Spo17199.1 (mRNA)

Overview
NameSpo17199.1
TypemRNA
OrganismSpinacia oleracea (Spinach)
DescriptionAdenine nucleotide alpha hydrolases-like superfamily protein
LocationSpoScf_02484 : 29156 .. 41121 (-)
Sequence length1777
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTCGGCAACGAGATCGATGGGCAGCGGTAGCGAGGTCAACGGCGGCGAGGAGGTGACGGAGACGGCGGCTGAGAGAAACAAAATAAAAATGGCGGAAGAATCAGCAGAGATGAAACAAATGGGGAAGATGATAATAGCAATAGATGAGAGCGAGTGTAGTAGCTACGCGCTTAAGTGGGCGTTGCAAAATCTTGATGATAAGCTCAAATCTGGTGTTATTCTTTTTACAGCGGTTTCTATTGACTACAAGGGCGTCTTTGCTGGCGGTTATGGCTCTGTTCCTGCTGAACTACTGACATCAATCCGGGACAATCAGAACAAGCTTGCAAATTGTCTCCTAACGAAAGCCAAAGAAATCTGTGCACAACATGGGGTTGATGCTGAGACCGTTTCTGTGATGGGCAATCCGAAAGAGATGATATGTGATGCTGTGGAGAAGTTTCACTGTAATTTACTTGTTATGGGAAGTCATAGCCGGGGAGCTATACAAAGGTTTGTCTAAAATTAGAGAATTTTATCTCAAGATTAAACTGTAACTTTTACAAATTATTTTGTGTTGCACAAATTAACGTCAACTTCAAAAGATTACACATAACTTTTCTTTTTTGGCCTCTTATATACTAATTGTTCCGGGTGTGGAATGAGAACAGCTGACTGTGGGATACTGGACTCCTGTCGAGATTGCCGGTTGATATCTGCACAACAGAATGGATTAACTAGCCTCGGGGGTGGTTCGAGGATCCCCCCTCCGATGCTTAAGTAAGATTACTGAGAGATTAAGAGATGATTAAGAGATGATTAGGAGATGATTAGAGAGTAAGAAAGAAGTGTGTTTAAGTGTTTGTGTACCTCATAGCAATAAATGAGGTGCTCCTTATATAGACCAATCCAAGGGTACGATCTGGTAGGTCCCTTGTGGTTAGATAGCGACCTGTTGATAGTGACCCTTGGTTGGTTGTCTTCATGATAATGCCGGTATGGGGTCTGGCAAATAATGCCGGTTGAGGATATTTACCTAAGATGACCAGATTACCTGCAGGTTGAGTTTACATACGGGGAGTTCTGCCGGTACCAGGTGGTGCCGGTAGGACACCCCGTACAACTAGCCCCCTCAGAGTAAGCGCATATATGACAATTATTGCGCTTGCTCTGAGTTTAATGGGAAAAAATAAGTATTATTTTGATACCTGGTGGTACAACTAGCCCCCTCAGAGTGAAGCGCGGGCGCTGACTGTGTTGCGAGTGTTTCTGAGAAAAGACCGCGAACAGTTTGTCGACTGCCTTCGCTCTGAATGAGGAACTTTGTTGCTAGGTCCTTTGGAAAAAAGATTTGGACGACTAGCCCCCTTGTAAAAGGTTTGGACGACTAGACCCCTTGAAAAAAGATTTGGACGACTAGCTCCCTTGAAAAAAGTTTGGACGACTATCCCCCTTGAAAAATATTTTGACGAATAGCCCCCTTGTAAAGGGTTTGGACGACTAGCTCCTTTGAAAAGAGATTTGGACGACTAGCCCCCTTGAAAAAAGATTTGGACGACTAGCTCCCTTGAAAAAGGATTTTGACGACTAGCTCCCTTGAAAAAGGATTTTGACGACTAGCCCCCTTGTAAAAGGTTTGGACGACTAGCGCCCTTGAAAAAAGTTTTTGACGACTCGCCCCCTTGTAAAAGGTTTGGACGACTAGCCCCTTGAAAAAGGATTTGGACGACTAGCCCCCTTGAAAAAAGATTTGGACGACTAGCCCCTTTGAAAAAAGATTTTAACGACTAGCCCCC

Coding sequence (CDS)

ATGTCGGCAACGAGATCGATGGGCAGCGGTAGCGAGGTCAACGGCGGCGAGGAGGTGACGGAGACGGCGGCTGAGAGAAACAAAATAAAAATGGCGGAAGAATCAGCAGAGATGAAACAAATGGGGAAGATGATAATAGCAATAGATGAGAGCGAGTGTAGTAGCTACGCGCTTAAGTGGGCGTTGCAAAATCTTGATGATAAGCTCAAATCTGGTGTTATTCTTTTTACAGCGGTTTCTATTGACTACAAGGGCGTCTTTGCTGGCGGTTATGGCTCTGTTCCTGCTGAACTACTGACATCAATCCGGGACAATCAGAACAAGCTTGCAAATTGTCTCCTAACGAAAGCCAAAGAAATCTGTGCACAACATGGGGTTGATGCTGAGACCGTTTCTGTGATGGGCAATCCGAAAGAGATGATATGTGATGCTGTGGAGAAGTTTCACTGTAATTTACTTGTTATGGGAAGTCATAGCCGGGGAGCTATACAAAGGTTTGTCTAA

Protein sequence

MSATRSMGSGSEVNGGEEVTETAAERNKIKMAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGGYGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHCNLLVMGSHSRGAIQRFV
Relationships

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

Feature NameUnique NameType
Spo17199Spo17199gene


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

Feature NameUnique NameType
Spo17199.1Spo17199.1-proteinpolypeptide


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

Feature NameUnique NameType
Spo17199.1.CDS.4Spo17199.1.CDS.4CDS
Spo17199.1.CDS.3Spo17199.1.CDS.3CDS
Spo17199.1.CDS.2Spo17199.1.CDS.2CDS
Spo17199.1.CDS.1Spo17199.1.CDS.1CDS


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

Feature NameUnique NameType
Spo17199.1.utr3p.1Spo17199.1.utr3p.1three_prime_UTR


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

Feature NameUnique NameType
Spo17199.1.exon.4Spo17199.1.exon.4exon
Spo17199.1.exon.3Spo17199.1.exon.3exon
Spo17199.1.exon.2Spo17199.1.exon.2exon
Spo17199.1.exon.1Spo17199.1.exon.1exon


Homology
[Close]
BLAST of Spo17199.1 vs. NCBI nr
Match: gi|902222618|gb|KNA19219.1| (hypothetical protein SOVF_063620, partial [Spinacia oleracea])

HSP 1 Score: 269.6 bits (688), Expect = 3.600e-69
Identity = 134/134 (100.00%), Postives = 134/134 (100.00%), Query Frame = 1 

		  

Query: 31  MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG 90
           MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG
Sbjct: 1   MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG 60

Query: 91  YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC 150
           YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC
Sbjct: 61  YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC 120

Query: 151 NLLVMGSHSRGAIQ 165
           NLLVMGSHSRGAIQ
Sbjct: 121 NLLVMGSHSRGAIQ 134
[Close]
BLAST of Spo17199.1 vs. NCBI nr
Match: gi|731340596|ref|XP_010681486.1| (PREDICTED: universal stress protein A-like protein isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 207.6 bits (527), Expect = 1.700e-50
Identity = 97/135 (71.85%), Postives = 116/135 (85.93%), Query Frame = 1 

		  

Query: 31  MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG 90
           MAE +AE K   K+I+AIDESECSS ALKWALQNLDDKLKSG++LF+ +SIDY G FAGG
Sbjct: 1   MAEVAAETKVQSKVIVAIDESECSSSALKWALQNLDDKLKSGLLLFSVISIDYSGAFAGG 60

Query: 91  YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC 150
           YGS+PA+L+TS++DNQ K    LL KAKEICA+HGVDA+TVSVMGNPK+ ICDAV+K+HC
Sbjct: 61  YGSLPADLMTSMQDNQKKFVASLLAKAKEICAKHGVDADTVSVMGNPKDAICDAVQKYHC 120

Query: 151 NLLVMGSHSRGAIQR 166
            LLV+GSH RGA+ R
Sbjct: 121 QLLVLGSHGRGAVGR 135
[Close]
BLAST of Spo17199.1 vs. NCBI nr
Match: gi|731340594|ref|XP_010681485.1| (PREDICTED: universal stress protein A-like protein [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 191.4 bits (485), Expect = 1.200e-45
Identity = 94/135 (69.63%), Postives = 110/135 (81.48%), Query Frame = 1 

		  

Query: 31  MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG 90
           MAE +AE KQ  K+++AID SECSSYALKWALQNLDDKLKSGVILFTA+S DY GV +G 
Sbjct: 1   MAEIAAETKQQSKVMVAIDGSECSSYALKWALQNLDDKLKSGVILFTAISADYSGVCSGS 60

Query: 91  YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC 150
           Y SVP +++TSI+D Q K A  LL+KAKEIC + GVDAET+S  GNPK+ ICDAV+KFHC
Sbjct: 61  YASVPLDMVTSIQDYQKKFAASLLSKAKEICTEFGVDAETISSSGNPKDAICDAVQKFHC 120

Query: 151 NLLVMGSHSRGAIQR 166
            LLV+GS SR AI R
Sbjct: 121 QLLVIGSRSRKAIGR 135
[Close]
BLAST of Spo17199.1 vs. NCBI nr
Match: gi|698490874|ref|XP_009791886.1| (PREDICTED: universal stress protein A-like protein [Nicotiana sylvestris])

HSP 1 Score: 146.0 bits (367), Expect = 6.000e-32
Identity = 69/125 (55.20%), Postives = 94/125 (75.20%), Query Frame = 1 

		  

Query: 43  KMIIAIDESECSSYALKWALQNL-DDKLKSGVILFTAVSI-DYKGVFAGGYGSVPAELLT 102
           K+++AIDESECS YAL+W L NL +  L S ++LFT   I DY  ++A  +G    EL+T
Sbjct: 16  KVMVAIDESECSFYALEWTLNNLYNSLLNSEIVLFTGQPIADYSYIYASSFGVTSPELIT 75

Query: 103 SIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHCNLLVMGSHSR 162
           SI++NQ K+ N LL KAK++C QHG+ AET++ +G+PKE IC+A EK H NLLV+GSH++
Sbjct: 76  SIQENQRKVTNALLKKAKDVCGQHGIVAETMTQVGDPKETICEAAEKVHVNLLVLGSHNK 135

Query: 163 GAIQR 166
           GAIQR
Sbjct: 136 GAIQR 140
[Close]
BLAST of Spo17199.1 vs. NCBI nr
Match: gi|694331142|ref|XP_009356253.1| (PREDICTED: universal stress protein A-like protein [Pyrus x bretschneideri])

HSP 1 Score: 143.7 bits (361), Expect = 3.000e-31
Identity = 74/150 (49.33%), Postives = 104/150 (69.33%), Query Frame = 1 

		  

Query: 17  EEVTETAAERNKIKMAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSG-VIL 76
           + V +T  ER      EE  + ++  K+++AIDESE S YA  WAL+NL D ++S  +++
Sbjct: 18  KRVKDTERER-----MEEQGKHEEKKKVMVAIDESEFSLYAFNWALENLRDTIQSSQLVV 77

Query: 77  FTAVSIDYKGVFAGGYGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMG 136
           FTA  ID+   +A  YG+ PAEL+TS+ +N  K+A  LL  AKEICA+HG+ AETV+ +G
Sbjct: 78  FTAQPIDFASTYAASYGAAPAELVTSLLENHKKVALALLESAKEICAKHGIVAETVTEVG 137

Query: 137 NPKEMICDAVEKFHCNLLVMGSHSRGAIQR 166
           +PK +IC+AVEK +  LLV+GSH RG IQR
Sbjct: 138 DPKVVICEAVEKHNIQLLVLGSHGRGGIQR 162
[Close]
BLAST of Spo17199.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RJX5_SPIOL (Uncharacterized protein (Fragment) OS=Spinacia oleracea GN=SOVF_063620 PE=4 SV=1)

HSP 1 Score: 269.6 bits (688), Expect = 2.500e-69
Identity = 134/134 (100.00%), Postives = 134/134 (100.00%), Query Frame = 1 

		  

Query: 31  MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG 90
           MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG
Sbjct: 1   MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG 60

Query: 91  YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC 150
           YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC
Sbjct: 61  YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC 120

Query: 151 NLLVMGSHSRGAIQ 165
           NLLVMGSHSRGAIQ
Sbjct: 121 NLLVMGSHSRGAIQ 134
[Close]
BLAST of Spo17199.1 vs. UniProtKB/TrEMBL
Match: A0A0J8C3F3_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_6g141450 PE=4 SV=1)

HSP 1 Score: 207.6 bits (527), Expect = 1.200e-50
Identity = 97/135 (71.85%), Postives = 116/135 (85.93%), Query Frame = 1 

		  

Query: 31  MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG 90
           MAE +AE K   K+I+AIDESECSS ALKWALQNLDDKLKSG++LF+ +SIDY G FAGG
Sbjct: 1   MAEVAAETKVQSKVIVAIDESECSSSALKWALQNLDDKLKSGLLLFSVISIDYSGAFAGG 60

Query: 91  YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC 150
           YGS+PA+L+TS++DNQ K    LL KAKEICA+HGVDA+TVSVMGNPK+ ICDAV+K+HC
Sbjct: 61  YGSLPADLMTSMQDNQKKFVASLLAKAKEICAKHGVDADTVSVMGNPKDAICDAVQKYHC 120

Query: 151 NLLVMGSHSRGAIQR 166
            LLV+GSH RGA+ R
Sbjct: 121 QLLVLGSHGRGAVGR 135
[Close]
BLAST of Spo17199.1 vs. UniProtKB/TrEMBL
Match: A0A0J8C7T2_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_6g141440 PE=4 SV=1)

HSP 1 Score: 191.4 bits (485), Expect = 8.700e-46
Identity = 94/135 (69.63%), Postives = 110/135 (81.48%), Query Frame = 1 

		  

Query: 31  MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGG 90
           MAE +AE KQ  K+++AID SECSSYALKWALQNLDDKLKSGVILFTA+S DY GV +G 
Sbjct: 1   MAEIAAETKQQSKVMVAIDGSECSSYALKWALQNLDDKLKSGVILFTAISADYSGVCSGS 60

Query: 91  YGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHC 150
           Y SVP +++TSI+D Q K A  LL+KAKEIC + GVDAET+S  GNPK+ ICDAV+KFHC
Sbjct: 61  YASVPLDMVTSIQDYQKKFAASLLSKAKEICTEFGVDAETISSSGNPKDAICDAVQKFHC 120

Query: 151 NLLVMGSHSRGAIQR 166
            LLV+GS SR AI R
Sbjct: 121 QLLVIGSRSRKAIGR 135
[Close]
BLAST of Spo17199.1 vs. UniProtKB/TrEMBL
Match: A0A067GBC6_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g031713mg PE=4 SV=1)

HSP 1 Score: 139.0 bits (349), Expect = 5.100e-30
Identity = 69/124 (55.65%), Postives = 93/124 (75.00%), Query Frame = 1 

		  

Query: 43  KMIIAIDESECSSYALKWALQNLDDKL-KSGVILFTAVSIDYKGVFAGGYGSVPAELLTS 102
           K+++AIDESEC  YAL+WAL+NL D + KS +I+FTA   ++  V A  +G+ P +LL S
Sbjct: 5   KVMVAIDESECRHYALQWALENLGDAISKSDLIIFTARPTEFIYVQASMFGAAPPDLLMS 64

Query: 103 IRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHCNLLVMGSHSRG 162
           I++NQ K A  LL +AKEICA+HGV AET++ MG+PK +IC+A EK    LL++GSHSRG
Sbjct: 65  IQENQKKAALALLGRAKEICAKHGVVAETMTEMGDPKNVICEAAEKHKIQLLIVGSHSRG 124

Query: 163 AIQR 166
            IQR
Sbjct: 125 PIQR 128
[Close]
BLAST of Spo17199.1 vs. UniProtKB/TrEMBL
Match: A0A061E536_THECC (Adenine nucleotide alpha hydrolases-like superfamily protein OS=Theobroma cacao GN=TCM_009663 PE=4 SV=1)

HSP 1 Score: 138.7 bits (348), Expect = 6.700e-30
Identity = 68/131 (51.91%), Postives = 96/131 (73.28%), Query Frame = 1 

		  

Query: 37  EMKQMGKMIIAIDESECSSYALKWALQNLDDKLK-SGVILFTAVSI-DYKGVFAGGYGSV 96
           E K   K+++AIDESECS +AL+WAL+NL D L  S V +FTA  + ++  + A  YG+ 
Sbjct: 3   ENKMKKKVMVAIDESECSHHALQWALENLGDTLAASQVFIFTAQPLPNFAYLSASTYGAA 62

Query: 97  PAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHCNLLV 156
           P +L+T++++NQ KL   LL KAK+ICA HGVD ET++ +G+PK+ IC+AVEK    LL+
Sbjct: 63  PLDLITTVQENQKKLTLALLEKAKDICATHGVDGETMTEIGDPKDKICEAVEKLKIQLLI 122

Query: 157 MGSHSRGAIQR 166
           +GSH RGA+QR
Sbjct: 123 LGSHGRGALQR 133
[Close]
BLAST of Spo17199.1 vs. TAIR (Arabidopsis)
Match: AT1G68300.1 (Adenine nucleotide alpha hydrolases-like superfamily protein)

HSP 1 Score: 110.9 bits (276), Expect = 7.500e-25
Identity = 62/137 (45.26%), Postives = 85/137 (62.04%), Query Frame = 1 

		  

Query: 31  MAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKLK-SGVILFTAVS-IDYKGVFA 90
           MAEE  E   M ++++AIDESECS  AL+W L  L D L  S +ILFTA   +D   V+A
Sbjct: 1   MAEE--EKSVMKQVMVAIDESECSKRALQWTLVYLKDSLADSDIILFTAQPHLDLSCVYA 60

Query: 91  GGYGSVPAELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKF 150
             YG+ P EL+ S++++        L +  +ICA+ GV    V   GNPKE IC+A EK 
Sbjct: 61  SSYGAAPIELINSLQESHKNAGLNRLDEGTKICAETGVTPRKVLEFGNPKEAICEAAEKL 120

Query: 151 HCNLLVMGSHSRGAIQR 166
             ++LV+GSH +GA+QR
Sbjct: 121 GVDMLVVGSHGKGALQR 135
[Close]
BLAST of Spo17199.1 vs. TAIR (Arabidopsis)
Match: AT1G09740.1 (Adenine nucleotide alpha hydrolases-like superfamily protein)

HSP 1 Score: 82.8 bits (203), Expect = 2.200e-16
Identity = 46/133 (34.59%), Postives = 71/133 (53.38%), Query Frame = 1 

		  

Query: 44  MIIAIDESECSSYALKWALQNLDDKLKSGVILFTAVSIDYKGVFAGGY--GSVP------ 103
           +++A+D SE S  AL+WAL NL     S    F  + +      A G   G++P      
Sbjct: 10  VVVAVDGSEVSMEALRWALDNLKLSSSSSDSSFVVLHVQPSPSVAAGVSPGTIPFGGPSG 69

Query: 104 ---AELLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHCNL 163
                   +I  +Q ++ + +L  A +ICA+  V+ +T  V+G+PK  IC+AVE  H +L
Sbjct: 70  LEVPAFTAAIEQHQKRITDTILEHASQICAEKSVNVKTQVVIGDPKYKICEAVENLHADL 129

Query: 164 LVMGSHSRGAIQR 166
           LVMGS + G I+R
Sbjct: 130 LVMGSRAYGRIKR 142
[Close]
BLAST of Spo17199.1 vs. TAIR (Arabidopsis)
Match: AT3G11930.3 (Adenine nucleotide alpha hydrolases-like superfamily protein)

HSP 1 Score: 81.3 bits (199), Expect = 6.400e-16
Identity = 51/171 (29.82%), Postives = 85/171 (49.71%), Query Frame = 1 

		  

Query: 11  SEVNGGEEVTETAAERNKIKMAEESAEMKQMGKMIIAIDESECSSYALKWALQNLDDKL- 70
           +E      +  +A E+      E  A      +M++AIDES+ S YAL+W + +  + L 
Sbjct: 2   AEEQAATAMETSAVEKQPETTTEAEAPSLTTKRMVVAIDESDSSFYALQWVIDHFSNLLL 61

Query: 71  -------KSGVILFTAVSIDYK--GVFAGGYGSVPA-----ELLTSIRDNQNKLANCLLT 130
                  +SG++    V   +     F  G G   A      ++ S++  Q + +  LL+
Sbjct: 62  TTAAAEAESGMLTVIHVQSPFNHFAAFPAGPGGATAVYASSSMIESVKKAQQETSAALLS 121

Query: 131 KAKEICAQHGVDAETVSVMGNPKEMICDAVEKFHCNLLVMGSHSRGAIQRF 167
           +A ++C    +  ET+ + G  KEMIC+AVEK H +LLV+GS   G I+R+
Sbjct: 122 RALQMCRAKQIRTETLVLEGEAKEMICEAVEKMHVDLLVVGSRGLGKIKRY 172
[Close]
BLAST of Spo17199.1 vs. TAIR (Arabidopsis)
Match: AT3G58450.1 (Adenine nucleotide alpha hydrolases-like superfamily protein)

HSP 1 Score: 74.3 bits (181), Expect = 7.800e-14
Identity = 55/169 (32.54%), Postives = 81/169 (47.93%), Query Frame = 1 

		  

Query: 10  GSEVNGGEEVTETAAERNKIKMAEESAEMKQMGKMIIAIDESECSSYALKWALQNL---- 69
           G +        ETAA +NK K+           K+++AIDES+ S  AL+WA+ +L    
Sbjct: 9   GEDTAATTTTAETAANKNKKKL-----------KVMVAIDESKNSFDALEWAVDHLRVVI 68

Query: 70  ----DDKLKSGVILFTAVSIDYKGVFAGGYGSVPAELLTS-----IRDNQNKLANCLLTK 129
               +   + G++    V   Y        G+  A   T      +R  + +    L T+
Sbjct: 69  SAEPETGQEGGLLTLLHVHPTYLQYIYPSGGTASAVYATDSVPEPMRKAREESTTNLFTR 128

Query: 130 AKEICAQHGVDAETVSVMGNPKEMICDAVEKFHCNLLVMGSHSRGAIQR 166
           A EIC    V  ET+ + G+PKEMIC AVE+ H +LLV+GS   G I+R
Sbjct: 129 ALEICRGKMVKTETMILEGDPKEMICQAVEQTHVDLLVVGSRGLGMIKR 166
[Close]
BLAST of Spo17199.1 vs. TAIR (Arabidopsis)
Match: AT2G47710.1 (Adenine nucleotide alpha hydrolases-like superfamily protein)

HSP 1 Score: 64.7 bits (156), Expect = 6.200e-11
Identity = 38/131 (29.01%), Postives = 67/131 (51.15%), Query Frame = 1 

		  

Query: 44  MIIAIDESECSSYALKWALQNL------DDKLKSGVILFTAVSIDYKGVFAGGYGSVPAE 103
           M++ +D+SE S+YAL+W L         +   K  ++     ++   G+   G     AE
Sbjct: 10  MVVGVDDSEQSTYALEWTLDRFFAPYAPNYPFKLFIVHAKPNAVSAVGLAGPG----TAE 69

Query: 104 LLTSIRDNQNKLANCLLTKAKEICAQHGVDAETVSVM-GNPKEMICDAVEKFHCNLLVMG 163
           ++  +  +    A  ++ KAK IC    V    + V  G+ + ++C+ V+K H ++LV+G
Sbjct: 70  VVPYVDADLKHTAAKVVEKAKAICQSRSVHGAVIEVFEGDARNILCEVVDKHHASILVVG 129

Query: 164 SHSRGAIQRFV 168
           SH  GAI+R V
Sbjct: 130 SHGYGAIKRAV 136
The following BLAST results are available for this feature:
BLAST of Spo17199.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902222618|gb|KNA19219.1|3.6e-69100.hypothetical protein SOVF_0636... [more]
gi|731340596|ref|XP_010681486.1|1.7e-5071.8PREDICTED: universal stress pr... [more]
gi|731340594|ref|XP_010681485.1|1.2e-4569.6PREDICTED: universal stress pr... [more]
gi|698490874|ref|XP_009791886.1|6.0e-3255.2PREDICTED: universal stress pr... [more]
gi|694331142|ref|XP_009356253.1|3.0e-3149.3PREDICTED: universal stress pr... [more]
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BLAST of Spo17199.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9RJX5_SPIOL2.5e-69100.Uncharacterized protein (Fragm... [more]
A0A0J8C3F3_BETVU1.2e-5071.8Uncharacterized protein OS=Bet... [more]
A0A0J8C7T2_BETVU8.7e-4669.6Uncharacterized protein OS=Bet... [more]
A0A067GBC6_CITSI5.1e-3055.6Uncharacterized protein OS=Cit... [more]
A0A061E536_THECC6.7e-3051.9Adenine nucleotide alpha hydro... [more]
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BLAST of Spo17199.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo17199.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5
Match NameE-valueIdentityDescription
AT1G68300.17.5e-2545.2Adenine nucleotide alpha hydro... [more]
AT1G09740.12.2e-1634.5Adenine nucleotide alpha hydro... [more]
AT3G11930.36.4e-1629.8Adenine nucleotide alpha hydro... [more]
AT3G58450.17.8e-1432.5Adenine nucleotide alpha hydro... [more]
AT2G47710.16.2e-1129.0Adenine nucleotide alpha hydro... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR006016UspAPFAMPF00582Uspcoord: 43..166
score: 2.8
IPR014729Rossmann-like alpha/beta/alpha sandwich foldGENE3D3.40.50.620coord: 38..167
score: 5.8
NoneNo IPR availablePANTHERPTHR31964FAMILY NOT NAMEDcoord: 26..166
score: 1.2
NoneNo IPR availablePANTHERPTHR31964:SF6ADENINE NUCLEOTIDE ALPHA HYDROLASES-LIKE SUPERFAMILY PROTEINcoord: 26..166
score: 1.2
NoneNo IPR availableunknownSSF52402Adenine nucleotide alpha hydrolases-likecoord: 41..167
score: 7.87

GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006950 response to stress