Sequences
The following sequences are available for this feature:
Gene sequence (with intron)
Legend: exon five_prime_UTR polypeptide CDS three_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
CTTGCATGGCCACCACAACTTCATTCCCACTCTTTCAACCTCAAGTCAGTTTCTCTGGTTCTTCTCCCTCAATTCAACTCAAAATATCTCCCCCTATCCAAAAATTAAAAATTAAAAATTAAAAATTAAAAATTAAAAATTAAAAATTAAAATAAAAATAAAACTTCACCTTGAAAATTCCAAGCTTTTTTTATCA ATGGCGAATTCCCTGCTTCTCGACCCGTCAGCATTAACCACCACTAAACATCCTAGTTTTCTCTCTCCTCAATCCACCCCTCTTTTGCGCCCTTATCCAATTCGATTAACCTCCTTAACCACATTTTCCTCCCCTTTTATAAACCCTAAATCTTCCCAAAAACCCTTCAAATTATCCCCAAAATGCAACGCCAAAACCCCGAATTCTTCCGATTCCGAACTGGGTATCAAAGAGAAGACCCTGAGTTCAATTGGGTTTATTTTAGATAAGATTTCCGAGGCCTTAAATGTCCTTAAGAAGCCGGCGGTTGCGGCTTTGTTGGTGGGTGTTTTGTTGATGTATGACCCGAATTCTGCTTTTGCGGCGTCTGGGGGGAGAATGGGAGGGCGGTCATTTGCTCCGAGATCGTCGATGTCGTCTGGTTCTCGGAGCTACTCTGTTCAGCCCTCGAGCCCGGGGCTTTCACGTTCGGTGCCGTATTTCGCTCCTTCCCCGTTTGGGGGTGCTGGGATTTATGTTGGACCGGCTTTTGGAATTGGAGCTGGCTCGAGTTTGTTTTTGATTATGATGGGTTTTGCTGCGTTTATTTTGGTTTCTGGTTTCCTTTCTGATCGGGATGATGGTGGGTTGTTGACGGCTACTGAGAGAACTAGTGTGATCAAACTTCAG GTAATGTGCCAATAGTTGGATGTATGGTTGCTCATTTCCCTTTTTTCATTTGGTAATCATAAAGTTAGGCAACAATATAGTAGGATGTTAACTTATTACTCTATTCGTGCCACTTCAAGGCCACATCTGACTATAAGTTTTTCTTCAGAAATCGGTTTGAAATAACGTAATTTCCCATATAATTGTTGAAAACAAACATCTTGTTATGCGTGGCAGATCACAATTGGTGTATGACTACCTTAAATGTTTTATTGCTTTTTCATTTTTCTTTCAAAAAAATGGTTGTATGTGGTTGTTAACTTTTTCTTGAAACAACCTCTGAGACGTTTAGGTTGGCTAGGGGCGAAATCTTAAGGCTATGAGCATCTGTTATGATAAAAGGATACTCATCTGAGTCATCTCTCATCTATAGGCTTAACATGGGTTTGTGTATGTTTGACCAAGTGTAACCAATCCCAACAGGACAACACCCCCCTCCCACGCTCCCTGATGCATGCTATGGGACATATTTTTGGAACATAACATGGTAGCATGGACGTGTAGTACACTAGTTGTATGAGCTAGTTTTAAAAAAATACGTGTTGGTTATGCTTCCATGTCCATTCAATGCTCCTGTTAAAAATGGTCTGACCATTTGTTAAGGTGTTTAACCATGTTTCTAAGTATTGTAACAGACGAACAGGGCCCTTCTTGCATGTGTTTTTAATTGTTTGTAGACTGGCTTGACTAGTTGTTGAAGTATTGAACCATGTGTCTAAGCCTTATGTAGTATTGTAATAGAGCCCTTCTTGCATGTGTAATTTTCATTTTCTAGTCCTAGTTATGGTTGTTGCTTTTTAATCGAAAGTTCTGGTGCATTATAGGTCGGACTTTTGGGCATGGCACGGTCACTTCAAAGTGATCTCAATCAGATTGCTGAAACTGCTGATACATCAACCCCAGAGGGTCTAAATTATGTTTTAACTG GTGGGTCTTTCTTTCTAGTGTCTTTTTACATTAATTTGTGTCTCCTCAAAGTACTATGTCAATTTCTGTTCTTTCATTTTATTGGAGGGCATGAATAGCTATGTGCCATGTGACTTCTTATTACTGTTGTATTAAAATGCTATATCTAGTATTTTGTCTCCCGAAATGAGTCCAGGGAATGAAGTTAGCAGTGGGTAATCTCTAATTTATGGATATTGCTTGAGGCCATGATGTTTCCAGACTTTCTGGATTGGTTTTATATTCTCCTGTCACTTTCATGGCGATATTGATACATTGTATTGGCATTTTGGAGGATAATATCAGTGTAATTTTTTGTTGGTTTTGGCTTGATTAGCATAGGAATGTTGTTAAGGGTGACTTCTATAAGTCAGATTCTGACTGTTGGTAAAGAAGGTACTTGTTATTGCAACTAGCAATTGCTGGCTTTAGGAGAAGCAGGTCATGATAGGTTTAAACTAAGAATTGGTGGTTTAGTGTAATGGTTGGAGACTATCATAAAATAATCATGGGATATTTCCAAACAATAATTAACTTTTTGTAGTTAAGAGTTACTAATCTAGGTTGTGAATAGTTGCTGCTTTCTTTCAGGCCTGGTGGTATTATATAATCACTACTTTTAAGCCTTATAGAAGTTATTACTTATATGAAGTATTTGATCATTATGATCTCTTGTGTGGGTGAGTGAGTGATTGAGTGTGCGCTAAAGAAGGAAGGGGTTCACTTTTGTTTAAAGTTCTTAATCCTTCTTATTCTTCTTTATTGATTTTGTATTACTGATGCAAAATTTGTTCCATTTTAATCTTCCAGAATCGATGCTGGCTTTGCTTCGGCACCCTGATTATTGCATATCAGCCTATTCATCT GTGAGTTGAAAATATCTCTTACCATTTCACTAGCAACAATTTCTGTTAGAGAAATTAAAGCTTCTATCATTATTGTAGCTGTATTGAGTGGAACCTTTTAAGATATAGTTGTGTAAATCTTAATTGCTGCGATGATTTGACATCATTTTCAGGAAGAATCTTATATGATTGTTCTCATTCTTGAAGCTGTGACATATATGTTTTTTCCTATGTGCATTTTTTTGGAGATAGATTTTTATGTATATTATTCAATTTTTGAATTTATTATAACGAGGGAGCCCCATGTTGGTTGATACTTGATTCAAAACGGAACATGAGAGTCCCACCTCCCAATTCTCCCCTAACGAAAAGTAACATGAGAGTGCTAAGCTAGTAGACCTGATAAGTATACAGTTGAAAAACATCCATGTGTACCGGTTTTTCTGAGATAGTATTTTAGATATGAGGAATAGTTACTTTCTTGAACATGCCACAGTTGGGGTTGTTAAGGACTTAAGGTATTACACCATCAACCCCCTTCCCCTTTAGCATGATGATGAGGTAACAAGGTTGTGCGTGACCTAGATAACCAACGCTTACTGGGAGGCAACTCGTACTTTATGGCTTTTTAGTGTCAATATTTATTGCTTTACTTTAATTTTTACTTAGAGAGGTGAGGAGAGCATATTTTACCACTGCCAACACTACAGCTTTTCCAGCTTCAGCAAAGTGATTTTTTGTTTCTGACTGATTTTCCGGATGTAGTGCCATAACTGTGATCCACTTATTATTTTGTTTTGACAATTAAGGGGGTACAACTTCCCGTGTCCCCAAGTCCATAACCAAAATTTGGATACACAGTACTTCTGAAACTTGTCACCGGGTCCTTGATTTTAGAATTTTCCGTGTCCGACTCTCGGATCCATACATGAGTCAGATACTTGTGTCCAAGTTCCAACATTGTATTATTTTCAATGTTCACCAAAAGTTATGATGATTTAATCAAATAGAGATTCATTAGGACTGTTAACATGCCAACTTATATGCAATTAGAAAACTCTCCAGAGCAGGAAGAAAATCAGAATCAAAGCTCTTTAAATGTGTTCCATAGTATGAATTAGCACTTCGGTAATGGCTCTTGGAATCAAGATATGTTCTTATTTTAACCTAATGCCTTCCAGACCTTTGAACAGTGATCGTGCTTGCTGCCAGTCCATACCCCCTACCATCAACCCTGAATAAGTGGGTAGTCAATGGATGCTAACACCTAGAGTTGTTGGATAAAATATGTCATCCATTTTGACACGCATTGGATAACATTATGTCTTTCCCTTTAATGTTAGAGCCCTGTGTGTGGTAATTTATCTTTTTTGCCAAGGAAGGATAAAATTAAAAACAAAGATATTAGATTTAGCCACCTACCCACTGCTAATTAGTAATTATCGATATGTTTTTCTATTTAATGTTGAGATAGTAATTTGTAGTACTTGGTTTTGCTTTAGCACCATGTTTCGTGACCTCATCAGTTGATGTTACTTTGAGCTTTTTTGTCTGTTAGTTGTGTTGTTCCAAGTTTTAAAGCTCTTTATTAACTGTTATCTTGCAGTCCAATTGATATGTTCGTTTTGACAATCATCAGGTCGACATCAAAAAGAGTATAGAGGAGGGAGAAAAGAGGTTCAATCAACTTTCAATCGAGGAACGAGGGAAATTTGATGAAGAAACTCTTGTTAATGTGAATAACATAAAGAGACAGAGCAATAAAAGCTCAAGAGCCACTGGATATAGCAACGAGTACATAGTG GTAATCATGAGTTAAACCTCTTATAAATCATTTAATAATTGCTTGCTCATCTAATTTTGAGCAACACTTCCCCTTTGCCTAATTTCACTATTCTGCCTTGTTCGCATCTCTATTAATTGCTTTTCCCTGTGTCCGGGGGTGTTATACGAAAGGGGTTAACATTTTCTCTGCGTGGCATTAGGGTCTTGCAGACGAGTAGTTGCAGTACTGTCTACGGAAGTTCTAGGATATCACCCACCCTTGACCTCACATAGGCTTTGGCTTTGTTTGGAAATTGGCTTGTGCCCAGCTTTTTGTTTGGTTATTGATGTAAGCAAACAGTTGAAAAATATGTTTGGTAAATGGCTTTTCAACTAGCCAAAATTGAAAAGCTTTCGGAGTAGATTTTTGGCTACCTTTCCTAGCTTAAAATGAAAAAGTCGGTCATTATTAGTTATTAACAGCTAGCAGCAACAACTGATTCGAGCATCGAGTAGGCCATCCAAACAAGCCAAGTGAACTATCCAACATGGTCTTCGGCTGTTTGTATTAGTTGTTGAAGTTTGTTAAGATGTTTGATAAAATAAGTTGTGAGGTGGTGGTTGTTAATGTAAAAATGAATACTTTTTAGGCAAAAAGATCATTCAAGTTATACGAAAGCTGAAAAAACCATTTACCAAACATATTTTTTCGATTGTTTGACCACATTAATTTGCCTAATTCAACCGAAATGCTTACTAGAAGCCATATTCCAAACAAGCACGTAGATTATGGGCCTCTCTTTTAGACAATATTTTGGGTGGTTGGGGTGGGTTGAGGGGTATTTAATGGTCAAAGGAGGTTCTTTATATTGTCTGTGGTGTGTGTGTGTGTGTTGGGGGGGGGGGGGGGGGGGGGGGGGGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGGGGGGGGGGGGGGGGAGGGGGTGCTTTATTGGTGTGAGGAGGTCTGATCATCCACAGACTATATCAAGAACATGGAATTGTTGATGAATGAGGCATAAATTTGGGTTTCTGAAGGCCAATTATACGATCTTTTCGTATATAAAAAGATTTCATATAATTGCTCATTGTGAATGTTACAACAAATTTGATTGGGTAGTCTAACGGCCGGAAAGAGATTAATTAGGTTGTTAGCAATTTGGCGTGATGGAACATATCCTAAAAGGTCTTATTCTGATTCATTAGTAAAAAGCCAGATGTCTATGCTGTAGGCGAGTTTAGCTATTAGCTGTTAGTGTCAGCAGGTCTTCTCCCAGTGCTACTAGTCTACTACGTATAAGTTAAATAAGAGGTTTTATTTAGGAATTCTTTTTCTTGATGTACTAAGATGTGCATGAATATTTTGTTGTTTTTAAGCCAATGCAATTGCATTCCTTTAAGTATTGTGCTTGGACTCTTTTCTATAAGGCACATTCCTTTGCTTCTGATGCTAATTTTTGCCAGCTTGGAGCATTTCAGCTGTTTGACATTCTTGTTCAGCATGGCTGTTAGTTTCTGCATTGTTTCCATTTGCCAAATGAAATTGTTTCCACTTAGGCGGTGTTCTTTTCACTTGAGTTTCACTTATCTGATGGAAATTATTTATAGCCCCGAACTTATATTATCTCAAATTCTCAACTTATCTGAACTTGCTTAGTCCCCTAGACCTGAACTTGTTAAATCGGAAATAAGTGAAAATAAGGTGGGGGAAAATAGAGCCCTGAATTTATCGTAACTTATTTATCTAAACATGCCCCTGTACTTATCTTTTCAACCCTGAACTTATATTATCTGAACATAGATTTTATTAGCATGAACGTATCTGAACTGAAATAAGTGAAATTAAGGCGAGGAGAGCAGAACCTTAGTCACCCTTCCCCAGCCCAAATAGGAAAGGCACTTGCTGGGGACTACTGAAGCTACAATTTGAATTACTGTTGTACTCTATTTTCGTCCTTGTGATGGCGATGTTTATATTTGTTCAGATTACCATTTTGGTGGCTGCTGAAGGACTACATAAACTGCCTACCATTAACGGGAGCATGGATTTGAAAGAAGCGATGCAAAAACTTGGGTCAATTCCTTCAAGTAAAACTATG GTAAGAAGTTGTACTTGGATTTCCTTCATTTCTTTTATTTCTGTTGACAAGTAAAGAACTCGCCAAAACAGAAAGTAAAAGCAAGAGTAAGACCACAGGGAAAACAAAATAAGGCCAATTTGATTTATCCTCAGCATGTCTTTATATATTTGCAGGCAGTGGAGGTGCTTTGGACTCCTCAGAATGAAAATGATACATTGTCAGAGAGAGAACTACTTGAAGACTACCCCCTTTTGAAGCCTCTATGA GTACAATCTTTTTTGCTTTTACCTGTATATACCAGGACTATAAAGCTAAACTGATAGGATTTCTTATACCGAGTGTTGAATGGTTTTTTTTTTTTTTGGAACTGTTTCTCTTTTCATAACAGGTTATATAACCATAAGCATTTGTAATTAATACATAATCTTTTTCAGCTCAGGAACTCTTATACAAACATAATAACAGATGATGGTTTATTACAGATTTCTTGTTGAGAAGTTTAAAACAAATGGAGTGTTGTTACCATAAGGTTATTAGCCGGAAACTCCGATATGAATTGTGTTTTGGAGGGAACAGCAGACAGATGGGATTACACCGTTGCCTTGGTTGAAAAGGCGATGAGAGATTAGAACATACAGTTATAGTGGTGTAACCAGAATTTTACCTATAGAGTTGGAAGGGGTTTATCTGGTTTTCAAAATCGTTTTTTAGGTTTGAATGGTTGGTCTTCAAAGTACATTCCTTTCAATCATTTACAAGTAATTTCTCACTTTAGATATTATTGTTGATGGTATCATTGGTAATTTGTAGAGGTGGTAAATGGACTGTTTGGGCCGGTTATATATTTAACGGATATTTCATGAAATACCCCCGAGTTTTAGCGTAATTCACCAAACGCCCATCAAGTTTCAGAAATACGTAAAATACCCCTCACAAATGACTTAATACCCCAAATATCCCTTAATGACGTCATCAACCTTAATTAATCCGATTAACACCTAATGAACCGACTAACTCCTAATTAACCCCCTAATCGACCCACCCATTAACCCCTAATCAACCCACCCATTAATCCACCCATTTTTCCTTCCTCTTCTTCTCTCTTCCTTTCCTCCTCACCCCTTCTCTTCCTCATCACCACCACACACCGCCACCGCCACACCCCTTCTCTTCCTCACCACCCCACACACCGCCACAGCCACCTACAGAAAACCCCAAATTGAAATTTTAATTAATTACCAATTACATATTAAATTGAATTGAATTGCTAGTTCATCAATTTAGGGAAAATGGAAAGCAAGGGGCTGAGTAAAAATCGAATTTGCCTCTGATTTTTCGAAGCAAATCGTTGGGTGTTGGAGCATTCTTTGATGCCGCTTCTTCGAATTTCTGTTTGAATC mRNA sequence
CTTGCATGGCCACCACAACTTCATTCCCACTCTTTCAACCTCAAGTCAGTTTCTCTGGTTCTTCTCCCTCAATTCAACTCAAAATATCTCCCCCTATCCAAAAATTAAAAATTAAAAATTAAAAATTAAAAATTAAAAATTAAAAATTAAAATAAAAATAAAACTTCACCTTGAAAATTCCAAGCTTTTTTTATCAATGGCGAATTCCCTGCTTCTCGACCCGTCAGCATTAACCACCACTAAACATCCTAGTTTTCTCTCTCCTCAATCCACCCCTCTTTTGCGCCCTTATCCAATTCGATTAACCTCCTTAACCACATTTTCCTCCCCTTTTATAAACCCTAAATCTTCCCAAAAACCCTTCAAATTATCCCCAAAATGCAACGCCAAAACCCCGAATTCTTCCGATTCCGAACTGGGTATCAAAGAGAAGACCCTGAGTTCAATTGGGTTTATTTTAGATAAGATTTCCGAGGCCTTAAATGTCCTTAAGAAGCCGGCGGTTGCGGCTTTGTTGGTGGGTGTTTTGTTGATGTATGACCCGAATTCTGCTTTTGCGGCGTCTGGGGGGAGAATGGGAGGGCGGTCATTTGCTCCGAGATCGTCGATGTCGTCTGGTTCTCGGAGCTACTCTGTTCAGCCCTCGAGCCCGGGGCTTTCACGTTCGGTGCCGTATTTCGCTCCTTCCCCGTTTGGGGGTGCTGGGATTTATGTTGGACCGGCTTTTGGAATTGGAGCTGGCTCGAGTTTGTTTTTGATTATGATGGGTTTTGCTGCGTTTATTTTGGTTTCTGGTTTCCTTTCTGATCGGGATGATGGTGGGTTGTTGACGGCTACTGAGAGAACTAGTGTGATCAAACTTCAGGTCGGACTTTTGGGCATGGCACGGTCACTTCAAAGTGATCTCAATCAGATTGCTGAAACTGCTGATACATCAACCCCAGAGGGTCTAAATTATGTTTTAACTGAATCGATGCTGGCTTTGCTTCGGCACCCTGATTATTGCATATCAGCCTATTCATCTGTCGACATCAAAAAGAGTATAGAGGAGGGAGAAAAGAGGTTCAATCAACTTTCAATCGAGGAACGAGGGAAATTTGATGAAGAAACTCTTGTTAATGTGAATAACATAAAGAGACAGAGCAATAAAAGCTCAAGAGCCACTGGATATAGCAACGAGTACATAGTGATTACCATTTTGGTGGCTGCTGAAGGACTACATAAACTGCCTACCATTAACGGGAGCATGGATTTGAAAGAAGCGATGCAAAAACTTGGGTCAATTCCTTCAAGTAAAACTATGGCAGTGGAGGTGCTTTGGACTCCTCAGAATGAAAATGATACATTGTCAGAGAGAGAACTACTTGAAGACTACCCCCTTTTGAAGCCTCTATGAGTACAATCTTTTTTGCTTTTACCTGTATATACCAGGACTATAAAGCTAAACTGATAGGATTTCTTATACCGAGTGTTGAATGGTTTTTTTTTTTTTTGGAACTGTTTCTCTTTTCATAACAGGTTATATAACCATAAGCATTTGTAATTAATACATAATCTTTTTCAGCTCAGGAACTCTTATACAAACATAATAACAGATGATGGTTTATTACAGATTTCTTGTTGAGAAGTTTAAAACAAATGGAGTGTTGTTACCATAAGGTTATTAGCCGGAAACTCCGATATGAATTGTGTTTTGGAGGGAACAGCAGACAGATGGGATTACACCGTTGCCTTGGTTGAAAAGGCGATGAGAGATTAGAACATACAGTTATAGTGGTGTAACCAGAATTTTACCTATAGAGTTGGAAGGGGTTTATCTGGTTTTCAAAATCGTTTTTTAGGTTTGAATGGTTGGTCTTCAAAGTACATTCCTTTCAATCATTTACAAGTAATTTCTCACTTTAGATATTATTGTTGATGGTATCATTGGTAATTTGTAGAGGTGGTAAATGGACTGTTTGGGCCGGTTATATATTTAACGGATATTTCATGAAATACCCCCGAGTTTTAGCGTAATTCACCAAACGCCCATCAAGTTTCAGAAATACGTAAAATACCCCTCACAAATGACTTAATACCCCAAATATCCCTTAATGACGTCATCAACCTTAATTAATCCGATTAACACCTAATGAACCGACTAACTCCTAATTAACCCCCTAATCGACCCACCCATTAACCCCTAATCAACCCACCCATTAATCCACCCATTTTTCCTTCCTCTTCTTCTCTCTTCCTTTCCTCCTCACCCCTTCTCTTCCTCATCACCACCACACACCGCCACCGCCACACCCCTTCTCTTCCTCACCACCCCACACACCGCCACAGCCACCTACAGAAAACCCCAAATTGAAATTTTAATTAATTACCAATTACATATTAAATTGAATTGAATTGCTAGTTCATCAATTTAGGGAAAATGGAAAGCAAGGGGCTGAGTAAAAATCGAATTTGCCTCTGATTTTTCGAAGCAAATCGTTGGGTGTTGGAGCATTCTTTGATGCCGCTTCTTCGAATTTCTGTTTGAATC Coding sequence (CDS)
ATGGCGAATTCCCTGCTTCTCGACCCGTCAGCATTAACCACCACTAAACATCCTAGTTTTCTCTCTCCTCAATCCACCCCTCTTTTGCGCCCTTATCCAATTCGATTAACCTCCTTAACCACATTTTCCTCCCCTTTTATAAACCCTAAATCTTCCCAAAAACCCTTCAAATTATCCCCAAAATGCAACGCCAAAACCCCGAATTCTTCCGATTCCGAACTGGGTATCAAAGAGAAGACCCTGAGTTCAATTGGGTTTATTTTAGATAAGATTTCCGAGGCCTTAAATGTCCTTAAGAAGCCGGCGGTTGCGGCTTTGTTGGTGGGTGTTTTGTTGATGTATGACCCGAATTCTGCTTTTGCGGCGTCTGGGGGGAGAATGGGAGGGCGGTCATTTGCTCCGAGATCGTCGATGTCGTCTGGTTCTCGGAGCTACTCTGTTCAGCCCTCGAGCCCGGGGCTTTCACGTTCGGTGCCGTATTTCGCTCCTTCCCCGTTTGGGGGTGCTGGGATTTATGTTGGACCGGCTTTTGGAATTGGAGCTGGCTCGAGTTTGTTTTTGATTATGATGGGTTTTGCTGCGTTTATTTTGGTTTCTGGTTTCCTTTCTGATCGGGATGATGGTGGGTTGTTGACGGCTACTGAGAGAACTAGTGTGATCAAACTTCAGGTCGGACTTTTGGGCATGGCACGGTCACTTCAAAGTGATCTCAATCAGATTGCTGAAACTGCTGATACATCAACCCCAGAGGGTCTAAATTATGTTTTAACTGAATCGATGCTGGCTTTGCTTCGGCACCCTGATTATTGCATATCAGCCTATTCATCTGTCGACATCAAAAAGAGTATAGAGGAGGGAGAAAAGAGGTTCAATCAACTTTCAATCGAGGAACGAGGGAAATTTGATGAAGAAACTCTTGTTAATGTGAATAACATAAAGAGACAGAGCAATAAAAGCTCAAGAGCCACTGGATATAGCAACGAGTACATAGTGATTACCATTTTGGTGGCTGCTGAAGGACTACATAAACTGCCTACCATTAACGGGAGCATGGATTTGAAAGAAGCGATGCAAAAACTTGGGTCAATTCCTTCAAGTAAAACTATGGCAGTGGAGGTGCTTTGGACTCCTCAGAATGAAAATGATACATTGTCAGAGAGAGAACTACTTGAAGACTACCCCCTTTTGAAGCCTCTATGA Protein sequence
MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSPKCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAFAASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIGAGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQIAETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGKFDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL
Relationships
This mRNA is a part of the following gene feature(s):
Feature Name Unique Name Type
Spo23531 Spo23531 gene
The following polypeptide feature(s) derives from this mRNA:
Feature Name Unique Name Type
Spo23531.1 Spo23531.1-protein polypeptide
The following exon feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo23531.1.exon.1 Spo23531.1.exon.1 exon
Spo23531.1.exon.2 Spo23531.1.exon.2 exon
Spo23531.1.exon.3 Spo23531.1.exon.3 exon
Spo23531.1.exon.4 Spo23531.1.exon.4 exon
Spo23531.1.exon.5 Spo23531.1.exon.5 exon
Spo23531.1.exon.6 Spo23531.1.exon.6 exon
The following five_prime_UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo23531.1.utr5p.1 Spo23531.1.utr5p.1 five_prime_UTR
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo23531.1.CDS.1 Spo23531.1.CDS.1 CDS
Spo23531.1.CDS.2 Spo23531.1.CDS.2 CDS
Spo23531.1.CDS.3 Spo23531.1.CDS.3 CDS
Spo23531.1.CDS.4 Spo23531.1.CDS.4 CDS
Spo23531.1.CDS.5 Spo23531.1.CDS.5 CDS
Spo23531.1.CDS.6 Spo23531.1.CDS.6 CDS
The following three_prime_UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo23531.1.utr3p.1 Spo23531.1.utr3p.1 three_prime_UTR
Homology
BLAST of Spo23531.1 vs. NCBI nr
Match:
gi|902198270|gb|KNA13628.1| (hypothetical protein SOVF_114950 [Spinacia oleracea])
HSP 1 Score: 751.1 bits (1938), Expect = 9.700e-214
Identity = 399/399 (100.00%), Postives = 399/399 (100.00%), Query Frame = 1
Query: 1 MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSP 60 MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSP Sbjct: 1 MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSP 60 Query: 61 KCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAF 120 KCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAF Sbjct: 61 KCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAF 120 Query: 121 AASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIG 180 AASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIG Sbjct: 121 AASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIG 180 Query: 181 AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQI 240 AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQI Sbjct: 181 AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQI 240 Query: 241 AETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGK 300 AETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGK Sbjct: 241 AETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGK 300 Query: 301 FDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKL 360 FDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKL Sbjct: 301 FDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKL 360 Query: 361 GSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 GSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL Sbjct: 361 GSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 399
BLAST of Spo23531.1 vs. NCBI nr
Match:
gi|731328120|ref|XP_010674876.1| (PREDICTED: uncharacterized protein LOC104890957 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 630.9 bits (1626), Expect = 1.500e-177
Identity = 339/402 (84.33%), Postives = 366/402 (91.04%), Query Frame = 1
Query: 1 MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSP 60 MANSLLL+PSA TT FLSPQSTPLLRPYPIRL+SLT F S FINP S KPFK +P Sbjct: 1 MANSLLLEPSAFTT----KFLSPQSTPLLRPYPIRLSSLTHFPSSFINPNFSSKPFKFTP 60 Query: 61 KCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAF 120 KC+AK NSS+S+LGIKEKT SIGF+LD IS A LKKPA+ ALLVGVL+MYDPNSAF Sbjct: 61 KCDAKNSNSSNSQLGIKEKTQISIGFVLDAISSAFKALKKPAIVALLVGVLIMYDPNSAF 120 Query: 121 AASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAG-IYVGPAFGI 180 AASGGRMGGRSFAPRSS SSGSRSYSV+PS+P + S PY+APSPFGG G +VGPAFG+ Sbjct: 121 AASGGRMGGRSFAPRSSTSSGSRSYSVRPSNPMMPYSAPYYAPSPFGGGGGFFVGPAFGV 180 Query: 181 G--AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDL 240 G AGSSLFLIMMGFAAFILVSGFLSD+ +GG+LTATE+TSVIKLQVGLLGMARSLQSDL Sbjct: 181 GVGAGSSLFLIMMGFAAFILVSGFLSDQSEGGVLTATEKTSVIKLQVGLLGMARSLQSDL 240 Query: 241 NQIAETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEE 300 N+IAETADTSTPEGLNYVLTE++LALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEE Sbjct: 241 NRIAETADTSTPEGLNYVLTETILALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEE 300 Query: 301 RGKFDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAM 360 RGKFDEETLVNVN+IKRQS +SSRATGYSNEYIVITILVAAEG++KLPTINGSMDLKEA+ Sbjct: 301 RGKFDEETLVNVNSIKRQSTRSSRATGYSNEYIVITILVAAEGVNKLPTINGSMDLKEAL 360 Query: 361 QKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 QKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYP LKPL Sbjct: 361 QKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPFLKPL 398
BLAST of Spo23531.1 vs. NCBI nr
Match:
gi|703076158|ref|XP_010090270.1| (hypothetical protein L484_006177 [Morus notabilis])
HSP 1 Score: 473.8 bits (1218), Expect = 3.000e-130
Identity = 272/402 (67.66%), Postives = 314/402 (78.11%), Query Frame = 1
Query: 4 SLLLDPSALTTTKHPSFLSPQSTPLL-RPYPIRLTSLTTFSSPFINP-KSSQKPFKLSPK 63 SLLL+ + T+ SF P S P L RP + SS F K KLS K Sbjct: 5 SLLLEANPSKWTQ--SFPIPLSAPPLPRPRSYNHDLARSSSSRFTGIIKLRHGSSKLSVK 64 Query: 64 C--NAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSA 123 C AK S DSE +E + + I +AL LKKPA+A +L+G+LLMYDPN+A Sbjct: 65 CFFAAKKNQSIDSEKVPEENRANPFEVVASTIMKALKALKKPAIAVVLLGLLLMYDPNTA 124 Query: 124 FAASGGRMGGRSFAPRSSMSSGSRSYSV-QPSSPGLSRSVPYFAPSPFG-GAGIYVGPAF 183 AASGGRMGG+SF+ RS +S SRSYSV + S PG S SVPY+APSPFG G G+YVGPA Sbjct: 125 LAASGGRMGGKSFSSRSPAASSSRSYSVPRTSGPGFSYSVPYYAPSPFGFGGGVYVGPAV 184 Query: 184 GIGAGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDL 243 G+GAGSS FLI+MGFAAF+LVSGFLSDR + +LTATE+TSV+K+QVGLLGM R+LQ DL Sbjct: 185 GVGAGSSFFLILMGFAAFVLVSGFLSDRSEDSVLTATEKTSVLKVQVGLLGMGRALQRDL 244 Query: 244 NQIAETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEE 303 N+IAETADTSTPEGL+YVLTE+ LALLRHPDYCIS YSSVDIK+S+E+GEKRFNQLSIEE Sbjct: 245 NRIAETADTSTPEGLSYVLTETTLALLRHPDYCISGYSSVDIKRSMEDGEKRFNQLSIEE 304 Query: 304 RGKFDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAM 363 RGKFDEETLVNVNNIKRQS S RA+G+SNEYIVI+ILVAAEG+HK+P ING DLKEA+ Sbjct: 305 RGKFDEETLVNVNNIKRQSTTSQRASGFSNEYIVISILVAAEGVHKMPVINGGRDLKEAL 364 Query: 364 QKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 QKLGSIPS K +AVEVLWTPQNENDTLSERELLEDYPLL+PL Sbjct: 365 QKLGSIPSHKILAVEVLWTPQNENDTLSERELLEDYPLLRPL 404
BLAST of Spo23531.1 vs. NCBI nr
Match:
gi|118489113|gb|ABK96363.1| (unknown [Populus trichocarpa x Populus deltoides])
HSP 1 Score: 468.8 bits (1205), Expect = 9.600e-129
Identity = 268/417 (64.27%), Postives = 319/417 (76.50%), Query Frame = 1
Query: 1 MANSLLLDPSALTTTK------HPSFLSPQSTPLLRPY-PIRLTSLTTFSSPFINP--KS 60 MA + L++ S L K P L+P P L P P + TS P +NP K+ Sbjct: 1 MATASLIESSPLKWKKAFPFQPQPPLLTPNHYPYLIPLKPPKFTSKCISQLPILNPNSKN 60 Query: 61 SQKPFKLSPKC------NAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAA 120 + PF +SP N P +S + L I I + + +AL++LKKPA+AA Sbjct: 61 NNGPFPISPSITKPISQNLSKPPTSKNPLEI----------IYETMLKALDILKKPAIAA 120 Query: 121 LLVGVLLMYDPNSAFAASGGRMGGRSFAPRSSMSSGSRSYSV-QPSSPGLSRSVPYFAPS 180 +L+GVLL++DPNSAFAASGGR+GG SF+ RSS SRSYSV + S G S SVPY+APS Sbjct: 121 ILIGVLLLHDPNSAFAASGGRIGGNSFSRRSSSEYSSRSYSVPRGGSSGFSYSVPYYAPS 180 Query: 181 PFGGAGIYVGPAFGIG--AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKL 240 PFGG G+YVGPA G+G AGSSLF I+ GFAAF+LVSGFLSDR++GG+LTA E+TSV+KL Sbjct: 181 PFGGGGVYVGPAVGVGVGAGSSLFFILAGFAAFMLVSGFLSDRNEGGVLTAAEKTSVLKL 240 Query: 241 QVGLLGMARSLQSDLNQIAETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKS 300 QVGLLGM RSLQ DLN+IAE ADTS+ EGLNYVLTE+ LALLRHPDYCIS +S VD+K+S Sbjct: 241 QVGLLGMGRSLQRDLNRIAEVADTSSSEGLNYVLTETSLALLRHPDYCISGHSFVDVKRS 300 Query: 301 IEEGEKRFNQLSIEERGKFDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLH 360 +E+GEKRFNQLSIEERGKFDEETLVNVN+IKRQS S R+ G+SNEYIVITILVAAEG++ Sbjct: 301 MEDGEKRFNQLSIEERGKFDEETLVNVNSIKRQSTSSKRSNGFSNEYIVITILVAAEGVY 360 Query: 361 KLPTINGSMDLKEAMQKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 KLPTINGS DLKEA+QKLGSI +SK +AVEVLWTPQNENDTLSERELLEDYPLL+PL Sbjct: 361 KLPTINGSGDLKEALQKLGSISASKILAVEVLWTPQNENDTLSERELLEDYPLLRPL 407
BLAST of Spo23531.1 vs. NCBI nr
Match:
gi|223548207|gb|EEF49698.1| (conserved hypothetical protein [Ricinus communis])
HSP 1 Score: 468.0 bits (1203), Expect = 1.600e-128
Identity = 248/316 (78.48%), Postives = 280/316 (88.61%), Query Frame = 1
Query: 87 ILDKISEALNVLKKPAVAALLVGVLLMYDPNSAFAASGGRMGGRSFAPRSSMSSGSRSYS 146 I + LN LKKPA+AA+LVG LLMYDPNSAFAASGGRMGGRSF+ RSS SS SRSYS Sbjct: 46 IYNTFIRTLNFLKKPAIAAILVGALLMYDPNSAFAASGGRMGGRSFS-RSSSSSSSRSYS 105 Query: 147 V-QPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIG--AGSSLFLIMMGFAAFILVSGFLS 206 V + SSPG S SVPY+APSPFGG G+YVGPA G+G AGSSLF I+ GFAAF+LVSGFLS Sbjct: 106 VPRSSSPGFSYSVPYYAPSPFGGGGLYVGPAVGVGVGAGSSLFFILAGFAAFMLVSGFLS 165 Query: 207 DRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQIAETADTSTPEGLNYVLTESMLAL 266 DR +GG+LTAT++TSV+KLQVGLLGM R+LQ DLN+IAE ADTS+ EGL YVLTE+ LAL Sbjct: 166 DRSEGGVLTATDKTSVLKLQVGLLGMGRALQRDLNRIAEVADTSSSEGLTYVLTETSLAL 225 Query: 267 LRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGKFDEETLVNVNNIKRQSNKSSRAT 326 LRHPDYCIS YS VD+K+S++EGEKRFNQLSIEERGKFDEETLVNVNNIK+QS S A+ Sbjct: 226 LRHPDYCISGYSYVDVKRSMDEGEKRFNQLSIEERGKFDEETLVNVNNIKKQSTSSKSAS 285 Query: 327 GYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKLGSIPSSKTMAVEVLWTPQNENDT 386 G+SNEYIVIT+LVAAEG+HKLPTINGS DLKEA+QKLGSIPSSK +AVEVLWTPQNENDT Sbjct: 286 GFSNEYIVITLLVAAEGVHKLPTINGSGDLKEALQKLGSIPSSKVLAVEVLWTPQNENDT 345 Query: 387 LSERELLEDYPLLKPL 400 L+ERELLEDYPLL+PL Sbjct: 346 LTERELLEDYPLLRPL 360
BLAST of Spo23531.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9R2A1_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_114950 PE=4 SV=1)
HSP 1 Score: 751.1 bits (1938), Expect = 6.800e-214
Identity = 399/399 (100.00%), Postives = 399/399 (100.00%), Query Frame = 1
Query: 1 MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSP 60 MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSP Sbjct: 1 MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSP 60 Query: 61 KCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAF 120 KCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAF Sbjct: 61 KCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAF 120 Query: 121 AASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIG 180 AASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIG Sbjct: 121 AASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIG 180 Query: 181 AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQI 240 AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQI Sbjct: 181 AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQI 240 Query: 241 AETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGK 300 AETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGK Sbjct: 241 AETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGK 300 Query: 301 FDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKL 360 FDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKL Sbjct: 301 FDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKL 360 Query: 361 GSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 GSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL Sbjct: 361 GSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 399
BLAST of Spo23531.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8CIQ2_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_4g082310 PE=4 SV=1)
HSP 1 Score: 630.9 bits (1626), Expect = 1.000e-177
Identity = 339/402 (84.33%), Postives = 366/402 (91.04%), Query Frame = 1
Query: 1 MANSLLLDPSALTTTKHPSFLSPQSTPLLRPYPIRLTSLTTFSSPFINPKSSQKPFKLSP 60 MANSLLL+PSA TT FLSPQSTPLLRPYPIRL+SLT F S FINP S KPFK +P Sbjct: 1 MANSLLLEPSAFTT----KFLSPQSTPLLRPYPIRLSSLTHFPSSFINPNFSSKPFKFTP 60 Query: 61 KCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSAF 120 KC+AK NSS+S+LGIKEKT SIGF+LD IS A LKKPA+ ALLVGVL+MYDPNSAF Sbjct: 61 KCDAKNSNSSNSQLGIKEKTQISIGFVLDAISSAFKALKKPAIVALLVGVLIMYDPNSAF 120 Query: 121 AASGGRMGGRSFAPRSSMSSGSRSYSVQPSSPGLSRSVPYFAPSPFGGAG-IYVGPAFGI 180 AASGGRMGGRSFAPRSS SSGSRSYSV+PS+P + S PY+APSPFGG G +VGPAFG+ Sbjct: 121 AASGGRMGGRSFAPRSSTSSGSRSYSVRPSNPMMPYSAPYYAPSPFGGGGGFFVGPAFGV 180 Query: 181 G--AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDL 240 G AGSSLFLIMMGFAAFILVSGFLSD+ +GG+LTATE+TSVIKLQVGLLGMARSLQSDL Sbjct: 181 GVGAGSSLFLIMMGFAAFILVSGFLSDQSEGGVLTATEKTSVIKLQVGLLGMARSLQSDL 240 Query: 241 NQIAETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEE 300 N+IAETADTSTPEGLNYVLTE++LALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEE Sbjct: 241 NRIAETADTSTPEGLNYVLTETILALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEE 300 Query: 301 RGKFDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAM 360 RGKFDEETLVNVN+IKRQS +SSRATGYSNEYIVITILVAAEG++KLPTINGSMDLKEA+ Sbjct: 301 RGKFDEETLVNVNSIKRQSTRSSRATGYSNEYIVITILVAAEGVNKLPTINGSMDLKEAL 360 Query: 361 QKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 QKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYP LKPL Sbjct: 361 QKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPFLKPL 398
BLAST of Spo23531.1 vs. UniProtKB/TrEMBL
Match:
W9R6R7_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_006177 PE=4 SV=1)
HSP 1 Score: 473.8 bits (1218), Expect = 2.100e-130
Identity = 272/402 (67.66%), Postives = 314/402 (78.11%), Query Frame = 1
Query: 4 SLLLDPSALTTTKHPSFLSPQSTPLL-RPYPIRLTSLTTFSSPFINP-KSSQKPFKLSPK 63 SLLL+ + T+ SF P S P L RP + SS F K KLS K Sbjct: 5 SLLLEANPSKWTQ--SFPIPLSAPPLPRPRSYNHDLARSSSSRFTGIIKLRHGSSKLSVK 64 Query: 64 C--NAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVGVLLMYDPNSA 123 C AK S DSE +E + + I +AL LKKPA+A +L+G+LLMYDPN+A Sbjct: 65 CFFAAKKNQSIDSEKVPEENRANPFEVVASTIMKALKALKKPAIAVVLLGLLLMYDPNTA 124 Query: 124 FAASGGRMGGRSFAPRSSMSSGSRSYSV-QPSSPGLSRSVPYFAPSPFG-GAGIYVGPAF 183 AASGGRMGG+SF+ RS +S SRSYSV + S PG S SVPY+APSPFG G G+YVGPA Sbjct: 125 LAASGGRMGGKSFSSRSPAASSSRSYSVPRTSGPGFSYSVPYYAPSPFGFGGGVYVGPAV 184 Query: 184 GIGAGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKLQVGLLGMARSLQSDL 243 G+GAGSS FLI+MGFAAF+LVSGFLSDR + +LTATE+TSV+K+QVGLLGM R+LQ DL Sbjct: 185 GVGAGSSFFLILMGFAAFVLVSGFLSDRSEDSVLTATEKTSVLKVQVGLLGMGRALQRDL 244 Query: 244 NQIAETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEE 303 N+IAETADTSTPEGL+YVLTE+ LALLRHPDYCIS YSSVDIK+S+E+GEKRFNQLSIEE Sbjct: 245 NRIAETADTSTPEGLSYVLTETTLALLRHPDYCISGYSSVDIKRSMEDGEKRFNQLSIEE 304 Query: 304 RGKFDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLHKLPTINGSMDLKEAM 363 RGKFDEETLVNVNNIKRQS S RA+G+SNEYIVI+ILVAAEG+HK+P ING DLKEA+ Sbjct: 305 RGKFDEETLVNVNNIKRQSTTSQRASGFSNEYIVISILVAAEGVHKMPVINGGRDLKEAL 364 Query: 364 QKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 QKLGSIPS K +AVEVLWTPQNENDTLSERELLEDYPLL+PL Sbjct: 365 QKLGSIPSHKILAVEVLWTPQNENDTLSERELLEDYPLLRPL 404
BLAST of Spo23531.1 vs. UniProtKB/TrEMBL
Match:
A9PJ10_9ROSI (Putative uncharacterized protein OS=Populus trichocarpa x Populus deltoides PE=2 SV=1)
HSP 1 Score: 468.8 bits (1205), Expect = 6.700e-129
Identity = 268/417 (64.27%), Postives = 319/417 (76.50%), Query Frame = 1
Query: 1 MANSLLLDPSALTTTK------HPSFLSPQSTPLLRPY-PIRLTSLTTFSSPFINP--KS 60 MA + L++ S L K P L+P P L P P + TS P +NP K+ Sbjct: 1 MATASLIESSPLKWKKAFPFQPQPPLLTPNHYPYLIPLKPPKFTSKCISQLPILNPNSKN 60 Query: 61 SQKPFKLSPKC------NAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAA 120 + PF +SP N P +S + L I I + + +AL++LKKPA+AA Sbjct: 61 NNGPFPISPSITKPISQNLSKPPTSKNPLEI----------IYETMLKALDILKKPAIAA 120 Query: 121 LLVGVLLMYDPNSAFAASGGRMGGRSFAPRSSMSSGSRSYSV-QPSSPGLSRSVPYFAPS 180 +L+GVLL++DPNSAFAASGGR+GG SF+ RSS SRSYSV + S G S SVPY+APS Sbjct: 121 ILIGVLLLHDPNSAFAASGGRIGGNSFSRRSSSEYSSRSYSVPRGGSSGFSYSVPYYAPS 180 Query: 181 PFGGAGIYVGPAFGIG--AGSSLFLIMMGFAAFILVSGFLSDRDDGGLLTATERTSVIKL 240 PFGG G+YVGPA G+G AGSSLF I+ GFAAF+LVSGFLSDR++GG+LTA E+TSV+KL Sbjct: 181 PFGGGGVYVGPAVGVGVGAGSSLFFILAGFAAFMLVSGFLSDRNEGGVLTAAEKTSVLKL 240 Query: 241 QVGLLGMARSLQSDLNQIAETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIKKS 300 QVGLLGM RSLQ DLN+IAE ADTS+ EGLNYVLTE+ LALLRHPDYCIS +S VD+K+S Sbjct: 241 QVGLLGMGRSLQRDLNRIAEVADTSSSEGLNYVLTETSLALLRHPDYCISGHSFVDVKRS 300 Query: 301 IEEGEKRFNQLSIEERGKFDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEGLH 360 +E+GEKRFNQLSIEERGKFDEETLVNVN+IKRQS S R+ G+SNEYIVITILVAAEG++ Sbjct: 301 MEDGEKRFNQLSIEERGKFDEETLVNVNSIKRQSTSSKRSNGFSNEYIVITILVAAEGVY 360 Query: 361 KLPTINGSMDLKEAMQKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 KLPTINGS DLKEA+QKLGSI +SK +AVEVLWTPQNENDTLSERELLEDYPLL+PL Sbjct: 361 KLPTINGSGDLKEALQKLGSISASKILAVEVLWTPQNENDTLSERELLEDYPLLRPL 407
BLAST of Spo23531.1 vs. UniProtKB/TrEMBL
Match:
B9RES7_RICCO (Putative uncharacterized protein OS=Ricinus communis GN=RCOM_1428510 PE=4 SV=1)
HSP 1 Score: 468.0 bits (1203), Expect = 1.100e-128
Identity = 248/316 (78.48%), Postives = 280/316 (88.61%), Query Frame = 1
Query: 87 ILDKISEALNVLKKPAVAALLVGVLLMYDPNSAFAASGGRMGGRSFAPRSSMSSGSRSYS 146 I + LN LKKPA+AA+LVG LLMYDPNSAFAASGGRMGGRSF+ RSS SS SRSYS Sbjct: 46 IYNTFIRTLNFLKKPAIAAILVGALLMYDPNSAFAASGGRMGGRSFS-RSSSSSSSRSYS 105 Query: 147 V-QPSSPGLSRSVPYFAPSPFGGAGIYVGPAFGIG--AGSSLFLIMMGFAAFILVSGFLS 206 V + SSPG S SVPY+APSPFGG G+YVGPA G+G AGSSLF I+ GFAAF+LVSGFLS Sbjct: 106 VPRSSSPGFSYSVPYYAPSPFGGGGLYVGPAVGVGVGAGSSLFFILAGFAAFMLVSGFLS 165 Query: 207 DRDDGGLLTATERTSVIKLQVGLLGMARSLQSDLNQIAETADTSTPEGLNYVLTESMLAL 266 DR +GG+LTAT++TSV+KLQVGLLGM R+LQ DLN+IAE ADTS+ EGL YVLTE+ LAL Sbjct: 166 DRSEGGVLTATDKTSVLKLQVGLLGMGRALQRDLNRIAEVADTSSSEGLTYVLTETSLAL 225 Query: 267 LRHPDYCISAYSSVDIKKSIEEGEKRFNQLSIEERGKFDEETLVNVNNIKRQSNKSSRAT 326 LRHPDYCIS YS VD+K+S++EGEKRFNQLSIEERGKFDEETLVNVNNIK+QS S A+ Sbjct: 226 LRHPDYCISGYSYVDVKRSMDEGEKRFNQLSIEERGKFDEETLVNVNNIKKQSTSSKSAS 285 Query: 327 GYSNEYIVITILVAAEGLHKLPTINGSMDLKEAMQKLGSIPSSKTMAVEVLWTPQNENDT 386 G+SNEYIVIT+LVAAEG+HKLPTINGS DLKEA+QKLGSIPSSK +AVEVLWTPQNENDT Sbjct: 286 GFSNEYIVITLLVAAEGVHKLPTINGSGDLKEALQKLGSIPSSKVLAVEVLWTPQNENDT 345 Query: 387 LSERELLEDYPLLKPL 400 L+ERELLEDYPLL+PL Sbjct: 346 LTERELLEDYPLLRPL 360
BLAST of Spo23531.1 vs. TAIR (Arabidopsis)
Match:
AT1G54520.1 (unknown protein)
HSP 1 Score: 413.7 bits (1062), Expect = 1.300e-115
Identity = 235/359 (65.46%), Postives = 285/359 (79.39%), Query Frame = 1
Query: 50 KSSQKPFKLSPKCNAKTPNSSDSELGIKEKTLSSIGFILDKISEALNVLKKPAVAALLVG 109 +S+ ++S K T +SSD +L I ++ +AL+ LKKPA+AA+L+G Sbjct: 39 RSNSIRLQISVKYKQST-SSSDPDLRSNFNPFEQIAI---QVKKALDSLKKPAIAAVLLG 98 Query: 110 VLLMYDPNSAFAASGGRMGGRSFAPRS--SMSSGSRSYSV-QPSSPGLS---RSVPYFAP 169 +LL YDPNSA AASGGR+GG SF+ RS S SS S+SYSV + S+P S R+ PY+ P Sbjct: 99 LLLFYDPNSALAASGGRIGGNSFSSRSRSSSSSSSQSYSVPRTSNPSFSYSARTAPYYGP 158 Query: 170 SPFGGAGIYVGPAFGIGAG--SSLFLIMMGFAAFILVSGFLSDRD-DGGLLTATERTSVI 229 SPFGG +VGPA G G G SS LI++GFAAF+LVSGFLSDR D +LT T++TSVI Sbjct: 159 SPFGGG--FVGPAVGFGFGGFSSFSLILVGFAAFVLVSGFLSDRSQDDSILTDTQKTSVI 218 Query: 230 KLQVGLLGMARSLQSDLNQIAETADTSTPEGLNYVLTESMLALLRHPDYCISAYSSVDIK 289 KLQVGLLG+ R+LQ D N++AE++DTSTPEGL+YVLTE+ LALLRHPDYCIS YSSVD+K Sbjct: 219 KLQVGLLGLGRTLQQDFNRLAESSDTSTPEGLSYVLTEATLALLRHPDYCISCYSSVDVK 278 Query: 290 KSIEEGEKRFNQLSIEERGKFDEETLVNVNNIKRQSNKSSRATGYSNEYIVITILVAAEG 349 SIE+GEKRFNQLSIEERGKFDEETLVNVN+IKRQS+K +A+G+SNEYIV+TIL+AAEG Sbjct: 279 PSIEKGEKRFNQLSIEERGKFDEETLVNVNSIKRQSSKIRKASGFSNEYIVVTILMAAEG 338 Query: 350 LHKLPTINGSMDLKEAMQKLGSIPSSKTMAVEVLWTPQNENDTLSERELLEDYPLLKPL 400 +HKLP ING+ DLKEA+ KLGSIP +K MAVEVLWTPQNE D LSERELLEDYPLL+PL Sbjct: 339 IHKLPPINGTTDLKEALLKLGSIPRNKIMAVEVLWTPQNEADALSERELLEDYPLLRPL 391
The following BLAST results are available for this feature:
BLAST of Spo23531.1 vs. NCBI nr
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. NCBI nr )
Total hits: 5
C T T G C A T G G C C A C C A C A A C T T C A T T C C C A C T C T T T C A A C C T C A A G T C A G T T T C T C T G G T T C T T C T C C C T C A A T T C A A C T C A A A A T A T C T C C C C C T A T C C A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A T A A A A A T A A A A C T T C A C C T T G A A A A T T C C A A G C T T T T T T T A T C A A T G G C G A A T T C C C T G C T T C T C G A C C C G T C A G C A T T A A C C A C C A C T A A A C A T C C T A G T T T T C T C T C T C C T C A A T C C A C C C C T C T T T T G C G C C C T T A T C C A A T T C G A T T A A C C T C C T T A A C C A C A T T T T C C T C C C C T T T T A T A A A C C C T A A A T C T T C C C A A A A A C C C T T C A A A T T A T C C C C A A A A T G C A A C G C C A A A A C C C C G A A T T C T T C C G A T T C C G A A C T G G G T A T C A A A G A G A A G A C C C T G A G T T C A A T T G G G T T T A T T T T A G A T A A G A T T T C C G A G G C C T T A A A T G T C C T T A A G A A G C C G G C G G T T G C G G C T T T G T T G G T G G G T G T T T T G T T G A T G T A T G A C C C G A A T T C T G C T T T T G C G G C G T C T G G G G G G A G A A T G G G A G G G C G G T C A T T T G C T C C G A G A T C G T C G A T G T C G T C T G G T T C T C G G A G C T A C T C T G T T C A G C C C T C G A G C C C G G G G C T T T C A C G T T C G G T G C C G T A T T T C G C T C C T T C C C C G T T T G G G G G T G C T G G G A T T T A T G T T G G A C C G G C T T T T G G A A T T G G A G C T G G C T C G A G T T T G T T T T T G A T T A T G A T G G G T T T T G C T G C G T T T A T T T T G G T T T C T G G T T T C C T T T C T G A T C G G G A T G A T G G T G G G T T G T T G A C G G C T A C T G A G A G A A C T A G T G T G A T C A A A C T T C A G G T C G G A C T T T T G G G C A T G G C A C G G T C A C T T C A A A G T G A T C T C A A T C A G A T T G C T G A A A C T G C T G A T A C A T C A A C C C C A G A G G G T C T A A A T T A T G T T T T A A C T G A A T C G A T G C T G G C T T T G C T T C G G C A C C C T G A T T A T T G C A T A T C A G C C T A T T C A T C T G T C G A C A T C A A A A A G A G T A T A G A G G A G G G A G A A A A G A G G T T C A A T C A A C T T T C A A T C G A G G A A C G A G G G A A A T T T G A T G A A G A A A C T C T T G T T A A T G T G A A T A A C A T A A A G A G A C A G A G C A A T A A A A G C T C A A G A G C C A C T G G A T A T A G C A A C G A G T A C A T A G T G A T T A C C A T T T T G G T G G C T G C T G A A G G A C T A C A T A A A C T G C C T A C C A T T A A C G G G A G C A T G G A T T T G A A A G A A G C G A T G C A A A A A C T T G G G T C A A T T C C T T C A A G T A A A A C T A T G G C A G T G G A G G T G C T T T G G A C T C C T C A G A A T G A A A A T G A T A C A T T G T C A G A G A G A G A A C T A C T T G A A G A C T A C C C C C T T T T G A A G C C T C T A T G A G T A C A A T C T T T T T T G C T T T T A C C T G T A T A T A C C A G G A C T A T A A A G C T A A A C T G A T A G G A T T T C T T A T A C C G A G T G T T G A A T G G T T T T T T T T T T T T T T G G A A C T G T T T C T C T T T T C A T A A C A G G T T A T A T A A C C A T A A G C A T T T G T A A T T A A T A C A T A A T C T T T T T C A G C T C A G G A A C T C T T A T A C A A A C A T A A T A A C A G A T G A T G G T T T A T T A C A G A T T T C T T G T T G A G A A G T T T A A A A C A A A T G G A G T G T T G T T A C C A T A A G G T T A T T A G C C G G A A A C T C C G A T A T G A A T T G T G T T T T G G A G G G A A C A G C A G A C A G A T G G G A T T A C A C C G T T G C C T T G G T T G A A A A G G C G A T G A G A G A T T A G A A C A T A C A G T T A T A G T G G T G T A A C C A G A A T T T T A C C T A T A G A G T T G G A A G G G G T T T A T C T G G T T T T C A A A A T C G T T T T T T A G G T T T G A A T G G T T G G T C T T C A A A G T A C A T T C C T T T C A A T C A T T T A C A A G T A A T T T C T C A C T T T A G A T A T T A T T G T T G A T G G T A T C A T T G G T A A T T T G T A G A G G T G G T A A A T G G A C T G T T T G G G C C G G T T A T A T A T T T A A C G G A T A T T T C A T G A A A T A C C C C C G A G T T T T A G C G T A A T T C A C C A A A C G C C C A T C A A G T T T C A G A A A T A C G T A A A A T A C C C C T C A C A A A T G A C T T A A T A C C C C A A A T A T C C C T T A A T G A C G T C A T C A A C C T T A A T T A A T C C G A T T A A C A C C T A A T G A A C C G A C T A A C T C C T A A T T A A C C C C C T A A T C G A C C C A C C C A T T A A C C C C T A A T C A A C C C A C C C A T T A A T C C A C C C A T T T T T C C T T C C T C T T C T T C T C T C T T C C T T T C C T C C T C A C C C C T T C T C T T C C T C A T C A C C A C C A C A C A C C G C C A C C G C C A C A C C C C T T C T C T T C C T C A C C A C C C C A C A C A C C G C C A C A G C C A C C T A C A G A A A A C C C C A A A T T G A A A T T T T A A T T A A T T A C C A A T T A C A T A T T A A A T T G A A T T G A A T T G C T A G T T C A T C A A T T T A G G G A A A A T G G A A A G C A A G G G G C T G A G T A A A A A T C G A A T T T G C C T C T G A T T T T T C G A A G C A A A T C G T T G G G T G T T G G A G C A T T C T T T G A T G C C G C T T C T T C G A A T T T C T G T T T G A A T C 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 2400 Expect = 9.70e-214 / Id = 100.00 Expect = 1.50e-177 / Id = 84.33 Expect = 3.00e-130 / Id = 67.66 Expect = 9.60e-129 / Id = 64.27 Expect = 1.60e-128 / Id = 78.48 Sequence KNA13628.1 XP_010674876.1 XP_010090270.1 ABK96363.1 EEF49698.1
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BLAST of Spo23531.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL )
Total hits: 5
C T T G C A T G G C C A C C A C A A C T T C A T T C C C A C T C T T T C A A C C T C A A G T C A G T T T C T C T G G T T C T T C T C C C T C A A T T C A A C T C A A A A T A T C T C C C C C T A T C C A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A T A A A A A T A A A A C T T C A C C T T G A A A A T T C C A A G C T T T T T T T A T C A A T G G C G A A T T C C C T G C T T C T C G A C C C G T C A G C A T T A A C C A C C A C T A A A C A T C C T A G T T T T C T C T C T C C T C A A T C C A C C C C T C T T T T G C G C C C T T A T C C A A T T C G A T T A A C C T C C T T A A C C A C A T T T T C C T C C C C T T T T A T A A A C C C T A A A T C T T C C C A A A A A C C C T T C A A A T T A T C C C C A A A A T G C A A C G C C A A A A C C C C G A A T T C T T C C G A T T C C G A A C T G G G T A T C A A A G A G A A G A C C C T G A G T T C A A T T G G G T T T A T T T T A G A T A A G A T T T C C G A G G C C T T A A A T G T C C T T A A G A A G C C G G C G G T T G C G G C T T T G T T G G T G G G T G T T T T G T T G A T G T A T G A C C C G A A T T C T G C T T T T G C G G C G T C T G G G G G G A G A A T G G G A G G G C G G T C A T T T G C T C C G A G A T C G T C G A T G T C G T C T G G T T C T C G G A G C T A C T C T G T T C A G C C C T C G A G C C C G G G G C T T T C A C G T T C G G T G C C G T A T T T C G C T C C T T C C C C G T T T G G G G G T G C T G G G A T T T A T G T T G G A C C G G C T T T T G G A A T T G G A G C T G G C T C G A G T T T G T T T T T G A T T A T G A T G G G T T T T G C T G C G T T T A T T T T G G T T T C T G G T T T C C T T T C T G A T C G G G A T G A T G G T G G G T T G T T G A C G G C T A C T G A G A G A A C T A G T G T G A T C A A A C T T C A G G T C G G A C T T T T G G G C A T G G C A C G G T C A C T T C A A A G T G A T C T C A A T C A G A T T G C T G A A A C T G C T G A T A C A T C A A C C C C A G A G G G T C T A A A T T A T G T T T T A A C T G A A T C G A T G C T G G C T T T G C T T C G G C A C C C T G A T T A T T G C A T A T C A G C C T A T T C A T C T G T C G A C A T C A A A A A G A G T A T A G A G G A G G G A G A A A A G A G G T T C A A T C A A C T T T C A A T C G A G G A A C G A G G G A A A T T T G A T G A A G A A A C T C T T G T T A A T G T G A A T A A C A T A A A G A G A C A G A G C A A T A A A A G C T C A A G A G C C A C T G G A T A T A G C A A C G A G T A C A T A G T G A T T A C C A T T T T G G T G G C T G C T G A A G G A C T A C A T A A A C T G C C T A C C A T T A A C G G G A G C A T G G A T T T G A A A G A A G C G A T G C A A A A A C T T G G G T C A A T T C C T T C A A G T A A A A C T A T G G C A G T G G A G G T G C T T T G G A C T C C T C A G A A T G A A A A T G A T A C A T T G T C A G A G A G A G A A C T A C T T G A A G A C T A C C C C C T T T T G A A G C C T C T A T G A G T A C A A T C T T T T T T G C T T T T A C C T G T A T A T A C C A G G A C T A T A A A G C T A A A C T G A T A G G A T T T C T T A T A C C G A G T G T T G A A T G G T T T T T T T T T T T T T T G G A A C T G T T T C T C T T T T C A T A A C A G G T T A T A T A A C C A T A A G C A T T T G T A A T T A A T A C A T A A T C T T T T T C A G C T C A G G A A C T C T T A T A C A A A C A T A A T A A C A G A T G A T G G T T T A T T A C A G A T T T C T T G T T G A G A A G T T T A A A A C A A A T G G A G T G T T G T T A C C A T A A G G T T A T T A G C C G G A A A C T C C G A T A T G A A T T G T G T T T T G G A G G G A A C A G C A G A C A G A T G G G A T T A C A C C G T T G C C T T G G T T G A A A A G G C G A T G A G A G A T T A G A A C A T A C A G T T A T A G T G G T G T A A C C A G A A T T T T A C C T A T A G A G T T G G A A G G G G T T T A T C T G G T T T T C A A A A T C G T T T T T T A G G T T T G A A T G G T T G G T C T T C A A A G T A C A T T C C T T T C A A T C A T T T A C A A G T A A T T T C T C A C T T T A G A T A T T A T T G T T G A T G G T A T C A T T G G T A A T T T G T A G A G G T G G T A A A T G G A C T G T T T G G G C C G G T T A T A T A T T T A A C G G A T A T T T C A T G A A A T A C C C C C G A G T T T T A G C G T A A T T C A C C A A A C G C C C A T C A A G T T T C A G A A A T A C G T A A A A T A C C C C T C A C A A A T G A C T T A A T A C C C C A A A T A T C C C T T A A T G A C G T C A T C A A C C T T A A T T A A T C C G A T T A A C A C C T A A T G A A C C G A C T A A C T C C T A A T T A A C C C C C T A A T C G A C C C A C C C A T T A A C C C C T A A T C A A C C C A C C C A T T A A T C C A C C C A T T T T T C C T T C C T C T T C T T C T C T C T T C C T T T C C T C C T C A C C C C T T C T C T T C C T C A T C A C C A C C A C A C A C C G C C A C C G C C A C A C C C C T T C T C T T C C T C A C C A C C C C A C A C A C C G C C A C A G C C A C C T A C A G A A A A C C C C A A A T T G A A A T T T T A A T T A A T T A C C A A T T A C A T A T T A A A T T G A A T T G A A T T G C T A G T T C A T C A A T T T A G G G A A A A T G G A A A G C A A G G G G C T G A G T A A A A A T C G A A T T T G C C T C T G A T T T T T C G A A G C A A A T C G T T G G G T G T T G G A G C A T T C T T T G A T G C C G C T T C T T C G A A T T T C T G T T T G A A T C 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 2400 Expect = 6.80e-214 / Id = 100.00 Expect = 1.00e-177 / Id = 84.33 Expect = 2.10e-130 / Id = 67.66 Expect = 6.70e-129 / Id = 64.27 Expect = 1.10e-128 / Id = 78.48 Sequence A0A0K9R2A1_SPIOL A0A0J8CIQ2_BETVU W9R6R7_9ROSA A9PJ10_9ROSI B9RES7_RICCO
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BLAST of Spo23531.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. ExPASy SwissProt )
Total hits: 0
C T T G C A T G G C C A C C A C A A C T T C A T T C C C A C T C T T T C A A C C T C A A G T C A G T T T C T C T G G T T C T T C T C C C T C A A T T C A A C T C A A A A T A T C T C C C C C T A T C C A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A T A A A A A T A A A A C T T C A C C T T G A A A A T T C C A A G C T T T T T T T A T C A A T G G C G A A T T C C C T G C T T C T C G A C C C G T C A G C A T T A A C C A C C A C T A A A C A T C C T A G T T T T C T C T C T C C T C A A T C C A C C C C T C T T T T G C G C C C T T A T C C A A T T C G A T T A A C C T C C T T A A C C A C A T T T T C C T C C C C T T T T A T A A A C C C T A A A T C T T C C C A A A A A C C C T T C A A A T T A T C C C C A A A A T G C A A C G C C A A A A C C C C G A A T T C T T C C G A T T C C G A A C T G G G T A T C A A A G A G A A G A C C C T G A G T T C A A T T G G G T T T A T T T T A G A T A A G A T T T C C G A G G C C T T A A A T G T C C T T A A G A A G C C G G C G G T T G C G G C T T T G T T G G T G G G T G T T T T G T T G A T G T A T G A C C C G A A T T C T G C T T T T G C G G C G T C T G G G G G G A G A A T G G G A G G G C G G T C A T T T G C T C C G A G A T C G T C G A T G T C G T C T G G T T C T C G G A G C T A C T C T G T T C A G C C C T C G A G C C C G G G G C T T T C A C G T T C G G T G C C G T A T T T C G C T C C T T C C C C G T T T G G G G G T G C T G G G A T T T A T G T T G G A C C G G C T T T T G G A A T T G G A G C T G G C T C G A G T T T G T T T T T G A T T A T G A T G G G T T T T G C T G C G T T T A T T T T G G T T T C T G G T T T C C T T T C T G A T C G G G A T G A T G G T G G G T T G T T G A C G G C T A C T G A G A G A A C T A G T G T G A T C A A A C T T C A G G T C G G A C T T T T G G G C A T G G C A C G G T C A C T T C A A A G T G A T C T C A A T C A G A T T G C T G A A A C T G C T G A T A C A T C A A C C C C A G A G G G T C T A A A T T A T G T T T T A A C T G A A T C G A T G C T G G C T T T G C T T C G G C A C C C T G A T T A T T G C A T A T C A G C C T A T T C A T C T G T C G A C A T C A A A A A G A G T A T A G A G G A G G G A G A A A A G A G G T T C A A T C A A C T T T C A A T C G A G G A A C G A G G G A A A T T T G A T G A A G A A A C T C T T G T T A A T G T G A A T A A C A T A A A G A G A C A G A G C A A T A A A A G C T C A A G A G C C A C T G G A T A T A G C A A C G A G T A C A T A G T G A T T A C C A T T T T G G T G G C T G C T G A A G G A C T A C A T A A A C T G C C T A C C A T T A A C G G G A G C A T G G A T T T G A A A G A A G C G A T G C A A A A A C T T G G G T C A A T T C C T T C A A G T A A A A C T A T G G C A G T G G A G G T G C T T T G G A C T C C T C A G A A T G A A A A T G A T A C A T T G T C A G A G A G A G A A C T A C T T G A A G A C T A C C C C C T T T T G A A G C C T C T A T G A G T A C A A T C T T T T T T G C T T T T A C C T G T A T A T A C C A G G A C T A T A A A G C T A A A C T G A T A G G A T T T C T T A T A C C G A G T G T T G A A T G G T T T T T T T T T T T T T T G G A A C T G T T T C T C T T T T C A T A A C A G G T T A T A T A A C C A T A A G C A T T T G T A A T T A A T A C A T A A T C T T T T T C A G C T C A G G A A C T C T T A T A C A A A C A T A A T A A C A G A T G A T G G T T T A T T A C A G A T T T C T T G T T G A G A A G T T T A A A A C A A A T G G A G T G T T G T T A C C A T A A G G T T A T T A G C C G G A A A C T C C G A T A T G A A T T G T G T T T T G G A G G G A A C A G C A G A C A G A T G G G A T T A C A C C G T T G C C T T G G T T G A A A A G G C G A T G A G A G A T T A G A A C A T A C A G T T A T A G T G G T G T A A C C A G A A T T T T A C C T A T A G A G T T G G A A G G G G T T T A T C T G G T T T T C A A A A T C G T T T T T T A G G T T T G A A T G G T T G G T C T T C A A A G T A C A T T C C T T T C A A T C A T T T A C A A G T A A T T T C T C A C T T T A G A T A T T A T T G T T G A T G G T A T C A T T G G T A A T T T G T A G A G G T G G T A A A T G G A C T G T T T G G G C C G G T T A T A T A T T T A A C G G A T A T T T C A T G A A A T A C C C C C G A G T T T T A G C G T A A T T C A C C A A A C G C C C A T C A A G T T T C A G A A A T A C G T A A A A T A C C C C T C A C A A A T G A C T T A A T A C C C C A A A T A T C C C T T A A T G A C G T C A T C A A C C T T A A T T A A T C C G A T T A A C A C C T A A T G A A C C G A C T A A C T C C T A A T T A A C C C C C T A A T C G A C C C A C C C A T T A A C C C C T A A T C A A C C C A C C C A T T A A T C C A C C C A T T T T T C C T T C C T C T T C T T C T C T C T T C C T T T C C T C C T C A C C C C T T C T C T T C C T C A T C A C C A C C A C A C A C C G C C A C C G C C A C A C C C C T T C T C T T C C T C A C C A C C C C A C A C A C C G C C A C A G C C A C C T A C A G A A A A C C C C A A A T T G A A A T T T T A A T T A A T T A C C A A T T A C A T A T T A A A T T G A A T T G A A T T G C T A G T T C A T C A A T T T A G G G A A A A T G G A A A G C A A G G G G C T G A G T A A A A A T C G A A T T T G C C T C T G A T T T T T C G A A G C A A A T C G T T G G G T G T T G G A G C A T T C T T T G A T G C C G C T T C T T C G A A T T T C T G T T T G A A T C 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 2400 Sequence
Match Name E-value Identity Description
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BLAST of Spo23531.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. TAIR )
Total hits: 1
C T T G C A T G G C C A C C A C A A C T T C A T T C C C A C T C T T T C A A C C T C A A G T C A G T T T C T C T G G T T C T T C T C C C T C A A T T C A A C T C A A A A T A T C T C C C C C T A T C C A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A A T T A A A A T A A A A A T A A A A C T T C A C C T T G A A A A T T C C A A G C T T T T T T T A T C A A T G G C G A A T T C C C T G C T T C T C G A C C C G T C A G C A T T A A C C A C C A C T A A A C A T C C T A G T T T T C T C T C T C C T C A A T C C A C C C C T C T T T T G C G C C C T T A T C C A A T T C G A T T A A C C T C C T T A A C C A C A T T T T C C T C C C C T T T T A T A A A C C C T A A A T C T T C C C A A A A A C C C T T C A A A T T A T C C C C A A A A T G C A A C G C C A A A A C C C C G A A T T C T T C C G A T T C C G A A C T G G G T A T C A A A G A G A A G A C C C T G A G T T C A A T T G G G T T T A T T T T A G A T A A G A T T T C C G A G G C C T T A A A T G T C C T T A A G A A G C C G G C G G T T G C G G C T T T G T T G G T G G G T G T T T T G T T G A T G T A T G A C C C G A A T T C T G C T T T T G C G G C G T C T G G G G G G A G A A T G G G A G G G C G G T C A T T T G C T C C G A G A T C G T C G A T G T C G T C T G G T T C T C G G A G C T A C T C T G T T C A G C C C T C G A G C C C G G G G C T T T C A C G T T C G G T G C C G T A T T T C G C T C C T T C C C C G T T T G G G G G T G C T G G G A T T T A T G T T G G A C C G G C T T T T G G A A T T G G A G C T G G C T C G A G T T T G T T T T T G A T T A T G A T G G G T T T T G C T G C G T T T A T T T T G G T T T C T G G T T T C C T T T C T G A T C G G G A T G A T G G T G G G T T G T T G A C G G C T A C T G A G A G A A C T A G T G T G A T C A A A C T T C A G G T C G G A C T T T T G G G C A T G G C A C G G T C A C T T C A A A G T G A T C T C A A T C A G A T T G C T G A A A C T G C T G A T A C A T C A A C C C C A G A G G G T C T A A A T T A T G T T T T A A C T G A A T C G A T G C T G G C T T T G C T T C G G C A C C C T G A T T A T T G C A T A T C A G C C T A T T C A T C T G T C G A C A T C A A A A A G A G T A T A G A G G A G G G A G A A A A G A G G T T C A A T C A A C T T T C A A T C G A G G A A C G A G G G A A A T T T G A T G A A G A A A C T C T T G T T A A T G T G A A T A A C A T A A A G A G A C A G A G C A A T A A A A G C T C A A G A G C C A C T G G A T A T A G C A A C G A G T A C A T A G T G A T T A C C A T T T T G G T G G C T G C T G A A G G A C T A C A T A A A C T G C C T A C C A T T A A C G G G A G C A T G G A T T T G A A A G A A G C G A T G C A A A A A C T T G G G T C A A T T C C T T C A A G T A A A A C T A T G G C A G T G G A G G T G C T T T G G A C T C C T C A G A A T G A A A A T G A T A C A T T G T C A G A G A G A G A A C T A C T T G A A G A C T A C C C C C T T T T G A A G C C T C T A T G A G T A C A A T C T T T T T T G C T T T T A C C T G T A T A T A C C A G G A C T A T A A A G C T A A A C T G A T A G G A T T T C T T A T A C C G A G T G T T G A A T G G T T T T T T T T T T T T T T G G A A C T G T T T C T C T T T T C A T A A C A G G T T A T A T A A C C A T A A G C A T T T G T A A T T A A T A C A T A A T C T T T T T C A G C T C A G G A A C T C T T A T A C A A A C A T A A T A A C A G A T G A T G G T T T A T T A C A G A T T T C T T G T T G A G A A G T T T A A A A C A A A T G G A G T G T T G T T A C C A T A A G G T T A T T A G C C G G A A A C T C C G A T A T G A A T T G T G T T T T G G A G G G A A C A G C A G A C A G A T G G G A T T A C A C C G T T G C C T T G G T T G A A A A G G C G A T G A G A G A T T A G A A C A T A C A G T T A T A G T G G T G T A A C C A G A A T T T T A C C T A T A G A G T T G G A A G G G G T T T A T C T G G T T T T C A A A A T C G T T T T T T A G G T T T G A A T G G T T G G T C T T C A A A G T A C A T T C C T T T C A A T C A T T T A C A A G T A A T T T C T C A C T T T A G A T A T T A T T G T T G A T G G T A T C A T T G G T A A T T T G T A G A G G T G G T A A A T G G A C T G T T T G G G C C G G T T A T A T A T T T A A C G G A T A T T T C A T G A A A T A C C C C C G A G T T T T A G C G T A A T T C A C C A A A C G C C C A T C A A G T T T C A G A A A T A C G T A A A A T A C C C C T C A C A A A T G A C T T A A T A C C C C A A A T A T C C C T T A A T G A C G T C A T C A A C C T T A A T T A A T C C G A T T A A C A C C T A A T G A A C C G A C T A A C T C C T A A T T A A C C C C C T A A T C G A C C C A C C C A T T A A C C C C T A A T C A A C C C A C C C A T T A A T C C A C C C A T T T T T C C T T C C T C T T C T T C T C T C T T C C T T T C C T C C T C A C C C C T T C T C T T C C T C A T C A C C A C C A C A C A C C G C C A C C G C C A C A C C C C T T C T C T T C C T C A C C A C C C C A C A C A C C G C C A C A G C C A C C T A C A G A A A A C C C C A A A T T G A A A T T T T A A T T A A T T A C C A A T T A C A T A T T A A A T T G A A T T G A A T T G C T A G T T C A T C A A T T T A G G G A A A A T G G A A A G C A A G G G G C T G A G T A A A A A T C G A A T T T G C C T C T G A T T T T T C G A A G C A A A T C G T T G G G T G T T G G A G C A T T C T T T G A T G C C G C T T C T T C G A A T T T C T G T T T G A A T C 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 2400 Expect = 1.30e-115 / Id = 65.46 Sequence AT1G54520.1
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