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.
TTGGTTGATAGTAATTGTACGCAAACTCATTATCATTCATGTCATTTATTACCGACTACCAAATGTGAGCTCTACAATAAATGTTTCATTTGATTCAATTAGAGTTACCTCTTGAATGTTGTCTTTATTATGCGAATTCACACTGAAAGCCGGAAAATTTTGACGTTCAAAATATCTTATCCATCCCTAAAATACAAAGAAACAATAAAATGAACAAACCAAACAAAATCAGTACATACCACAAGTCCAAGAATCTATACAACTGAAGGCATAATGCTTACCTTGACAAGGGAGCGGCTAGCAAGATCCAGCTTGTTCAAAACAACAATGCGACGAGACGATGGCGAAGAAGATAATCTTCTAAGCAGCTCACATTCTGATGACAATG GTTGTGGGCTTACCCGGGCATCTCGAAGATCAAGGACAAAATCGACATCAGGAATACGCCGAGAGACGGCGTCAGAAGCTGCCGCCATGAATGGAGTGTACCAGCTTTTATCAGTTCCCGCCATTTTTCTAACTGTATTACCTACTCGTTTCGCCATCAACA CCCCCCAAACGTTATCCACTGTTAGAGCCTTAGAGGAGTTCGCTCGATCCCTCCGTTCTTCAATAATCGCAATTGTTGACGAGGTTGAGGAGGAAA ATGTTGACGGCGGTGGCGATGGAACCACTGAATTCAATTTCAAGGGGGTTAAGTTTAGGGTTAGGGTTGAGATTGGGGGAAATGAATTTCAGAGGTGGAAATGGAGTAGCTTTACCAGCTTCATCGTTTAAATTGGGGAGAGGAAAATGCAAATGGAAAGCGAGTTTGAATTTGATTACAAATCCTGAATCTTTTCAAGTTGGTCCTTTAATCGGTAGCTATGGCTTCTTCAATGTTACCAG CTATTCAGGGTTTGAAAGTGGTGTAGATTATGGGTATGTAGCGGATGATATGGGGAAATTGAAGACTCAAGATGTCGGCGAAGGCGGCGTTAATATCAG GCTGTATGAAGGAAGAATTACTCAAGGTTCTATGAGAGGCACTCGTGTTCTTTTTAAG GTGTATCCTGGACAAAGGGCTGGTGGTGCTGAGGCTGACATGATGGCTGCCAATGAGCTAAGCACTCATATTTTCCTTCAG AGCTGCTCAGATGAAACATGCCAGAATCTCTTGATGCTGTTAGGTGGATTCGAGACAAAAACTGGTGAGCAG TGGCTTGCTTTTCGCTGTGAATCCTATGATGGAAAATACACTGCAGCTGACTATGCAAAGATTTCCAGTGAAAAACTGACAAAGAATAAGGCTCTCGATCCGCAATCATTTTGGAATCCTTTTGAACAAGGGCAAACATTCAAGCGTAAAAGACTTTTTGTCATTAAGATGCTCCAGGGAATTTTTAGTGGCCTAGTTTATATGCATGCTCATGACAGATTACACCAGAGTCTTGGACCAGCTTCTGTTGTTCTCAA TACAATATCTGAGAGAGAAGCTCCTTACCTGGTTGCAAGACTCCGAGATCTTGCATTTTCAGTTGATATAAG TTATTCTTCAATAGAGAAAGGTCCTGGAGCTTTATCAGAAGGACTTTGGAGACGTGCTATTACAGCTGGTGCATATAATCCTATGGAGAAAAGAAACTTTGGGATTGCAGATGACAT ATATGAAGCAGGTCTTCTTTTTGCATACTTGGCTTTCATTCCATTTTGTGAAACTGGCATCATGGATAGTCTTTCTTTACAA AGGCTTGTGGAGAACACCTTTCAGCTTGATCTCGAAGCAGTCAGAGA ATATTGTTTAGCAGATGATCGCTTGATAGAGGCTGTCAAATTCTTAGACCTTGGTGATGGTGCTGGTTGGGAGCTACTCCAG GCGATGCTGAATCCTGATTATAGGAAGCGCCCAGTTGCTACTGCTGTGCAAAGCCATCGTTTTGTAACTGGAGTTCTTTTGTAG ATCTGTGGAGTTTGGTAGATTATTGTCCTAGAAATCAAGCTGTAAAACCTTGTAAACTACTACTTGATACAAGTCATACAACCCCGTTACAGTTATTTTGTGAGTGCTTCTTCTTCTTCTTCTTCTTCTTCCATGCACCTCCCTCCGCTCATGGTGGAGTTGAGACTTCTGCAACTGTTTTGAAGCTGATACCATCTCAACTTCAACTCCCTTACTGGTTAATATCTTCTTATGCAAGCTTGTCTTCCATCGAAGAAATGTGTATATTTATTTAGACTTCTTGTTGCAATATTTGTGTGTGGAACAAAACAAGGAGCTGGGTTACCAACTTCAAATCTTCAGTACACCTCCATCAGTCATTTTCAAAATAAAACGTTGGAATTTTGTTATAGGAATTAGTAATTGCAT
TTGGTTGATAGTAATTGTACGCAAACTCATTATCATTCATGTCATTTATTACCGACTACCAAATGTGAGCTCTACAATAAATGTTTCATTTGATTCAATTAGAGTTACCTCTTGAATGTTGTCTTTATTATGCGAATTCACACTGAAAGCCGGAAAATTTTGACGTTCAAAATATCTTATCCATCCCTAAAATACAAAGAAACAATAAAATGAACAAACCAAACAAAATCAGTACATACCACAAGTCCAAGAATCTATACAACTGAAGGCATAATGCTTACCTTGACAAGGGAGCGGCTAGCAAGATCCAGCTTGTTCAAAACAACAATGCGACGAGACGATGGCGAAGAAGATAATCTTCTAAGCAGCTCACATTCTGATGACAATGGTTGTGGGCTTACCCGGGCATCTCGAAGATCAAGGACAAAATCGACATCAGGAATACGCCGAGAGACGGCGTCAGAAGCTGCCGCCATGAATGGAGTGTACCAGCTTTTATCAGTTCCCGCCATTTTTCTAACTGTATTACCTACTCGTTTCGCCATCAACACCCCCCAAACGTTATCCACTGTTAGAGCCTTAGAGGAGTTCGCTCGATCCCTCCGTTCTTCAATAATCGCAATTGTTGACGAGGTTGAGGAGGAAAATGTTGACGGCGGTGGCGATGGAACCACTGAATTCAATTTCAAGGGGGTTAAGTTTAGGGTTAGGGTTGAGATTGGGGGAAATGAATTTCAGAGGTGGAAATGGAGTAGCTTTACCAGCTTCATCGTTTAAATTGGGGAGAGGAAAATGCAAATGGAAAGCGAGTTTGAATTTGATTACAAATCCTGAATCTTTTCAAGTTGGTCCTTTAATCGGTAGCTATGGCTTCTTCAATGTTACCAGCTATTCAGGGTTTGAAAGTGGTGTAGATTATGGGTATGTAGCGGATGATATGGGGAAATTGAAGACTCAAGATGTCGGCGAAGGCGGCGTTAATATCAGGCTGTATGAAGGAAGAATTACTCAAGGTTCTATGAGAGGCACTCGTGTTCTTTTTAAGGTGTATCCTGGACAAAGGGCTGGTGGTGCTGAGGCTGACATGATGGCTGCCAATGAGCTAAGCACTCATATTTTCCTTCAGAGCTGCTCAGATGAAACATGCCAGAATCTCTTGATGCTGTTAGGTGGATTCGAGACAAAAACTGGTGAGCAGTGGCTTGCTTTTCGCTGTGAATCCTATGATGGAAAATACACTGCAGCTGACTATGCAAAGATTTCCAGTGAAAAACTGACAAAGAATAAGGCTCTCGATCCGCAATCATTTTGGAATCCTTTTGAACAAGGGCAAACATTCAAGCGTAAAAGACTTTTTGTCATTAAGATGCTCCAGGGAATTTTTAGTGGCCTAGTTTATATGCATGCTCATGACAGATTACACCAGAGTCTTGGACCAGCTTCTGTTGTTCTCAATACAATATCTGAGAGAGAAGCTCCTTACCTGGTTGCAAGACTCCGAGATCTTGCATTTTCAGTTGATATAAGTTATTCTTCAATAGAGAAAGGTCCTGGAGCTTTATCAGAAGGACTTTGGAGACGTGCTATTACAGCTGGTGCATATAATCCTATGGAGAAAAGAAACTTTGGGATTGCAGATGACATATATGAAGCAGGTCTTCTTTTTGCATACTTGGCTTTCATTCCATTTTGTGAAACTGGCATCATGGATAGTCTTTCTTTACAAAGGCTTGTGGAGAACACCTTTCAGCTTGATCTCGAAGCAGTCAGAGAATATTGTTTAGCAGATGATCGCTTGATAGAGGCTGTCAAATTCTTAGACCTTGGTGATGGTGCTGGTTGGGAGCTACTCCAGGCGATGCTGAATCCTGATTATAGGAAGCGCCCAGTTGCTACTGCTGTGCAAAGCCATCGTTTTGTAACTGGAGTTCTTTTGTAGATCTGTGGAGTTTGGTAGATTATTGTCCTAGAAATCAAGCTGTAAAACCTTGTAAACTACTACTTGATACAAGTCATACAACCCCGTTACAGTTATTTTGTGAGTGCTTCTTCTTCTTCTTCTTCTTCTTCCATGCACCTCCCTCCGCTCATGGTGGAGTTGAGACTTCTGCAACTGTTTTGAAGCTGATACCATCTCAACTTCAACTCCCTTACTGGTTAATATCTTCTTATGCAAGCTTGTCTTCCATCGAAGAAATGTGTATATTTATTTAGACTTCTTGTTGCAATATTTGTGTGTGGAACAAAACAAGGAGCTGGGTTACCAACTTCAAATCTTCAGTACACCTCCATCAGTCATTTTCAAAATAAAACGTTGGAATTTTGTTATAGGAATTAGTAATTGCAT
ATGTTGACGGCGGTGGCGATGGAACCACTGAATTCAATTTCAAGGGGGTTAAGTTTAGGGTTAGGGTTGAGATTGGGGGAAATGAATTTCAGAGGTGGAAATGGAGTAGCTTTACCAGCTTCATCGTTTAAATTGGGGAGAGGAAAATGCAAATGGAAAGCGAGTTTGAATTTGATTACAAATCCTGAATCTTTTCAAGTTGGTCCTTTAATCGGTAGCTATGGCTTCTTCAATGTTACCAGCTATTCAGGGTTTGAAAGTGGTGTAGATTATGGGTATGTAGCGGATGATATGGGGAAATTGAAGACTCAAGATGTCGGCGAAGGCGGCGTTAATATCAGGCTGTATGAAGGAAGAATTACTCAAGGTTCTATGAGAGGCACTCGTGTTCTTTTTAAGGTGTATCCTGGACAAAGGGCTGGTGGTGCTGAGGCTGACATGATGGCTGCCAATGAGCTAAGCACTCATATTTTCCTTCAGAGCTGCTCAGATGAAACATGCCAGAATCTCTTGATGCTGTTAGGTGGATTCGAGACAAAAACTGGTGAGCAGTGGCTTGCTTTTCGCTGTGAATCCTATGATGGAAAATACACTGCAGCTGACTATGCAAAGATTTCCAGTGAAAAACTGACAAAGAATAAGGCTCTCGATCCGCAATCATTTTGGAATCCTTTTGAACAAGGGCAAACATTCAAGCGTAAAAGACTTTTTGTCATTAAGATGCTCCAGGGAATTTTTAGTGGCCTAGTTTATATGCATGCTCATGACAGATTACACCAGAGTCTTGGACCAGCTTCTGTTGTTCTCAATACAATATCTGAGAGAGAAGCTCCTTACCTGGTTGCAAGACTCCGAGATCTTGCATTTTCAGTTGATATAAGTTATTCTTCAATAGAGAAAGGTCCTGGAGCTTTATCAGAAGGACTTTGGAGACGTGCTATTACAGCTGGTGCATATAATCCTATGGAGAAAAGAAACTTTGGGATTGCAGATGACATATATGAAGCAGGTCTTCTTTTTGCATACTTGGCTTTCATTCCATTTTGTGAAACTGGCATCATGGATAGTCTTTCTTTACAAAGGCTTGTGGAGAACACCTTTCAGCTTGATCTCGAAGCAGTCAGAGAATATTGTTTAGCAGATGATCGCTTGATAGAGGCTGTCAAATTCTTAGACCTTGGTGATGGTGCTGGTTGGGAGCTACTCCAGGCGATGCTGAATCCTGATTATAGGAAGCGCCCAGTTGCTACTGCTGTGCAAAGCCATCGTTTTGTAACTGGAGTTCTTTTGTAG
MLTAVAMEPLNSISRGLSLGLGLRLGEMNFRGGNGVALPASSFKLGRGKCKWKASLNLITNPESFQVGPLIGSYGFFNVTSYSGFESGVDYGYVADDMGKLKTQDVGEGGVNIRLYEGRITQGSMRGTRVLFKVYPGQRAGGAEADMMAANELSTHIFLQSCSDETCQNLLMLLGGFETKTGEQWLAFRCESYDGKYTAADYAKISSEKLTKNKALDPQSFWNPFEQGQTFKRKRLFVIKMLQGIFSGLVYMHAHDRLHQSLGPASVVLNTISEREAPYLVARLRDLAFSVDISYSSIEKGPGALSEGLWRRAITAGAYNPMEKRNFGIADDIYEAGLLFAYLAFIPFCETGIMDSLSLQRLVENTFQLDLEAVREYCLADDRLIEAVKFLDLGDGAGWELLQAMLNPDYRKRPVATAVQSHRFVTGVLL
Homology
BLAST of Spo10307.1 vs. NCBI nr
Match:
gi|902226787|gb|KNA20483.1| (hypothetical protein SOVF_052030 [Spinacia oleracea])
HSP 1 Score: 864.8 bits (2233), Expect = 6.500e-248
Identity = 430/430 (100.00%), Postives = 430/430 (100.00%), Query Frame = 1
BLAST of Spo10307.1 vs. NCBI nr
Match:
gi|731320972|ref|XP_010671097.1| (PREDICTED: uncharacterized protein LOC104887995 isoform X1 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 691.4 bits (1783), Expect = 9.900e-196
Identity = 341/417 (81.77%), Postives = 375/417 (89.93%), Query Frame = 1
BLAST of Spo10307.1 vs. NCBI nr
Match:
gi|870865634|gb|KMT16684.1| (hypothetical protein BVRB_3g049690 isoform A [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 691.4 bits (1783), Expect = 9.900e-196
Identity = 341/417 (81.77%), Postives = 375/417 (89.93%), Query Frame = 1
BLAST of Spo10307.1 vs. NCBI nr
Match:
gi|225454753|ref|XP_002273880.1| (PREDICTED: uncharacterized protein LOC100264883 isoform X1 [Vitis vinifera])
HSP 1 Score: 567.0 bits (1460), Expect = 2.800e-158
Identity = 281/401 (70.07%), Postives = 328/401 (81.80%), Query Frame = 1
BLAST of Spo10307.1 vs. NCBI nr
Match:
gi|743879849|ref|XP_010908493.1| (PREDICTED: uncharacterized protein LOC105034872 isoform X2 [Elaeis guineensis])
HSP 1 Score: 558.5 bits (1438), Expect = 1.000e-155
Identity = 271/383 (70.76%), Postives = 315/383 (82.25%), Query Frame = 1
BLAST of Spo10307.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9RLV9_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_052030 PE=4 SV=1)
HSP 1 Score: 864.8 bits (2233), Expect = 4.500e-248
Identity = 430/430 (100.00%), Postives = 430/430 (100.00%), Query Frame = 1
BLAST of Spo10307.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8CX55_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_3g049690 PE=4 SV=1)
HSP 1 Score: 691.4 bits (1783), Expect = 6.900e-196
Identity = 341/417 (81.77%), Postives = 375/417 (89.93%), Query Frame = 1
BLAST of Spo10307.1 vs. UniProtKB/TrEMBL
Match:
D7T7M9_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_16s0039g01820 PE=4 SV=1)
HSP 1 Score: 567.0 bits (1460), Expect = 2.000e-158
Identity = 281/401 (70.07%), Postives = 328/401 (81.80%), Query Frame = 1
BLAST of Spo10307.1 vs. UniProtKB/TrEMBL
Match:
A0A061EZ87_THECC (Kinase superfamily protein isoform 2 OS=Theobroma cacao GN=TCM_025483 PE=4 SV=1)
HSP 1 Score: 556.6 bits (1433), Expect = 2.600e-155
Identity = 273/390 (70.00%), Postives = 324/390 (83.08%), Query Frame = 1
BLAST of Spo10307.1 vs. UniProtKB/TrEMBL
Match:
A0A061EYD0_THECC (Kinase family protein isoform 1 OS=Theobroma cacao GN=TCM_025483 PE=4 SV=1)
HSP 1 Score: 544.3 bits (1401), Expect = 1.400e-151
Identity = 273/411 (66.42%), Postives = 324/411 (78.83%), Query Frame = 1
BLAST of Spo10307.1 vs. TAIR (Arabidopsis)
Match:
AT5G16810.1 (Protein kinase superfamily protein)
HSP 1 Score: 508.4 bits (1308), Expect = 4.200e-144
Identity = 259/375 (69.07%), Postives = 306/375 (81.60%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo10307.1 vs. NCBI nr
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. NCBI nr )
Total hits: 5
T T G G T T G A T A G T A A T T G T A C G C A A A C T C A T T A T C A T T C A T G T C A T T T A T T A C C G A C T A C C A A A T G T G A G C T C T A C A A T A A A T G T T T C A T T T G A T T C A A T T A G A G T T A C C T C T T G A A T G T T G T C T T T A T T A T G C G A A T T C A C A C T G A A A G C C G G A A A A T T T T G A C G T T C A A A A T A T C T T A T C C A T C C C T A A A A T A C A A A G A A A C A A T A A A A T G A A C A A A C C A A A C A A A A T C A G T A C A T A C C A C A A G T C C A A G A A T C T A T A C A A C T G A A G G C A T A A T G C T T A C C T T G A C A A G G G A G C G G C T A G C A A G A T C C A G C T T G T T C A A A A C A A C A A T G C G A C G A G A C G A T G G C G A A G A A G A T A A T C T T C T A A G C A G C T C A C A T T C T G A T G A C A A T G G T T G T G G G C T T A C C C G G G C A T C T C G A A G A T C A A G G A C A A A A T C G A C A T C A G G A A T A C G C C G A G A G A C G G C G T C A G A A G C T G C C G C C A T G A A T G G A G T G T A C C A G C T T T T A T C A G T T C C C G C C A T T T T T C T A A C T G T A T T A C C T A C T C G T T T C G C C A T C A A C A C C C C C C A A A C G T T A T C C A C T G T T A G A G C C T T A G A G G A G T T C G C T C G A T C C C T C C G T T C T T C A A T A A T C G C A A T T G T T G A C G A G G T T G A G G A G G A A A A T G T T G A C G G C G G T G G C G A T G G A A C C A C T G A A T T C A A T T T C A A G G G G G T T A A G T T T A G G G T T A G G G T T G A G A T T G G G G G A A A T G A A T T T C A G A G G T G G A A A T G G A G T A G C T T T A C C A G C T T C A T C G T T T A A A T T G G G G A G A G G A A A A T G C A A A T G G A A A G C G A G T T T G A A T T T G A T T A C A A A T C C T G A A T C T T T T C A A G T T G G T C C T T T A A T C G G T A G C T A T G G C T T C T T C A A T G T T A C C A G C T A T T C A G G G T T T G A A A G T G G T G T A G A T T A T G G G T A T G T A G C G G A T G A T A T G G G G A A A T T G A A G A C T C A A G A T G T C G G C G A A G G C G G C G T T A A T A T C A G G C T G T A T G A A G G A A G A A T T A C T C A A G G T T C T A T G A G A G G C A C T C G T G T T C T T T T T A A G G T G T A T C C T G G A C A A A G G G C T G G T G G T G C T G A G G C T G A C A T G A T G G C T G C C A A T G A G C T A A G C A C T C A T A T T T T C C T T C A G A G C T G C T C A G A T G A A A C A T G C C A G A A T C T C T T G A T G C T G T T A G G T G G A T T C G A G A C A A A A A C T G G T G A G C A G T G G C T T G C T T T T C G C T G T G A A T C C T A T G A T G G A A A A T A C A C T G C A G C T G A C T A T G C A A A G A T T T C C A G T G A A A A A C T G A C A A A G A A T A A G G C T C T C G A T C C G C A A T C A T T T T G G A A T C C T T T T G A A C A A G G G C A A A C A T T C A A G C G T A A A A G A C T T T T T G T C A T T A A G A T G C T C C A G G G A A T T T T T A G T G G C C T A G T T T A T A T G C A T G C T C A T G A C A G A T T A C A C C A G A G T C T T G G A C C A G C T T C T G T T G T T C T C A A T A C A A T A T C T G A G A G A G A A G C T C C T T A C C T G G T T G C A A G A C T C C G A G A T C T T G C A T T T T C A G T T G A T A T A A G T T A T T C T T C A A T A G A G A A A G G T C C T G G A G C T T T A T C A G A A G G A C T T T G G A G A C G T G C T A T T A C A G C T G G T G C A T A T A A T C C T A T G G A G A A A A G A A A C T T T G G G A T T G C A G A T G A C A T A T A T G A A G C A G G T C T T C T T T T T G C A T A C T T G G C T T T C A T T C C A T T T T G T G A A A C T G G C A T C A T G G A T A G T C T T T C T T T A C A A A G G C T T G T G G A G A A C A C C T T T C A G C T T G A T C T C G A A G C A G T C A G A G A A T A T T G T T T A G C A G A T G A T C G C T T G A T A G A G G C T G T C A A A T T C T T A G A C C T T G G T G A T G G T G C T G G T T G G G A G C T A C T C C A G G C G A T G C T G A A T C C T G A T T A T A G G A A G C G C C C A G T T G C T A C T G C T G T G C A A A G C C A T C G T T T T G T A A C T G G A G T T C T T T T G T A G A T C T G T G G A G T T T G G T A G A T T A T T G T C C T A G A A A T C A A G C T G T A A A A C C T T G T A A A C T A C T A C T T G A T A C A A G T C A T A C A A C C C C G T T A C A G T T A T T T T G T G A G T G C T T C T T C T T C T T C T T C T T C T T C T T C C A T G C A C C T C C C T C C G C T C A T G G T G G A G T T G A G A C T T C T G C A A C T G T T T T G A A G C T G A T A C C A T C T C A A C T T C A A C T C C C T T A C T G G T T A A T A T C T T C T T A T G C A A G C T T G T C T T C C A T C G A A G A A A T G T G T A T A T T T A T T T A G A C T T C T T G T T G C A A T A T T T G T G T G T G G A A C A A A A C A A G G A G C T G G G T T A C C A A C T T C A A A T C T T C A G T A C A C C T C C A T C A G T C A T T T T C A A A A T A A A A C G T T G G A A T T T T G T T A T A G G A A T T A G T A A T T G C A T 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 Expect = 6.50e-248 / Id = 100.00 Expect = 9.90e-196 / Id = 81.77 Expect = 9.90e-196 / Id = 81.77 Expect = 2.80e-158 / Id = 70.07 Expect = 1.00e-155 / Id = 70.76 Sequence KNA20483.1 XP_010671097.1 KMT16684.1 XP_002273880.1 XP_010908493.1 back to top
BLAST of Spo10307.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL )
Total hits: 5
T T G G T T G A T A G T A A T T G T A C G C A A A C T C A T T A T C A T T C A T G T C A T T T A T T A C C G A C T A C C A A A T G T G A G C T C T A C A A T A A A T G T T T C A T T T G A T T C A A T T A G A G T T A C C T C T T G A A T G T T G T C T T T A T T A T G C G A A T T C A C A C T G A A A G C C G G A A A A T T T T G A C G T T C A A A A T A T C T T A T C C A T C C C T A A A A T A C A A A G A A A C A A T A A A A T G A A C A A A C C A A A C A A A A T C A G T A C A T A C C A C A A G T C C A A G A A T C T A T A C A A C T G A A G G C A T A A T G C T T A C C T T G A C A A G G G A G C G G C T A G C A A G A T C C A G C T T G T T C A A A A C A A C A A T G C G A C G A G A C G A T G G C G A A G A A G A T A A T C T T C T A A G C A G C T C A C A T T C T G A T G A C A A T G G T T G T G G G C T T A C C C G G G C A T C T C G A A G A T C A A G G A C A A A A T C G A C A T C A G G A A T A C G C C G A G A G A C G G C G T C A G A A G C T G C C G C C A T G A A T G G A G T G T A C C A G C T T T T A T C A G T T C C C G C C A T T T T T C T A A C T G T A T T A C C T A C T C G T T T C G C C A T C A A C A C C C C C C A A A C G T T A T C C A C T G T T A G A G C C T T A G A G G A G T T C G C T C G A T C C C T C C G T T C T T C A A T A A T C G C A A T T G T T G A C G A G G T T G A G G A G G A A A A T G T T G A C G G C G G T G G C G A T G G A A C C A C T G A A T T C A A T T T C A A G G G G G T T A A G T T T A G G G T T A G G G T T G A G A T T G G G G G A A A T G A A T T T C A G A G G T G G A A A T G G A G T A G C T T T A C C A G C T T C A T C G T T T A A A T T G G G G A G A G G A A A A T G C A A A T G G A A A G C G A G T T T G A A T T T G A T T A C A A A T C C T G A A T C T T T T C A A G T T G G T C C T T T A A T C G G T A G C T A T G G C T T C T T C A A T G T T A C C A G C T A T T C A G G G T T T G A A A G T G G T G T A G A T T A T G G G T A T G T A G C G G A T G A T A T G G G G A A A T T G A A G A C T C A A G A T G T C G G C G A A G G C G G C G T T A A T A T C A G G C T G T A T G A A G G A A G A A T T A C T C A A G G T T C T A T G A G A G G C A C T C G T G T T C T T T T T A A G G T G T A T C C T G G A C A A A G G G C T G G T G G T G C T G A G G C T G A C A T G A T G G C T G C C A A T G A G C T A A G C A C T C A T A T T T T C C T T C A G A G C T G C T C A G A T G A A A C A T G C C A G A A T C T C T T G A T G C T G T T A G G T G G A T T C G A G A C A A A A A C T G G T G A G C A G T G G C T T G C T T T T C G C T G T G A A T C C T A T G A T G G A A A A T A C A C T G C A G C T G A C T A T G C A A A G A T T T C C A G T G A A A A A C T G A C A A A G A A T A A G G C T C T C G A T C C G C A A T C A T T T T G G A A T C C T T T T G A A C A A G G G C A A A C A T T C A A G C G T A A A A G A C T T T T T G T C A T T A A G A T G C T C C A G G G A A T T T T T A G T G G C C T A G T T T A T A T G C A T G C T C A T G A C A G A T T A C A C C A G A G T C T T G G A C C A G C T T C T G T T G T T C T C A A T A C A A T A T C T G A G A G A G A A G C T C C T T A C C T G G T T G C A A G A C T C C G A G A T C T T G C A T T T T C A G T T G A T A T A A G T T A T T C T T C A A T A G A G A A A G G T C C T G G A G C T T T A T C A G A A G G A C T T T G G A G A C G T G C T A T T A C A G C T G G T G C A T A T A A T C C T A T G G A G A A A A G A A A C T T T G G G A T T G C A G A T G A C A T A T A T G A A G C A G G T C T T C T T T T T G C A T A C T T G G C T T T C A T T C C A T T T T G T G A A A C T G G C A T C A T G G A T A G T C T T T C T T T A C A A A G G C T T G T G G A G A A C A C C T T T C A G C T T G A T C T C G A A G C A G T C A G A G A A T A T T G T T T A G C A G A T G A T C G C T T G A T A G A G G C T G T C A A A T T C T T A G A C C T T G G T G A T G G T G C T G G T T G G G A G C T A C T C C A G G C G A T G C T G A A T C C T G A T T A T A G G A A G C G C C C A G T T G C T A C T G C T G T G C A A A G C C A T C G T T T T G T A A C T G G A G T T C T T T T G T A G A T C T G T G G A G T T T G G T A G A T T A T T G T C C T A G A A A T C A A G C T G T A A A A C C T T G T A A A C T A C T A C T T G A T A C A A G T C A T A C A A C C C C G T T A C A G T T A T T T T G T G A G T G C T T C T T C T T C T T C T T C T T C T T C T T C C A T G C A C C T C C C T C C G C T C A T G G T G G A G T T G A G A C T T C T G C A A C T G T T T T G A A G C T G A T A C C A T C T C A A C T T C A A C T C C C T T A C T G G T T A A T A T C T T C T T A T G C A A G C T T G T C T T C C A T C G A A G A A A T G T G T A T A T T T A T T T A G A C T T C T T G T T G C A A T A T T T G T G T G T G G A A C A A A A C A A G G A G C T G G G T T A C C A A C T T C A A A T C T T C A G T A C A C C T C C A T C A G T C A T T T T C A A A A T A A A A C G T T G G A A T T T T G T T A T A G G A A T T A G T A A T T G C A T 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 Expect = 4.50e-248 / Id = 100.00 Expect = 6.90e-196 / Id = 81.77 Expect = 2.00e-158 / Id = 70.07 Expect = 2.60e-155 / Id = 70.00 Expect = 1.40e-151 / Id = 66.42 Sequence A0A0K9RLV9_SPIOL A0A0J8CX55_BETVU D7T7M9_VITVI A0A061EZ87_THECC A0A061EYD0_THECC back 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BLAST of Spo10307.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. ExPASy SwissProt )
Total hits: 0
T T G G T T G A T A G T A A T T G T A C G C A A A C T C A T T A T C A T T C A T G T C A T T T A T T A C C G A C T A C C A A A T G T G A G C T C T A C A A T A A A T G T T T C A T T T G A T T C A A T T A G A G T T A C C T C T T G A A T G T T G T C T T T A T T A T G C G A A T T C A C A C T G A A A G C C G G A A A A T T T T G A C G T T C A A A A T A T C T T A T C C A T C C C T A A A A T A C A A A G A A A C A A T A A A A T G A A C A A A C C A A A C A A A A T C A G T A C A T A C C A C A A G T C C A A G A A T C T A T A C A A C T G A A G G C A T A A T G C T T A C C T T G A C A A G G G A G C G G C T A G C A A G A T C C A G C T T G T T C A A A A C A A C A A T G C G A C G A G A C G A T G G C G A A G A A G A T A A T C T T C T A A G C A G C T C A C A T T C T G A T G A C A A T G G T T G T G G G C T T A C C C G G G C A T C T C G A A G A T C A A G G A C A A A A T C G A C A T C A G G A A T A C G C C G A G A G A C G G C G T C A G A A G C T G C C G C C A T G A A T G G A G T G T A C C A G C T T T T A T C A G T T C C C G C C A T T T T T C T A A C T G T A T T A C C T A C T C G T T T C G C C A T C A A C A C C C C C C A A A C G T T A T C C A C T G T T A G A G C C T T A G A G G A G T T C G C T C G A T C C C T C C G T T C T T C A A T A A T C G C A A T T G T T G A C G A G G T T G A G G A G G A A A A T G T T G A C G G C G G T G G C G A T G G A A C C A C T G A A T T C A A T T T C A A G G G G G T T A A G T T T A G G G T T A G G G T T G A G A T T G G G G G A A A T G A A T T T C A G A G G T G G A A A T G G A G T A G C T T T A C C A G C T T C A T C G T T T A A A T T G G G G A G A G G A A A A T G C A A A T G G A A A G C G A G T T T G A A T T T G A T T A C A A A T C C T G A A T C T T T T C A A G T T G G T C C T T T A A T C G G T A G C T A T G G C T T C T T C A A T G T T A C C A G C T A T T C A G G G T T T G A A A G T G G T G T A G A T T A T G G G T A T G T A G C G G A T G A T A T G G G G A A A T T G A A G A C T C A A G A T G T C G G C G A A G G C G G C G T T A A T A T C A G G C T G T A T G A A G G A A G A A T T A C T C A A G G T T C T A T G A G A G G C A C T C G T G T T C T T T T T A A G G T G T A T C C T G G A C A A A G G G C T G G T G G T G C T G A G G C T G A C A T G A T G G C T G C C A A T G A G C T A A G C A C T C A T A T T T T C C T T C A G A G C T G C T C A G A T G A A A C A T G C C A G A A T C T C T T G A T G C T G T T A G G T G G A T T C G A G A C A A A A A C T G G T G A G C A G T G G C T T G C T T T T C G C T G T G A A T C C T A T G A T G G A A A A T A C A C T G C A G C T G A C T A T G C A A A G A T T T C C A G T G A A A A A C T G A C A A A G A A T A A G G C T C T C G A T C C G C A A T C A T T T T G G A A T C C T T T T G A A C A A G G G C A A A C A T T C A A G C G T A A A A G A C T T T T T G T C A T T A A G A T G C T C C A G G G A A T T T T T A G T G G C C T A G T T T A T A T G C A T G C T C A T G A C A G A T T A C A C C A G A G T C T T G G A C C A G C T T C T G T T G T T C T C A A T A C A A T A T C T G A G A G A G A A G C T C C T T A C C T G G T T G C A A G A C T C C G A G A T C T T G C A T T T T C A G T T G A T A T A A G T T A T T C T T C A A T A G A G A A A G G T C C T G G A G C T T T A T C A G A A G G A C T T T G G A G A C G T G C T A T T A C A G C T G G T G C A T A T A A T C C T A T G G A G A A A A G A A A C T T T G G G A T T G C A G A T G A C A T A T A T G A A G C A G G T C T T C T T T T T G C A T A C T T G G C T T T C A T T C C A T T T T G T G A A A C T G G C A T C A T G G A T A G T C T T T C T T T A C A A A G G C T T G T G G A G A A C A C C T T T C A G C T T G A T C T C G A A G C A G T C A G A G A A T A T T G T T T A G C A G A T G A T C G C T T G A T A G A G G C T G T C A A A T T C T T A G A C C T T G G T G A T G G T G C T G G T T G G G A G C T A C T C C A G G C G A T G C T G A A T C C T G A T T A T A G G A A G C G C C C A G T T G C T A C T G C T G T G C A A A G C C A T C G T T T T G T A A C T G G A G T T C T T T T G T A G A T C T G T G G A G T T T G G T A G A T T A T T G T C C T A G A A A T C A A G C T G T A A A A C C T T G T A A A C T A C T A C T T G A T A C A A G T C A T A C A A C C C C G T T A C A G T T A T T T T G T G A G T G C T T C T T C T T C T T C T T C T T C T T C T T C C A T G C A C C T C C C T C C G C T C A T G G T G G A G T T G A G A C T T C T G C A A C T G T T T T G A A G C T G A T A C C A T C T C A A C T T C A A C T C C C T T A C T G G T T A A T A T C T T C T T A T G C A A G C T T G T C T T C C A T C G A A G A A A T G T G T A T A T T T A T T T A G A C T T C T T G T T G C A A T A T T T G T G T G T G G A A C A A A A C A A G G A G C T G G G T T A C C A A C T T C A A A T C T T C A G T A C A C C T C C A T C A G T C A T T T T C A A A A T A A A A C G T T G G A A T T T T G T T A T A G G A A T T A G T A A T T G C A T 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 Sequence
Match Name E-value Identity Description
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BLAST of Spo10307.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. TAIR )
Total hits: 1
T T G G T T G A T A G T A A T T G T A C G C A A A C T C A T T A T C A T T C A T G T C A T T T A T T A C C G A C T A C C A A A T G T G A G C T C T A C A A T A A A T G T T T C A T T T G A T T C A A T T A G A G T T A C C T C T T G A A T G T T G T C T T T A T T A T G C G A A T T C A C A C T G A A A G C C G G A A A A T T T T G A C G T T C A A A A T A T C T T A T C C A T C C C T A A A A T A C A A A G A A A C A A T A A A A T G A A C A A A C C A A A C A A A A T C A G T A C A T A C C A C A A G T C C A A G A A T C T A T A C A A C T G A A G G C A T A A T G C T T A C C T T G A C A A G G G A G C G G C T A G C A A G A T C C A G C T T G T T C A A A A C A A C A A T G C G A C G A G A C G A T G G C G A A G A A G A T A A T C T T C T A A G C A G C T C A C A T T C T G A T G A C A A T G G T T G T G G G C T T A C C C G G G C A T C T C G A A G A T C A A G G A C A A A A T C G A C A T C A G G A A T A C G C C G A G A G A C G G C G T C A G A A G C T G C C G C C A T G A A T G G A G T G T A C C A G C T T T T A T C A G T T C C C G C C A T T T T T C T A A C T G T A T T A C C T A C T C G T T T C G C C A T C A A C A C C C C C C A A A C G T T A T C C A C T G T T A G A G C C T T A G A G G A G T T C G C T C G A T C C C T C C G T T C T T C A A T A A T C G C A A T T G T T G A C G A G G T T G A G G A G G A A A A T G T T G A C G G C G G T G G C G A T G G A A C C A C T G A A T T C A A T T T C A A G G G G G T T A A G T T T A G G G T T A G G G T T G A G A T T G G G G G A A A T G A A T T T C A G A G G T G G A A A T G G A G T A G C T T T A C C A G C T T C A T C G T T T A A A T T G G G G A G A G G A A A A T G C A A A T G G A A A G C G A G T T T G A A T T T G A T T A C A A A T C C T G A A T C T T T T C A A G T T G G T C C T T T A A T C G G T A G C T A T G G C T T C T T C A A T G T T A C C A G C T A T T C A G G G T T T G A A A G T G G T G T A G A T T A T G G G T A T G T A G C G G A T G A T A T G G G G A A A T T G A A G A C T C A A G A T G T C G G C G A A G G C G G C G T T A A T A T C A G G C T G T A T G A A G G A A G A A T T A C T C A A G G T T C T A T G A G A G G C A C T C G T G T T C T T T T T A A G G T G T A T C C T G G A C A A A G G G C T G G T G G T G C T G A G G C T G A C A T G A T G G C T G C C A A T G A G C T A A G C A C T C A T A T T T T C C T T C A G A G C T G C T C A G A T G A A A C A T G C C A G A A T C T C T T G A T G C T G T T A G G T G G A T T C G A G A C A A A A A C T G G T G A G C A G T G G C T T G C T T T T C G C T G T G A A T C C T A T G A T G G A A A A T A C A C T G C A G C T G A C T A T G C A A A G A T T T C C A G T G A A A A A C T G A C A A A G A A T A A G G C T C T C G A T C C G C A A T C A T T T T G G A A T C C T T T T G A A C A A G G G C A A A C A T T C A A G C G T A A A A G A C T T T T T G T C A T T A A G A T G C T C C A G G G A A T T T T T A G T G G C C T A G T T T A T A T G C A T G C T C A T G A C A G A T T A C A C C A G A G T C T T G G A C C A G C T T C T G T T G T T C T C A A T A C A A T A T C T G A G A G A G A A G C T C C T T A C C T G G T T G C A A G A C T C C G A G A T C T T G C A T T T T C A G T T G A T A T A A G T T A T T C T T C A A T A G A G A A A G G T C C T G G A G C T T T A T C A G A A G G A C T T T G G A G A C G T G C T A T T A C A G C T G G T G C A T A T A A T C C T A T G G A G A A A A G A A A C T T T G G G A T T G C A G A T G A C A T A T A T G A A G C A G G T C T T C T T T T T G C A T A C T T G G C T T T C A T T C C A T T T T G T G A A A C T G G C A T C A T G G A T A G T C T T T C T T T A C A A A G G C T T G T G G A G A A C A C C T T T C A G C T T G A T C T C G A A G C A G T C A G A G A A T A T T G T T T A G C A G A T G A T C G C T T G A T A G A G G C T G T C A A A T T C T T A G A C C T T G G T G A T G G T G C T G G T T G G G A G C T A C T C C A G G C G A T G C T G A A T C C T G A T T A T A G G A A G C G C C C A G T T G C T A C T G C T G T G C A A A G C C A T C G T T T T G T A A C T G G A G T T C T T T T G T A G A T C T G T G G A G T T T G G T A G A T T A T T G T C C T A G A A A T C A A G C T G T A A A A C C T T G T A A A C T A C T A C T T G A T A C A A G T C A T A C A A C C C C G T T A C A G T T A T T T T G T G A G T G C T T C T T C T T C T T C T T C T T C T T C T T C C A T G C A C C T C C C T C C G C T C A T G G T G G A G T T G A G A C T T C T G C A A C T G T T T T G A A G C T G A T A C C A T C T C A A C T T C A A C T C C C T T A C T G G T T A A T A T C T T C T T A T G C A A G C T T G T C T T C C A T C G A A G A A A T G T G T A T A T T T A T T T A G A C T T C T T G T T G C A A T A T T T G T G T G T G G A A C A A A A C A A G G A G C T G G G T T A C C A A C T T C A A A T C T T C A G T A C A C C T C C A T C A G T C A T T T T C A A A A T A A A A C G T T G G A A T T T T G T T A T A G G A A T T A G T A A T T G C A T 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 Expect = 4.20e-144 / Id = 69.07 Sequence AT5G16810.1
Match Name E-value Identity Description
AT5G16810.1 4.2e-144 69.0 Protein kinase superfamily pro... [more]
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