Sequences
The following sequences are available for this feature:
Gene sequence (with intron)
Legend: five_prime_UTR exon polypeptide CDS three_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
AGATAACAAGTCTTATGCAATAGCCAAACAGCCATAAATAAACCCCTTTTTCTTTTTTGAGAAATAAAAATATCGTTTTTTATTTACTTTTTGAGGATAACCCCATTTTTTTAATTGATCAAAAGCCCACCATATCTATTTATATCTTCAAAATTTATCGAATATGGGAAAGATAACAACCAAAATACAGTGTACTCTTGAAAACAGGGGAAAACAGAGGAAATAGAAAGGAAAAAAAAAAGGGGAAAAAAAAAAGGGATTTTTATGGAAAGGGTGGAAAAATCATGGCTTCCTTGTAATGTCTTCCAAAGAAAGAAAGAAAGCTCCTTTGTTTTCTCTCTCCTCTTTTTCTGTCAATTTTATGAAAACATTTATGACAGAAATACCCTTTAATTGCTTTGTTGCATAGTTTCAGAGAGAGAGGAGAGAGTGCCACAAATCCACGATGCCTTCCAAGTTCCATCTTCATCACAAACCACCAACTCTCTTTCTCAAATATATTTTCAGAGGGNNNNNNNNNNAAAACAGGGGAAAACAGAGGAAATAGAAAGGAAAAAAAAAAGGAAAAAAAAAAGGGATTTTTATGGAAAGGGTGGAAAAATCATGGCTTCCTTGTAATGTCTTCCAAAGAAAGAAAGAAAGCTCCTTTGTTTTCTCTCTCCTCTTTTTCTGTCAATTTTATGAAAACATTTATGACAGAAATACCCTTTAATTGCTTTGTTGCATAGTTTCAGAGAGAGAGGAGAGAGTGCCACAAATCCACGATGCCTTCCAAGTTCCATCTTCATCACAAACCACCAACTCTCTTTCTCAAATATATTTTCAGAGGGGCCCTTTTTGGGGTTTTCACATCTCTTCCCATTCAATGTTCCACAGGAAGAGAAAGTGAAGAAACTTCAGCCTTTTCTTCTCTCTTATTAGCCCTTTTCACGCTACCCCCTCTTAACCTTTTTTCTCTCTCCTCTTTTTCATCAAACCTTATCTTTCTCTCTCCTAGGGTTTCTTCTGTTATTCCCCTGTTTCTGATTTGTTTTTCTAGGGTTTCTTGATTTTTTGTGGGATTTTGGTTGATGGGTATTTGATTTTGAGCAAAAGGGTGTTTTTTTTCTTGTTGTTGTTTGATTC ATGGATTCTCGTCGATCAAGTTCTTCTGGTGTTGATGAGGTGACTAAAATTAGGCAAAAGCATCAGTCTTTGTTGCAAGATTACTTGGTCTTGCAAAAG GTTTGTTCTTGATTGCTTATTTTCTCGAATTCTTATTGATTTTGCTGATTTCAGTTAGTTTGCTGATTTTTTCCTGGATTGCTTTATTTTTTCGATTTTTTCTTGATTTTGCTGATTTCTGTTGGTTAGATTATGTGGACAATTTTGATCTGTTTGGTTTGGTTTGGTGTGTGGAATTGGTTGTATCTTCTGCTTAGTAGTTCTGATGTCTGAGAAAATTTTGAGGTGTGTAAGTTTCAAGTTAACCACAGTGGAATTTTCAAGGGTTTGATTTAAATTTTGAGTTAATCACAGTGGAATTTTATGGGTTTGAGTTAATTACAGTTGAATCTTTCCGGGTTTGATGTTAATTGAGTTGATCATTATCGAATTGTATTATGTTATTGATTAATTTGAGTTGATCATAGTTGAACTTTTTAGGGTTCGATTTAATTTGAGTTTCATTGGGGTTATATGCTTTCTAATTTGTGAGACTTATTCGAAATGGAAGAGGGGTGAATTGTGGGGATTTCCTTTTATAAGATTTTTTTAGTATAGATGATTTAATTATAACTAGTTCATTGTGTCCTTTTATATTAGGAATGTGTATCAAAGAAGAGAAAGCTAAAGGAATCAAAGGAAAAGAAAGATACCCTTTTGGATGAAATCAG GTAATTTTATATGACAACAAGTGTATGATTAGCAATCTTCTTTTCTTGTAAGAAATATGTGTGCAAACTGTTGAATAGTAATCCTTGTGATGGTTTTCGCAACTGAAAAGATCCCCCGTTCTGCAATGAAGATGTTGGGATTATACTTTGCTGATAAGAACTACTCGTGTACTAGAGCTGAACCATGCTTAAGTCATAAACCATCATCACCTTTTTTTTTATTTTGCAAGAGTTACTCTTCCATATACTTGGCCGCCAAGCATTACTATTATTTTTCACTGGATTTCAGATTCTTGAAGCGGAGACGCAACCTCCTACTGAGGTTGCAATCACCAAATTCAGAACAACAGGAAGATTTTGTTGAGTCACAGAAGACACATGCTAAATATGAAGTAGGACCAAGTGGAAGATACGCTGGTACTAGTGAACCACCGTTGCAAAATTCACGGCCAACAACGGGTTCTATTTGGAATTCT GTAAGTTCCTAGGGTTTTTATTTTGGGGATTTCACTGCAATATACTTTATAGGTCTACTACTACTGGTACATGCCTTTGCAGCAGGATTGTTTGGATTATTACATGATGTCTGATTGGTGATTTTTGTTGTAATGCAGGCTAGCCTCGCCAACGAGGAGGTGGGTTTTCCATCAGTGAAATTAGGGAAGAAGCCTAAGGATTTGTTTACTAATGGTAAAAGAGCTGAGAAAAGGAAAATTTCTTGGCAAGACCCGTTGGCGTTGAAGGTTTGA GTTTTTCAGCGCTTCAGAGAAGTACTTACAATTTGTGCAGACCACTTAAATTGACCTTGTATTAGTGAATCATTCTTTTCTTCTACTAGTAGGTTGTTTCTGAGAATACATATAGAGTAAATGTCAATGCTTTGGCAACTTATGTAATGGAGTTTATATATATATAAGGAAGTTTGATAAAGATTGCCAAATTCTACACGTTTCTGACTTGATAATTTCTTTTATGATTACTGTGATTTTTAGAGTGTTTGGAACAGAATTGAAACAGATGTCTTTTCCCCTTCTTTTCATTAATGTATTCTGTTCTGGTATCCCCT mRNA sequence
AGATAACAAGTCTTATGCAATAGCCAAACAGCCATAAATAAACCCCTTTTTCTTTTTTGAGAAATAAAAATATCGTTTTTTATTTACTTTTTGAGGATAACCCCATTTTTTTAATTGATCAAAAGCCCACCATATCTATTTATATCTTCAAAATTTATCGAATATGGGAAAGATAACAACCAAAATACAGTGTACTCTTGAAAACAGGGGAAAACAGAGGAAATAGAAAGGAAAAAAAAAAGGGGAAAAAAAAAAGGGATTTTTATGGAAAGGGTGGAAAAATCATGGCTTCCTTGTAATGTCTTCCAAAGAAAGAAAGAAAGCTCCTTTGTTTTCTCTCTCCTCTTTTTCTGTCAATTTTATGAAAACATTTATGACAGAAATACCCTTTAATTGCTTTGTTGCATAGTTTCAGAGAGAGAGGAGAGAGTGCCACAAATCCACGATGCCTTCCAAGTTCCATCTTCATCACAAACCACCAACTCTCTTTCTCAAATATATTTTCAGAGGGNNNNNNNNNNAAAACAGGGGAAAACAGAGGAAATAGAAAGGAAAAAAAAAAGGAAAAAAAAAAGGGATTTTTATGGAAAGGGTGGAAAAATCATGGCTTCCTTGTAATGTCTTCCAAAGAAAGAAAGAAAGCTCCTTTGTTTTCTCTCTCCTCTTTTTCTGTCAATTTTATGAAAACATTTATGACAGAAATACCCTTTAATTGCTTTGTTGCATAGTTTCAGAGAGAGAGGAGAGAGTGCCACAAATCCACGATGCCTTCCAAGTTCCATCTTCATCACAAACCACCAACTCTCTTTCTCAAATATATTTTCAGAGGGGCCCTTTTTGGGGTTTTCACATCTCTTCCCATTCAATGTTCCACAGGAAGAGAAAGTGAAGAAACTTCAGCCTTTTCTTCTCTCTTATTAGCCCTTTTCACGCTACCCCCTCTTAACCTTTTTTCTCTCTCCTCTTTTTCATCAAACCTTATCTTTCTCTCTCCTAGGGTTTCTTCTGTTATTCCCCTGTTTCTGATTTGTTTTTCTAGGGTTTCTTGATTTTTTGTGGGATTTTGGTTGATGGGTATTTGATTTTGAGCAAAAGGGTGTTTTTTTTCTTGTTGTTGTTTGATTCATGGATTCTCGTCGATCAAGTTCTTCTGGTGTTGATGAGGTGACTAAAATTAGGCAAAAGCATCAGTCTTTGTTGCAAGATTACTTGGTCTTGCAAAAGGAATGTGTATCAAAGAAGAGAAAGCTAAAGGAATCAAAGGAAAAGAAAGATACCCTTTTGGATGAAATCAGATTCTTGAAGCGGAGACGCAACCTCCTACTGAGGTTGCAATCACCAAATTCAGAACAACAGGAAGATTTTGTTGAGTCACAGAAGACACATGCTAAATATGAAGTAGGACCAAGTGGAAGATACGCTGGTACTAGTGAACCACCGTTGCAAAATTCACGGCCAACAACGGGTTCTATTTGGAATTCTGCTAGCCTCGCCAACGAGGAGGTGGGTTTTCCATCAGTGAAATTAGGGAAGAAGCCTAAGGATTTGTTTACTAATGGTAAAAGAGCTGAGAAAAGGAAAATTTCTTGGCAAGACCCGTTGGCGTTGAAGGTTTGAGTTTTTCAGCGCTTCAGAGAAGTACTTACAATTTGTGCAGACCACTTAAATTGACCTTGTATTAGTGAATCATTCTTTTCTTCTACTAGTAGGTTGTTTCTGAGAATACATATAGAGTAAATGTCAATGCTTTGGCAACTTATGTAATGGAGTTTATATATATATAAGGAAGTTTGATAAAGATTGCCAAATTCTACACGTTTCTGACTTGATAATTTCTTTTATGATTACTGTGATTTTTAGAGTGTTTGGAACAGAATTGAAACAGATGTCTTTTCCCCTTCTTTTCATTAATGTATTCTGTTCTGGTATCCCCT Coding sequence (CDS)
ATGGATTCTCGTCGATCAAGTTCTTCTGGTGTTGATGAGGTGACTAAAATTAGGCAAAAGCATCAGTCTTTGTTGCAAGATTACTTGGTCTTGCAAAAGGAATGTGTATCAAAGAAGAGAAAGCTAAAGGAATCAAAGGAAAAGAAAGATACCCTTTTGGATGAAATCAGATTCTTGAAGCGGAGACGCAACCTCCTACTGAGGTTGCAATCACCAAATTCAGAACAACAGGAAGATTTTGTTGAGTCACAGAAGACACATGCTAAATATGAAGTAGGACCAAGTGGAAGATACGCTGGTACTAGTGAACCACCGTTGCAAAATTCACGGCCAACAACGGGTTCTATTTGGAATTCTGCTAGCCTCGCCAACGAGGAGGTGGGTTTTCCATCAGTGAAATTAGGGAAGAAGCCTAAGGATTTGTTTACTAATGGTAAAAGAGCTGAGAAAAGGAAAATTTCTTGGCAAGACCCGTTGGCGTTGAAGGTTTGA Protein sequence
MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLKRRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSASLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV
Homology
BLAST of Spo18286.1 vs. NCBI nr
Match:
gi|902181053|gb|KNA09663.1| (hypothetical protein SOVF_151420 [Spinacia oleracea])
HSP 1 Score: 313.5 bits (802), Expect = 2.100e-82
Identity = 163/163 (100.00%), Postives = 163/163 (100.00%), Query Frame = 1
Query: 1 MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLK 60 MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLK Sbjct: 1 MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLK 60 Query: 61 RRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSA 120 RRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSA Sbjct: 61 RRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSA 120 Query: 121 SLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 SLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV Sbjct: 121 SLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 163
BLAST of Spo18286.1 vs. NCBI nr
Match:
gi|731320462|ref|XP_010670819.1| (PREDICTED: uncharacterized protein LOC104887776 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 255.0 bits (650), Expect = 8.900e-65
Identity = 133/163 (81.60%), Postives = 148/163 (90.80%), Query Frame = 1
Query: 1 MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLK 60 MDSRRSSS VD+V KIR+KHQSLLQDYLVLQKECVSK+RKLKE+KEKK+TLLDEIRFLK Sbjct: 1 MDSRRSSS--VDDVVKIREKHQSLLQDYLVLQKECVSKRRKLKEAKEKKETLLDEIRFLK 60 Query: 61 RRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSA 120 RRRNLL+++QS N+EQ +D + SQK+HAKYEVGPSG+YA TSEPPLQ+SR GSIWNSA Sbjct: 61 RRRNLLVKMQSQNAEQPQDIIHSQKSHAKYEVGPSGQYASTSEPPLQDSRLAIGSIWNSA 120 Query: 121 SLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 S+A EE GF SVKLGKKPKDLFTNGKRAEKRKISWQD LALKV Sbjct: 121 SIAKEEAGFASVKLGKKPKDLFTNGKRAEKRKISWQDQLALKV 161
BLAST of Spo18286.1 vs. NCBI nr
Match:
gi|728833261|gb|KHG12704.1| (Autophagy-related 18 [Gossypium arboreum])
HSP 1 Score: 94.7 bits (234), Expect = 1.500e-16
Identity = 61/168 (36.31%), Postives = 97/168 (57.74%), Query Frame = 1
Query: 4 RRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLKRRR 63 +R S + VDE T+ R KHQ+LLQ++L LQKE VSKK+KL+ ++++TLL E+RFL++R Sbjct: 2 KRVSVNSVDEGTRARLKHQTLLQEFLQLQKEFVSKKKKLQTVNQRRETLLAEVRFLRQRY 61 Query: 64 NLLLRLQSPNSEQQEDFVESQKTHAK--------YEVGPSGRYAGTSEPPLQNSRPTTGS 123 + L ++S E ++D V+SQ + + + + +G +S P + Sbjct: 62 SYLSTIKSRQPELEQDSVQSQNPYLQSKTVKPKNFSINEAGERRPSSLPGID------PY 121 Query: 124 IWNSASLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 + + V ++ +K K+ NGKR K+KISWQDP+ALKV Sbjct: 122 VAHEEKGGRNRVDVQALLRNEKSKNCSINGKRVRKKKISWQDPVALKV 163
BLAST of Spo18286.1 vs. NCBI nr
Match:
gi|1009133675|ref|XP_015884030.1| (PREDICTED: uncharacterized protein LOC107419752 [Ziziphus jujuba])
HSP 1 Score: 91.3 bits (225), Expect = 1.700e-15
Identity = 66/164 (40.24%), Postives = 95/164 (57.93%), Query Frame = 1
Query: 8 SSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLKRRRNLLL 67 S VDE +++ +HQSLLQDYL LQKE VSKK+K++ + +K++TLL E+RFL+RR LL Sbjct: 11 SQPVDEDARVKLRHQSLLQDYLELQKEFVSKKKKVQTTMQKRETLLAEVRFLRRRHKYLL 70 Query: 68 RLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTT----GSIW----NS 127 + Q P + + D V+ + + ++ R +E S P+T IW N Sbjct: 71 KQQYP--KIKTDDVQQHNSDVQLKLSAKQRKYNVTEG--VQSNPSTVLDMKQIWSHVENE 130 Query: 128 ASLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 V V++ KKPK+ N K+AEK+KIS QD +ALKV Sbjct: 131 GGKKQNHVR-EQVRVQKKPKNCLINNKKAEKQKISVQDQVALKV 169
BLAST of Spo18286.1 vs. NCBI nr
Match:
gi|225430500|ref|XP_002285546.1| (PREDICTED: uncharacterized protein LOC100266275 [Vitis vinifera])
HSP 1 Score: 87.0 bits (214), Expect = 3.200e-14
Identity = 73/175 (41.71%), Postives = 96/175 (54.86%), Query Frame = 1
Query: 3 SRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLKRR 62 SR+S + G DE+ ++ KHQSLLQDYL LQKE V+KKRKL + +K++TLL E+RFL+ R Sbjct: 8 SRQSRALG-DEI-RVGFKHQSLLQDYLELQKEFVAKKRKLLAANQKRETLLAEVRFLRGR 67 Query: 63 RNLLLRLQSP--------NSEQQEDFVESQKT-HAKYEVGPSGRYAGTSEPP-----LQN 122 L ++QSP N + Q + QK H S + A T P L+ Sbjct: 68 YRYLSKIQSPPPKPEPLQNPDIQSKKLPKQKNPHVNGVDVKSKKIAKTRNPSANGAVLKR 127 Query: 123 SRPTTGSIWNSASLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 P G I + E V P GK PK+ N K+ K+KISWQDP+ALKV Sbjct: 128 PPPPAGLILGGERMGEEAVLEPPRVRGK-PKNCLINDKKG-KKKISWQDPVALKV 178
BLAST of Spo18286.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9QSK9_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_151420 PE=4 SV=1)
HSP 1 Score: 313.5 bits (802), Expect = 1.500e-82
Identity = 163/163 (100.00%), Postives = 163/163 (100.00%), Query Frame = 1
Query: 1 MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLK 60 MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLK Sbjct: 1 MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLK 60 Query: 61 RRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSA 120 RRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSA Sbjct: 61 RRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSA 120 Query: 121 SLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 SLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV Sbjct: 121 SLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 163
BLAST of Spo18286.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8CT49_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g044100 PE=4 SV=1)
HSP 1 Score: 255.0 bits (650), Expect = 6.200e-65
Identity = 133/163 (81.60%), Postives = 148/163 (90.80%), Query Frame = 1
Query: 1 MDSRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLK 60 MDSRRSSS VD+V KIR+KHQSLLQDYLVLQKECVSK+RKLKE+KEKK+TLLDEIRFLK Sbjct: 1 MDSRRSSS--VDDVVKIREKHQSLLQDYLVLQKECVSKRRKLKEAKEKKETLLDEIRFLK 60 Query: 61 RRRNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSA 120 RRRNLL+++QS N+EQ +D + SQK+HAKYEVGPSG+YA TSEPPLQ+SR GSIWNSA Sbjct: 61 RRRNLLVKMQSQNAEQPQDIIHSQKSHAKYEVGPSGQYASTSEPPLQDSRLAIGSIWNSA 120 Query: 121 SLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 S+A EE GF SVKLGKKPKDLFTNGKRAEKRKISWQD LALKV Sbjct: 121 SIAKEEAGFASVKLGKKPKDLFTNGKRAEKRKISWQDQLALKV 161
BLAST of Spo18286.1 vs. UniProtKB/TrEMBL
Match:
A0A0B0NLN1_GOSAR (Autophagy-related 18 OS=Gossypium arboreum GN=F383_17388 PE=4 SV=1)
HSP 1 Score: 94.7 bits (234), Expect = 1.100e-16
Identity = 61/168 (36.31%), Postives = 97/168 (57.74%), Query Frame = 1
Query: 4 RRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLKRRR 63 +R S + VDE T+ R KHQ+LLQ++L LQKE VSKK+KL+ ++++TLL E+RFL++R Sbjct: 2 KRVSVNSVDEGTRARLKHQTLLQEFLQLQKEFVSKKKKLQTVNQRRETLLAEVRFLRQRY 61 Query: 64 NLLLRLQSPNSEQQEDFVESQKTHAK--------YEVGPSGRYAGTSEPPLQNSRPTTGS 123 + L ++S E ++D V+SQ + + + + +G +S P + Sbjct: 62 SYLSTIKSRQPELEQDSVQSQNPYLQSKTVKPKNFSINEAGERRPSSLPGID------PY 121 Query: 124 IWNSASLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 + + V ++ +K K+ NGKR K+KISWQDP+ALKV Sbjct: 122 VAHEEKGGRNRVDVQALLRNEKSKNCSINGKRVRKKKISWQDPVALKV 163
BLAST of Spo18286.1 vs. UniProtKB/TrEMBL
Match:
A0A0B0P2P8_GOSAR (Uncharacterized protein OS=Gossypium arboreum GN=F383_05308 PE=4 SV=1)
HSP 1 Score: 87.0 bits (214), Expect = 2.200e-14
Identity = 57/162 (35.19%), Postives = 97/162 (59.88%), Query Frame = 1
Query: 3 SRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLKRR 62 +R+ +++ VDE K R KHQSLLQ++L LQKE VS K+KL+ + + +LL+E+RFL++R Sbjct: 7 NRQYNNNSVDEEAKARLKHQSLLQEFLELQKEFVSMKKKLETVNQMRGSLLNEVRFLRQR 66 Query: 63 RNLLLRLQSPNSEQQEDFVESQKTHAKYEVGPSGRYAGTSEPPLQNSRPTTGSIWNSASL 122 + L ++S Q+D V+SQ ++ + ++ + + E L + ++ + Sbjct: 67 YSYLSMVKSREYGLQKDSVQSQNSYLQNKMVKNFGINVSVERRLNSLPDLDPNVIHEEGS 126 Query: 123 ANEEVGFPSV-KLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 +V +V + GKK ++ NGKR K+KISWQD +A K+ Sbjct: 127 GRSQVDVQAVSRKGKKSQNRLMNGKRVGKKKISWQDQVAFKI 168
BLAST of Spo18286.1 vs. UniProtKB/TrEMBL
Match:
D7SV49_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_04s0008g06700 PE=4 SV=1)
HSP 1 Score: 87.0 bits (214), Expect = 2.200e-14
Identity = 73/175 (41.71%), Postives = 96/175 (54.86%), Query Frame = 1
Query: 3 SRRSSSSGVDEVTKIRQKHQSLLQDYLVLQKECVSKKRKLKESKEKKDTLLDEIRFLKRR 62 SR+S + G DE+ ++ KHQSLLQDYL LQKE V+KKRKL + +K++TLL E+RFL+ R Sbjct: 8 SRQSRALG-DEI-RVGFKHQSLLQDYLELQKEFVAKKRKLLAANQKRETLLAEVRFLRGR 67 Query: 63 RNLLLRLQSP--------NSEQQEDFVESQKT-HAKYEVGPSGRYAGTSEPP-----LQN 122 L ++QSP N + Q + QK H S + A T P L+ Sbjct: 68 YRYLSKIQSPPPKPEPLQNPDIQSKKLPKQKNPHVNGVDVKSKKIAKTRNPSANGAVLKR 127 Query: 123 SRPTTGSIWNSASLANEEVGFPSVKLGKKPKDLFTNGKRAEKRKISWQDPLALKV 164 P G I + E V P GK PK+ N K+ K+KISWQDP+ALKV Sbjct: 128 PPPPAGLILGGERMGEEAVLEPPRVRGK-PKNCLINDKKG-KKKISWQDPVALKV 178
The following BLAST results are available for this feature:
BLAST of Spo18286.1 vs. NCBI nr
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. NCBI nr )
Total hits: 5
A G A T A A C A A G T C T T A T G C A A T A G C C A A A C A G C C A T A A A T A A A C C C C T T T T T C T T T T T T G A G A A A T A A A A A T A T C G T T T T T T A T T T A C T T T T T G A G G A T A A C C C C A T T T T T T T A A T T G A T C A A A A G C C C A C C A T A T C T A T T T A T A T C T T C A A A A T T T A T C G A A T A T G G G A A A G A T A A C A A C C A A A A T A C A G T G T A C T C T T G A A A A C A G G G G A A A A C A G A G G A A A T A G A A A G G A A A A A A A A A A G G G G A A A A A A A A A A G G G A T T T T T A T G G A A A G G G T G G A A A A A T C A T G G C T T C C T T G T A A T G T C T T C C A A A G A A A G A A A G A A A G C T C C T T T G T T T T C T C T C T C C T C T T T T T C T G T C A A T T T T A T G A A A A C A T T T A T G A C A G A A A T A C C C T T T A A T T G C T T T G T T G C A T A G T T T C A G A G A G A G A G G A G A G A G T G C C A C A A A T C C A C G A T G C C T T C C A A G T T C C A T C T T C A T C A C A A A C C A C C A A C T C T C T T T C T C A A A T A T A T T T T C A G A G G G N N N N N N N N N N A A A A C A G G G G A A A A C A G A G G A A A T A G A A A G G A A A A A A A A A A G G A A A A A A A A A A G G G A T T T T T A T G G A A A G G G T G G A A A A A T C A T G G C T T C C T T G T A A T G T C T T C C A A A G A A A G A A A G A A A G C T C C T T T G T T T T C T C T C T C C T C T T T T T C T G T C A A T T T T A T G A A A A C A T T T A T G A C A G A A A T A C C C T T T A A T T G C T T T G T T G C A T A G T T T C A G A G A G A G A G G A G A G A G T G C C A C A A A T C C A C G A T G C C T T C C A A G T T C C A T C T T C A T C A C A A A C C A C C A A C T C T C T T T C T C A A A T A T A T T T T C A G A G G G G C C C T T T T T G G G G T T T T C A C A T C T C T T C C C A T T C A A T G T T C C A C A G G A A G A G A A A G T G A A G A A A C T T C A G C C T T T T C T T C T C T C T T A T T A G C C C T T T T C A C G C T A C C C C C T C T T A A C C T T T T T T C T C T C T C C T C T T T T T C A T C A A A C C T T A T C T T T C T C T C T C C T A G G G T T T C T T C T G T T A T T C C C C T G T T T C T G A T T T G T T T T T C T A G G G T T T C T T G A T T T T T T G T G G G A T T T T G G T T G A T G G G T A T T T G A T T T T G A G C A A A A G G G T G T T T T T T T T C T T G T T G T T G T T T G A T T C A T G G A T T C T C G T C G A T C A A G T T C T T C T G G T G T T G A T G A G G T G A C T A A A A T T A G G C A A A A G C A T C A G T C T T T G T T G C A A G A T T A C T T G G T C T T G C A A A A G G A A T G T G T A T C A A A G A A G A G A A A G C T A A A G G A A T C A A A G G A A A A G A A A G A T A C C C T T T T G G A T G A A A T C A G A T T C T T G A A G C G G A G A C G C A A C C T C C T A C T G A G G T T G C A A T C A C C A A A T T C A G A A C A A C A G G A A G A T T T T G T T G A G T C A C A G A A G A C A C A T G C T A A A T A T G A A G T A G G A C C A A G T G G A A G A T A C G C T G G T A C T A G T G A A C C A C C G T T G C A A A A T T C A C G G C C A A C A A C G G G T T C T A T T T G G A A T T C T G C T A G C C T C G C C A A C G A G G A G G T G G G T T T T C C A T C A G T G A A A T T A G G G A A G A A G C C T A A G G A T T T G T T T A C T A A T G G T A A A A G A G C T G A G A A A A G G A A A A T T T C T T G G C A A G A C C C G T T G G C G T T G A A G G T T T G A G T T T T T C A G C G C T T C A G A G A A G T A C T T A C A A T T T G T G C A G A C C A C T T A A A T T G A C C T T G T A T T A G T G A A T C A T T C T T T T C T T C T A C T A G T A G G T T G T T T C T G A G A A T A C A T A T A G A G T A A A T G T C A A T G C T T T G G C A A C T T A T G T A A T G G A G T T T A T A T A T A T A T A A G G A A G T T T G A T A A A G A T T G C C A A A T T C T A C A C G T T T C T G A C T T G A T A A T T T C T T T T A T G A T T A C T G T G A T T T T T A G A G T G T T T G G A A C A G A A T T G A A A C A G A T G T C T T T T C C C C T T C T T T T C A T T A A T G T A T T C T G T T C T G G T A T C C C C T 200 400 600 800 1000 1200 1400 1600 1800 Expect = 2.10e-82 / Id = 100.00 Expect = 8.90e-65 / Id = 81.60 Expect = 1.50e-16 / Id = 36.31 Expect = 1.70e-15 / Id = 40.24 Expect = 3.20e-14 / Id = 41.71 Sequence KNA09663.1 XP_010670819.1 KHG12704.1 XP_015884030.1 XP_002285546.1
back to top
BLAST of Spo18286.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL )
Total hits: 5
A G A T A A C A A G T C T T A T G C A A T A G C C A A A C A G C C A T A A A T A A A C C C C T T T T T C T T T T T T G A G A A A T A A A A A T A T C G T T T T T T A T T T A C T T T T T G A G G A T A A C C C C A T T T T T T T A A T T G A T C A A A A G C C C A C C A T A T C T A T T T A T A T C T T C A A A A T T T A T C G A A T A T G G G A A A G A T A A C A A C C A A A A T A C A G T G T A C T C T T G A A A A C A G G G G A A A A C A G A G G A A A T A G A A A G G A A A A A A A A A A G G G G A A A A A A A A A A G G G A T T T T T A T G G A A A G G G T G G A A A A A T C A T G G C T T C C T T G T A A T G T C T T C C A A A G A A A G A A A G A A A G C T C C T T T G T T T T C T C T C T C C T C T T T T T C T G T C A A T T T T A T G A A A A C A T T T A T G A C A G A A A T A C C C T T T A A T T G C T T T G T T G C A T A G T T T C A G A G A G A G A G G A G A G A G T G C C A C A A A T C C A C G A T G C C T T C C A A G T T C C A T C T T C A T C A C A A A C C A C C A A C T C T C T T T C T C A A A T A T A T T T T C A G A G G G N N N N N N N N N N A A A A C A G G G G A A A A C A G A G G A A A T A G A A A G G A A A A A A A A A A G G A A A A A A A A A A G G G A T T T T T A T G G A A A G G G T G G A A A A A T C A T G G C T T C C T T G T A A T G T C T T C C A A A G A A A G A A A G A A A G C T C C T T T G T T T T C T C T C T C C T C T T T T T C T G T C A A T T T T A T G A A A A C A T T T A T G A C A G A A A T A C C C T T T A A T T G C T T T G T T G C A T A G T T T C A G A G A G A G A G G A G A G A G T G C C A C A A A T C C A C G A T G C C T T C C A A G T T C C A T C T T C A T C A C A A A C C A C C A A C T C T C T T T C T C A A A T A T A T T T T C A G A G G G G C C C T T T T T G G G G T T T T C A C A T C T C T T C C C A T T C A A T G T T C C A C A G G A A G A G A A A G T G A A G A A A C T T C A G C C T T T T C T T C T C T C T T A T T A G C C C T T T T C A C G C T A C C C C C T C T T A A C C T T T T T T C T C T C T C C T C T T T T T C A T C A A A C C T T A T C T T T C T C T C T C C T A G G G T T T C T T C T G T T A T T C C C C T G T T T C T G A T T T G T T T T T C T A G G G T T T C T T G A T T T T T T G T G G G A T T T T G G T T G A T G G G T A T T T G A T T T T G A G C A A A A G G G T G T T T T T T T T C T T G T T G T T G T T T G A T T C A T G G A T T C T C G T C G A T C A A G T T C T T C T G G T G T T G A T G A G G T G A C T A A A A T T A G G C A A A A G C A T C A G T C T T T G T T G C A A G A T T A C T T G G T C T T G C A A A A G G A A T G T G T A T C A A A G A A G A G A A A G C T A A A G G A A T C A A A G G A A A A G A A A G A T A C C C T T T T G G A T G A A A T C A G A T T C T T G A A G C G G A G A C G C A A C C T C C T A C T G A G G T T G C A A T C A C C A A A T T C A G A A C A A C A G G A A G A T T T T G T T G A G T C A C A G A A G A C A C A T G C T A A A T A T G A A G T A G G A C C A A G T G G A A G A T A C G C T G G T A C T A G T G A A C C A C C G T T G C A A A A T T C A C G G C C A A C A A C G G G T T C T A T T T G G A A T T C T G C T A G C C T C G C C A A C G A G G A G G T G G G T T T T C C A T C A G T G A A A T T A G G G A A G A A G C C T A A G G A T T T G T T T A C T A A T G G T A A A A G A G C T G A G A A A A G G A A A A T T T C T T G G C A A G A C C C G T T G G C G T T G A A G G T T T G A G T T T T T C A G C G C T T C A G A G A A G T A C T T A C A A T T T G T G C A G A C C A C T T A A A T T G A C C T T G T A T T A G T G A A T C A T T C T T T T C T T C T A C T A G T A G G T T G T T T C T G A G A A T A C A T A T A G A G T A A A T G T C A A T G C T T T G G C A A C T T A T G T A A T G G A G T T T A T A T A T A T A T A A G G A A G T T T G A T A A A G A T T G C C A A A T T C T A C A C G T T T C T G A C T T G A T A A T T T C T T T T A T G A T T A C T G T G A T T T T T A G A G T G T T T G G A A C A G A A T T G A A A C A G A T G T C T T T T C C C C T T C T T T T C A T T A A T G T A T T C T G T T C T G G T A T C C C C T 200 400 600 800 1000 1200 1400 1600 1800 Expect = 1.50e-82 / Id = 100.00 Expect = 6.20e-65 / Id = 81.60 Expect = 1.10e-16 / Id = 36.31 Expect = 2.20e-14 / Id = 35.19 Expect = 2.20e-14 / Id = 41.71 Sequence A0A0K9QSK9_SPIOL A0A0J8CT49_BETVU A0A0B0NLN1_GOSAR A0A0B0P2P8_GOSAR D7SV49_VITVI
back to top
BLAST of Spo18286.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. ExPASy SwissProt )
Total hits: 0
A G A T A A C A A G T C T T A T G C A A T A G C C A A A C A G C C A T A A A T A A A C C C C T T T T T C T T T T T T G A G A A A T A A A A A T A T C G T T T T T T A T T T A C T T T T T G A G G A T A A C C C C A T T T T T T T A A T T G A T C A A A A G C C C A C C A T A T C T A T T T A T A T C T T C A A A A T T T A T C G A A T A T G G G A A A G A T A A C A A C C A A A A T A C A G T G T A C T C T T G A A A A C A G G G G A A A A C A G A G G A A A T A G A A A G G A A A A A A A A A A G G G G A A A A A A A A A A G G G A T T T T T A T G G A A A G G G T G G A A A A A T C A T G G C T T C C T T G T A A T G T C T T C C A A A G A A A G A A A G A A A G C T C C T T T G T T T T C T C T C T C C T C T T T T T C T G T C A A T T T T A T G A A A A C A T T T A T G A C A G A A A T A C C C T T T A A T T G C T T T G T T G C A T A G T T T C A G A G A G A G A G G A G A G A G T G C C A C A A A T C C A C G A T G C C T T C C A A G T T C C A T C T T C A T C A C A A A C C A C C A A C T C T C T T T C T C A A A T A T A T T T T C A G A G G G N N N N N N N N N N A A A A C A G G G G A A A A C A G A G G A A A T A G A A A G G A A A A A A A A A A G G A A A A A A A A A A G G G A T T T T T A T G G A A A G G G T G G A A A A A T C A T G G C T T C C T T G T A A T G T C T T C C A A A G A A A G A A A G A A A G C T C C T T T G T T T T C T C T C T C C T C T T T T T C T G T C A A T T T T A T G A A A A C A T T T A T G A C A G A A A T A C C C T T T A A T T G C T T T G T T G C A T A G T T T C A G A G A G A G A G G A G A G A G T G C C A C A A A T C C A C G A T G C C T T C C A A G T T C C A T C T T C A T C A C A A A C C A C C A A C T C T C T T T C T C A A A T A T A T T T T C A G A G G G G C C C T T T T T G G G G T T T T C A C A T C T C T T C C C A T T C A A T G T T C C A C A G G A A G A G A A A G T G A A G A A A C T T C A G C C T T T T C T T C T C T C T T A T T A G C C C T T T T C A C G C T A C C C C C T C T T A A C C T T T T T T C T C T C T C C T C T T T T T C A T C A A A C C T T A T C T T T C T C T C T C C T A G G G T T T C T T C T G T T A T T C C C C T G T T T C T G A T T T G T T T T T C T A G G G T T T C T T G A T T T T T T G T G G G A T T T T G G T T G A T G G G T A T T T G A T T T T G A G C A A A A G G G T G T T T T T T T T C T T G T T G T T G T T T G A T T C A T G G A T T C T C G T C G A T C A A G T T C T T C T G G T G T T G A T G A G G T G A C T A A A A T T A G G C A A A A G C A T C A G T C T T T G T T G C A A G A T T A C T T G G T C T T G C A A A A G G A A T G T G T A T C A A A G A A G A G A A A G C T A A A G G A A T C A A A G G A A A A G A A A G A T A C C C T T T T G G A T G A A A T C A G A T T C T T G A A G C G G A G A C G C A A C C T C C T A C T G A G G T T G C A A T C A C C A A A T T C A G A A C A A C A G G A A G A T T T T G T T G A G T C A C A G A A G A C A C A T G C T A A A T A T G A A G T A G G A C C A A G T G G A A G A T A C G C T G G T A C T A G T G A A C C A C C G T T G C A A A A T T C A C G G C C A A C A A C G G G T T C T A T T T G G A A T T C T G C T A G C C T C G C C A A C G A G G A G G T G G G T T T T C C A T C A G T G A A A T T A G G G A A G A A G C C T A A G G A T T T G T T T A C T A A T G G T A A A A G A G C T G A G A A A A G G A A A A T T T C T T G G C A A G A C C C G T T G G C G T T G A A G G T T T G A G T T T T T C A G C G C T T C A G A G A A G T A C T T A C A A T T T G T G C A G A C C A C T T A A A T T G A C C T T G T A T T A G T G A A T C A T T C T T T T C T T C T A C T A G T A G G T T G T T T C T G A G A A T A C A T A T A G A G T A A A T G T C A A T G C T T T G G C A A C T T A T G T A A T G G A G T T T A T A T A T A T A T A A G G A A G T T T G A T A A A G A T T G C C A A A T T C T A C A C G T T T C T G A C T T G A T A A T T T C T T T T A T G A T T A C T G T G A T T T T T A G A G T G T T T G G A A C A G A A T T G A A A C A G A T G T C T T T T C C C C T T C T T T T C A T T A A T G T A T T C T G T T C T G G T A T C C C C T 200 400 600 800 1000 1200 1400 1600 1800 Sequence
Match Name E-value Identity Description
back to top
BLAST of Spo18286.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. TAIR )
Total hits: 0
A G A T A A C A A G T C T T A T G C A A T A G C C A A A C A G C C A T A A A T A A A C C C C T T T T T C T T T T T T G A G A A A T A A A A A T A T C G T T T T T T A T T T A C T T T T T G A G G A T A A C C C C A T T T T T T T A A T T G A T C A A A A G C C C A C C A T A T C T A T T T A T A T C T T C A A A A T T T A T C G A A T A T G G G A A A G A T A A C A A C C A A A A T A C A G T G T A C T C T T G A A A A C A G G G G A A A A C A G A G G A A A T A G A A A G G A A A A A A A A A A G G G G A A A A A A A A A A G G G A T T T T T A T G G A A A G G G T G G A A A A A T C A T G G C T T C C T T G T A A T G T C T T C C A A A G A A A G A A A G A A A G C T C C T T T G T T T T C T C T C T C C T C T T T T T C T G T C A A T T T T A T G A A A A C A T T T A T G A C A G A A A T A C C C T T T A A T T G C T T T G T T G C A T A G T T T C A G A G A G A G A G G A G A G A G T G C C A C A A A T C C A C G A T G C C T T C C A A G T T C C A T C T T C A T C A C A A A C C A C C A A C T C T C T T T C T C A A A T A T A T T T T C A G A G G G N N N N N N N N N N A A A A C A G G G G A A A A C A G A G G A A A T A G A A A G G A A A A A A A A A A G G A A A A A A A A A A G G G A T T T T T A T G G A A A G G G T G G A A A A A T C A T G G C T T C C T T G T A A T G T C T T C C A A A G A A A G A A A G A A A G C T C C T T T G T T T T C T C T C T C C T C T T T T T C T G T C A A T T T T A T G A A A A C A T T T A T G A C A G A A A T A C C C T T T A A T T G C T T T G T T G C A T A G T T T C A G A G A G A G A G G A G A G A G T G C C A C A A A T C C A C G A T G C C T T C C A A G T T C C A T C T T C A T C A C A A A C C A C C A A C T C T C T T T C T C A A A T A T A T T T T C A G A G G G G C C C T T T T T G G G G T T T T C A C A T C T C T T C C C A T T C A A T G T T C C A C A G G A A G A G A A A G T G A A G A A A C T T C A G C C T T T T C T T C T C T C T T A T T A G C C C T T T T C A C G C T A C C C C C T C T T A A C C T T T T T T C T C T C T C C T C T T T T T C A T C A A A C C T T A T C T T T C T C T C T C C T A G G G T T T C T T C T G T T A T T C C C C T G T T T C T G A T T T G T T T T T C T A G G G T T T C T T G A T T T T T T G T G G G A T T T T G G T T G A T G G G T A T T T G A T T T T G A G C A A A A G G G T G T T T T T T T T C T T G T T G T T G T T T G A T T C A T G G A T T C T C G T C G A T C A A G T T C T T C T G G T G T T G A T G A G G T G A C T A A A A T T A G G C A A A A G C A T C A G T C T T T G T T G C A A G A T T A C T T G G T C T T G C A A A A G G A A T G T G T A T C A A A G A A G A G A A A G C T A A A G G A A T C A A A G G A A A A G A A A G A T A C C C T T T T G G A T G A A A T C A G A T T C T T G A A G C G G A G A C G C A A C C T C C T A C T G A G G T T G C A A T C A C C A A A T T C A G A A C A A C A G G A A G A T T T T G T T G A G T C A C A G A A G A C A C A T G C T A A A T A T G A A G T A G G A C C A A G T G G A A G A T A C G C T G G T A C T A G T G A A C C A C C G T T G C A A A A T T C A C G G C C A A C A A C G G G T T C T A T T T G G A A T T C T G C T A G C C T C G C C A A C G A G G A G G T G G G T T T T C C A T C A G T G A A A T T A G G G A A G A A G C C T A A G G A T T T G T T T A C T A A T G G T A A A A G A G C T G A G A A A A G G A A A A T T T C T T G G C A A G A C C C G T T G G C G T T G A A G G T T T G A G T T T T T C A G C G C T T C A G A G A A G T A C T T A C A A T T T G T G C A G A C C A C T T A A A T T G A C C T T G T A T T A G T G A A T C A T T C T T T T C T T C T A C T A G T A G G T T G T T T C T G A G A A T A C A T A T A G A G T A A A T G T C A A T G C T T T G G C A A C T T A T G T A A T G G A G T T T A T A T A T A T A T A A G G A A G T T T G A T A A A G A T T G C C A A A T T C T A C A C G T T T C T G A C T T G A T A A T T T C T T T T A T G A T T A C T G T G A T T T T T A G A G T G T T T G G A A C A G A A T T G A A A C A G A T G T C T T T T C C C C T T C T T T T C A T T A A T G T A T T C T G T T C T G G T A T C C C C T 200 400 600 800 1000 1200 1400 1600 1800 Sequence
Match Name E-value Identity Description
back to top