Sequences
The following sequences are available for this feature:
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.
TATTGGATATCGCTAATTTTGCCGAACATGCCCCCATAATAATATAATATACTGCATATACCAGGTCGAAGGTCTCATGTCCGTCCATATTCTTCCCAACATCCTCCACTCTCTCGACGCCCGAGCTCAGACTCTGAAACTGACGCCTAACCAGTGACCACCTCAAGCCCTAATTTGTCGTCAAATATTTCAACAACAAATTCCGATTGCGTTTCCGATCCCGATTCCGTTTCTGATTTCAATCTTGATCATCGTTCTTCTTTAAGAATCTTCCCTCGTCCTCTTTGATCCAG ATTGGTTTTTAAGTCAAA ATGTCCGATAGTAAAGGTAAAGTACCTAGGGAGAGAAGTCCCAGCAGACTAAAATCAGAAGTAGGGGATAAGGATGGAGATAAAAAGCACATGCATCAACTTCAAGATGCTTTAGCTCTTGAGAGCTTGCCAGCTTCTGACTCTAAGCAAGAGGTTAAAGGTGCAAGCTCCATGTTGGATAGCAAGAATAATGGAAAAGGTGAAAGAACCGGTCATTCAAATACAACAGCAGTCCCTCGTCGATCTTATCATCAG CATGATGACCGTCGTACTGCCGCCCGAGATGGCAGCCGCTCTGGACGCAGGTCGACATCTG AACGTGGATGGTGGAAAGATTCAAGAGGCGAAGACCGAGCAGCACATAGATCAGCACCTTCTGATCCAAAAGTAAGGGAGGGAAAATCTCGAGCAGAAGATA AACGTGGATGGTGGATAGATTCCAGAGGCGAAGACCGAGCATCACATAGATCAGGACCTTCTGATCCAAAGGTGAGGGAGGGAAAATCCGGAGCTGAAGGTGGTGACAGTCAGGTCTGGCGACATGATACATTCATAGAAGCGGAGGGTGATGCACAACCTAGTAAAAAAAGACGTCCATTTCGAGAAGAGAAACTTCCAGTGAAGTCTGAGGATGTGGATAATGCTGTTGTTCCTGAACGTAGTAAGGTTTCCCATCCTACTGGGGGGACTGCAAGGTGGGAACAAAAAGCTCATGATCGTCGCCCGTTGGAAAGGAATGAGCATGATCGAGCATATTTAAGGGAGAGGTCGTTTTCGAACCGAGGACGAGTAGAAAATACTGGTTTTCCTTCCAGGGACAGGTTTAATGGTGTTAGTAATAATGGGAAATTCATTGGAAGGGAGAATTTTGGTGGAAGAAAAGGTTATCATTCGAGTGGCGGTCGGGTTGAGAAGTGGAAGCATGACTTGTATGACGAGGCTAATAGAAGCCCAACCCCTAAAAAGGAGGAAGATCCTGTTGCAAAGGTGGAAGCATTACTTTCTTTGTAG ATTACTACTATTTGAATCACTGTTGGTTCGAAGATTACTGTTGGTTCTTGACTGAGGGACTTGATAGTTTTTGTGGGATTTTAATGCAGTTGTGTCTGGTGATTAATGGCGTAATGCTAACAGGTTCAATGCCTTATAGGTTATGGTACGGACTTGTATCTAGTTTGAACATTCTGGAGATGTTTGCTTATTGCTGTTGTTGATGTTGATCCTGCATTTCTCCATGCTATCTAAGTTAACATTTTGAGCAGAAGTTTAATACCATTCTGCAGTGTCAACCTTGAAGGTTGGTTCGTTGGTTCGTTCTACTTTTTTAGCTGCTGCCAAATTTTATCTGATGACAAACAAGATGACTGTAAATTATACAATCAAGGTTATGTAGGTTACACTTTAGAAGAGTTGCTGGAATTACATACATTCGCATGAAATTAACAAGGTAAAGATTACTAAGCTACATTTACACTTGCCGAAAGTTACCAAAAAATGAAGGCTTGAACATTACATTTCGGGTTCAGGGTACTAGACCCACCGCCCACGGCCTCACTGCTCAATTTGCACGTTCAAGTATGTTTGATGATTTGTTTAACGATTAGTTCCTTGTTGAAGGTGCCCCAGTATGTTTTTCTCCCCAGTCAACATTTCTGCGAGTCCTAACAAGAGACCAGAATATGTTATTTCAGAAAGGTAAAGCCATTTAATTTGTTCAGATAAGATGATTTACCATTGGTATAGTGACGACAATCATGGTCGCCAATGCGTAAGTCGGTTTCCCAGGTGCTGTTGAATGTATAAGCGGCTTCTACAGCATTTGGGAACTTGGATTGGCCTATGTACCAACATCTTTTCTTGGGCAGTTTGCTAATTTTTCTTACCAGAATAGTACCTGATCACTCAGTATTCTTAAACTAAATTATGTTGACACATTGATGCGGACTGTATATGTTGATGTTGAGCAAGGGAAATGTAGGCTCACCTGGGATAGGTCTACCAGTCAAAGCAGCCAGAGCCACATATATGTTTTCAGGATCCTGAGGCTGAAAATCAAACACTATACCCTGCACAACAAAAACCCATTCCTACAGGATTAAGGATTAAGGATTAAGGATTAAGGATTAAGGACAAGTTCATCATGCATGTCTAAGATTACCATCAAATATTTATTCCAAAAATAACCTGGAAGGTGGAAGGAGATGTAGGAGTGATGGAAGGTTTGATGATGAGCATGAAATGCTGAAGNCCTGGAAGGTGGAAGGAGATGTAGGAGTGATGGAAGGTTTGATGATGAGCATGAAATGCTGAAGATGCCATAAGTTGAGAGAATAGGCAGCAGACATAAGTATCTGAGCAGGTCCCTTGCTCGCTCTCAGTGCCGTCGTTGCCACATAAATTTCATCTCTACCCCTGCCTGAGGCCGTTAATGTCGGATTGCTTGGAAGCCCGGTCGNCCTGGAAGGTGGAAGGAGATGTAGGAGTGATGGAAGGTTTGATGATGAGCATGAAATGCTGAAGATGCCATAAGTTGAGAGAATAGGCAGCAGACATAAGTATCTGAGCAGGTCCCTTGCTCGCCCTCAGTGCCGTCGTTGCCACATAAATTTCATCTCTACCCCTGCCTGAGGCCGTTAATGTCGGATTGCTTGGAAGCCCGGTCGCCATTTTTTTTTAGTGAATTCATAAAATACGGGGTAAGCTTCTTATTAAATACTCCACTCACTAGTGGTCAACAGTGGAGGACCTACCTTCTACAACGGGTCACTAAATTCGAATATCAACTGTCTTTGTCTCAAGTAGATTAAAATTCTGGGATGGAATTAGAGACTTGAGGTTGAATCTTGTCTACTCGTTAGTTTGTCATCATAAACTTTTTTTTAACTCTCTTTGC
TATTGGATATCGCTAATTTTGCCGAACATGCCCCCATAATAATATAATATACTGCATATACCAGGTCGAAGGTCTCATGTCCGTCCATATTCTTCCCAACATCCTCCACTCTCTCGACGCCCGAGCTCAGACTCTGAAACTGACGCCTAACCAGTGACCACCTCAAGCCCTAATTTGTCGTCAAATATTTCAACAACAAATTCCGATTGCGTTTCCGATCCCGATTCCGTTTCTGATTTCAATCTTGATCATCGTTCTTCTTTAAGAATCTTCCCTCGTCCTCTTTGATCCAGATTGGTTTTTAAGTCAAAATGTCCGATAGTAAAGGTAAAGTACCTAGGGAGAGAAGTCCCAGCAGACTAAAATCAGAAGTAGGGGATAAGGATGGAGATAAAAAGCACATGCATCAACTTCAAGATGCTTTAGCTCTTGAGAGCTTGCCAGCTTCTGACTCTAAGCAAGAGGTTAAAGGTGCAAGCTCCATGTTGGATAGCAAGAATAATGGAAAAGGTGAAAGAACCGGTCATTCAAATACAACAGCAGTCCCTCGTCGATCTTATCATCAGCATGATGACCGTCGTACTGCCGCCCGAGATGGCAGCCGCTCTGGACGCAGGTCGACATCTGAACGTGGATGGTGGAAAGATTCAAGAGGCGAAGACCGAGCAGCACATAGATCAGCACCTTCTGATCCAAAAGTAAGGGAGGGAAAATCTCGAGCAGAAGATAAACGTGGATGGTGGATAGATTCCAGAGGCGAAGACCGAGCATCACATAGATCAGGACCTTCTGATCCAAAGGTGAGGGAGGGAAAATCCGGAGCTGAAGGTGGTGACAGTCAGGTCTGGCGACATGATACATTCATAGAAGCGGAGGGTGATGCACAACCTAGTAAAAAAAGACGTCCATTTCGAGAAGAGAAACTTCCAGTGAAGTCTGAGGATGTGGATAATGCTGTTGTTCCTGAACGTAGTAAGGTTTCCCATCCTACTGGGGGGACTGCAAGGTGGGAACAAAAAGCTCATGATCGTCGCCCGTTGGAAAGGAATGAGCATGATCGAGCATATTTAAGGGAGAGGTCGTTTTCGAACCGAGGACGAGTAGAAAATACTGGTTTTCCTTCCAGGGACAGGTTTAATGGTGTTAGTAATAATGGGAAATTCATTGGAAGGGAGAATTTTGGTGGAAGAAAAGGTTATCATTCGAGTGGCGGTCGGGTTGAGAAGTGGAAGCATGACTTGTATGACGAGGCTAATAGAAGCCCAACCCCTAAAAAGGAGGAAGATCCTGTTGCAAAGGTGGAAGCATTACTTTCTTTGTAGATTACTACTATTTGAATCACTGTTGGTTCGAAGATTACTGTTGGTTCTTGACTGAGGGACTTGATAGTTTTTGTGGGATTTTAATGCAGTTGTGTCTGGTGATTAATGGCGTAATGCTAACAGGTTCAATGCCTTATAGGTTATGGTACGGACTTGTATCTAGTTTGAACATTCTGGAGATGTTTGCTTATTGCTGTTGTTGATGTTGATCCTGCATTTCTCCATGCTATCTAAGTTAACATTTTGAGCAGAAGTTTAATACCATTCTGCAGTGTCAACCTTGAAGGTTGGTTCGTTGGTTCGTTCTACTTTTTTAGCTGCTGCCAAATTTTATCTGATGACAAACAAGATGACTGTAAATTATACAATCAAGGTTATGTAGGTTACACTTTAGAAGAGTTGCTGGAATTACATACATTCGCATGAAATTAACAAGGTAAAGATTACTAAGCTACATTTACACTTGCCGAAAGTTACCAAAAAATGAAGGCTTGAACATTACATTTCGGGTTCAGGGTACTAGACCCACCGCCCACGGCCTCACTGCTCAATTTGCACGTTCAAGTATGTTTGATGATTTGTTTAACGATTAGTTCCTTGTTGAAGGTGCCCCAGTATGTTTTTCTCCCCAGTCAACATTTCTGCGAGTCCTAACAAGAGACCAGAATATGTTATTTCAGAAAGGTAAAGCCATTTAATTTGTTCAGATAAGATGATTTACCATTGGTATAGTGACGACAATCATGGTCGCCAATGCGTAAGTCGGTTTCCCAGGTGCTGTTGAATGTATAAGCGGCTTCTACAGCATTTGGGAACTTGGATTGGCCTATGTACCAACATCTTTTCTTGGGCAGTTTGCTAATTTTTCTTACCAGAATAGTACCTGATCACTCAGTATTCTTAAACTAAATTATGTTGACACATTGATGCGGACTGTATATGTTGATGTTGAGCAAGGGAAATGTAGGCTCACCTGGGATAGGTCTACCAGTCAAAGCAGCCAGAGCCACATATATGTTTTCAGGATCCTGAGGCTGAAAATCAAACACTATACCCTGCACAACAAAAACCCATTCCTACAGGATTAAGGATTAAGGATTAAGGATTAAGGATTAAGGACAAGTTCATCATGCATGTCTAAGATTACCATCAAATATTTATTCCAAAAATAACCTGGAAGGTGGAAGGAGATGTAGGAGTGATGGAAGGTTTGATGATGAGCATGAAATGCTGAAGNCCTGGAAGGTGGAAGGAGATGTAGGAGTGATGGAAGGTTTGATGATGAGCATGAAATGCTGAAGATGCCATAAGTTGAGAGAATAGGCAGCAGACATAAGTATCTGAGCAGGTCCCTTGCTCGCTCTCAGTGCCGTCGTTGCCACATAAATTTCATCTCTACCCCTGCCTGAGGCCGTTAATGTCGGATTGCTTGGAAGCCCGGTCGNCCTGGAAGGTGGAAGGAGATGTAGGAGTGATGGAAGGTTTGATGATGAGCATGAAATGCTGAAGATGCCATAAGTTGAGAGAATAGGCAGCAGACATAAGTATCTGAGCAGGTCCCTTGCTCGCCCTCAGTGCCGTCGTTGCCACATAAATTTCATCTCTACCCCTGCCTGAGGCCGTTAATGTCGGATTGCTTGGAAGCCCGGTCGCCATTTTTTTTTAGTGAATTCATAAAATACGGGGTAAGCTTCTTATTAAATACTCCACTCACTAGTGGTCAACAGTGGAGGACCTACCTTCTACAACGGGTCACTAAATTCGAATATCAACTGTCTTTGTCTCAAGTAGATTAAAATTCTGGGATGGAATTAGAGACTTGAGGTTGAATCTTGTCTACTCGTTAGTTTGTCATCATAAACTTTTTTTTAACTCTCTTTGC
ATGTCCGATAGTAAAGGTAAAGTACCTAGGGAGAGAAGTCCCAGCAGACTAAAATCAGAAGTAGGGGATAAGGATGGAGATAAAAAGCACATGCATCAACTTCAAGATGCTTTAGCTCTTGAGAGCTTGCCAGCTTCTGACTCTAAGCAAGAGGTTAAAGGTGCAAGCTCCATGTTGGATAGCAAGAATAATGGAAAAGGTGAAAGAACCGGTCATTCAAATACAACAGCAGTCCCTCGTCGATCTTATCATCAGCATGATGACCGTCGTACTGCCGCCCGAGATGGCAGCCGCTCTGGACGCAGGTCGACATCTGAACGTGGATGGTGGAAAGATTCAAGAGGCGAAGACCGAGCAGCACATAGATCAGCACCTTCTGATCCAAAAGTAAGGGAGGGAAAATCTCGAGCAGAAGATAAACGTGGATGGTGGATAGATTCCAGAGGCGAAGACCGAGCATCACATAGATCAGGACCTTCTGATCCAAAGGTGAGGGAGGGAAAATCCGGAGCTGAAGGTGGTGACAGTCAGGTCTGGCGACATGATACATTCATAGAAGCGGAGGGTGATGCACAACCTAGTAAAAAAAGACGTCCATTTCGAGAAGAGAAACTTCCAGTGAAGTCTGAGGATGTGGATAATGCTGTTGTTCCTGAACGTAGTAAGGTTTCCCATCCTACTGGGGGGACTGCAAGGTGGGAACAAAAAGCTCATGATCGTCGCCCGTTGGAAAGGAATGAGCATGATCGAGCATATTTAAGGGAGAGGTCGTTTTCGAACCGAGGACGAGTAGAAAATACTGGTTTTCCTTCCAGGGACAGGTTTAATGGTGTTAGTAATAATGGGAAATTCATTGGAAGGGAGAATTTTGGTGGAAGAAAAGGTTATCATTCGAGTGGCGGTCGGGTTGAGAAGTGGAAGCATGACTTGTATGACGAGGCTAATAGAAGCCCAACCCCTAAAAAGGAGGAAGATCCTGTTGCAAAGGTGGAAGCATTACTTTCTTTGTAG
MSDSKGKVPRERSPSRLKSEVGDKDGDKKHMHQLQDALALESLPASDSKQEVKGASSMLDSKNNGKGERTGHSNTTAVPRRSYHQHDDRRTAARDGSRSGRRSTSERGWWKDSRGEDRAAHRSAPSDPKVREGKSRAEDKRGWWIDSRGEDRASHRSGPSDPKVREGKSGAEGGDSQVWRHDTFIEAEGDAQPSKKRRPFREEKLPVKSEDVDNAVVPERSKVSHPTGGTARWEQKAHDRRPLERNEHDRAYLRERSFSNRGRVENTGFPSRDRFNGVSNNGKFIGRENFGGRKGYHSSGGRVEKWKHDLYDEANRSPTPKKEEDPVAKVEALLSL
Relationships
This mRNA is a part of the following gene feature(s):
Feature Name Unique Name Type
Spo13409 Spo13409 gene
The following polypeptide feature(s) derives from this mRNA:
Feature Name Unique Name Type
Spo13409.1 Spo13409.1-protein polypeptide
The following exon feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo13409.1.exon.1 Spo13409.1.exon.1 exon Spo13409.1.exon.2 Spo13409.1.exon.2 exon Spo13409.1.exon.3 Spo13409.1.exon.3 exon Spo13409.1.exon.4 Spo13409.1.exon.4 exon Spo13409.1.exon.5 Spo13409.1.exon.5 exon
The following five_prime_UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo13409.1.utr5p.1 Spo13409.1.utr5p.1 five_prime_UTR Spo13409.1.utr5p.2 Spo13409.1.utr5p.2 five_prime_UTR
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo13409.1.CDS.1 Spo13409.1.CDS.1 CDS Spo13409.1.CDS.2 Spo13409.1.CDS.2 CDS Spo13409.1.CDS.3 Spo13409.1.CDS.3 CDS Spo13409.1.CDS.4 Spo13409.1.CDS.4 CDS
The following three_prime_UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo13409.1.utr3p.1 Spo13409.1.utr3p.1 three_prime_UTR
Homology
BLAST of Spo13409.1 vs. NCBI nr
Match:
gi|902230561|gb|KNA21894.1| (hypothetical protein SOVF_039080 [Spinacia oleracea])
HSP 1 Score: 652.1 bits (1681), Expect = 5.200e-184
Identity = 334/336 (99.40%), Postives = 334/336 (99.40%), Query Frame = 1
BLAST of Spo13409.1 vs. NCBI nr
Match:
gi|731355113|ref|XP_010688967.1| (PREDICTED: uncharacterized protein LOC104902762 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 302.8 bits (774), Expect = 7.700e-79
Identity = 186/337 (55.19%), Postives = 223/337 (66.17%), Query Frame = 1
BLAST of Spo13409.1 vs. NCBI nr
Match:
gi|225428989|ref|XP_002265317.1| (PREDICTED: nuclear speckle splicing regulatory protein 1 [Vitis vinifera])
HSP 1 Score: 176.4 bits (446), Expect = 8.300e-41
Identity = 133/334 (39.82%), Postives = 185/334 (55.39%), Query Frame = 1
BLAST of Spo13409.1 vs. NCBI nr
Match:
gi|719970872|ref|XP_010272549.1| (PREDICTED: protein CASC3 [Nelumbo nucifera])
HSP 1 Score: 168.3 bits (425), Expect = 2.300e-38
Identity = 133/342 (38.89%), Postives = 181/342 (52.92%), Query Frame = 1
BLAST of Spo13409.1 vs. NCBI nr
Match:
gi|645261495|ref|XP_008236319.1| (PREDICTED: pre-mRNA-splicing factor CWC22 homolog isoform X2 [Prunus mume])
HSP 1 Score: 162.2 bits (409), Expect = 1.600e-36
Identity = 131/337 (38.87%), Postives = 187/337 (55.49%), Query Frame = 1
BLAST of Spo13409.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9RSK1_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_039080 PE=4 SV=1)
HSP 1 Score: 652.1 bits (1681), Expect = 3.600e-184
Identity = 334/336 (99.40%), Postives = 334/336 (99.40%), Query Frame = 1
BLAST of Spo13409.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8BMR3_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_9g204730 PE=4 SV=1)
HSP 1 Score: 302.8 bits (774), Expect = 5.400e-79
Identity = 186/337 (55.19%), Postives = 223/337 (66.17%), Query Frame = 1
BLAST of Spo13409.1 vs. UniProtKB/TrEMBL
Match:
D7SXQ5_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_03s0091g00830 PE=4 SV=1)
HSP 1 Score: 176.4 bits (446), Expect = 5.800e-41
Identity = 133/334 (39.82%), Postives = 185/334 (55.39%), Query Frame = 1
BLAST of Spo13409.1 vs. UniProtKB/TrEMBL
Match:
M5VL67_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa008588mg PE=4 SV=1)
HSP 1 Score: 159.5 bits (402), Expect = 7.300e-36
Identity = 129/337 (38.28%), Postives = 188/337 (55.79%), Query Frame = 1
BLAST of Spo13409.1 vs. UniProtKB/TrEMBL
Match:
A0A0A0KV12_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G000750 PE=4 SV=1)
HSP 1 Score: 154.1 bits (388), Expect = 3.100e-34
Identity = 143/364 (39.29%), Postives = 187/364 (51.37%), Query Frame = 1
BLAST of Spo13409.1 vs. TAIR (Arabidopsis)
Match:
AT3G19650.1 (cyclin-related)
HSP 1 Score: 62.8 bits (151), Expect = 4.700e-10
Identity = 101/352 (28.69%), Postives = 144/352 (40.91%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo13409.1 vs. NCBI nr
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. NCBI nr )
Total hits: 5
T A T T G G A T A T C G C T A A T T T T G C C G A A C A T G C C C C C A T A A T A A T A T A A T A T A C T G C A T A T A C C A G G T C G A A G G T C T C A T G T C C G T C C A T A T T C T T C C C A A C A T C C T C C A C T C T C T C G A C G C C C G A G C T C A G A C T C T G A A A C T G A C G C C T A A C C A G T G A C C A C C T C A A G C C C T A A T T T G T C G T C A A A T A T T T C A A C A A C A A A T T C C G A T T G C G T T T C C G A T C C C G A T T C C G T T T C T G A T T T C A A T C T T G A T C A T C G T T C T T C T T T A A G A A T C T T C C C T C G T C C T C T T T G A T C C A G A T T G G T T T T T A A G T C A A A A T G T C C G A T A G T A A A G G T A A A G T A C C T A G G G A G A G A A G T C C C A G C A G A C T A A A A T C A G A A G T A G G G G A T A A G G A T G G A G A T A A A A A G C A C A T G C A T C A A C T T C A A G A T G C T T T A G C T C T T G A G A G C T T G C C A G C T T C T G A C T C T A A G C A A G A G G T T A A A G G T G C A A G C T C C A T G T T G G A T A G C A A G A A T A A T G G A A A A G G T G A A A G A A C C G G T C A T T C A A A T A C A A C A G C A G T C C C T C G T C G A T C T T A T C A T C A G C A T G A T G A C C G T C G T A C T G C C G C C C G A G A T G G C A G C C G C T C T G G A C G C A G G T C G A C A T C T G A A C G T G G A T G G T G G A A A G A T T C A A G A G G C G A A G A C C G A G C A G C A C A T A G A T C A G C A C C T T C T G A T C C A A A A G T A A G G G A G G G A A A A T C T C G A G C A G A A G A T A A A C G T G G A T G G T G G A T A G A T T C C A G A G G C G A A G A C C G A G C A T C A C A T A G A T C A G G A C C T T C T G A T C C A A A G G T G A G G G A G G G A A A A T C C G G A G C T G A A G G T G G T G A C A G T C A G G T C T G G C G A C A T G A T A C A T T C A T A G A A G C G G A G G G T G A T G C A C A A C C T A G T A A A A A A A G A C G T C C A T T T C G A G A A G A G A A A C T T C C A G T G A A G T C T G A G G A T G T G G A T A A T G C T G T T G T T C C T G A A C G T A G T A A G G T T T C C C A T C C T A C T G G G G G G A C T G C A A G G T G G G A A C A A A A A G C T C A T G A T C G T C G C C C G T T G G A A A G G A A T G A G C A T G A T C G A G C A T A T T T A A G G G A G A G G T C G T T T T C G A A C C G A G G A C G A G T A G A A A A T A C T G G T T T T C C T T C C A G G G A C A G G T T T A A T G G T G T T A G T A A T A A T G G G A A A T T C A T T G G A A G G G A G A A T T T T G G T G G A A G A A A A G G T T A T C A T T C G A G T G G C G G T C G G G T T G A G A A G T G G A A G C A T G A C T T G T A T G A C G A G G C T A A T A G A A G C C C A A C C C C T A A A A A G G A G G A A G A T C C T G T T G C A A A G G T G G A A G C A T T A C T T T C T T T G T A G A T T A C T A C T A T T T G A A T C A C T G T T G G T T C G A A G A T T A C T G T T G G T T C T T G A C T G A G G G A C T T G A T A G T T T T T G T G G G A T T T T A A T G C A G T T G T G T C T G G T G A T T A A T G G C G T A A T G C T A A C A G G T T C A A T G C C T T A T A G G T T A T G G T A C G G A C T T G T A T C T A G T T T G A A C A T T C T G G A G A T G T T T G C T T A T T G C T G T T G T T G A T G T T G A T C C T G C A T T T C T C C A T G C T A T C T A A G T T A A C A T T T T G A G C A G A A G T T T A A T A C C A T T C T G C A G T G T C A A C C T T G A A G G T T G G T T C G T T G G T T C G T T C T A C T T T T T T A G C T G C T G C C A A A T T T T A T C T G A T G A C A A A C A A G A T G A C T G T A A A T T A T A C A A T C A A G G T T A T G T A G G T T A C A C T T T A G A A G A G T T G C T G G A A T T A C A T A C A T T C G C A T G A A A T T A A C A A G G T A A A G A T T A C T A A G C T A C A T T T A C A C T T G C C G A A A G T T A C C A A A A A A T G A A G G C T T G A A C A T T A C A T T T C G G G T T C A G G G T A C T A G A C C C A C C G C C C A C G G C C T C A C T G C T C A A T T T G C A C G T T C A A G T A T G T T T G A T G A T T T G T T T A A C G A T T A G T T C C T T G T T G A A G G T G C C C C A G T A T G T T T T T C T C C C C A G T C A A C A T T T C T G C G A G T C C T A A C A A G A G A C C A G A A T A T G T T A T T T C A G A A A G G T A A A G C C A T T T A A T T T G T T C A G A T A A G A T G A T T T A C C A T T G G T A T A G T G A C G A C A A T C A T G G T C G C C A A T G C G T A A G T C G G T T T C C C A G G T G C T G T T G A A T G T A T A A G C G G C T T C T A C A G C A T T T G G G A A C T T G G A T T G G C C T A T G T A C C A A C A T C T T T T C T T G G G C A G T T T G C T A A T T T T T C T T A C C A G A A T A G T A C C T G A T C A C T C A G T A T T C T T A A A C T A A A T T A T G T T G A C A C A T T G A T G C G G A C T G T A T A T G T T G A T G T T G A G C A A G G G A A A T G T A G G C T C A C C T G G G A T A G G T C T A C C A G T C A A A G C A G C C A G A G C C A C A T A T A T G T T T T C A G G A T C C T G A G G C T G A A A A T C A A A C A C T A T A C C C T G C A C A A C A A A A A C C C A T T C C T A C A G G A T T A A G G A T T A A G G A T T A A G G A T T A A G G A T T A A G G A C A A G T T C A T C A T G C A T G T C T A A G A T T A C C A T C A A A T A T T T A T T C C A A A A A T A A C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G N C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G A T G C C A T A A G T T G A G A G A A T A G G C A G C A G A C A T A A G T A T C T G A G C A G G T C C C T T G C T C G C T C T C A G T G C C G T C G T T G C C A C A T A A A T T T C A T C T C T A C C C C T G C C T G A G G C C G T T A A T G T C G G A T T G C T T G G A A G C C C G G T C G N C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G A T G C C A T A A G T T G A G A G A A T A G G C A G C A G A C A T A A G T A T C T G A G C A G G T C C C T T G C T C G C C C T C A G T G C C G T C G T T G C C A C A T A A A T T T C A T C T C T A C C C C T G C C T G A G G C C G T T A A T G T C G G A T T G C T T G G A A G C C C G G T C G C C A T T T T T T T T T A G T G A A T T C A T A A A A T A C G G G G T A A G C T T C T T A T T A A A T A C T C C A C T C A C T A G T G G T C A A C A G T G G A G G A C C T A C C T T C T A C A A C G G G T C A C T A A A T T C G A A T A T C A A C T G T C T T T G T C T C A A G T A G A T T A A A A T T C T G G G A T G G A A T T A G A G A C T T G A G G T T G A A T C T T G T C T A C T C G T T A G T T T G T C A T C A T A A A C T T T T T T T T A A C T C T C T T T G C 500 1000 1500 2000 2500 3000 Expect = 5.20e-184 / Id = 99.40 Expect = 7.70e-79 / Id = 55.19 Expect = 8.30e-41 / Id = 39.82 Expect = 2.30e-38 / Id = 38.89 Expect = 1.60e-36 / Id = 38.87 Sequence KNA21894.1 XP_010688967.1 XP_002265317.1 XP_010272549.1 XP_008236319.1 back to top
BLAST of Spo13409.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL )
Total hits: 5
T A T T G G A T A T C G C T A A T T T T G C C G A A C A T G C C C C C A T A A T A A T A T A A T A T A C T G C A T A T A C C A G G T C G A A G G T C T C A T G T C C G T C C A T A T T C T T C C C A A C A T C C T C C A C T C T C T C G A C G C C C G A G C T C A G A C T C T G A A A C T G A C G C C T A A C C A G T G A C C A C C T C A A G C C C T A A T T T G T C G T C A A A T A T T T C A A C A A C A A A T T C C G A T T G C G T T T C C G A T C C C G A T T C C G T T T C T G A T T T C A A T C T T G A T C A T C G T T C T T C T T T A A G A A T C T T C C C T C G T C C T C T T T G A T C C A G A T T G G T T T T T A A G T C A A A A T G T C C G A T A G T A A A G G T A A A G T A C C T A G G G A G A G A A G T C C C A G C A G A C T A A A A T C A G A A G T A G G G G A T A A G G A T G G A G A T A A A A A G C A C A T G C A T C A A C T T C A A G A T G C T T T A G C T C T T G A G A G C T T G C C A G C T T C T G A C T C T A A G C A A G A G G T T A A A G G T G C A A G C T C C A T G T T G G A T A G C A A G A A T A A T G G A A A A G G T G A A A G A A C C G G T C A T T C A A A T A C A A C A G C A G T C C C T C G T C G A T C T T A T C A T C A G C A T G A T G A C C G T C G T A C T G C C G C C C G A G A T G G C A G C C G C T C T G G A C G C A G G T C G A C A T C T G A A C G T G G A T G G T G G A A A G A T T C A A G A G G C G A A G A C C G A G C A G C A C A T A G A T C A G C A C C T T C T G A T C C A A A A G T A A G G G A G G G A A A A T C T C G A G C A G A A G A T A A A C G T G G A T G G T G G A T A G A T T C C A G A G G C G A A G A C C G A G C A T C A C A T A G A T C A G G A C C T T C T G A T C C A A A G G T G A G G G A G G G A A A A T C C G G A G C T G A A G G T G G T G A C A G T C A G G T C T G G C G A C A T G A T A C A T T C A T A G A A G C G G A G G G T G A T G C A C A A C C T A G T A A A A A A A G A C G T C C A T T T C G A G A A G A G A A A C T T C C A G T G A A G T C T G A G G A T G T G G A T A A T G C T G T T G T T C C T G A A C G T A G T A A G G T T T C C C A T C C T A C T G G G G G G A C T G C A A G G T G G G A A C A A A A A G C T C A T G A T C G T C G C C C G T T G G A A A G G A A T G A G C A T G A T C G A G C A T A T T T A A G G G A G A G G T C G T T T T C G A A C C G A G G A C G A G T A G A A A A T A C T G G T T T T C C T T C C A G G G A C A G G T T T A A T G G T G T T A G T A A T A A T G G G A A A T T C A T T G G A A G G G A G A A T T T T G G T G G A A G A A A A G G T T A T C A T T C G A G T G G C G G T C G G G T T G A G A A G T G G A A G C A T G A C T T G T A T G A C G A G G C T A A T A G A A G C C C A A C C C C T A A A A A G G A G G A A G A T C C T G T T G C A A A G G T G G A A G C A T T A C T T T C T T T G T A G A T T A C T A C T A T T T G A A T C A C T G T T G G T T C G A A G A T T A C T G T T G G T T C T T G A C T G A G G G A C T T G A T A G T T T T T G T G G G A T T T T A A T G C A G T T G T G T C T G G T G A T T A A T G G C G T A A T G C T A A C A G G T T C A A T G C C T T A T A G G T T A T G G T A C G G A C T T G T A T C T A G T T T G A A C A T T C T G G A G A T G T T T G C T T A T T G C T G T T G T T G A T G T T G A T C C T G C A T T T C T C C A T G C T A T C T A A G T T A A C A T T T T G A G C A G A A G T T T A A T A C C A T T C T G C A G T G T C A A C C T T G A A G G T T G G T T C G T T G G T T C G T T C T A C T T T T T T A G C T G C T G C C A A A T T T T A T C T G A T G A C A A A C A A G A T G A C T G T A A A T T A T A C A A T C A A G G T T A T G T A G G T T A C A C T T T A G A A G A G T T G C T G G A A T T A C A T A C A T T C G C A T G A A A T T A A C A A G G T A A A G A T T A C T A A G C T A C A T T T A C A C T T G C C G A A A G T T A C C A A A A A A T G A A G G C T T G A A C A T T A C A T T T C G G G T T C A G G G T A C T A G A C C C A C C G C C C A C G G C C T C A C T G C T C A A T T T G C A C G T T C A A G T A T G T T T G A T G A T T T G T T T A A C G A T T A G T T C C T T G T T G A A G G T G C C C C A G T A T G T T T T T C T C C C C A G T C A A C A T T T C T G C G A G T C C T A A C A A G A G A C C A G A A T A T G T T A T T T C A G A A A G G T A A A G C C A T T T A A T T T G T T C A G A T A A G A T G A T T T A C C A T T G G T A T A G T G A C G A C A A T C A T G G T C G C C A A T G C G T A A G T C G G T T T C C C A G G T G C T G T T G A A T G T A T A A G C G G C T T C T A C A G C A T T T G G G A A C T T G G A T T G G C C T A T G T A C C A A C A T C T T T T C T T G G G C A G T T T G C T A A T T T T T C T T A C C A G A A T A G T A C C T G A T C A C T C A G T A T T C T T A A A C T A A A T T A T G T T G A C A C A T T G A T G C G G A C T G T A T A T G T T G A T G T T G A G C A A G G G A A A T G T A G G C T C A C C T G G G A T A G G T C T A C C A G T C A A A G C A G C C A G A G C C A C A T A T A T G T T T T C A G G A T C C T G A G G C T G A A A A T C A A A C A C T A T A C C C T G C A C A A C A A A A A C C C A T T C C T A C A G G A T T A A G G A T T A A G G A T T A A G G A T T A A G G A T T A A G G A C A A G T T C A T C A T G C A T G T C T A A G A T T A C C A T C A A A T A T T T A T T C C A A A A A T A A C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G N C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G A T G C C A T A A G T T G A G A G A A T A G G C A G C A G A C A T A A G T A T C T G A G C A G G T C C C T T G C T C G C T C T C A G T G C C G T C G T T G C C A C A T A A A T T T C A T C T C T A C C C C T G C C T G A G G C C G T T A A T G T C G G A T T G C T T G G A A G C C C G G T C G N C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G A T G C C A T A A G T T G A G A G A A T A G G C A G C A G A C A T A A G T A T C T G A G C A G G T C C C T T G C T C G C C C T C A G T G C C G T C G T T G C C A C A T A A A T T T C A T C T C T A C C C C T G C C T G A G G C C G T T A A T G T C G G A T T G C T T G G A A G C C C G G T C G C C A T T T T T T T T T A G T G A A T T C A T A A A A T A C G G G G T A A G C T T C T T A T T A A A T A C T C C A C T C A C T A G T G G T C A A C A G T G G A G G A C C T A C C T T C T A C A A C G G G T C A C T A A A T T C G A A T A T C A A C T G T C T T T G T C T C A A G T A G A T T A A A A T T C T G G G A T G G A A T T A G A G A C T T G A G G T T G A A T C T T G T C T A C T C G T T A G T T T G T C A T C A T A A A C T T T T T T T T A A C T C T C T T T G C 500 1000 1500 2000 2500 3000 Expect = 3.60e-184 / Id = 99.40 Expect = 5.40e-79 / Id = 55.19 Expect = 5.80e-41 / Id = 39.82 Expect = 7.30e-36 / Id = 38.28 Expect = 3.10e-34 / Id = 39.29 Sequence A0A0K9RSK1_SPIOL A0A0J8BMR3_BETVU D7SXQ5_VITVI M5VL67_PRUPE A0A0A0KV12_CUCSA back to top
BLAST of Spo13409.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. ExPASy SwissProt )
Total hits: 0
T A T T G G A T A T C G C T A A T T T T G C C G A A C A T G C C C C C A T A A T A A T A T A A T A T A C T G C A T A T A C C A G G T C G A A G G T C T C A T G T C C G T C C A T A T T C T T C C C A A C A T C C T C C A C T C T C T C G A C G C C C G A G C T C A G A C T C T G A A A C T G A C G C C T A A C C A G T G A C C A C C T C A A G C C C T A A T T T G T C G T C A A A T A T T T C A A C A A C A A A T T C C G A T T G C G T T T C C G A T C C C G A T T C C G T T T C T G A T T T C A A T C T T G A T C A T C G T T C T T C T T T A A G A A T C T T C C C T C G T C C T C T T T G A T C C A G A T T G G T T T T T A A G T C A A A A T G T C C G A T A G T A A A G G T A A A G T A C C T A G G G A G A G A A G T C C C A G C A G A C T A A A A T C A G A A G T A G G G G A T A A G G A T G G A G A T A A A A A G C A C A T G C A T C A A C T T C A A G A T G C T T T A G C T C T T G A G A G C T T G C C A G C T T C T G A C T C T A A G C A A G A G G T T A A A G G T G C A A G C T C C A T G T T G G A T A G C A A G A A T A A T G G A A A A G G T G A A A G A A C C G G T C A T T C A A A T A C A A C A G C A G T C C C T C G T C G A T C T T A T C A T C A G C A T G A T G A C C G T C G T A C T G C C G C C C G A G A T G G C A G C C G C T C T G G A C G C A G G T C G A C A T C T G A A C G T G G A T G G T G G A A A G A T T C A A G A G G C G A A G A C C G A G C A G C A C A T A G A T C A G C A C C T T C T G A T C C A A A A G T A A G G G A G G G A A A A T C T C G A G C A G A A G A T A A A C G T G G A T G G T G G A T A G A T T C C A G A G G C G A A G A C C G A G C A T C A C A T A G A T C A G G A C C T T C T G A T C C A A A G G T G A G G G A G G G A A A A T C C G G A G C T G A A G G T G G T G A C A G T C A G G T C T G G C G A C A T G A T A C A T T C A T A G A A G C G G A G G G T G A T G C A C A A C C T A G T A A A A A A A G A C G T C C A T T T C G A G A A G A G A A A C T T C C A G T G A A G T C T G A G G A T G T G G A T A A T G C T G T T G T T C C T G A A C G T A G T A A G G T T T C C C A T C C T A C T G G G G G G A C T G C A A G G T G G G A A C A A A A A G C T C A T G A T C G T C G C C C G T T G G A A A G G A A T G A G C A T G A T C G A G C A T A T T T A A G G G A G A G G T C G T T T T C G A A C C G A G G A C G A G T A G A A A A T A C T G G T T T T C C T T C C A G G G A C A G G T T T A A T G G T G T T A G T A A T A A T G G G A A A T T C A T T G G A A G G G A G A A T T T T G G T G G A A G A A A A G G T T A T C A T T C G A G T G G C G G T C G G G T T G A G A A G T G G A A G C A T G A C T T G T A T G A C G A G G C T A A T A G A A G C C C A A C C C C T A A A A A G G A G G A A G A T C C T G T T G C A A A G G T G G A A G C A T T A C T T T C T T T G T A G A T T A C T A C T A T T T G A A T C A C T G T T G G T T C G A A G A T T A C T G T T G G T T C T T G A C T G A G G G A C T T G A T A G T T T T T G T G G G A T T T T A A T G C A G T T G T G T C T G G T G A T T A A T G G C G T A A T G C T A A C A G G T T C A A T G C C T T A T A G G T T A T G G T A C G G A C T T G T A T C T A G T T T G A A C A T T C T G G A G A T G T T T G C T T A T T G C T G T T G T T G A T G T T G A T C C T G C A T T T C T C C A T G C T A T C T A A G T T A A C A T T T T G A G C A G A A G T T T A A T A C C A T T C T G C A G T G T C A A C C T T G A A G G T T G G T T C G T T G G T T C G T T C T A C T T T T T T A G C T G C T G C C A A A T T T T A T C T G A T G A C A A A C A A G A T G A C T G T A A A T T A T A C A A T C A A G G T T A T G T A G G T T A C A C T T T A G A A G A G T T G C T G G A A T T A C A T A C A T T C G C A T G A A A T T A A C A A G G T A A A G A T T A C T A A G C T A C A T T T A C A C T T G C C G A A A G T T A C C A A A A A A T G A A G G C T T G A A C A T T A C A T T T C G G G T T C A G G G T A C T A G A C C C A C C G C C C A C G G C C T C A C T G C T C A A T T T G C A C G T T C A A G T A T G T T T G A T G A T T T G T T T A A C G A T T A G T T C C T T G T T G A A G G T G C C C C A G T A T G T T T T T C T C C C C A G T C A A C A T T T C T G C G A G T C C T A A C A A G A G A C C A G A A T A T G T T A T T T C A G A A A G G T A A A G C C A T T T A A T T T G T T C A G A T A A G A T G A T T T A C C A T T G G T A T A G T G A C G A C A A T C A T G G T C G C C A A T G C G T A A G T C G G T T T C C C A G G T G C T G T T G A A T G T A T A A G C G G C T T C T A C A G C A T T T G G G A A C T T G G A T T G G C C T A T G T A C C A A C A T C T T T T C T T G G G C A G T T T G C T A A T T T T T C T T A C C A G A A T A G T A C C T G A T C A C T C A G T A T T C T T A A A C T A A A T T A T G T T G A C A C A T T G A T G C G G A C T G T A T A T G T T G A T G T T G A G C A A G G G A A A T G T A G G C T C A C C T G G G A T A G G T C T A C C A G T C A A A G C A G C C A G A G C C A C A T A T A T G T T T T C A G G A T C C T G A G G C T G A A A A T C A A A C A C T A T A C C C T G C A C A A C A A A A A C C C A T T C C T A C A G G A T T A A G G A T T A A G G A T T A A G G A T T A A G G A T T A A G G A C A A G T T C A T C A T G C A T G T C T A A G A T T A C C A T C A A A T A T T T A T T C C A A A A A T A A C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G N C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G A T G C C A T A A G T T G A G A G A A T A G G C A G C A G A C A T A A G T A T C T G A G C A G G T C C C T T G C T C G C T C T C A G T G C C G T C G T T G C C A C A T A A A T T T C A T C T C T A C C C C T G C C T G A G G C C G T T A A T G T C G G A T T G C T T G G A A G C C C G G T C G N C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G A T G C C A T A A G T T G A G A G A A T A G G C A G C A G A C A T A A G T A T C T G A G C A G G T C C C T T G C T C G C C C T C A G T G C C G T C G T T G C C A C A T A A A T T T C A T C T C T A C C C C T G C C T G A G G C C G T T A A T G T C G G A T T G C T T G G A A G C C C G G T C G C C A T T T T T T T T T A G T G A A T T C A T A A A A T A C G G G G T A A G C T T C T T A T T A A A T A C T C C A C T C A C T A G T G G T C A A C A G T G G A G G A C C T A C C T T C T A C A A C G G G T C A C T A A A T T C G A A T A T C A A C T G T C T T T G T C T C A A G T A G A T T A A A A T T C T G G G A T G G A A T T A G A G A C T T G A G G T T G A A T C T T G T C T A C T C G T T A G T T T G T C A T C A T A A A C T T T T T T T T A A C T C T C T T T G C 500 1000 1500 2000 2500 3000 Sequence
Match Name E-value Identity Description
back to top
BLAST of Spo13409.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. TAIR )
Total hits: 1
T A T T G G A T A T C G C T A A T T T T G C C G A A C A T G C C C C C A T A A T A A T A T A A T A T A C T G C A T A T A C C A G G T C G A A G G T C T C A T G T C C G T C C A T A T T C T T C C C A A C A T C C T C C A C T C T C T C G A C G C C C G A G C T C A G A C T C T G A A A C T G A C G C C T A A C C A G T G A C C A C C T C A A G C C C T A A T T T G T C G T C A A A T A T T T C A A C A A C A A A T T C C G A T T G C G T T T C C G A T C C C G A T T C C G T T T C T G A T T T C A A T C T T G A T C A T C G T T C T T C T T T A A G A A T C T T C C C T C G T C C T C T T T G A T C C A G A T T G G T T T T T A A G T C A A A A T G T C C G A T A G T A A A G G T A A A G T A C C T A G G G A G A G A A G T C C C A G C A G A C T A A A A T C A G A A G T A G G G G A T A A G G A T G G A G A T A A A A A G C A C A T G C A T C A A C T T C A A G A T G C T T T A G C T C T T G A G A G C T T G C C A G C T T C T G A C T C T A A G C A A G A G G T T A A A G G T G C A A G C T C C A T G T T G G A T A G C A A G A A T A A T G G A A A A G G T G A A A G A A C C G G T C A T T C A A A T A C A A C A G C A G T C C C T C G T C G A T C T T A T C A T C A G C A T G A T G A C C G T C G T A C T G C C G C C C G A G A T G G C A G C C G C T C T G G A C G C A G G T C G A C A T C T G A A C G T G G A T G G T G G A A A G A T T C A A G A G G C G A A G A C C G A G C A G C A C A T A G A T C A G C A C C T T C T G A T C C A A A A G T A A G G G A G G G A A A A T C T C G A G C A G A A G A T A A A C G T G G A T G G T G G A T A G A T T C C A G A G G C G A A G A C C G A G C A T C A C A T A G A T C A G G A C C T T C T G A T C C A A A G G T G A G G G A G G G A A A A T C C G G A G C T G A A G G T G G T G A C A G T C A G G T C T G G C G A C A T G A T A C A T T C A T A G A A G C G G A G G G T G A T G C A C A A C C T A G T A A A A A A A G A C G T C C A T T T C G A G A A G A G A A A C T T C C A G T G A A G T C T G A G G A T G T G G A T A A T G C T G T T G T T C C T G A A C G T A G T A A G G T T T C C C A T C C T A C T G G G G G G A C T G C A A G G T G G G A A C A A A A A G C T C A T G A T C G T C G C C C G T T G G A A A G G A A T G A G C A T G A T C G A G C A T A T T T A A G G G A G A G G T C G T T T T C G A A C C G A G G A C G A G T A G A A A A T A C T G G T T T T C C T T C C A G G G A C A G G T T T A A T G G T G T T A G T A A T A A T G G G A A A T T C A T T G G A A G G G A G A A T T T T G G T G G A A G A A A A G G T T A T C A T T C G A G T G G C G G T C G G G T T G A G A A G T G G A A G C A T G A C T T G T A T G A C G A G G C T A A T A G A A G C C C A A C C C C T A A A A A G G A G G A A G A T C C T G T T G C A A A G G T G G A A G C A T T A C T T T C T T T G T A G A T T A C T A C T A T T T G A A T C A C T G T T G G T T C G A A G A T T A C T G T T G G T T C T T G A C T G A G G G A C T T G A T A G T T T T T G T G G G A T T T T A A T G C A G T T G T G T C T G G T G A T T A A T G G C G T A A T G C T A A C A G G T T C A A T G C C T T A T A G G T T A T G G T A C G G A C T T G T A T C T A G T T T G A A C A T T C T G G A G A T G T T T G C T T A T T G C T G T T G T T G A T G T T G A T C C T G C A T T T C T C C A T G C T A T C T A A G T T A A C A T T T T G A G C A G A A G T T T A A T A C C A T T C T G C A G T G T C A A C C T T G A A G G T T G G T T C G T T G G T T C G T T C T A C T T T T T T A G C T G C T G C C A A A T T T T A T C T G A T G A C A A A C A A G A T G A C T G T A A A T T A T A C A A T C A A G G T T A T G T A G G T T A C A C T T T A G A A G A G T T G C T G G A A T T A C A T A C A T T C G C A T G A A A T T A A C A A G G T A A A G A T T A C T A A G C T A C A T T T A C A C T T G C C G A A A G T T A C C A A A A A A T G A A G G C T T G A A C A T T A C A T T T C G G G T T C A G G G T A C T A G A C C C A C C G C C C A C G G C C T C A C T G C T C A A T T T G C A C G T T C A A G T A T G T T T G A T G A T T T G T T T A A C G A T T A G T T C C T T G T T G A A G G T G C C C C A G T A T G T T T T T C T C C C C A G T C A A C A T T T C T G C G A G T C C T A A C A A G A G A C C A G A A T A T G T T A T T T C A G A A A G G T A A A G C C A T T T A A T T T G T T C A G A T A A G A T G A T T T A C C A T T G G T A T A G T G A C G A C A A T C A T G G T C G C C A A T G C G T A A G T C G G T T T C C C A G G T G C T G T T G A A T G T A T A A G C G G C T T C T A C A G C A T T T G G G A A C T T G G A T T G G C C T A T G T A C C A A C A T C T T T T C T T G G G C A G T T T G C T A A T T T T T C T T A C C A G A A T A G T A C C T G A T C A C T C A G T A T T C T T A A A C T A A A T T A T G T T G A C A C A T T G A T G C G G A C T G T A T A T G T T G A T G T T G A G C A A G G G A A A T G T A G G C T C A C C T G G G A T A G G T C T A C C A G T C A A A G C A G C C A G A G C C A C A T A T A T G T T T T C A G G A T C C T G A G G C T G A A A A T C A A A C A C T A T A C C C T G C A C A A C A A A A A C C C A T T C C T A C A G G A T T A A G G A T T A A G G A T T A A G G A T T A A G G A T T A A G G A C A A G T T C A T C A T G C A T G T C T A A G A T T A C C A T C A A A T A T T T A T T C C A A A A A T A A C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G N C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G A T G C C A T A A G T T G A G A G A A T A G G C A G C A G A C A T A A G T A T C T G A G C A G G T C C C T T G C T C G C T C T C A G T G C C G T C G T T G C C A C A T A A A T T T C A T C T C T A C C C C T G C C T G A G G C C G T T A A T G T C G G A T T G C T T G G A A G C C C G G T C G N C C T G G A A G G T G G A A G G A G A T G T A G G A G T G A T G G A A G G T T T G A T G A T G A G C A T G A A A T G C T G A A G A T G C C A T A A G T T G A G A G A A T A G G C A G C A G A C A T A A G T A T C T G A G C A G G T C C C T T G C T C G C C C T C A G T G C C G T C G T T G C C A C A T A A A T T T C A T C T C T A C C C C T G C C T G A G G C C G T T A A T G T C G G A T T G C T T G G A A G C C C G G T C G C C A T T T T T T T T T A G T G A A T T C A T A A A A T A C G G G G T A A G C T T C T T A T T A A A T A C T C C A C T C A C T A G T G G T C A A C A G T G G A G G A C C T A C C T T C T A C A A C G G G T C A C T A A A T T C G A A T A T C A A C T G T C T T T G T C T C A A G T A G A T T A A A A T T C T G G G A T G G A A T T A G A G A C T T G A G G T T G A A T C T T G T C T A C T C G T T A G T T T G T C A T C A T A A A C T T T T T T T T A A C T C T C T T T G C 500 1000 1500 2000 2500 3000 Expect = 4.70e-10 / Id = 28.69 Sequence AT3G19650.1 back to top
