTTTACTATGTCACTTTATTATTGTGTTTAACTTTTACATAATAAAACATTGTAAAATGAAAAGTTCACACTAATCCTAGATTATAAATACTTCAATATCTTTAAATTAATTATGATCAAATATCGAACATAAATGTGTAGAATGAAAACTTATAAAACTTTTGATTTTAATTCGAAAGTAAGAAAATCGTAATATTTCAATAGTCAAAGATCAGGTAAATAACTATACTCAAAATTCATAGAATGAACAACTTAAAATATTGTTCGAAAATGATACTCAAAACTCGACCATTTTTTTCTTATTTTGTATTTATTAAATTTATTTTAGTTTAAGAAGGTTCTAAGTAATTTACCTGGGAATTATTATTATTTTGCAGCATTAAAATGTGAGGAAAATCAAGCAGCAACACTACAAGACGACGTCGTATCACTGGAAGAATAAATAGTGAGATTAGCATTTTGCTATGAACAAATTATGAACTTTATTTTGTAATATTATCTACTTGAAAACCACCCTTTGTACTTGGGTTTATGGTTAGAATTTAAATTTATATAAATATATGTTAGTGTTTACTTAAATTTTTGTGTGAATTTTAATTTATAATGTGTGTGTTTTAGAACTATTTATTCTTCAAAATGATTCTCACATTAATTTTAATATAGATCAATTGGAAAAAAGGAAAAGAAAAAAACAACAGAGTTAACATATTTGGTTCCTATATTTGGTTAAACAGAGAGAGCATATTAGTAACAAAAAAATATATGAATATGTTAACTCTTTTTAATTAAGTTGATTTTTCTATAAAGTATCATTTTATTCTCTATATTTTTGAAATTGGTTCAATTTCATCTTAAATTTAATCCTAAAATACTAGTTTAATGTTGGATTTTTAGTTTTCTTTTATTGTTGCTATAAATTTTAAAAACACATTGATATATTTTATATTATTGCATTAAAATTATAATATTATTATTTATTATTTAATCGAAGTAAAACTTAACTTCATTGAATTAAATTAATAAATAAAAACATGAATTGTTCTCTCTATGATCATTTAAACATGTTTTGCACGAATATGTATTATTAATAAAGAGTAATAATTTATTTTGGAAACCATAATTTTTTAAAAGAAGTGTATAAAAAGGTATTTGGAATTAAGTTTTTTATAACATGATGATAAGAGAATACAACTTAAAATTCATATAGAGCATGTGGGTTTGCTTGCTTTTTTTCTTTTTCTATTTTAGCTCATAATTTTTTATATTTTGTTATTTACTTTCTACTCGTGTTTTATCTCTTTTGAAAACTATAAAAAATTGGTAAAAAAATTCAAACGTTTCATAAAAGTAAAAGTTAATGATGGAGACGTTTGACAGAAACGAGCATAAATTATAGAATTTGAATACTAAAAAGGAAATTATTAATCATGGGTGCATATTAGGGTTTACTATTTGTCAGGACTAAAAGATTAGACTTATAAAAATCATTAATTAGTCTGTTATATAAATTGGATGCACAAGTCGTACAAACTTAATTATGACATTGGCATTATAAACTCGAAATGAGCCAACAATAATATATAATTGAGTAGAGTTTAGGCATCCACTTTGAAGTATAATTCAAGTTTCTACACTCCATTATTTATGATGCAGTTAATGTTTCCGAAAAGGTTGTAAATTTAAGGTATTGCTCTCCCCAACATTCAATATATGGGTTAAATAGGATTTAAATATGTCGGTCGTAAATGTTTTTAGTATAAGTCATTGGAGAATTTGAACTTGAAACCTTTCTCACTACATACATGTATCAATTGAGTCAAGCTCTTAATGGCAATACATAAACCTTTCTAACTTTGATCTAAGTGTACTGGCAAAAAGAGTTTGGCCCAACTGATATCTGAGTATACTAACGGTTCTACTGAAATAATTGAAAATTTTAGTCTAAAGTGGTTTGAAACTTTCTATTGTTGGTTCCAAGAGGAATCTTCAGATATTTTTTCTCGAGTTATGTGCGATTTATTTTTGTATTTGGTTGATTGTTGTCATTATTTGTTTCTTTTCATTTTTTAGCATTACTTTGTTTGTGGTTCAATTATCTTTTTAACAATCCAATGTCTTTGGAAAAAAAAAAGAAAAAATTGATCACTCTACACCTTATACATGTTGCAGTTAAACTACATTAAAATTTAAAAAATAAACAAAATAAAGAAATAATTAAATTTGTTAAGACAAGAAGAAAGAAGAGAGAAAATGAGTGCAAAAGAAATGGTAGAAAAAAAAAGTTAAAAAGAGCAAGTATATTCTTTATATTATAAAGTTTTATGGAAAACCTTTGATTATATAGGGTTTGAAATACAAATAATATTGGAGGATGTTCCAATATTCTCAATCAACAGAATTACACCTCAATCTTTTCCTTAAATTATGATCATCTTCAATCATGCCTTAATTGTATATTTGATTGTATTGTAATTTTTACCGTATGTATTCTTATGTAACGTGTATAAATACCATCAGTGTATCATTGAATAATCAAGCAAATTTATTTCTCAGTTATTGTCTTATTAGTCATTTTATGGTATAAAGTGTGTAGACATCACATATGGTCATTTTATTTATTTTTGTTTATTTATTATTATTATTATTTTCACTTATTTCTTTATGTGGATCATGTTAGCAAACTCAATATAACTGTGAGATAATTCAAAACGATGTTTTAGAAATAAATCCATGTAAACCGAGAGTAGTCATCAATGAATAAAATATAATAGCAATAACCATGAACAGTAGTAGTAGGGGCAGGACCTCAAATATCAGAATGCACTAGATCAAATGGTTTATCACATGTAGAGGTGGATTGAGAAAAAGACAAAGCAGGTTGTTTAACAAGTTTGCAATTCAAACAACTAAAAGGAACAAACTTAGTAAGATTATTCAAATTGTTAACAGAAATTAAATGACGAAGTTTTACAGAAGAAGTATGACCAAGACGAAGATGCCACTGATATGTGTCAGAATCAGTGACTGAAGTAGAGATGGAGGAAGGAGAAAGAAGCTGAAGTGATATGAGCTCAAACATTCTTCCCAATTTGTGATCCCTACCAATCGTCCGTCCTGTCTACGGATCCTGAACCTGACAACCATTGGGAGAAAAGGAAACATTTAAGCCAAGATCACATAATTGACCGACAGACACTAGATTAAAGGACAAGTTTGGAACACAGTAAGTATGGGGAAGATGTAGACTGGGAGTATCAATGGTACCAGTATGAGAGATGTTCATATAGTTACCATCAGCAGCATAAATAGAAGGTAAAGATTTTGCAGGGCTAGAAGTAGACATAAGAGAAAAGTCAGAGGTCATATGATTACAATAGGCAGAGTCAAGAAGCCATCGATTACTTGACGAGACAGCAAGAGCAGAGGATGATGAAATTAATTGATTCAATAGGCTCTGAAGATTACTTATCTGAATAGGGGATGTGGAATCATCAGAGGTAGCAGCAACAACAGAGGAGGTACCAGGTTTAGTAAGGTTTTTCTCTTTTGTAGAAGTGCCAGGAGGTCGGGGTGGTCTGGTAGGACAGTTATCCAGAATATGACCACGTTTATGGCACTCTATTTTAGGGCAATCAATAAATTTGTGACCAGAGAGCTTACAGTTCTTACAAAAAGTATTTGAGGCTCTATTGGGAGTATAAGTGCTGGCAAGGACAACATCAGATTGTTTAGCAGAATTAATGCCAAGGCGCTTTTCTTCAAACAAAATTTCTTGGATAGTTGCATCCAATGAGGGCAAGGGACTCCGGTGTAGTAAGGCAGCCCTGACATATTCATATTCTGGGCGTAATCCCATGAGGACTTTAATAAGACGAAGATGATCTTTGCTGATGCTAGCTTGATCAAGCTGAGTCCAAATGGGTTGAAGAACTGCCAAGTATTCATTGACAGACTGACCAGTATCTTGATGCAGATTTACAAGTGTACTGTGCAATTGATAGTAATGGGCTAATCCAATAGATTTAAAGCGTGTAGACAAAAAATTCCATAATTCTTTAGCATCATCAAAAGCATCAAATTGTGCATGTATAGCAGGAATAGAAGTGTTACCAAGCCAGGTGATAATTTGATGATTTTTACTGTCCCAATCTTCGAGGCGTTCAATGAATTTGTTATCTTCTTTCTTGTCTTTGTCCTTGTCTTGTTTAGATGGTTTGGTTATGTCGCCAGTTACAATGCGCCATAGTTTTCGCTCAATTAGAAAACTTTTCATTTGATTTGTCCAAGTGATATAATTTGTTCCATCAAGTATTGTACTAATGGGTCTAATAATATGGTCTCTCTCCATTCTAAAAAATTGAAATCTCACGTTTATGAGTACTGAGTAAGCAGGAGCGTCAATCACAAATCGCGGCTGGGGTTCGTCGAATTCGCGGCTAGGTTGAAGACGAAAATTCCAGTTGGGTTGCGAGTGGTTGTGTTTGTCGGCTGGGGTTCGTCGGATCAGGGTTGTGGCTAGGGTTCGTGGGATTCGCGGCTGGGATTCGTCACATCTGGGCTGGGATTCGAGGCTGGGTTGCAAATGAACGACGATGAAGATTCGCGACTGTGAATCGAAGACGAAGATTCGTGGCTGTGAACGGAGACAAGAACGGAAACAGATTGTGAGATATGTTGTTCAGATCTGTGGACGAACGTGAACGGTTCACAATTCTGAGCAGAGATCTGTAGGCAAAGATTGACGACGAACGAATGAAAGATTTCGTCGTCAATGAGCTTCACGGTAGAGATCTTGGCGGCGGCGGCGGCGAGTACAGTGGATCTAGGTTTTCTGCTCTGATACCATGTTGGAGAATATTTTATTGATGAATATTCTATATTTTACATGAGTATCAATTTGTACATAAATAGAGAAATTACACAAAGTAAATAAGGAAGGTAATATAATTAGCCTAAACTATAGAATTTACATTAATAATGAAAATATTGAAATTCTCAAAAACCAAATTTCAAGCCAAAACAAAAACTTGCCTGATTAATCAAAAAATTGAAGTATTGCTTGAAGTGATTACGAACATGTGTTTTCCATTAAAGAGAAAATAGACAAGAACATAGGATTGAATCAACTCCATAAAATTTGATTGAATACAAACAGTAACAAGGAGAATCAAAGGATATTCAATTCAATTGAAGTTAAAGGAAATTTCAACAAGAAGAAATGATTTAACTGAAGAAATTAAATACATGAATTCCTTATAGCAATAGGATGAATCAAAGTCTAGCATTGATCCTTATCAGAAGCCATAACCGAAACTGAGACCAAACAAAAGCAAATCCACAAATTCTTAACAAGATTTTTATTAAGGTTAAAAAGGAAAATAGTAAATGACACTTTCATTTATTGAATGATTATGTAAGGGTATATATACGCTTATGAGAGCAATAAAAAAGGGGGGAAATTCAGTTACACTTTAACAGACTAACAAATTTTAAGTTTCTTTAACTAATTGTTTACTACTCTCTCTCAAGATAGGGAGAAGATGTCTCGAACGCCATTTTTCTCATTAATGGAAAGAGAGATTTTTCATAAGAGGATTAGTGAAAGCATCTGTGAGTTGGTTAGAAGAGCGAACTAGCAGTAGCTTGATGGACCCATCCATTACTCTGTCTCGAACAAAGTGATAGTCTAACTCTATGTGTTTGATTCTTTCATAAAACATGGGATTTTAGCAATATAAATAGCAGTTTGATTGTTTCAAAACATGAGGGTTGGAGATGGGACTTCAACTTGTAGTTCAGCAAGGAGGCTTCGAAGCCAAATGATTTCACATGTGGTAACAATCAAGACACAATATTTTGCTTCTTTGGAAGATCTTGATATTGTTTGTTGTTTCTTGGATTTCTAGGATATCAAGGAGTTGCCAGGGAAAACACAGAATTCAATGATCGAAGGACGGGTATCAGGGCAAGATCCCCAATCTGCATCCACAAAGGCTTTAATGAAGAAATCTTTAACTTTAGAGAGCATAATACCTTTGTCATGTGAGTTAAGGTTGGCTTGACCATGTATAGCTTAATTTATGAACGACAAAGGTGATGTCAAGCCGAGATATTGTTAGGTAGAGTAATTAACCAACAGGGAGTCGATAGGGTATAGTATCATGGAGAGTGTCTCTGTCAGATGCACTCAATTTTAGTGTAGGATCCATGAGAACACTGGTTGGTTTTGCACCAAGAAAGCTTGCATCTTTGATGAGACGAAGAGTATAGTGCTCTGTGATAAGAAGAGACTAGATGAGTTTCTTGCCAATTCAAGGCCAAGAAAAAATTTGAGGTTTCGTAGGTCTATTAAGAGAAACTTTTTATTCAAAGTTTGCTTCAGTTCCTGTATGTGAACGAGATTTATACCGGTTATGATGATGTCATTAACATATACAAGAAGGACCATGAAGAATTCGTTCCTCCCCTTAACAAATAGGGAATAATCAGCTTTAGACTATTAGAATCCCAGAGAAATTATGAAGGTCAGAAACTTGCACACCACTGTCTTGTTTTAAGCCATGGATGGATTTGTGAAGTTTGTACTCCATTTTCTCACCTTGAATTTCAAGTTGAGGTTTGTACCCTAATGGTAGGTCCATGTAGACTTCTTCAAATAAATCTCCATGTAGGAATGCATTGTTCACATCTAGTTGTACTAATGGCCATTCTTTTGATATAGATATAGTTAGCAAAGTTTTTACTGTCACCATTTTTCAATAAAACTTCAATTATTTTAAATAGGGCTCGAACTAGTATTTTATTTTATTTTATTTTATGAATATATGAAGTGTTTCCTTTAAAATTTAGTATTTCTTTTATTAAAAAAAAAAATTATTTGTTTGAGTGGTAATGACCTCAACTTAGTATAAAGAGTTGGGTCGTTACATTCAATGACACATATACTCTCTTTCTCGAATTCGGCGATGAGTTGAACAACGCGGGAGCAACGACGTCCTCGGTGGGTGACACATCGGATGAGTGGTAATTTGATGTTAATTTCGAACAATTATATTTAGTCACAATTTGTTTTTAACATAACTTGATTTATACGGCAGATGTGTCTGAACCCTCTCCGACTTCTAGGAGACGTCAATAGTCTCGAAACTTGGAGTTGGAGAGGTATGTTCATAAGATGGTAGAAATCTAATTACCATAGCCCCTGGAGCGAATAAGCCAATATCTCCACATGTTGTACGGTTCAACAACACCATCCGTGTGTGTGTGAGAAATACATTTCCAGTCCACTACCTTAAGTGGATTGATGTTGGACGAGAATACATTGAGGTGGTGAAGGGCGCTCTACAGGTAAATTCAGCATTGAATTAATTTTTTTGTTTAGACATACATAAGTATAAACAAAGCTAACGTGTGAAGTTTTTTACTTTCTAGCGCCTGTAAATGCTTAATTTCAACGCTCAAGCACTTATTAGATTTGTTGTGCATCAAATGCTCACATCTTTCAAGGAGTTCAGGGGCGACTGTCACAGACATTTCAAAAAGTACAGCGACCCTGAATAGGCACATGCCAACCCACCGCACATATTGGTGAGACGTCTGGAAGATTGGCATTTCCTGTGTGATCACTATATGAGTCGTGCATTTCAGGTGAGATCTACATATTGCAATGGTATGTTATTTCATTTAATTTTTGGTACGTATGTATAATTTTAATAAATATCTCCATGTAAGAGAAATCACGGACGAACAAGGCTGCCAGAAAAAAGCACATTACAATCATAGTAGTGGATCGAAGTCGGTTCTACAACGACAACACGACTTCGCTGAAGAACGAGGTCTGTCAGTCGATCGTCTGGAGTTGTTCAAAGATATACACGCTCAGAGTGGCCAATTCATTTCACAGGCGTTTGCGGATGCGCATGTAAGTTCAACTTTACTTTCTCTTATTTTGTATTTATACTTATGCCTTCATAACTTAATTAAATAAAGTTTAATTTGTTGCAGAATCAAATGTTGGAACTTCAGTCCCAACCCACCCTAGAGGGTTCTCAGCCGACTTCAAGAACAATATTTATGAGATAGTTTTGGGTAGACGACCATGCTACTAAAAAGTTCTTGGTTGGGGGACTCAGGCCCAAGTCCTGCAGAGTTGTTCTAGTAGTTCTTCGACTACATGTTCGCATTCTACAGAAGTCGAACAAGCTAATGCAGTCCTGATTGAGTAGCAAAGACTCGAGCTTCAAGAAGCTAAACGCATGAGTGAAGAGTAGAGAAGGATGGTCTGAGCTGTAGGCCCAACAAATGGAAAAACTAAAGAACATGATTGAAGAAATGACTCGAGCACAAAGAGGACCGTGAGTCGCGCACTTGCGGTACGTATTTTTGAACTTTACCGTTGTTTACTTTGCATTATTAGTGATATATATATCTAAATTTAATTTTGTGTCATTGTAAGTGTGGACCTGTAGTGTTAAGGTGTCTGCGGCCATATTATGTAAATTTTTTTCAAAAATTCGAAACTATTAGACAATGTACGTTTAATTATAATATATTTAATTTTGATTTGGTATTTTATATAATTATTTAGTAATTTGGATGTTCAACTTTTATAAATTTTATTCAATTTAAATCGAATTGGAATCGAACACAATAGTGAAAGATTGAAAAAAGAAATTCAAAAAAATGTTCATAAACTAACTTCCGACGTAGATAGCACGTTCAGAAATAGCGACGTTCCTCAATGCATTCTTGAACACGTCGAGGAGACGTTTCGTGACGTAACGTCGGGAGAACACTTCTTTTGACGCCTCGATTTACGTCGACAGAGTCCTACTTTCGACGTCTTATGTGACATCGGGGGTGCGATTTCTCCGACGTGATTCCGTTGTCGGCAAAATAGGCCTCGAGGAATGGGAATTTGCGACACTGTGATCTTCGCTCGTCAGGAATGAGTCTTTTGATGTGGGTTTCTCGACGATCGTCTCGACATGCAGGATTATGTCGGTAGATCTTTTGCTGACGTCGTTCTTTACTCTCGCCTACAACATCCTGCGTCGGAAAAACCCCGACTTGTTGTAGTTGTTTATGCTATATTATTTGTGAAAACATATTTATAAAGTTGTCAAGCACTAAGTCTTTCGACTTACTCTTTCAAAACGTTTTCTCTATCAAGATACAGACTGTGCAGCTCGTGGTGCTAGACTTACTACTGTCAAACCAATTTAATTTAATTGTTAAAGGAATCATTAAGATAAAATAAGTTACTTGTATAAAGAATCTTGGAATTTTTAAGGTTTTCATTATTAAATATTTCTCTAAATTAAAGGTATAAGAGTTATAAAAAAAACCCGTCTTAATTTTATTTTCTATGACTGTAAAAGACTTCTGCTTGCTAAATGTTTAAATGTTTGAAGTTAAGGGTAAGTTGGTATCGTTTGAAAAGGAAATGATATCGATTGCATCACATCATCTCTCGAGTCTAGAGTTGATGATGTCAGATGGGTGGTGTGACAAAACCCTCACCAAGGATATGGATTACACAATAAAAATAGAAAATATATAAATATATATGTGTATGAAAATTATGGCATGTTAGATAAAAGAAAAGTAATAACAGAAAATTTAAAAAAAATAAAATAAAAATCACGTATCCAAGAGGACCCATAGGTGGGATTCCATGACGTTGCCAAGTTGGGCAGCTGCTAAAGTAGGCAGTTAAAATTGGATAGACAAAGATATTTCATAAATATATCTTCAAATATTGTTGGATATTATCTTTTGTTTTTTAATATATAAACGGCCAATTTTTAAAATTAACTCGAAATTCAATTTAAGAAAACTTTTGCTCATTGTATAATGAACACATTGTACACAAAAGAGACCATTTTTGTTTTACTACTTAACATTTTATATATATATATATATATTAGCCCACTAGAAACGCTTTAATTTGATACTAAGTGAAAACATTATATTGGTTATATAACCATGGTCTAAGCTCACAATAATTAGAAAGGCTTTTAACTAAAATTGTCTAAATAAGGATCTTTATTTACACGTTGAATGTAATATTGTCATAATTTTCATAAAAGTTCTAATGGGCTATAAATTTACAAAAAATATTGAGTCCAAAATGACAAAACTATCCGTATTTAATATTAATATTAGAGAGGGAAAAAACAAAAGGTGGAGAGATCCCTATTTTCAAAATATATATAATCTATTGTCATAAATATTTTATTTTACATTTATTATTTATATTAAAACTTACATATTTAGTCTATTAAGTATTTAATGTATTTATTTTTATTTAATTTTAATATCATCATTTATTAGATATCTTATGTAAATATGGTATATAGTTAATTCAATTATAGTAAGATTCTAATCAAAATTTCTCTCCATTTATTTTTTATTCGTTGATTTTAATCAATTTCTTCATATATACTCTCTGTCTGATCTCTCTCCATCCATTCTTTCTTATTTTGTTCATTCCTTTCAAATTTTTCAGTGAGTGCATATTTGTTTCATACGTCTATATACAGATATAGTGATATAAATAGAACAATATATACCTGTAAATATTTTAAATAATATTGTACAATGATTATACATCAAACCACTGTACAATATTATTTAAAACATACATATGCACTCACCAAAAATGGATGTAATATAATTATATCATTGTACAGTACTATTTAAAATATATACATACCGAAATCAGTTTCTGACAGTGTAAGAATTTATCAAATTAACTTTCAATATATAAAAAAGAATGCAAAATGGATGCAATATAATGATTATAAATCAGAAATTAGTAAAGTACGTGGCATATATATTTGATTCACGGTAAATTTTCTTAATTGGAAGACTTCGCAGGAAAATTTCACCAACATACTATAGTTCACAATTTCATAAACAATTAATAATATGAAACAAATATGCACTCACTGGAAAACTTGAAGGAGACGACGGAATTAAGAAAGAATGGAGGGATAGAGATCAGACAAAGAGAGAGTATATTAGAAGAAATTTTTGACTAAAATCACATAAAAAAGAATAAATATGAAAATTATCTACGATATCTAGTAAATGACAATCTTAAAATTAAATGAAAATAAATATATTAAATAATTAATAGACTAAATATATAAATTTTTATATATTTAATATAAATAATAAATGTTTGAGTAAAATATTTATGGCAATAGATTATATATATTTTAAAAAATATGTAATATTTAAAATGAATGTGAAGGACAAATCTAATTTATGAAAATAAATGAAATTTTAAGACGTTCGTGTAAAATCAAAGCCAAGTGAAGTGTTTTTTCTAATCTTTTTTCTCATTAGAATGTGCTTTTTCCCATTCAAAAGATCATGTTTCATATCTTCTCTAGCTGTATTTATTTATAAAAAAAAAAAAAAAAAAAAGTTCCAAGTAAGGAAGAGGGAAAAGTAAAGGAAAGGTTGAAGAAAGAAGACATACCTGAGAGAGAAAAGCAGAAGAAATCTAAAAAGCACAAAAACAAGTATGAACGTTTTCTCTAATTGTGTTGTTTTGTTGCATGTGAAGCGAGAGAGCGAGAGGAAGGCAACAGAGTCTTACCATTTCTTTTGTTAACAAAATCACTCCTTTTATCTCAACAAATTACCTTTTTTATCTCAACATAAATATATAAAAGGAAGTTTAAAATATCAAATTTGATAAAATAATAACTTTTAATTAAGACTATATGTAAAGTTGATTGAAATGGTAAAGACCAAAACAATATTTTAAACTTAAAATGAGTTAGAAAAGGAAAAAAGTGTTAGGAAGAATGAGAGTATGAGAGAAGGAAGGATTGTGGTAAAGGGCAACATCAAAGGGAAGTTTGATTGTTTTTACAAGTGTAAGAGGTATGCTTTACATCACAATTTTGGTATTAAGATTTTGTTCTTTTAATTTGTTACTCATCAATTCCTTTTTACAATTCTTTAAACATTTATTATAATCTCTACCTTCCTTTTCCAAACCTAAATTAAAGCTCCTTTCTAACATACTTTTCTTTTATTAAACTTTTAACTATTTAAAACACACATTACATTTTGCATTTGTTTGGCTCTTTAACTCATGCACTTCAAATTACAAGTTTGGATATTTTCAGCTTCAAATTCTCACACAATTTAATCACTTGTATTATCGGTAGATTTGAATTAGAGGACATACTCTACTTTATATATATATATATATATATATGAAGTTCTCGCCATTGTTTCGGATAAAAGAATACAACGGTGAAACTTGATCAGTCATAAAGGTATATCCTAGGGCCAACATGCTTAGGAAAGAGGGGAGTTTTGTCCAAGACCCAAGTGTACCTGTTCGACCTCAATTTGATGAACGGGACATGCATGTTGTCACCTATATTTTGGGCCTTGGAAAGAATAATACTATGGGTTAAAATTACAAATACTATGGGTTAGTTAACCCTTCTTATTTGATATACAAAATATGCTAAATGCATGCCCCAATCAATTATTTGGCTCAAGAATTACCCTAATGTGACATATGGATGCCCTACATCATCATTTTTCTATAAATACTTCATTATAATTTTAGAACAAATAAGTTCATTTTCATCTCTAAAACTCTTACTGTAACCAAAAACCTTTTACTAACTACAACATAGAAAAGATATTATAGCAAGTACCATGCTCTTGCCCAAATTTTTCTTGTTTTATATTGGTTCATAGGTCATGTCTTTGTCTTTCTTGAATTACAAATTTATTGTTGTTGTCACGTGAAGACCATCAATTGCATTTTTTCTGGTTCAATCTTGAAATCTAGAGACTAATTTGACACAAATCCTTAAACACCATAAGGACCAAACGTGTACTTCTAAATTTTGGGCATTGTATCAAATTTTAGACTTATAACTAATAATTGTATTAATTTAAACTATTAGTTCGGATTGTAAGTGTAAATTAACCTCCTTTATAAAATTTAGTTTAAAAAAATATAGTGTGAAACTCCTAATAGTTACCATAAAAAAATTTAAATTGTTATAAGTGAATCAATATATACCCTTTATGAAGAGTTTGCAGACTTCTTCAAATCCAATATGTATATAAACTATGTAATTTGGTAGGTTGGAAATTGAGAGCTTAAATTAA

mRNA sequence

ATGGCGAGTAACTTAATCACGATTCTAAAGTTGGGTTTGACTGTAACATTTCTCTACGCCGTGATAGGTGGAGGGGTGACGACAGAGGCAGCCTTATCGTGCAACCAAGTGATCACCAATTTGCGTCCATGTCTTTCGTACGTGACGGGCGGAGGATACCCGTCGTCTAACTGTTGCAGTGGTGTGAAACAGTTGAACACGGCAGCTCGGACAACGCCGGATAGACAGGCGGTATGTCGGTGCTTGAAATCATTGGCGAATGGCGTTACGTATAATGGCAAAAATGTTGCTAATGCTGCTACTCTTCCGAACAAGTGTGGCGTCACTCTTCCCTACTCTATCAAACCCAATGTTGACTGTAACACGTTGGAAATTGAGAGCTTAAATTAA

Coding sequence (CDS)

ATGGCGAGTAACTTAATCACGATTCTAAAGTTGGGTTTGACTGTAACATTTCTCTACGCCGTGATAGGTGGAGGGGTGACGACAGAGGCAGCCTTATCGTGCAACCAAGTGATCACCAATTTGCGTCCATGTCTTTCGTACGTGACGGGCGGAGGATACCCGTCGTCTAACTGTTGCAGTGGTGTGAAACAGTTGAACACGGCAGCTCGGACAACGCCGGATAGACAGGCGGTATGTCGGTGCTTGAAATCATTGGCGAATGGCGTTACGTATAATGGCAAAAATGTTGCTAATGCTGCTACTCTTCCGAACAAGTGTGGCGTCACTCTTCCCTACTCTATCAAACCCAATGTTGACTGTAACACGTTGGAAATTGAGAGCTTAAATTAA

Protein sequence

MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCSGVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDCNTLEIESLN*
Homology
[Close]
BLAST of Chy8G151810 vs. ExPASy Swiss-Prot
Match: Q43019 (Non-specific lipid-transfer protein 3 OS=Prunus dulcis OX=3755 PE=2 SV=1)

HSP 1 Score: 118.6 bits (296), Expect = 5.2e-26
Identity = 53/117 (45.30%), Postives = 74/117 (63.25%), Query Frame = 0 

Query: 8   ILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCSGVKQLNT 67
           +LKL   V  +  +  GG    AA+SC QV+ NL PC++YV  GG  + +CC+GV+ L +
Sbjct: 7   LLKLVCLVAVMCCMAVGGPKAMAAVSCGQVVNNLTPCINYVANGGALNPSCCTGVRSLYS 66

Query: 68  AARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDCNTLE 125
            A+TT DRQ++C CLK   NG+ Y   N   AA LP KCGV +PY I P+ DC +++
Sbjct: 67  LAQTTADRQSICNCLKQAVNGIPYTNANAGLAAGLPGKCGVNIPYKISPSTDCKSIK 123

[Close]
BLAST of Chy8G151810 vs. ExPASy Swiss-Prot
Match: Q7XJ39 (Non-specific lipid-transfer protein 2A OS=Oryza sativa subsp. japonica OX=39947 GN=LTP2-A PE=3 SV=2)

HSP 1 Score: 117.9 bits (294), Expect = 8.8e-26
Identity = 52/103 (50.49%), Postives = 76/103 (73.79%), Query Frame = 0 

Query: 21  VIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCSGVKQLNTAARTTPDRQAVCR 80
           ++ G  TT AA+SC QV + + PCLSY  GG  PS+ CCSGV+ LN+AA TT DR+  C 
Sbjct: 17  LLAGPHTTMAAISCGQVNSAVSPCLSYARGGSGPSAACCSGVRSLNSAASTTADRRTACN 76

Query: 81  CLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDCNTL 124
           CLK++A  +  +G N  NAA++P+KCGV++PY+I P++DC+++
Sbjct: 77  CLKNVAGSI--SGLNAGNAASIPSKCGVSIPYTISPSIDCSSV 117

[Close]
BLAST of Chy8G151810 vs. ExPASy Swiss-Prot
Match: Q2QYL2 (Non-specific lipid-transfer protein 2B OS=Oryza sativa subsp. japonica OX=39947 GN=LTP2-B PE=2 SV=1)

HSP 1 Score: 117.9 bits (294), Expect = 8.8e-26
Identity = 52/103 (50.49%), Postives = 76/103 (73.79%), Query Frame = 0 

Query: 21  VIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCSGVKQLNTAARTTPDRQAVCR 80
           ++ G  TT AA+SC QV + + PCLSY  GG  PS+ CCSGV+ LN+AA TT DR+  C 
Sbjct: 16  LLAGPHTTMAAISCGQVNSAVSPCLSYARGGSGPSAACCSGVRSLNSAATTTADRRTACN 75

Query: 81  CLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDCNTL 124
           CLK++A  +  +G N  NAA++P+KCGV++PY+I P++DC+++
Sbjct: 76  CLKNVAGSI--SGLNAGNAASIPSKCGVSIPYTISPSIDCSSV 116

[Close]
BLAST of Chy8G151810 vs. ExPASy Swiss-Prot
Match: A2ZAT0 (Non-specific lipid-transfer protein 2 OS=Oryza sativa subsp. indica OX=39946 GN=LTP2-A PE=3 SV=1)

HSP 1 Score: 117.9 bits (294), Expect = 8.8e-26
Identity = 52/103 (50.49%), Postives = 76/103 (73.79%), Query Frame = 0 

Query: 21  VIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCSGVKQLNTAARTTPDRQAVCR 80
           ++ G  TT AA+SC QV + + PCLSY  GG  PS+ CCSGV+ LN+AA TT DR+  C 
Sbjct: 17  LLAGPHTTMAAISCGQVNSAVSPCLSYARGGSGPSAACCSGVRSLNSAASTTADRRTACN 76

Query: 81  CLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDCNTL 124
           CLK++A  +  +G N  NAA++P+KCGV++PY+I P++DC+++
Sbjct: 77  CLKNVAGSI--SGLNAGNAASIPSKCGVSIPYTISPSIDCSSV 117

[Close]
BLAST of Chy8G151810 vs. ExPASy Swiss-Prot
Match: Q39950 (Non-specific lipid-transfer protein OS=Helianthus annuus OX=4232 PE=3 SV=1)

HSP 1 Score: 116.7 bits (291), Expect = 2.0e-25
Identity = 61/124 (49.19%), Postives = 81/124 (65.32%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MA   + +L  G+T      ++ G   TE ALSC QV ++L PC+SY+T GG     CCS
Sbjct: 1   MAKMAMMVLCAGVT-----CMVVGAPYTE-ALSCGQVSSSLAPCISYLTKGGAVPPACCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GVK LN+AA+TTPDRQA C CLKS  N +  +G N  NAA+ P KCGV++PY I P+ DC
Sbjct: 61  GVKSLNSAAKTTPDRQAACGCLKSAYNSI--SGVNAGNAASFPGKCGVSIPYKISPSTDC 116

Query: 121 NTLE 125
           + ++
Sbjct: 121 SKVQ 116

[Close]
BLAST of Chy8G151810 vs. ExPASy TrEMBL
Match: A0A0A0KY77 (Non-specific lipid-transfer protein OS=Cucumis sativus OX=3659 GN=Csa_4G333620 PE=3 SV=1)

HSP 1 Score: 233.4 bits (594), Expect = 5.3e-58
Identity = 112/125 (89.60%), Postives = 119/125 (95.20%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MASNLITILKLGLTVTFLYAVIGGGVTTEA +SCNQVITNLRPC+SYVTGGGYPSSNCCS
Sbjct: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAVVSCNQVITNLRPCVSYVTGGGYPSSNCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GVKQL+TAARTTPDRQAVCRCLKSL NGV YNG+NVANAA LP KCGVTLPYSI PNVDC
Sbjct: 61  GVKQLSTAARTTPDRQAVCRCLKSLVNGVKYNGQNVANAAALPTKCGVTLPYSINPNVDC 120

Query: 121 NTLEI 126
           NT+++
Sbjct: 121 NTIKM 125

[Close]
BLAST of Chy8G151810 vs. ExPASy TrEMBL
Match: A0A1S3CIS8 (Non-specific lipid-transfer protein OS=Cucumis melo OX=3656 GN=LOC103501462 PE=3 SV=1)

HSP 1 Score: 210.3 bits (534), Expect = 4.8e-51
Identity = 99/125 (79.20%), Postives = 112/125 (89.60%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MASNLITILKLGLTVT LYAVIGGGVTTEA ++CNQV++NL PC+SYVTGGG PS NCCS
Sbjct: 1   MASNLITILKLGLTVTLLYAVIGGGVTTEATVTCNQVVSNLSPCISYVTGGGSPSFNCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GV+QLN AA+TTPDRQ VCRCLKSL NGVTYNG+NVANAA LP KCGV LPY+I PN DC
Sbjct: 61  GVRQLNKAAQTTPDRQDVCRCLKSLINGVTYNGQNVANAAALPTKCGVNLPYTINPNADC 120

Query: 121 NTLEI 126
           +T+++
Sbjct: 121 STIKM 125

[Close]
BLAST of Chy8G151810 vs. ExPASy TrEMBL
Match: A0A5D3CEZ6 (Non-specific lipid-transfer protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold127G00580 PE=3 SV=1)

HSP 1 Score: 208.4 bits (529), Expect = 1.8e-50
Identity = 99/122 (81.15%), Postives = 109/122 (89.34%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MASNLITILKLGLTVT LYAVIGGGVTTEA ++CNQV++NL PC+SYVTGGG PS NCCS
Sbjct: 1   MASNLITILKLGLTVTLLYAVIGGGVTTEATVTCNQVVSNLSPCISYVTGGGSPSFNCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GV+QLN AA+TTPDRQ VCRCLKSL NGVTYNG+NVANAA LP KCGV LPY+I PN DC
Sbjct: 61  GVRQLNKAAQTTPDRQDVCRCLKSLINGVTYNGQNVANAAALPTKCGVNLPYTINPNADC 120

Query: 121 NT 123
           +T
Sbjct: 121 ST 122

[Close]
BLAST of Chy8G151810 vs. ExPASy TrEMBL
Match: A0A6J1HTX7 (Non-specific lipid-transfer protein OS=Cucurbita maxima OX=3661 GN=LOC111466126 PE=3 SV=1)

HSP 1 Score: 145.2 bits (365), Expect = 1.9e-31
Identity = 68/123 (55.28%), Postives = 91/123 (73.98%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MAS+ +  +K+GL V  +  +I GG  +EAA++CNQV+++L  C+SYVTGGG PS+ CCS
Sbjct: 1   MASSGMINVKMGLVVALVCGIIMGGRVSEAAVTCNQVVSDLGACVSYVTGGGAPSATCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GV+ LN  A T  DRQAVC CL+SL  GV+YN + +ANAA LP +CGV LPY I P +DC
Sbjct: 61  GVQDLNKLASTAADRQAVCGCLESLVKGVSYNAQTLANAAALPARCGVKLPYKIDPRIDC 120

Query: 121 NTL 124
           +T+
Sbjct: 121 STI 123

[Close]
BLAST of Chy8G151810 vs. ExPASy TrEMBL
Match: A0A6J1EBM4 (Non-specific lipid-transfer protein OS=Cucurbita moschata OX=3662 GN=LOC111432531 PE=3 SV=1)

HSP 1 Score: 145.2 bits (365), Expect = 1.9e-31
Identity = 69/123 (56.10%), Postives = 90/123 (73.17%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MAS+ +  +K+GL V  +  +I GG  +EAA++CNQV+++L  C+SYVTGGG PS+ CCS
Sbjct: 1   MASSGMINVKMGLVVALVCGIIMGGRVSEAAVTCNQVVSDLGACVSYVTGGGTPSATCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GV+ LN  A T  DRQAVC CL+SL  GV+YN + +ANAA LP KCGV LPY I P  DC
Sbjct: 61  GVQDLNKLASTAADRQAVCGCLESLVKGVSYNAQTLANAAALPAKCGVKLPYKIDPRTDC 120

Query: 121 NTL 124
           +T+
Sbjct: 121 STI 123

[Close]
BLAST of Chy8G151810 vs. NCBI nr
Match: XP_004151695.1 (non-specific lipid-transfer protein 1 [Cucumis sativus] >KGN54448.1 hypothetical protein Csa_012253 [Cucumis sativus])

HSP 1 Score: 233 bits (593), Expect = 1.20e-76
Identity = 112/125 (89.60%), Postives = 119/125 (95.20%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MASNLITILKLGLTVTFLYAVIGGGVTTEA +SCNQVITNLRPC+SYVTGGGYPSSNCCS
Sbjct: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAVVSCNQVITNLRPCVSYVTGGGYPSSNCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GVKQL+TAARTTPDRQAVCRCLKSL NGV YNG+NVANAA LP KCGVTLPYSI PNVDC
Sbjct: 61  GVKQLSTAARTTPDRQAVCRCLKSLVNGVKYNGQNVANAAALPTKCGVTLPYSINPNVDC 120

Query: 121 NTLEI 125
           NT+++
Sbjct: 121 NTIKM 125

[Close]
BLAST of Chy8G151810 vs. NCBI nr
Match: XP_008463259.1 (PREDICTED: non-specific lipid-transfer protein 1-like [Cucumis melo])

HSP 1 Score: 209 bits (533), Expect = 1.69e-67
Identity = 99/125 (79.20%), Postives = 112/125 (89.60%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MASNLITILKLGLTVT LYAVIGGGVTTEA ++CNQV++NL PC+SYVTGGG PS NCCS
Sbjct: 1   MASNLITILKLGLTVTLLYAVIGGGVTTEATVTCNQVVSNLSPCISYVTGGGSPSFNCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GV+QLN AA+TTPDRQ VCRCLKSL NGVTYNG+NVANAA LP KCGV LPY+I PN DC
Sbjct: 61  GVRQLNKAAQTTPDRQDVCRCLKSLINGVTYNGQNVANAAALPTKCGVNLPYTINPNADC 120

Query: 121 NTLEI 125
           +T+++
Sbjct: 121 STIKM 125

[Close]
BLAST of Chy8G151810 vs. NCBI nr
Match: KAA0025399.1 (non-specific lipid-transfer protein 1-like [Cucumis melo var. makuwa] >TYK09774.1 non-specific lipid-transfer protein 1-like [Cucumis melo var. makuwa])

HSP 1 Score: 208 bits (529), Expect = 6.24e-67
Identity = 99/122 (81.15%), Postives = 109/122 (89.34%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MASNLITILKLGLTVT LYAVIGGGVTTEA ++CNQV++NL PC+SYVTGGG PS NCCS
Sbjct: 1   MASNLITILKLGLTVTLLYAVIGGGVTTEATVTCNQVVSNLSPCISYVTGGGSPSFNCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GV+QLN AA+TTPDRQ VCRCLKSL NGVTYNG+NVANAA LP KCGV LPY+I PN DC
Sbjct: 61  GVRQLNKAAQTTPDRQDVCRCLKSLINGVTYNGQNVANAAALPTKCGVNLPYTINPNADC 120

Query: 121 NT 122
           +T
Sbjct: 121 ST 122

[Close]
BLAST of Chy8G151810 vs. NCBI nr
Match: XP_038883886.1 (non-specific lipid-transfer protein 1-like [Benincasa hispida])

HSP 1 Score: 187 bits (475), Expect = 1.17e-58
Identity = 89/125 (71.20%), Postives = 105/125 (84.00%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MASNLI  +KLGL +TFL  VIGG V TEA ++CNQVI+NL PC+ +VTGGG PS NCCS
Sbjct: 1   MASNLIGNVKLGLIITFLCTVIGGRVMTEAVVTCNQVISNLNPCVQFVTGGGAPSGNCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GV+QL   A+TTPDRQAVCRCLKS+ NGV Y+GKNVANAA LP+KCGV LPY+I PNVDC
Sbjct: 61  GVRQLFALAQTTPDRQAVCRCLKSVVNGVRYSGKNVANAAALPSKCGVQLPYAIDPNVDC 120

Query: 121 NTLEI 125
           NT+++
Sbjct: 121 NTIKM 125

[Close]
BLAST of Chy8G151810 vs. NCBI nr
Match: XP_023518220.1 (non-specific lipid-transfer protein 1-like [Cucurbita pepo subsp. pepo])

HSP 1 Score: 149 bits (376), Expect = 1.34e-43
Identity = 70/123 (56.91%), Postives = 92/123 (74.80%), Query Frame = 0 

Query: 1   MASNLITILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGYPSSNCCS 60
           MASN +  +K+GL V  +  +I GG  +EAA++CNQV+++L  C+SYVTGGG PS+ CCS
Sbjct: 1   MASNGMINVKMGLVVALVCGIIMGGRVSEAAVTCNQVVSDLGACVSYVTGGGTPSATCCS 60

Query: 61  GVKQLNTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYSIKPNVDC 120
           GV+ LN  A T  DRQAVC CL+SL  GV+YN + +ANAA LP+KCGV LPY I P +DC
Sbjct: 61  GVQDLNKLASTAADRQAVCGCLESLVKGVSYNAQTLANAAALPSKCGVKLPYKIDPRIDC 120

Query: 121 NTL 123
           +T+
Sbjct: 121 STI 123

[Close]
BLAST of Chy8G151810 vs. TAIR 10
Match: AT3G08770.1 (lipid transfer protein 6 )

HSP 1 Score: 111.7 bits (278), Expect = 4.5e-25
Identity = 49/96 (51.04%), Postives = 68/96 (70.83%), Query Frame = 0 

Query: 29  EAALSCNQVITNLRPCLSYVTGGGYPSSNCCSGVKQLNTAARTTPDRQAVCRCLKSLANG 88
           EAA+SCN VI +L PCLSYVT GG   + CC+G+  L + A+T+ DRQ VCRC+KS   G
Sbjct: 18  EAAVSCNTVIADLYPCLSYVTQGGPVPTLCCNGLTTLKSQAQTSVDRQGVCRCIKSAIGG 77

Query: 89  VTYNGKNVANAATLPNKCGVTLPYSIKPNVDCNTLE 125
           +T + + + NA  LP+KCGV LPY   P+ DC++++
Sbjct: 78  LTLSPRTIQNALELPSKCGVDLPYKFSPSTDCDSIQ 113

[Close]
BLAST of Chy8G151810 vs. TAIR 10
Match: AT3G08770.2 (lipid transfer protein 6 )

HSP 1 Score: 110.2 bits (274), Expect = 1.3e-24
Identity = 49/94 (52.13%), Postives = 66/94 (70.21%), Query Frame = 0 

Query: 29  EAALSCNQVITNLRPCLSYVTGGGYPSSNCCSGVKQLNTAARTTPDRQAVCRCLKSLANG 88
           EAA+SCN VI +L PCLSYVT GG   + CC+G+  L + A+T+ DRQ VCRC+KS   G
Sbjct: 18  EAAVSCNTVIADLYPCLSYVTQGGPVPTLCCNGLTTLKSQAQTSVDRQGVCRCIKSAIGG 77

Query: 89  VTYNGKNVANAATLPNKCGVTLPYSIKPNVDCNT 123
           +T + + + NA  LP+KCGV LPY   P+ DC++
Sbjct: 78  LTLSPRTIQNALELPSKCGVDLPYKFSPSTDCDS 111

[Close]
BLAST of Chy8G151810 vs. TAIR 10
Match: AT5G01870.1 (Bifunctional inhibitor/lipid-transfer protein/seed storage 2S albumin superfamily protein )

HSP 1 Score: 103.6 bits (257), Expect = 1.2e-22
Identity = 45/97 (46.39%), Postives = 65/97 (67.01%), Query Frame = 0 

Query: 28  TEAALSCNQVITNLRPCLSYVTGGGYPSSNCCSGVKQLNTAARTTPDRQAVCRCLKSLAN 87
           +EAA+SCN V  NL PC+ YV  GG    +CC+G++ L+  A +  D+Q VCRC+KS+  
Sbjct: 20  SEAAISCNAVQANLYPCVVYVVQGGAIPYSCCNGIRMLSKQATSASDKQGVCRCIKSVVG 79

Query: 88  GVTYNGKNVANAATLPNKCGVTLPYSIKPNVDCNTLE 125
            V+Y+   +  AA LP KCGV LPY I P+ +CN+++
Sbjct: 80  RVSYSSIYLKKAAALPGKCGVKLPYKIDPSTNCNSIK 116

[Close]
BLAST of Chy8G151810 vs. TAIR 10
Match: AT2G15050.3 (lipid transfer protein )

HSP 1 Score: 102.4 bits (254), Expect = 2.7e-22
Identity = 53/120 (44.17%), Postives = 76/120 (63.33%), Query Frame = 0 

Query: 8   ILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGY--PSSNCCSGVKQL 67
           ++KLG  V F++ +  G +T +AALSC +V +NL+PC  Y+T GG   P   CC+GV++L
Sbjct: 4   LMKLGCLV-FVFVIAAGPITAKAALSCGEVNSNLKPCTGYLTNGGITSPGPQCCNGVRKL 63

Query: 68  NTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYS--IKPNVDCNTL 124
           N    TT DR+  CRC+K+ A  V   G N   AA +P +CG+ +PYS  I+ N  CNT+
Sbjct: 64  NGMVLTTLDRRQACRCIKNAARNVG-PGLNADRAAGIPRRCGIKIPYSTQIRFNTKCNTV 121

[Close]
BLAST of Chy8G151810 vs. TAIR 10
Match: AT2G15050.1 (lipid transfer protein )

HSP 1 Score: 102.1 bits (253), Expect = 3.6e-22
Identity = 53/119 (44.54%), Postives = 75/119 (63.03%), Query Frame = 0 

Query: 8   ILKLGLTVTFLYAVIGGGVTTEAALSCNQVITNLRPCLSYVTGGGY--PSSNCCSGVKQL 67
           ++KLG  V F++ +  G +T +AALSC +V +NL+PC  Y+T GG   P   CC+GV++L
Sbjct: 4   LMKLGCLV-FVFVIAAGPITAKAALSCGEVNSNLKPCTGYLTNGGITSPGPQCCNGVRKL 63

Query: 68  NTAARTTPDRQAVCRCLKSLANGVTYNGKNVANAATLPNKCGVTLPYS--IKPNVDCNT 123
           N    TT DR+  CRC+K+ A  V   G N   AA +P +CG+ +PYS  I+ N  CNT
Sbjct: 64  NGMVLTTLDRRQACRCIKNAARNVG-PGLNADRAAGIPRRCGIKIPYSTQIRFNTKCNT 120

The following BLAST results are available for this feature:
BLAST of Chy8G151810 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q430195.2e-2645.30Non-specific lipid-transfer protein 3 OS=Prunus dulcis OX=3755 PE=2 SV=1[more]
Q7XJ398.8e-2650.49Non-specific lipid-transfer protein 2A OS=Oryza sativa subsp. japonica OX=39947 ... [more]
Q2QYL28.8e-2650.49Non-specific lipid-transfer protein 2B OS=Oryza sativa subsp. japonica OX=39947 ... [more]
A2ZAT08.8e-2650.49Non-specific lipid-transfer protein 2 OS=Oryza sativa subsp. indica OX=39946 GN=... [more]
Q399502.0e-2549.19Non-specific lipid-transfer protein OS=Helianthus annuus OX=4232 PE=3 SV=1[more]
BLAST of Chy8G151810 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0KY775.3e-5889.60Non-specific lipid-transfer protein OS=Cucumis sativus OX=3659 GN=Csa_4G333620 P... [more]
A0A1S3CIS84.8e-5179.20Non-specific lipid-transfer protein OS=Cucumis melo OX=3656 GN=LOC103501462 PE=3... [more]
A0A5D3CEZ61.8e-5081.15Non-specific lipid-transfer protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5... [more]
A0A6J1HTX71.9e-3155.28Non-specific lipid-transfer protein OS=Cucurbita maxima OX=3661 GN=LOC111466126 ... [more]
A0A6J1EBM41.9e-3156.10Non-specific lipid-transfer protein OS=Cucurbita moschata OX=3662 GN=LOC11143253... [more]
BLAST of Chy8G151810 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_004151695.11.20e-7689.60non-specific lipid-transfer protein 1 [Cucumis sativus] >KGN54448.1 hypothetical... [more]
XP_008463259.11.69e-6779.20PREDICTED: non-specific lipid-transfer protein 1-like [Cucumis melo][more]
KAA0025399.16.24e-6781.15non-specific lipid-transfer protein 1-like [Cucumis melo var. makuwa] >TYK09774.... [more]
XP_038883886.11.17e-5871.20non-specific lipid-transfer protein 1-like [Benincasa hispida][more]
XP_023518220.11.34e-4356.91non-specific lipid-transfer protein 1-like [Cucurbita pepo subsp. pepo][more]
BLAST of Chy8G151810 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G08770.14.5e-2551.04lipid transfer protein 6 [more]
AT3G08770.21.3e-2452.13lipid transfer protein 6 [more]
AT5G01870.11.2e-2246.39Bifunctional inhibitor/lipid-transfer protein/seed storage 2S albumin superfamil... [more]
AT2G15050.32.7e-2244.17lipid transfer protein [more]
AT2G15050.13.6e-2244.54lipid transfer protein [more]
InterPro
Analysis Name: InterPro Annotations of Cucumber (hystrix) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000528Plant non-specific lipid-transfer protein/Par allergenPRINTSPR00382LIPIDTRNSFERcoord: 74..89
score: 51.25
coord: 53..67
score: 46.97
coord: 33..49
score: 45.25
coord: 93..110
score: 44.96
coord: 111..122
score: 44.1
IPR000528Plant non-specific lipid-transfer protein/Par allergenPANTHERPTHR33076FAMILY NOT NAMEDcoord: 8..122
IPR016140Bifunctional inhibitor/plant lipid transfer protein/seed storage helical domainSMARTSM00499aai_6coord: 34..120
e-value: 2.2E-16
score: 70.4
IPR016140Bifunctional inhibitor/plant lipid transfer protein/seed storage helical domainPFAMPF00234Tryp_alpha_amylcoord: 34..120
e-value: 3.5E-11
score: 43.4
IPR036312Bifunctional inhibitor/plant lipid transfer protein/seed storage helical domain superfamilyGENE3D1.10.110.10coord: 31..124
e-value: 1.5E-30
score: 107.3
IPR036312Bifunctional inhibitor/plant lipid transfer protein/seed storage helical domain superfamilySUPERFAMILY47699Bifunctional inhibitor/lipid-transfer protein/seed storage 2S albumincoord: 33..123
NoneNo IPR availablePANTHERPTHR33076:SF50NON-SPECIFIC LIPID-TRANSFER PROTEIN 10-RELATEDcoord: 8..122
NoneNo IPR availableCDDcd01960nsLTP1coord: 32..121
e-value: 2.25618E-36
score: 117.836

Relationships

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

Feature NameUnique NameType
Chy8G151810.1Chy8G151810.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006869 lipid transport
molecular_function GO:0008289 lipid binding