PI0009410 (gene) Melon (PI 482460) v1

Overview
NamePI0009410
Typegene
OrganismCucumis metuliferus (Melon (PI 482460) v1)
DescriptionStress response protein NST1-like
Locationchr03: 20489249 .. 20502412 (+)
RNA-Seq ExpressionPI0009410
SyntenyPI0009410
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAATAAAGGTGGGGAAAATGAAACTAATTATATTAGGTCTAAAATAACCCTAACACCAACCTGGCGGCGAGACCAAGGCGAAAAGCCCTCAATTCACACAATCATAAAAATTGAGAAAGGGCTCTTTCCCTTTAATGGTACCCTCCCTGACTTCCTCTACTCACCGATCCAGGCAGCATTAAAGTGGGAGAAATTCTTTGAAGGAGAGATTAAGGTGCGATTAGACGTGGTCGAAATGTTTTACACGCTAAAGTATAATTCGCAGGAGTCTGATGCGACTATGGAAGGTGAGAGAGTGCCCATCAGTGCGGAGGAAATCAATGACTTATGA

Coding sequence (CDS)

ATGAATAAAGGTGGGGAAAATGAAACTAATTATATTAGGTCTAAAATAACCCTAACACCAACCTGGCGGCGAGACCAAGGCGAAAAGCCCTCAATTCACACAATCATAAAAATTGAGAAAGGGCTCTTTCCCTTTAATGGTACCCTCCCTGACTTCCTCTACTCACCGATCCAGGCAGCATTAAAGTGGGAGAAATTCTTTGAAGGAGAGATTAAGGTGCGATTAGACGTGGTCGAAATGTTTTACACGCTAAAGTATAATTCGCAGGAGTCTGATGCGACTATGGAAGGTGAGAGAGTGCCCATCAGTGCGGAGGAAATCAATGACTTATGA

Protein sequence

MNKGGENETNYIRSKITLTPTWRRDQGEKPSIHTIIKIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDATMEGERVPISAEEINDL
Homology
[Close]
BLAST of PI0009410 vs. ExPASy TrEMBL
Match: A0A5A7VMD3 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold550G00650 PE=4 SV=1)

HSP 1 Score: 94.4 bits (233), Expect = 3.3e-16
Identity = 51/99 (51.52%), Postives = 65/99 (65.66%), Query Frame = 0 

Query: 3   KGGENETNYIRSKITLTPTWRRDQGEKPSIHTIIKIEKGLFPFNGTLPDFLYSPIQAALK 62
           K  +N+    RS+   T     DQ     +  ++KIEKGLF F+G L DFLY PI+ A K
Sbjct: 22  KKDKNKVRTSRSEDVQTSEPLNDQ----KLDKLLKIEKGLFLFSGHLLDFLYEPIK-AFK 81

Query: 63  WEKFFEGEIKVRLDVVEMFYTLKYNSQESDATMEGERVP 102
           WEKFF G+ KVRLDVV MFYT+KY   ES AT+EG+++P
Sbjct: 82  WEKFFRGDAKVRLDVVNMFYTVKYYQVESYATVEGKKIP 115

[Close]
BLAST of PI0009410 vs. ExPASy TrEMBL
Match: A0A0A0LT82 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G169970 PE=4 SV=1)

HSP 1 Score: 92.0 bits (227), Expect = 1.6e-15
Identity = 43/72 (59.72%), Postives = 57/72 (79.17%), Query Frame = 0 

Query: 35  IIKIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDAT 94
           +IKIEKGL  FNG+LPDFLY+PI+ ALKWEKFF  E KV+ DVV++FY  K++ +ES A 
Sbjct: 9   LIKIEKGLLSFNGSLPDFLYAPIK-ALKWEKFFTDETKVKFDVVDLFYATKFHPKESYAI 68

Query: 95  MEGERVPISAEE 107
           ++ ERVP + E+
Sbjct: 69  VDDERVPFTKEK 79

[Close]
BLAST of PI0009410 vs. ExPASy TrEMBL
Match: A0A5D3CEC7 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold76G00090 PE=4 SV=1)

HSP 1 Score: 88.6 bits (218), Expect = 1.8e-14
Identity = 47/78 (60.26%), Postives = 56/78 (71.79%), Query Frame = 0 

Query: 35  IIKIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDAT 94
           +IKIEKGL PFN  LPDFLY PI+ ALKWEKFF GE+KVRLD+++MFY  KY+  ES   
Sbjct: 9   LIKIEKGLLPFNSHLPDFLYGPIK-ALKWEKFFTGEMKVRLDIIDMFYATKYHLDESQRL 68

Query: 95  M--EGERVPISAEEINDL 111
           +   GER    A EI+ L
Sbjct: 69  IVDTGER---DANEISKL 82

[Close]
BLAST of PI0009410 vs. ExPASy TrEMBL
Match: A0A5A7VFY5 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold2119G00390 PE=4 SV=1)

HSP 1 Score: 82.4 bits (202), Expect = 1.3e-12
Identity = 39/74 (52.70%), Postives = 55/74 (74.32%), Query Frame = 0 

Query: 37  KIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDATME 96
           K++K LFP+NG LPDF++ PI+ A KW KFF  E+KVRLDVVE FY  +Y+  +  AT+E
Sbjct: 25  KVKKVLFPYNGALPDFIHRPIK-AFKWSKFFSKEMKVRLDVVEKFYVPRYHLTKFYATVE 84

Query: 97  GERVPISAEEINDL 111
            E++  +A+ IN+L
Sbjct: 85  REKIYFNAKVINEL 97

[Close]
BLAST of PI0009410 vs. ExPASy TrEMBL
Match: A0A5A7UMK2 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold186G001800 PE=4 SV=1)

HSP 1 Score: 81.6 bits (200), Expect = 2.2e-12
Identity = 40/75 (53.33%), Postives = 53/75 (70.67%), Query Frame = 0 

Query: 36  IKIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDATM 95
           +KIEKGLFPF   LP FL+ PI+ A +W K FEG+ KVRL VV+MFY  K++  +  A +
Sbjct: 1   MKIEKGLFPFKDALPYFLHRPIK-AFEWRKLFEGDTKVRLYVVDMFYRTKFHPTDLYAMV 60

Query: 96  EGERVPISAEEINDL 111
           +GER+   AE IN+L
Sbjct: 61  DGERISFRAEVINEL 74

[Close]
BLAST of PI0009410 vs. NCBI nr
Match: KAA0066935.1 (hypothetical protein E6C27_scaffold550G00650 [Cucumis melo var. makuwa])

HSP 1 Score: 94.4 bits (233), Expect = 6.7e-16
Identity = 51/99 (51.52%), Postives = 65/99 (65.66%), Query Frame = 0 

Query: 3   KGGENETNYIRSKITLTPTWRRDQGEKPSIHTIIKIEKGLFPFNGTLPDFLYSPIQAALK 62
           K  +N+    RS+   T     DQ     +  ++KIEKGLF F+G L DFLY PI+ A K
Sbjct: 22  KKDKNKVRTSRSEDVQTSEPLNDQ----KLDKLLKIEKGLFLFSGHLLDFLYEPIK-AFK 81

Query: 63  WEKFFEGEIKVRLDVVEMFYTLKYNSQESDATMEGERVP 102
           WEKFF G+ KVRLDVV MFYT+KY   ES AT+EG+++P
Sbjct: 82  WEKFFRGDAKVRLDVVNMFYTVKYYQVESYATVEGKKIP 115

[Close]
BLAST of PI0009410 vs. NCBI nr
Match: KGN64973.1 (hypothetical protein Csa_022771 [Cucumis sativus])

HSP 1 Score: 92.0 bits (227), Expect = 3.3e-15
Identity = 43/72 (59.72%), Postives = 57/72 (79.17%), Query Frame = 0 

Query: 35  IIKIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDAT 94
           +IKIEKGL  FNG+LPDFLY+PI+ ALKWEKFF  E KV+ DVV++FY  K++ +ES A 
Sbjct: 9   LIKIEKGLLSFNGSLPDFLYAPIK-ALKWEKFFTDETKVKFDVVDLFYATKFHPKESYAI 68

Query: 95  MEGERVPISAEE 107
           ++ ERVP + E+
Sbjct: 69  VDDERVPFTKEK 79

[Close]
BLAST of PI0009410 vs. NCBI nr
Match: KAE8645907.1 (hypothetical protein Csa_023734, partial [Cucumis sativus])

HSP 1 Score: 88.6 bits (218), Expect = 3.7e-14
Identity = 42/75 (56.00%), Postives = 54/75 (72.00%), Query Frame = 0 

Query: 36  IKIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDATM 95
           IKIEKGL PF   L DFLY PI+ A KW+KFF  E ++RLD+V+MFY  K++ QES   +
Sbjct: 5   IKIEKGLLPFKDPLLDFLYDPIK-AFKWKKFFVSETQIRLDLVDMFYAAKFHPQESYVVV 64

Query: 96  EGERVPISAEEINDL 111
           +GE+VP   E IN+L
Sbjct: 65  KGEKVPFIVESINEL 78

[Close]
BLAST of PI0009410 vs. NCBI nr
Match: KAA0065467.1 (hypothetical protein E6C27_scaffold17G001620 [Cucumis melo var. makuwa] >TYK08709.1 hypothetical protein E5676_scaffold76G00090 [Cucumis melo var. makuwa])

HSP 1 Score: 88.6 bits (218), Expect = 3.7e-14
Identity = 47/78 (60.26%), Postives = 56/78 (71.79%), Query Frame = 0 

Query: 35  IIKIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDAT 94
           +IKIEKGL PFN  LPDFLY PI+ ALKWEKFF GE+KVRLD+++MFY  KY+  ES   
Sbjct: 9   LIKIEKGLLPFNSHLPDFLYGPIK-ALKWEKFFTGEMKVRLDIIDMFYATKYHLDESQRL 68

Query: 95  M--EGERVPISAEEINDL 111
           +   GER    A EI+ L
Sbjct: 69  IVDTGER---DANEISKL 82

[Close]
BLAST of PI0009410 vs. NCBI nr
Match: KAA0066658.1 (hypothetical protein E6C27_scaffold979G00900 [Cucumis melo var. makuwa] >TYK04101.1 hypothetical protein E5676_scaffold2119G00390 [Cucumis melo var. makuwa])

HSP 1 Score: 82.4 bits (202), Expect = 2.6e-12
Identity = 39/74 (52.70%), Postives = 55/74 (74.32%), Query Frame = 0 

Query: 37  KIEKGLFPFNGTLPDFLYSPIQAALKWEKFFEGEIKVRLDVVEMFYTLKYNSQESDATME 96
           K++K LFP+NG LPDF++ PI+ A KW KFF  E+KVRLDVVE FY  +Y+  +  AT+E
Sbjct: 25  KVKKVLFPYNGALPDFIHRPIK-AFKWSKFFSKEMKVRLDVVEKFYVPRYHLTKFYATVE 84

Query: 97  GERVPISAEEINDL 111
            E++  +A+ IN+L
Sbjct: 85  REKIYFNAKVINEL 97

The following BLAST results are available for this feature:
BLAST of PI0009410 vs.
Match NameE-valueIdentityDescription
BLAST of PI0009410 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7VMD33.3e-1651.52Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold... [more]
A0A0A0LT821.6e-1559.72Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G169970 PE=4 SV=1[more]
A0A5D3CEC71.8e-1460.26Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold... [more]
A0A5A7VFY51.3e-1252.70Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold... [more]
A0A5A7UMK22.2e-1253.33Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold... [more]
BLAST of PI0009410 vs. NCBI nr
Match NameE-valueIdentityDescription
KAA0066935.16.7e-1651.52hypothetical protein E6C27_scaffold550G00650 [Cucumis melo var. makuwa][more]
KGN64973.13.3e-1559.72hypothetical protein Csa_022771 [Cucumis sativus][more]
KAE8645907.13.7e-1456.00hypothetical protein Csa_023734, partial [Cucumis sativus][more]
KAA0065467.13.7e-1460.26hypothetical protein E6C27_scaffold17G001620 [Cucumis melo var. makuwa] >TYK0870... [more]
KAA0066658.12.6e-1252.70hypothetical protein E6C27_scaffold979G00900 [Cucumis melo var. makuwa] >TYK0410... [more]
BLAST of PI0009410 vs. NCBI nr
Match NameE-valueIdentityDescription
Relationships

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

Feature NameUnique NameType
PI0009410.1PI0009410.1mRNA