Sequences
The following sequences are available for this feature:
Gene sequence (with intron)
Legend: exon five_prime_UTR polypeptide CDS three_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
GCGGCGAGTAGTGCGAAATTACCCTCCATTTGATTTGAATTTGAATATATTTTGCACAATATCTGTGAGCCCTACCTTTCATTCCTGCGGGAAACAATATCAAGCCCATCCCAATGAGGAGAGAGAAAACTACTCGAAACTACAGATGGAGGCGGCAGTGAGCACACTCATGACTCATCTCACCGCGCTATACTTGAATTCAAATTCATTTCCATTTTCTATTTCCCATTTCAATTCGAATCAATTTTCTACTCTTGTAAACTAATCCCCAATTTACACTCACCAACAAAAAAGATTCTCTCCAAAAAAACCAAAAAAGCTTAAAACCCCTCAAGAACAAACCCTAATACCCGCGCTTCCTTCTCTAATCTCAATTTTCATTCTCAACCCCACTTCATTTCTTCTTTGATTTCGGAATTACCAACTACCCATCAAAATTCAATGAGTTTCCTACCGACCCTTTTCAGCAATCAGATTCGCGTGCTTTTTTTGTTTGTTTCCCTTGATCTAGGGATTGCTTCTTGATTTTTTGTAATTTTTTACCTTTTCTGCTTGATTATCTTCAAATTTGAGATTTTGTTTCTCTTCAAAAGGGTTGATTTTGAGCTATAAGTTGGTA ATGGGGGATGAAATGAGTTCCCATGGTGATTCTGAGGCATCTGGGAGGATCCCACAATCTGATTCTAAG GTTTGCATTTCAGTTTTGTTTTTGAAAAAAGGAGTGTTTTTTTTGGAGTTTGATTTATGTTTTTGACTTCTTATTGTGGATTTTTGTCTGTGAAGATGGTGGTGGGTGCAAAGCGGAGAGGCCAAGAGTTGGAGGATGACTCTCATGCAAGTCGTAAGCAGATTAAGACAAGGGATCTCCAATCAGTTCATCAATCTGAAG GTAGTATGTCTGGTTGCCTTCGAAAGCTTTGAAATTTTGGTGTTGTTTTGATTTGTATTAGGTGTAGCTTAGTTTTAGTTGATCTGGACTGCTTTGAGGTTGGTGGTGTTGCTTTTAGCATTGTAACTTAATGAAATTCTTATCTGCATTATCATGCCAACTGTCAAGGGTTTGGAACCCTTTTTAATTGATGAAAATTTCTCCCTCGAAATGGTGTGGTTGAACATAATGGTTTATGCAATTTATGGGTGTAGGTAATTATCTATATACTCAGTTTCTTGTTATATGACAATTGTGACGTACTACAGTTTGCTATAGTTTAAATATGGTGCTCAAAGCAGCCATCATGCTTACGCTATTTTGAATTAGTGTTGGACTTCCTCATTTGGCCTTGTTTTAGAACTTGCATTGTTTCTTTTGGTAGTGCATCTAGTTTTTATTAACAAATGGAGGCAAATTCATGAATTCTCTTACCACAGGAATTGATACTGATGAACCTGACACTTCTAAAATAGATGAAAGTGAGGAACACATGGACATTATAGAGACTCAGAGTTCGCAAGTTCTTGATAAGAATGCCATTGAAAATGCAGATACAAGACATTTAGAAGGGGGATCGAAACAATCAATGCATTTGGTTGATCATAATGATTCTACACCACTGGATCTCAATACTGAAATGTGCACTGATGAAAATACAGGTTATATTGAAGCTGTTGTGTCTCTAGAAGGTCCCAAAAAACATTCCTCACATGCAAAAGGCAAAGCCATCCTTGATCATAATCATATGTCTTTGGATGGTAATCACTTGAATCTTAATGCTGAAGACGTTGCTAGCTCAGCAAATCATGATCCTTTATACACCCATAGATCCCAAAATAATCAGAAGACGAAGGACACTTCGGATAGTGGGAGAACCACAGGCCGCTTGGAGGGTAAAGATGCTCTAAGAAAGTGGAAAGAGATGAAGAAAAATGGTTTTATGTCATCTTCTAATAGTTATGGAGGCATACCAGCAGCGCCTAAGCAGCGTGGAAGGAAGAACAAAAATGAGGTACTCAAGCAGAAGATGATGGAACAAGCAAAGAAGGAACAGGTTGATAGATTTACGAAGATGGCTGCTCCTAGTGGATTGCTCAATGGATTGAACCCTGGAATTATAAACCATGTAAGGAATAGTAAACAGGTGCATTCCATTATTCAGGCACTTGTGAAATCTGAGAAAAAGGAAAATCGCAGACAAGCAAACGAGATGAAAAGTAGAGAACTATCTGAAAGAAATACAGAACAAGAAAATTTAAATATTTCTGGGGTACATGGATCTGGTCTCTCTTATTCAATGCCAGAAAGCAATTTACTCTATGAGAACCATTTTTTACATCATCCTTCAAACTTATTTAGTTCAGGGGATAGGACTGGATGCAGGGACTCCGTCACCGAGCAGAGGAGATCTTACCCAAATGTATCTTTGTTTTCAAACACCAAGAATTACAGTGAGAATGATATACTTGCTCTAAAGTTGGCATCATCATCTAAGGTCACAGAAAGTACCAGCTGTCTTTCCAATGAGGAATCAGCAAATGGCAGCAGTGTTGACACTCTTTCTGTCAAAG GTGTGTTCTTGAGCTTCTGTTTACCTCTTTTTTGCTTGAAGTGTTCAGTGTTGCGGTGATTGTTGAAGATCTTTATAAAGTTGCAGCTATAATGGAGCACATATCTAGACTATGTGTTTTTTCCTTAGATTGCTACTGGCTATGATTGACCATTAACACTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCGGTCTTCAGCTGCTACAGTAGCTTCCCAATGGCTGCAGCTTCTACATCAGGACATAAAAGGCCGTCTTGCTG GTGAATTTTCATTTACTGACAGTTTTACATTTGAGCTTTCTTCTTTAAAGAAATGTGGATCATTTTAGTTGCCTGCTGTATTTGTGGTTCCATTGCAGCTTTGCGTCGAAGTAAGAAGAGAGTACGTGCTGTTATTACTACTGAGTTGCCTTTCCTGCTGTCAAAAGAATTCCCTCCCAACCAGGAGATTGATCCTTATGCTATGAAGGATTCTACTTCTGGTTACACTAGTAAAGCAACAGCTGAATTGCATCAATCTCATTGGAGTAAGCTGTTCAACCAGATGGATAATTCTCTTTGTGAAGAGGAGAAACAACTG GTAAGTTAAAAGGTAGACAGCAGTTTGTATACAGTCCTTAAAAGTCTTAGGTTTATGCTTATTTTATGTTTGGAATGAAAGCTACTAAATTATATCCATTTCTGATGGAGCCAAAGGTTAATTTGTGCTTTTAGCAAATGTAATGGACTAAATCAAAGTGGCTCTCAAAACCTCTTTGCTTCCTTTCCATGAAGTAGAAGATGGTCGTCCTGTTTATTGCTTATGGGTCAATTGGAAACAGTCTCTCTGCAATTTGCAGGGTAAGGCTGAGTACGTCCGACCCCCCCCCTTACCCCGCTTGTTGTGGGAGCCTCTTCAGAGGCAATGGGGTAATGATGATTTATTTTATTGAAAGCTACTAATTTTTCCTCTCTTTTGTGTGTCGCAGGAGTGCTGGATAAATCAAGTAAATGAAATGATGTTACACTGTGATCAAGGTCTGCAACATGTACATTGGAACACAATATTTGAGATGCAGCATGTGGGAATTGTAGATAACAACTTAAG GTAGCGCTCTAGTCCTTGACGCTGTTGCTTCTATGAGAATATATGTTCATTTCTTTTTCATAATGTTAACCATCGGATTATTCCTAGATTAACGTTATTTATTATGTGAAGATGTGGTTGCTTATTTTTCCTTGTTATCTTCTTATGCCTCTGATGCATGCTTTGCTCTTTTTATGAATCCAATCTGCAAAGAATGTTTACTCTTCAGTTGTCTTCTTCTAGTACACGCTTGTTAGGTTGATATTGATAATTTGCTCTATTGACTGATTTCTGACTGCGAAAATCATCAGTATTGCCATGTATAGGACTAACTATATAATGTGCATAATAGGTACATAGTATTGTTTCCATTAAAGCTTGCTTGGCATATTTAAGAAATGTTTTTGTAGATCCAGAAGAACCGTATGCATAAATATAAAAGAACCGTAGGCATATATTTAAGAAAAATGATGCACTACTGCTTGCAATCATACGACACAGGGAATTGTGGTTACTGTGTATTCAATTTGTTTCCGTAACCAGGAAAAGTTGATGTATGCATAATGGGGCGATTACTATTTGATTTTTGGGTTGAATTTCATAGCTTGTGAATACGTATTATCCGGATTACCTCTCATGGTCTTGTTCTTTTTATTTTGAACCTTACGTTTCACAAAGCTTGTCTTAGACGCTTAGTTGATCTTCGGTAAAGGAAAAAGGTGGAAAATAGCTAATAGGTGTAATCATAGTGGACTGTGAGCCAGGACAACCAATTAAAAATTTCACAGAACAGAAAGAGTACAATTTTTGTGCAACAGAGGAATTATTCATTCATTTATTTGTTTATTTGCTCTGATCCCTTTCTTGTGGGTTGTGAGGCCGTGAGGGGAAACCCATCAAAACTTATAGGATATTTTTGGATAAGATTGCTAGCAGTTGGCTTTTCTTAATGTCCCTTATTACAGTTTTCAGAAATAGTATGGAGGATATCATGATTTTCTTAAGTTTTACTTGTGCCCGTTAACCGTGATCAGGATGGTCAGCTTTAAAGATATACAAAGTATTAACTTATTCCTGTTCTTCTTTTGACTACAGATCAAAGATTGATGATCCGGAGAAAGATTTGTCTGTAAGAGCTGCAGCAGCTTCCATTTACTCGACGTGCAATTTTCTTTCGTCAAGGGAAAATGTCAGCTGCTGCTGA CCATTCTTCCCAACATCTGAGAGTTGCTTGTTTCCAGTTACAGTTTTTTCGCCCTTTTCCTTACACAGTTCCAGATCTTCTGATCACCATGTGCATTTACAAATTTCACCGCCCTGTTCCCCTGCGGAATAATGATCTGTCTGAGCTTGTTTCCATGTAGAATTAGCTGGTGAGTTCACCAATGTATCCAGTCAATTTTCTTAGATGATAGGTGTAGAAAACTGACAGTTTGGATATTCATGTTATAGTAGTTAGGAGAAATTTTTCTTTACCCTTTTTCTGCTACTTGATTCTCGAAAGTAGCTAAGCCATTGTGCTTTACTGTATTTAGGTGACTGAATAATTGTGTTCCGAAATCTGATATGTCTCTGCTTGCGTATTCCTCGATTAACTGTTTTTTAAGCACCAGCAGATGAATTAGAAATGTATCATCAGAGACTAGCAATGATATGCCATCAATGTTATGCCTCACGCTTACCCTA mRNA sequence
GCGGCGAGTAGTGCGAAATTACCCTCCATTTGATTTGAATTTGAATATATTTTGCACAATATCTGTGAGCCCTACCTTTCATTCCTGCGGGAAACAATATCAAGCCCATCCCAATGAGGAGAGAGAAAACTACTCGAAACTACAGATGGAGGCGGCAGTGAGCACACTCATGACTCATCTCACCGCGCTATACTTGAATTCAAATTCATTTCCATTTTCTATTTCCCATTTCAATTCGAATCAATTTTCTACTCTTGTAAACTAATCCCCAATTTACACTCACCAACAAAAAAGATTCTCTCCAAAAAAACCAAAAAAGCTTAAAACCCCTCAAGAACAAACCCTAATACCCGCGCTTCCTTCTCTAATCTCAATTTTCATTCTCAACCCCACTTCATTTCTTCTTTGATTTCGGAATTACCAACTACCCATCAAAATTCAATGAGTTTCCTACCGACCCTTTTCAGCAATCAGATTCGCGTGCTTTTTTTGTTTGTTTCCCTTGATCTAGGGATTGCTTCTTGATTTTTTGTAATTTTTTACCTTTTCTGCTTGATTATCTTCAAATTTGAGATTTTGTTTCTCTTCAAAAGGGTTGATTTTGAGCTATAAGTTGGTAATGGGGGATGAAATGAGTTCCCATGGTGATTCTGAGGCATCTGGGAGGATCCCACAATCTGATTCTAAGATGGTGGTGGGTGCAAAGCGGAGAGGCCAAGAGTTGGAGGATGACTCTCATGCAAGTCGTAAGCAGATTAAGACAAGGGATCTCCAATCAGTTCATCAATCTGAAGGAATTGATACTGATGAACCTGACACTTCTAAAATAGATGAAAGTGAGGAACACATGGACATTATAGAGACTCAGAGTTCGCAAGTTCTTGATAAGAATGCCATTGAAAATGCAGATACAAGACATTTAGAAGGGGGATCGAAACAATCAATGCATTTGGTTGATCATAATGATTCTACACCACTGGATCTCAATACTGAAATGTGCACTGATGAAAATACAGGTTATATTGAAGCTGTTGTGTCTCTAGAAGGTCCCAAAAAACATTCCTCACATGCAAAAGGCAAAGCCATCCTTGATCATAATCATATGTCTTTGGATGGTAATCACTTGAATCTTAATGCTGAAGACGTTGCTAGCTCAGCAAATCATGATCCTTTATACACCCATAGATCCCAAAATAATCAGAAGACGAAGGACACTTCGGATAGTGGGAGAACCACAGGCCGCTTGGAGGGTAAAGATGCTCTAAGAAAGTGGAAAGAGATGAAGAAAAATGGTTTTATGTCATCTTCTAATAGTTATGGAGGCATACCAGCAGCGCCTAAGCAGCGTGGAAGGAAGAACAAAAATGAGGTACTCAAGCAGAAGATGATGGAACAAGCAAAGAAGGAACAGGTTGATAGATTTACGAAGATGGCTGCTCCTAGTGGATTGCTCAATGGATTGAACCCTGGAATTATAAACCATGTAAGGAATAGTAAACAGGTGCATTCCATTATTCAGGCACTTGTGAAATCTGAGAAAAAGGAAAATCGCAGACAAGCAAACGAGATGAAAAGTAGAGAACTATCTGAAAGAAATACAGAACAAGAAAATTTAAATATTTCTGGGGTACATGGATCTGGTCTCTCTTATTCAATGCCAGAAAGCAATTTACTCTATGAGAACCATTTTTTACATCATCCTTCAAACTTATTTAGTTCAGGGGATAGGACTGGATGCAGGGACTCCGTCACCGAGCAGAGGAGATCTTACCCAAATGTATCTTTGTTTTCAAACACCAAGAATTACAGTGAGAATGATATACTTGCTCTAAAGTTGGCATCATCATCTAAGGTCACAGAAAGTACCAGCTGTCTTTCCAATGAGGAATCAGCAAATGGCAGCAGTGTTGACACTCTTTCTGTCAAAGCTGCTACAGTAGCTTCCCAATGGCTGCAGCTTCTACATCAGGACATAAAAGGCCGTCTTGCTGCTTTGCGTCGAAGTAAGAAGAGAGTACGTGCTGTTATTACTACTGAGTTGCCTTTCCTGCTGTCAAAAGAATTCCCTCCCAACCAGGAGATTGATCCTTATGCTATGAAGGATTCTACTTCTGGTTACACTAGTAAAGCAACAGCTGAATTGCATCAATCTCATTGGAGTAAGCTGTTCAACCAGATGGATAATTCTCTTTGTGAAGAGGAGAAACAACTGGAGTGCTGGATAAATCAAGTAAATGAAATGATGTTACACTGTGATCAAGGTCTGCAACATGTACATTGGAACACAATATTTGAGATGCAGCATGTGGGAATTGTAGATAACAACTTAAGATCAAAGATTGATGATCCGGAGAAAGATTTGTCTGTAAGAGCTGCAGCAGCTTCCATTTACTCGACGTGCAATTTTCTTTCGTCAAGGGAAAATGTCAGCTGCTGCTGACCATTCTTCCCAACATCTGAGAGTTGCTTGTTTCCAGTTACAGTTTTTTCGCCCTTTTCCTTACACAGTTCCAGATCTTCTGATCACCATGTGCATTTACAAATTTCACCGCCCTGTTCCCCTGCGGAATAATGATCTGTCTGAGCTTGTTTCCATGTAGAATTAGCTGGTGAGTTCACCAATGTATCCAGTCAATTTTCTTAGATGATAGGTGTAGAAAACTGACAGTTTGGATATTCATGTTATAGTAGTTAGGAGAAATTTTTCTTTACCCTTTTTCTGCTACTTGATTCTCGAAAGTAGCTAAGCCATTGTGCTTTACTGTATTTAGGTGACTGAATAATTGTGTTCCGAAATCTGATATGTCTCTGCTTGCGTATTCCTCGATTAACTGTTTTTTAAGCACCAGCAGATGAATTAGAAATGTATCATCAGAGACTAGCAATGATATGCCATCAATGTTATGCCTCACGCTTACCCTA Coding sequence (CDS)
ATGGGGGATGAAATGAGTTCCCATGGTGATTCTGAGGCATCTGGGAGGATCCCACAATCTGATTCTAAGATGGTGGTGGGTGCAAAGCGGAGAGGCCAAGAGTTGGAGGATGACTCTCATGCAAGTCGTAAGCAGATTAAGACAAGGGATCTCCAATCAGTTCATCAATCTGAAGGAATTGATACTGATGAACCTGACACTTCTAAAATAGATGAAAGTGAGGAACACATGGACATTATAGAGACTCAGAGTTCGCAAGTTCTTGATAAGAATGCCATTGAAAATGCAGATACAAGACATTTAGAAGGGGGATCGAAACAATCAATGCATTTGGTTGATCATAATGATTCTACACCACTGGATCTCAATACTGAAATGTGCACTGATGAAAATACAGGTTATATTGAAGCTGTTGTGTCTCTAGAAGGTCCCAAAAAACATTCCTCACATGCAAAAGGCAAAGCCATCCTTGATCATAATCATATGTCTTTGGATGGTAATCACTTGAATCTTAATGCTGAAGACGTTGCTAGCTCAGCAAATCATGATCCTTTATACACCCATAGATCCCAAAATAATCAGAAGACGAAGGACACTTCGGATAGTGGGAGAACCACAGGCCGCTTGGAGGGTAAAGATGCTCTAAGAAAGTGGAAAGAGATGAAGAAAAATGGTTTTATGTCATCTTCTAATAGTTATGGAGGCATACCAGCAGCGCCTAAGCAGCGTGGAAGGAAGAACAAAAATGAGGTACTCAAGCAGAAGATGATGGAACAAGCAAAGAAGGAACAGGTTGATAGATTTACGAAGATGGCTGCTCCTAGTGGATTGCTCAATGGATTGAACCCTGGAATTATAAACCATGTAAGGAATAGTAAACAGGTGCATTCCATTATTCAGGCACTTGTGAAATCTGAGAAAAAGGAAAATCGCAGACAAGCAAACGAGATGAAAAGTAGAGAACTATCTGAAAGAAATACAGAACAAGAAAATTTAAATATTTCTGGGGTACATGGATCTGGTCTCTCTTATTCAATGCCAGAAAGCAATTTACTCTATGAGAACCATTTTTTACATCATCCTTCAAACTTATTTAGTTCAGGGGATAGGACTGGATGCAGGGACTCCGTCACCGAGCAGAGGAGATCTTACCCAAATGTATCTTTGTTTTCAAACACCAAGAATTACAGTGAGAATGATATACTTGCTCTAAAGTTGGCATCATCATCTAAGGTCACAGAAAGTACCAGCTGTCTTTCCAATGAGGAATCAGCAAATGGCAGCAGTGTTGACACTCTTTCTGTCAAAGCTGCTACAGTAGCTTCCCAATGGCTGCAGCTTCTACATCAGGACATAAAAGGCCGTCTTGCTGCTTTGCGTCGAAGTAAGAAGAGAGTACGTGCTGTTATTACTACTGAGTTGCCTTTCCTGCTGTCAAAAGAATTCCCTCCCAACCAGGAGATTGATCCTTATGCTATGAAGGATTCTACTTCTGGTTACACTAGTAAAGCAACAGCTGAATTGCATCAATCTCATTGGAGTAAGCTGTTCAACCAGATGGATAATTCTCTTTGTGAAGAGGAGAAACAACTGGAGTGCTGGATAAATCAAGTAAATGAAATGATGTTACACTGTGATCAAGGTCTGCAACATGTACATTGGAACACAATATTTGAGATGCAGCATGTGGGAATTGTAGATAACAACTTAAGATCAAAGATTGATGATCCGGAGAAAGATTTGTCTGTAAGAGCTGCAGCAGCTTCCATTTACTCGACGTGCAATTTTCTTTCGTCAAGGGAAAATGTCAGCTGCTGCTGA Protein sequence
MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGIDTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPLDLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSANHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAPKQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQALVKSEKKENRRQANEMKSRELSERNTEQENLNISGVHGSGLSYSMPESNLLYENHFLHHPSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSKVTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVITTELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQLECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIYSTCNFLSSRENVSCC
Homology
BLAST of Spo06769.1 vs. NCBI nr
Match:
gi|902218111|gb|KNA17959.1| (hypothetical protein SOVF_075070 [Spinacia oleracea])
HSP 1 Score: 1170.2 bits (3026), Expect = 0.000e+0
Identity = 606/606 (100.00%), Postives = 606/606 (100.00%), Query Frame = 1
Query: 1 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGI 60 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGI Sbjct: 1 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGI 60 Query: 61 DTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPL 120 DTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPL Sbjct: 61 DTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPL 120 Query: 121 DLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSA 180 DLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSA Sbjct: 121 DLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSA 180 Query: 181 NHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAP 240 NHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAP Sbjct: 181 NHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAP 240 Query: 241 KQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQ 300 KQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQ Sbjct: 241 KQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQ 300 Query: 301 ALVKSEKKENRRQANEMKSRELSERNTEQENLNISGVHGSGLSYSMPESNLLYENHFLHH 360 ALVKSEKKENRRQANEMKSRELSERNTEQENLNISGVHGSGLSYSMPESNLLYENHFLHH Sbjct: 301 ALVKSEKKENRRQANEMKSRELSERNTEQENLNISGVHGSGLSYSMPESNLLYENHFLHH 360 Query: 361 PSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSKVTESTSCLS 420 PSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSKVTESTSCLS Sbjct: 361 PSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSKVTESTSCLS 420 Query: 421 NEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVITTELPFLLSK 480 NEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVITTELPFLLSK Sbjct: 421 NEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVITTELPFLLSK 480 Query: 481 EFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQLECWINQVNE 540 EFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQLECWINQVNE Sbjct: 481 EFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQLECWINQVNE 540 Query: 541 MMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIYSTCNFLSSR 600 MMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIYSTCNFLSSR Sbjct: 541 MMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIYSTCNFLSSR 600 Query: 601 ENVSCC 607 ENVSCC Sbjct: 601 ENVSCC 606
BLAST of Spo06769.1 vs. NCBI nr
Match:
gi|731320052|ref|XP_010670600.1| (PREDICTED: uncharacterized protein LOC104887626 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 844.7 bits (2181), Expect = 9.800e-242
Identity = 457/615 (74.31%), Postives = 522/615 (84.88%), Query Frame = 1
Query: 1 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGI 60 MGD++SSH E+S +IP SDSK V+G KRRG++LE+DSH SRKQIK RDLQSV QSE I Sbjct: 1 MGDDLSSHCAFESSKKIPLSDSKTVIGLKRRGEDLEEDSHVSRKQIKIRDLQSVLQSEVI 60 Query: 61 DTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGS-KQSMHLVDHNDSTP 120 D EP S+++E+EEHMDI+ETQSSQVLD+NA+ENA+ RHLEGGS S+ L D + S P Sbjct: 61 DMSEPGASQLEETEEHMDIVETQSSQVLDRNAVENAEARHLEGGSINVSVPLGDCSGSMP 120 Query: 121 LDLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASS 180 LDLNTEMCTDEN+GY AVVSL+ +KHSS AK K ++HN++ L GN L+LN EDVASS Sbjct: 121 LDLNTEMCTDENSGYNNAVVSLDDSRKHSSCAKAKGSVEHNYLHLGGNRLDLNVEDVASS 180 Query: 181 ANHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAA 240 NHD LYT RSQN K ++TSDSGRTTGRL+ KDAL+KWKEMKKNGFMSSS YGGIP Sbjct: 181 VNHDSLYTCRSQNGPKVRETSDSGRTTGRLDDKDALKKWKEMKKNGFMSSSYGYGGIPPP 240 Query: 241 PKQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSII 300 PKQRGRK KNEVLKQKM EQAKKEQVDRFTK+AAPSGLLNGLNPGIINHVRNSKQVHSII Sbjct: 241 PKQRGRKGKNEVLKQKM-EQAKKEQVDRFTKIAAPSGLLNGLNPGIINHVRNSKQVHSII 300 Query: 301 QALVKSEKKENRRQANEMK--SRELSERNTEQENLNISGVHGSGLSYS------MPESNL 360 QALV+SEK+ENRRQA+EM+ S EL+ER TEQ +N +GVHGSGLSY+ MPES L Sbjct: 301 QALVRSEKRENRRQASEMRAGSGELNERITEQGYVNFTGVHGSGLSYAVSSFSLMPESTL 360 Query: 361 LYENHFLHHPSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSK 420 EN F H+ S L++S DR GC DSV E+RR S FS +N+SE+DILALKLASS+K Sbjct: 361 PCENQFSHNNSALYNSEDRNGCGDSVAEERRCCAKTSFFSYPENHSEDDILALKLASSTK 420 Query: 421 VTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVIT 480 VTESTSC+SNEESANGSSVDTLSVKAATVASQWLQL+HQDIKGRLAALRRSKKRVRAVIT Sbjct: 421 VTESTSCVSNEESANGSSVDTLSVKAATVASQWLQLMHQDIKGRLAALRRSKKRVRAVIT 480 Query: 481 TELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQL 540 TELPFLLSKEFP NQE P A+KD SGY +KATAE+HQSHW KLFNQMD++L +EEKQL Sbjct: 481 TELPFLLSKEFPSNQENIPDAVKDFASGYPTKATAEMHQSHWGKLFNQMDSALSDEEKQL 540 Query: 541 ECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIY 600 E W+N+VN+MMLHCDQGLQH+ W+TI EMQH+G+VDN+LRSK++DPEKDLSVRAAAASIY Sbjct: 541 ESWLNRVNKMMLHCDQGLQHIQWSTILEMQHMGMVDNDLRSKLNDPEKDLSVRAAAASIY 600 Query: 601 STCNFLSSRENVSCC 607 STCNFLSSRENVSCC Sbjct: 601 STCNFLSSRENVSCC 614
BLAST of Spo06769.1 vs. NCBI nr
Match:
gi|731324524|ref|XP_010673014.1| (PREDICTED: uncharacterized protein LOC104889486 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 776.9 bits (2005), Expect = 2.500e-221
Identity = 419/555 (75.50%), Postives = 475/555 (85.59%), Query Frame = 1
Query: 60 IDTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTP 119 +DT E T K E+E HMDI+ETQSSQVLDKN IENA+ RHLEG K S+ LVDH+ S P Sbjct: 1 MDTHESGTCKEQETEGHMDIVETQSSQVLDKNVIENAEARHLEGDKKMSVSLVDHSGSMP 60 Query: 120 LDLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASS 179 LDLNTE+CTDEN+ Y +A VS+ +KHSS+AKGK L+HNH+ L GN L+LNAEDVASS Sbjct: 61 LDLNTEVCTDENSCYNDADVSISDSRKHSSYAKGKVSLEHNHVCLGGNRLDLNAEDVASS 120 Query: 180 ANHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAA 239 N+DP YT+RSQNN KT+DTS+SG++TGRLE KDALRKWKEMKKNGFMSSS YGGIPAA Sbjct: 121 VNYDPFYTNRSQNNLKTRDTSNSGKSTGRLEDKDALRKWKEMKKNGFMSSSYGYGGIPAA 180 Query: 240 PKQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSII 299 PKQRGRK+KNE KQKM E+AKKEQ+DRFTK+AAPSGLLNGLNPGIINHVRNSKQVHSII Sbjct: 181 PKQRGRKSKNEAFKQKM-EKAKKEQIDRFTKIAAPSGLLNGLNPGIINHVRNSKQVHSII 240 Query: 300 QALVKSEKKENRRQANEMK--SRELSERNTEQENLNISGVHGSGLSY------SMPESNL 359 QALV+SEK+E RQA+E + SREL+ERNT QEN+ SG+HGSGLSY SMPE+ L Sbjct: 241 QALVRSEKQETLRQASETRAESRELAERNTLQENIKFSGLHGSGLSYAVSSFSSMPENTL 300 Query: 360 LYENHFLHHPSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSK 419 LYENHF H+ S LFSS DR+GCRDS E+RR N S +KNYSE+++ ALKLAS +K Sbjct: 301 LYENHFSHNGSVLFSSEDRSGCRDS--EERRYCANNSY---SKNYSEDNVHALKLASLTK 360 Query: 420 VTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVIT 479 V+ESTSC+SNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVIT Sbjct: 361 VSESTSCMSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVIT 420 Query: 480 TELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQL 539 TELP LLSKEFP NQE + Y +KD +GY+SKATAELHQSHW KLFNQMD+ L +EEKQL Sbjct: 421 TELPSLLSKEFPSNQENELYVVKDFATGYSSKATAELHQSHWGKLFNQMDSKLSDEEKQL 480 Query: 540 ECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIY 599 E W++QVN MMLHCDQGLQHV+W TI EMQH+GIVDN+LRSK++DPEKDLSVRAAAASIY Sbjct: 481 ESWLDQVNSMMLHCDQGLQHVNWKTISEMQHMGIVDNDLRSKLNDPEKDLSVRAAAASIY 540 Query: 600 STCNFLSSRENVSCC 607 STCNFLSSRENVSCC Sbjct: 541 STCNFLSSRENVSCC 549
BLAST of Spo06769.1 vs. NCBI nr
Match:
gi|703126718|ref|XP_010103651.1| (hypothetical protein L484_011244 [Morus notabilis])
HSP 1 Score: 450.7 bits (1158), Expect = 4.100e-123
Identity = 295/617 (47.81%), Postives = 399/617 (64.67%), Query Frame = 1
Query: 1 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHAS-RKQIKTRDLQSVHQSEG 60 M ++ S + + S +P+SD + VG KR E + S RK++K RDL+SV +S+ Sbjct: 1 MENQRESEANLDRSVLMPKSDYQ-TVGEKRGSAESGYEQQRSPRKRVKMRDLESVCRSDE 60 Query: 61 IDTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTP 120 ++ T K E + + SQ+ + ++D H E K++ V + P Sbjct: 61 TNSHLLKTMKNKECSAEHEFDQKDKSQLTEVRVGLDSDASHAEKIGKKTFPGVADSPPRP 120 Query: 121 LDLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASS 180 LDLNTEMC + + ++ + K + + ++ G L+LN+EDV SS Sbjct: 121 LDLNTEMCIPKEKVHDDSQECSKSSDKREQYTE--------FVTSRGIGLDLNSEDVFSS 180 Query: 181 ANHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAA 240 N DP + ++S + K +D S+ +TG LE D +R WKEMK+NGF+SS+ +GG+P Sbjct: 181 MNQDPFFPYKSHSQSKPRDISECASSTGPLEENDPMRVWKEMKQNGFLSST--HGGVPI- 240 Query: 241 PKQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSII 300 PKQRGRK+K++VLK+KM E AK+EQVDRFTK+AAPSGLLN LNPGIINHVRN KQVHSII Sbjct: 241 PKQRGRKSKSDVLKKKM-EIAKREQVDRFTKIAAPSGLLNELNPGIINHVRNRKQVHSII 300 Query: 301 QALVKSEKKENRRQANEMKSRELSE-----RNTEQENLNISGVHGSGLSYS-MPESNLLY 360 +ALV+SE+ E+ + N+ S S +QENLN S + G S+ P + + + Sbjct: 301 EALVRSERHESNQVGNKQTSHTKSGTTEICNRKDQENLNDSAIQGVSSSHEDRPPNTVSW 360 Query: 361 ENHFLHHPSNLFSSG---DRTGCR-DSVTEQRRSYPNVSLFSNTKNYSENDILALKLASS 420 +P +L + G D T +R S + S N E D LALKL+SS Sbjct: 361 VRQVRGYPPSLIKCPVILEGKGVEIDQTTIERFSLKTGASESTLVN--EEDALALKLSSS 420 Query: 421 SKVTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAV 480 +K +E+ S LSNE+SA+ LSVKAATVASQWL+LL QDIKGRL+ALRRSKKRVRAV Sbjct: 421 TKTSENESSLSNEDSAS-----YLSVKAATVASQWLELLQQDIKGRLSALRRSKKRVRAV 480 Query: 481 ITTELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEK 540 I+TELPFLLSKEF +QE DPYAMK S G++++ATAE+H++ WS+LF+QMD SL EEEK Sbjct: 481 ISTELPFLLSKEFSYDQENDPYAMKTSADGFSNRATAEMHRARWSRLFDQMDKSLSEEEK 540 Query: 541 QLECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRS-KIDDPEKDLSVRAAAA 600 QLE W+NQV EM +HC+QGLQH+HWNT F +QH+G D++ RS K+D E++L+VRAAAA Sbjct: 541 QLESWLNQVKEMQMHCEQGLQHMHWNTPFGIQHLGTSDSDFRSQKMDSSERELAVRAAAA 596 Query: 601 SIYSTCNFLSSRENVSC 606 SIYSTCNFL + EN+SC Sbjct: 601 SIYSTCNFLLT-ENISC 596
BLAST of Spo06769.1 vs. NCBI nr
Match:
gi|731411904|ref|XP_010658174.1| (PREDICTED: uncharacterized protein LOC100267305 [Vitis vinifera])
HSP 1 Score: 449.9 bits (1156), Expect = 7.000e-123
Identity = 304/624 (48.72%), Postives = 400/624 (64.10%), Query Frame = 1
Query: 5 MSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGIDTDE 64 MSS +S P+SDSK V+ KR G+EL + S +RK++K RDL SV +SE IDT+ Sbjct: 1 MSSENMEGSSSVNPRSDSK-VMREKRSGEELGERSEMARKRVKMRDLDSVLRSEDIDTNY 60 Query: 65 PDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPLDLNT 124 +SK + + SQV + +D H + + LDLN Sbjct: 61 TKSSKTKGANGQ------EMSQVTEVPVTMASDAAHEATKIRDMLP-----PQRQLDLNA 120 Query: 125 EMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSANHDP 184 ++C+ +EG K K D N ++ G L+LN+EDV SS N DP Sbjct: 121 KVCSARKLACDVTSACVEGNNKLHPLTKHDMEHDPNFVTSRGIGLDLNSEDVCSSVNQDP 180 Query: 185 LYTHRSQNNQKTKD-TSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAPKQR 244 Y+++ ++ K+ D S+ +TG LE KD ++ WKEMK+NGF+SS+ +GGIP PKQR Sbjct: 181 FYSYKKRDRVKSPDGVSECASSTGPLEEKDPMKVWKEMKQNGFLSST--HGGIPV-PKQR 240 Query: 245 GRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQALV 304 RKNK +V+K+K+ E AK+EQVDRFTK+AAPSGLLN LNPGIINHVRNSKQVHSII+ALV Sbjct: 241 ARKNKQDVIKKKI-ELAKREQVDRFTKIAAPSGLLNELNPGIINHVRNSKQVHSIIEALV 300 Query: 305 KSEKKEN----RRQANEMKS--RELSERNTEQENLNISGV------HGSGL--------S 364 +SE+ EN +QA+ KS +E+S+ + EN+N+ G H G S Sbjct: 301 RSEQLENGHAGSKQASHSKSGTKEISDEKKDPENVNVLGKTPLYPSHEDGPTKIIPLNPS 360 Query: 365 YSMPESNLLYENHFLHHPSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILA 424 +MP + + N L + S SS D+ G DS +RR S S++ +E++ILA Sbjct: 361 NNMPANLQIRGNPMLVNKSMSLSSEDKGGDGDSRMIERRLVARTSCASSSTPTNEDEILA 420 Query: 425 LKLASS-SKVTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRS 484 LKL+SS +K +E+ S LSN+E N +SV +LSVKAATVASQWL+LLHQDIKGRLAALRRS Sbjct: 421 LKLSSSQTKASENISSLSNDEPMNLNSVTSLSVKAATVASQWLELLHQDIKGRLAALRRS 480 Query: 485 KKRVRAVITTELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDN 544 KKRVRAVI TELPFL+SKEFP NQE + KDS + ++ A AE+HQ+ WS LF+QMD Sbjct: 481 KKRVRAVIHTELPFLISKEFPSNQENNSSVSKDSAAECSNIAVAEMHQARWSALFDQMDK 540 Query: 545 SLCEEEKQLECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSK-IDDPEKDL 604 SL EEEKQLE W+NQV EM +HC++GLQH WN + QH G + N+ R + +DD E++L Sbjct: 541 SLFEEEKQLESWLNQVKEMQMHCERGLQHFQWN-LPHWQHPGTIINDPRPQMVDDSEREL 600 Query: 605 SVRAAAASIYSTCNFLSSRENVSC 606 ++RAAAASIYSTCNFL S ENVSC Sbjct: 601 AIRAAAASIYSTCNFLLSMENVSC 607
BLAST of Spo06769.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9RG57_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_075070 PE=4 SV=1)
HSP 1 Score: 1170.2 bits (3026), Expect = 0.000e+0
Identity = 606/606 (100.00%), Postives = 606/606 (100.00%), Query Frame = 1
Query: 1 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGI 60 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGI Sbjct: 1 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGI 60 Query: 61 DTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPL 120 DTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPL Sbjct: 61 DTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPL 120 Query: 121 DLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSA 180 DLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSA Sbjct: 121 DLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSA 180 Query: 181 NHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAP 240 NHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAP Sbjct: 181 NHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAP 240 Query: 241 KQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQ 300 KQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQ Sbjct: 241 KQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQ 300 Query: 301 ALVKSEKKENRRQANEMKSRELSERNTEQENLNISGVHGSGLSYSMPESNLLYENHFLHH 360 ALVKSEKKENRRQANEMKSRELSERNTEQENLNISGVHGSGLSYSMPESNLLYENHFLHH Sbjct: 301 ALVKSEKKENRRQANEMKSRELSERNTEQENLNISGVHGSGLSYSMPESNLLYENHFLHH 360 Query: 361 PSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSKVTESTSCLS 420 PSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSKVTESTSCLS Sbjct: 361 PSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSKVTESTSCLS 420 Query: 421 NEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVITTELPFLLSK 480 NEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVITTELPFLLSK Sbjct: 421 NEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVITTELPFLLSK 480 Query: 481 EFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQLECWINQVNE 540 EFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQLECWINQVNE Sbjct: 481 EFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQLECWINQVNE 540 Query: 541 MMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIYSTCNFLSSR 600 MMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIYSTCNFLSSR Sbjct: 541 MMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIYSTCNFLSSR 600 Query: 601 ENVSCC 607 ENVSCC Sbjct: 601 ENVSCC 606
BLAST of Spo06769.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8CT27_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g042420 PE=4 SV=1)
HSP 1 Score: 844.7 bits (2181), Expect = 6.800e-242
Identity = 457/615 (74.31%), Postives = 522/615 (84.88%), Query Frame = 1
Query: 1 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGI 60 MGD++SSH E+S +IP SDSK V+G KRRG++LE+DSH SRKQIK RDLQSV QSE I Sbjct: 1 MGDDLSSHCAFESSKKIPLSDSKTVIGLKRRGEDLEEDSHVSRKQIKIRDLQSVLQSEVI 60 Query: 61 DTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGS-KQSMHLVDHNDSTP 120 D EP S+++E+EEHMDI+ETQSSQVLD+NA+ENA+ RHLEGGS S+ L D + S P Sbjct: 61 DMSEPGASQLEETEEHMDIVETQSSQVLDRNAVENAEARHLEGGSINVSVPLGDCSGSMP 120 Query: 121 LDLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASS 180 LDLNTEMCTDEN+GY AVVSL+ +KHSS AK K ++HN++ L GN L+LN EDVASS Sbjct: 121 LDLNTEMCTDENSGYNNAVVSLDDSRKHSSCAKAKGSVEHNYLHLGGNRLDLNVEDVASS 180 Query: 181 ANHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAA 240 NHD LYT RSQN K ++TSDSGRTTGRL+ KDAL+KWKEMKKNGFMSSS YGGIP Sbjct: 181 VNHDSLYTCRSQNGPKVRETSDSGRTTGRLDDKDALKKWKEMKKNGFMSSSYGYGGIPPP 240 Query: 241 PKQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSII 300 PKQRGRK KNEVLKQKM EQAKKEQVDRFTK+AAPSGLLNGLNPGIINHVRNSKQVHSII Sbjct: 241 PKQRGRKGKNEVLKQKM-EQAKKEQVDRFTKIAAPSGLLNGLNPGIINHVRNSKQVHSII 300 Query: 301 QALVKSEKKENRRQANEMK--SRELSERNTEQENLNISGVHGSGLSYS------MPESNL 360 QALV+SEK+ENRRQA+EM+ S EL+ER TEQ +N +GVHGSGLSY+ MPES L Sbjct: 301 QALVRSEKRENRRQASEMRAGSGELNERITEQGYVNFTGVHGSGLSYAVSSFSLMPESTL 360 Query: 361 LYENHFLHHPSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSK 420 EN F H+ S L++S DR GC DSV E+RR S FS +N+SE+DILALKLASS+K Sbjct: 361 PCENQFSHNNSALYNSEDRNGCGDSVAEERRCCAKTSFFSYPENHSEDDILALKLASSTK 420 Query: 421 VTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVIT 480 VTESTSC+SNEESANGSSVDTLSVKAATVASQWLQL+HQDIKGRLAALRRSKKRVRAVIT Sbjct: 421 VTESTSCVSNEESANGSSVDTLSVKAATVASQWLQLMHQDIKGRLAALRRSKKRVRAVIT 480 Query: 481 TELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQL 540 TELPFLLSKEFP NQE P A+KD SGY +KATAE+HQSHW KLFNQMD++L +EEKQL Sbjct: 481 TELPFLLSKEFPSNQENIPDAVKDFASGYPTKATAEMHQSHWGKLFNQMDSALSDEEKQL 540 Query: 541 ECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIY 600 E W+N+VN+MMLHCDQGLQH+ W+TI EMQH+G+VDN+LRSK++DPEKDLSVRAAAASIY Sbjct: 541 ESWLNRVNKMMLHCDQGLQHIQWSTILEMQHMGMVDNDLRSKLNDPEKDLSVRAAAASIY 600 Query: 601 STCNFLSSRENVSCC 607 STCNFLSSRENVSCC Sbjct: 601 STCNFLSSRENVSCC 614
BLAST of Spo06769.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8CNT0_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_3g062900 PE=4 SV=1)
HSP 1 Score: 776.9 bits (2005), Expect = 1.800e-221
Identity = 419/555 (75.50%), Postives = 475/555 (85.59%), Query Frame = 1
Query: 60 IDTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTP 119 +DT E T K E+E HMDI+ETQSSQVLDKN IENA+ RHLEG K S+ LVDH+ S P Sbjct: 1 MDTHESGTCKEQETEGHMDIVETQSSQVLDKNVIENAEARHLEGDKKMSVSLVDHSGSMP 60 Query: 120 LDLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASS 179 LDLNTE+CTDEN+ Y +A VS+ +KHSS+AKGK L+HNH+ L GN L+LNAEDVASS Sbjct: 61 LDLNTEVCTDENSCYNDADVSISDSRKHSSYAKGKVSLEHNHVCLGGNRLDLNAEDVASS 120 Query: 180 ANHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAA 239 N+DP YT+RSQNN KT+DTS+SG++TGRLE KDALRKWKEMKKNGFMSSS YGGIPAA Sbjct: 121 VNYDPFYTNRSQNNLKTRDTSNSGKSTGRLEDKDALRKWKEMKKNGFMSSSYGYGGIPAA 180 Query: 240 PKQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSII 299 PKQRGRK+KNE KQKM E+AKKEQ+DRFTK+AAPSGLLNGLNPGIINHVRNSKQVHSII Sbjct: 181 PKQRGRKSKNEAFKQKM-EKAKKEQIDRFTKIAAPSGLLNGLNPGIINHVRNSKQVHSII 240 Query: 300 QALVKSEKKENRRQANEMK--SRELSERNTEQENLNISGVHGSGLSY------SMPESNL 359 QALV+SEK+E RQA+E + SREL+ERNT QEN+ SG+HGSGLSY SMPE+ L Sbjct: 241 QALVRSEKQETLRQASETRAESRELAERNTLQENIKFSGLHGSGLSYAVSSFSSMPENTL 300 Query: 360 LYENHFLHHPSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASSSK 419 LYENHF H+ S LFSS DR+GCRDS E+RR N S +KNYSE+++ ALKLAS +K Sbjct: 301 LYENHFSHNGSVLFSSEDRSGCRDS--EERRYCANNSY---SKNYSEDNVHALKLASLTK 360 Query: 420 VTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVIT 479 V+ESTSC+SNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVIT Sbjct: 361 VSESTSCMSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVIT 420 Query: 480 TELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQL 539 TELP LLSKEFP NQE + Y +KD +GY+SKATAELHQSHW KLFNQMD+ L +EEKQL Sbjct: 421 TELPSLLSKEFPSNQENELYVVKDFATGYSSKATAELHQSHWGKLFNQMDSKLSDEEKQL 480 Query: 540 ECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSKIDDPEKDLSVRAAAASIY 599 E W++QVN MMLHCDQGLQHV+W TI EMQH+GIVDN+LRSK++DPEKDLSVRAAAASIY Sbjct: 481 ESWLDQVNSMMLHCDQGLQHVNWKTISEMQHMGIVDNDLRSKLNDPEKDLSVRAAAASIY 540 Query: 600 STCNFLSSRENVSCC 607 STCNFLSSRENVSCC Sbjct: 541 STCNFLSSRENVSCC 549
BLAST of Spo06769.1 vs. UniProtKB/TrEMBL
Match:
W9RLU4_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_011244 PE=4 SV=1)
HSP 1 Score: 450.7 bits (1158), Expect = 2.900e-123
Identity = 295/617 (47.81%), Postives = 399/617 (64.67%), Query Frame = 1
Query: 1 MGDEMSSHGDSEASGRIPQSDSKMVVGAKRRGQELEDDSHAS-RKQIKTRDLQSVHQSEG 60 M ++ S + + S +P+SD + VG KR E + S RK++K RDL+SV +S+ Sbjct: 1 MENQRESEANLDRSVLMPKSDYQ-TVGEKRGSAESGYEQQRSPRKRVKMRDLESVCRSDE 60 Query: 61 IDTDEPDTSKIDESEEHMDIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTP 120 ++ T K E + + SQ+ + ++D H E K++ V + P Sbjct: 61 TNSHLLKTMKNKECSAEHEFDQKDKSQLTEVRVGLDSDASHAEKIGKKTFPGVADSPPRP 120 Query: 121 LDLNTEMCTDENTGYIEAVVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASS 180 LDLNTEMC + + ++ + K + + ++ G L+LN+EDV SS Sbjct: 121 LDLNTEMCIPKEKVHDDSQECSKSSDKREQYTE--------FVTSRGIGLDLNSEDVFSS 180 Query: 181 ANHDPLYTHRSQNNQKTKDTSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAA 240 N DP + ++S + K +D S+ +TG LE D +R WKEMK+NGF+SS+ +GG+P Sbjct: 181 MNQDPFFPYKSHSQSKPRDISECASSTGPLEENDPMRVWKEMKQNGFLSST--HGGVPI- 240 Query: 241 PKQRGRKNKNEVLKQKMMEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSII 300 PKQRGRK+K++VLK+KM E AK+EQVDRFTK+AAPSGLLN LNPGIINHVRN KQVHSII Sbjct: 241 PKQRGRKSKSDVLKKKM-EIAKREQVDRFTKIAAPSGLLNELNPGIINHVRNRKQVHSII 300 Query: 301 QALVKSEKKENRRQANEMKSRELSE-----RNTEQENLNISGVHGSGLSYS-MPESNLLY 360 +ALV+SE+ E+ + N+ S S +QENLN S + G S+ P + + + Sbjct: 301 EALVRSERHESNQVGNKQTSHTKSGTTEICNRKDQENLNDSAIQGVSSSHEDRPPNTVSW 360 Query: 361 ENHFLHHPSNLFSSG---DRTGCR-DSVTEQRRSYPNVSLFSNTKNYSENDILALKLASS 420 +P +L + G D T +R S + S N E D LALKL+SS Sbjct: 361 VRQVRGYPPSLIKCPVILEGKGVEIDQTTIERFSLKTGASESTLVN--EEDALALKLSSS 420 Query: 421 SKVTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAV 480 +K +E+ S LSNE+SA+ LSVKAATVASQWL+LL QDIKGRL+ALRRSKKRVRAV Sbjct: 421 TKTSENESSLSNEDSAS-----YLSVKAATVASQWLELLQQDIKGRLSALRRSKKRVRAV 480 Query: 481 ITTELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEK 540 I+TELPFLLSKEF +QE DPYAMK S G++++ATAE+H++ WS+LF+QMD SL EEEK Sbjct: 481 ISTELPFLLSKEFSYDQENDPYAMKTSADGFSNRATAEMHRARWSRLFDQMDKSLSEEEK 540 Query: 541 QLECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRS-KIDDPEKDLSVRAAAA 600 QLE W+NQV EM +HC+QGLQH+HWNT F +QH+G D++ RS K+D E++L+VRAAAA Sbjct: 541 QLESWLNQVKEMQMHCEQGLQHMHWNTPFGIQHLGTSDSDFRSQKMDSSERELAVRAAAA 596 Query: 601 SIYSTCNFLSSRENVSC 606 SIYSTCNFL + EN+SC Sbjct: 601 SIYSTCNFLLT-ENISC 596
BLAST of Spo06769.1 vs. UniProtKB/TrEMBL
Match:
F6HC74_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_13s0067g03020 PE=4 SV=1)
HSP 1 Score: 448.7 bits (1153), Expect = 1.100e-122
Identity = 300/611 (49.10%), Postives = 395/611 (64.65%), Query Frame = 1
Query: 18 PQSDSKMVVGAKRRGQELEDDSHASRKQIKTRDLQSVHQSEGIDTDEPDTSKIDESEEHM 77 P+SDSK V+ KR G+EL + S +RK++K RDL SV +SE IDT+ +SK + Sbjct: 9 PRSDSK-VMREKRSGEELGERSEMARKRVKMRDLDSVLRSEDIDTNYTKSSKTKGANGQ- 68 Query: 78 DIIETQSSQVLDKNAIENADTRHLEGGSKQSMHLVDHNDSTPLDLNTEMCTDENTGYIEA 137 + SQV + +D H + + LDLN ++C+ Sbjct: 69 -----EMSQVTEVPVTMASDAAHEATKIRDMLP-----PQRQLDLNAKVCSARKLACDVT 128 Query: 138 VVSLEGPKKHSSHAKGKAILDHNHMSLDGNHLNLNAEDVASSANHDPLYTHRSQNNQKTK 197 +EG K K D N ++ G L+LN+EDV SS N DP Y+++ ++ K+ Sbjct: 129 SACVEGNNKLHPLTKHDMEHDPNFVTSRGIGLDLNSEDVCSSVNQDPFYSYKKRDRVKSP 188 Query: 198 D-TSDSGRTTGRLEGKDALRKWKEMKKNGFMSSSNSYGGIPAAPKQRGRKNKNEVLKQKM 257 D S+ +TG LE KD ++ WKEMK+NGF+SS+ +GGIP PKQR RKNK +V+K+K+ Sbjct: 189 DGVSECASSTGPLEEKDPMKVWKEMKQNGFLSST--HGGIPV-PKQRARKNKQDVIKKKI 248 Query: 258 MEQAKKEQVDRFTKMAAPSGLLNGLNPGIINHVRNSKQVHSIIQALVKSEKKEN----RR 317 E AK+EQVDRFTK+AAPSGLLN LNPGIINHVRNSKQVHSII+ALV+SE+ EN + Sbjct: 249 -ELAKREQVDRFTKIAAPSGLLNELNPGIINHVRNSKQVHSIIEALVRSEQLENGHAGSK 308 Query: 318 QANEMKS--RELSERNTEQENLNISGV------HGSGL--------SYSMPESNLLYENH 377 QA+ KS +E+S+ + EN+N+ G H G S +MP + + N Sbjct: 309 QASHSKSGTKEISDEKKDPENVNVLGKTPLYPSHEDGPTKIIPLNPSNNMPANLQIRGNP 368 Query: 378 FLHHPSNLFSSGDRTGCRDSVTEQRRSYPNVSLFSNTKNYSENDILALKLASS-SKVTES 437 L + S SS D+ G DS +RR S S++ +E++ILALKL+SS +K +E+ Sbjct: 369 MLVNKSMSLSSEDKGGDGDSRMIERRLVARTSCASSSTPTNEDEILALKLSSSQTKASEN 428 Query: 438 TSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQDIKGRLAALRRSKKRVRAVITTELP 497 S LSN+E N +SV +LSVKAATVASQWL+LLHQDIKGRLAALRRSKKRVRAVI TELP Sbjct: 429 ISSLSNDEPMNLNSVTSLSVKAATVASQWLELLHQDIKGRLAALRRSKKRVRAVIHTELP 488 Query: 498 FLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQSHWSKLFNQMDNSLCEEEKQLECWI 557 FL+SKEFP NQE + KDS + ++ A AE+HQ+ WS LF+QMD SL EEEKQLE W+ Sbjct: 489 FLISKEFPSNQENNSSVSKDSAAECSNIAVAEMHQARWSALFDQMDKSLFEEEKQLESWL 548 Query: 558 NQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNLRSK-IDDPEKDLSVRAAAASIYSTC 606 NQV EM +HC++GLQH WN + QH G + N+ R + +DD E++L++RAAAASIYSTC Sbjct: 549 NQVKEMQMHCERGLQHFQWN-LPHWQHPGTIINDPRPQMVDDSERELAIRAAAASIYSTC 602
BLAST of Spo06769.1 vs. TAIR (Arabidopsis)
Match:
AT5G05240.1 (Uncharacterised conserved protein (UCP030365))
HSP 1 Score: 261.9 bits (668), Expect = 9.600e-70
Identity = 180/455 (39.56%), Postives = 260/455 (57.14%), Query Frame = 1
Query: 172 NAEDVASSANHDPLYTHRSQNNQKTKDT---SDSGRTTGRLEGKDALRKWKEMKKNGFMS 231 NA+ V+S N D S+ +QKT S+ G + G + +D ++ W EMK+NG++S Sbjct: 113 NADAVSSCLNDDLTSVCSSRISQKTSSMDVYSECGSSNGSVAKRDPMKVWTEMKQNGYLS 172 Query: 232 SSN--------------SYGGIPAAPKQRGRKNK--NEVLKQKMMEQAKKEQVDRFTKMA 291 + N S+GGIPA PK+RGRK K N+ K + +KE+VDRF ++A Sbjct: 173 NPNGGISTTSSSCLISSSHGGIPA-PKKRGRKTKINNDAAVAKKRKIERKEEVDRFARLA 232 Query: 292 APSGLLNGLNPGIINHVRNSKQVHSIIQALVKSEKKENRRQANEMKSRELSERNTEQENL 351 APSGLLN LNPGIINHVRN KQV SII+ +VKSE+ + S S + ++NL Sbjct: 233 APSGLLNELNPGIINHVRNKKQVLSIIENIVKSERDAGNYHSTLRHSN--SADGSPRKNL 292 Query: 352 N--ISGVHGSGLSYSMPESNLLYENHFLHHPSNLFSSGDRTGCRDSVTEQRRSYPNVSLF 411 Y++P+ +Y + C D + Sbjct: 293 GDACRSEFYQVFQYALPKD--MYSMRYYAEK-----------CADDEFSE---------- 352 Query: 412 SNTKNYSENDILALKLASSSKVTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQ 471 EN+ + + + K +E+ S LS+E++++ +S L+V AATVASQWL+LLHQ Sbjct: 353 -------ENNTVRSRFQVAGKFSENDSSLSSEDASDLNSASVLTVNAATVASQWLELLHQ 412 Query: 472 DIKGRLAALRRSKKRVRAVITTELPFLLSKEFPPNQEIDPYAMKDSTSGYTSKATAELHQ 531 DIKGR++ALRRS+KRVRAV+T ELP L+ KEFP +QE DP + G + +T ++H+ Sbjct: 413 DIKGRVSALRRSRKRVRAVVTIELPHLIRKEFPADQENDPTLL---LGGASKASTVDIHK 472 Query: 532 SHWSKLFNQMDNSLCEEEKQLECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDNNL 591 S W LF Q+++ L EEE QLE W+NQV M HCD+GLQH+ ++ +G+ ++ Sbjct: 473 SRWMTLFKQLEHKLSEEESQLESWLNQVRYMQSHCDEGLQHLSLSSGQNFLQLGMPLDSR 529 Query: 592 RSKIDDPEKDLSVRAAAASIYSTCNFLSSRENVSC 606 + +KDL ++AAAASIYSTC+FL EN++C Sbjct: 533 AANALISDKDLVIKAAAASIYSTCSFL--EENITC 529
BLAST of Spo06769.1 vs. TAIR (Arabidopsis)
Match:
AT2G40630.1 (Uncharacterised conserved protein (UCP030365))
HSP 1 Score: 114.0 bits (284), Expect = 3.200e-25
Identity = 107/331 (32.33%), Postives = 170/331 (51.36%), Query Frame = 1
Query: 275 SGLLNGLNPGIINHVRNSKQVHSIIQALVKSEKKENRRQANEMKSRELSERNTEQENLNI 334 +G L+G G+ S V + ++ ++K RR +K + + +Q Sbjct: 216 NGFLSGPLGGVA--APTSTVVTTPVEVPAPKQQKNKRRGGESLKKKNDVPKKEQQLVDRF 275 Query: 335 SGVHG-SGLSYSMPESNLLYENHFLHHPS--NLFSSGDRTGCRDSVTEQRRSYPNVSLFS 394 + V SGL + E N NH ++ + R+ D+ T +R NV Sbjct: 276 ANVTAPSGL---LTELNPGIINHVRTKKQVCSIIEALIRSSNDDATTRERHGDFNVR--- 335 Query: 395 NTKNYSENDILALKLASSSKVTESTSCLSNEESANGSSVDTLSVKAATVASQWLQLLHQD 454 E+ LA KL S+ V+++ ++N E A +L+V+AATVASQWL+ L QD Sbjct: 336 --DAIREDRALAFKLPSTG-VSDNAISITNPEQAT-----SLAVEAATVASQWLEFLQQD 395 Query: 455 IKGRLAALRRSKKRVRAVITTELPFLL-SKEFPPNQEIDPYAMKDSTSGYTS--KATAEL 514 + GRL+A++ S+ RV+ ++TTELP L S+E NQ + +TSG S KA E Sbjct: 396 LSGRLSAVQDSRNRVQNILTTELPLLASSRESSSNQANSLEMVTTNTSGDASSDKAATET 455 Query: 515 HQSHWSKLFNQMDNSLCEEEKQLECWINQVNEMMLHCDQGLQHVHWNTIFEMQHVGIVDN 574 HQ W+ F+Q++ +L +E++ LE +NQV EM C+ GL+ + + F Q + Sbjct: 456 HQKRWTAKFDQINKALYDEQRDLERSLNQVKEMQSRCNHGLRQMEEYSPFSSQS----SD 515 Query: 575 NLRSKIDDPEKDLSVRAAAASIYSTCNFLSS 600 + K + E ++V+AAAASI+STC+FL S Sbjct: 516 SSFGKDGNQETSMAVQAAAASIFSTCSFLLS 526
The following BLAST results are available for this feature:
BLAST of Spo06769.1 vs. NCBI nr
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. NCBI nr )
Total hits: 5
G C G G C G A G T A G T G C G A A A T T A C C C T C C A T T T G A T T T G A A T T T G A A T A T A T T T T G C A C A A T A T C T G T G A G C C C T A C C T T T C A T T C C T G C G G G A A A C A A T A T C A A G C C C A T C C C A A T G A G G A G A G A G A A A A C T A C T C G A A A C T A C A G A T G G A G G C G G C A G T G A G C A C A C T C A T G A C T C A T C T C A C C G C G C T A T A C T T G A A T T C A A A T T C A T T T C C A T T T T C T A T T T C C C A T T T C A A T T C G A A T C A A T T T T C T A C T C T T G T A A A C T A A T C C C C A A T T T A C A C T C A C C A A C A A A A A A G A T T C T C T C C A A A A A A A C C A A A A A A G C T T A A A A C C C C T C A A G A A C A A A C C C T A A T A C C C G C G C T T C C T T C T C T A A T C T C A A T T T T C A T T C T C A A C C C C A C T T C A T T T C T T C T T T G A T T T C G G A A T T A C C A A C T A C C C A T C A A A A T T C A A T G A G T T T C C T A C C G A C C C T T T T C A G C A A T C A G A T T C G C G T G C T T T T T T T G T T T G T T T C C C T T G A T C T A G G G A T T G C T T C T T G A T T T T T T G T A A T T T T T T A C C T T T T C T G C T T G A T T A T C T T C A A A T T T G A G A T T T T G T T T C T C T T C A A A A G G G T T G A T T T T G A G C T A T A A G T T G G T A A T G G G G G A T G A A A T G A G T T C C C A T G G T G A T T C T G A G G C A T C T G G G A G G A T C C C A C A A T C T G A T T C T A A G A T G G T G G T G G G T G C A A A G C G G A G A G G C C A A G A G T T G G A G G A T G A C T C T C A T G C A A G T C G T A A G C A G A T T A A G A C A A G G G A T C T C C A A T C A G T T C A T C A A T C T G A A G G A A T T G A T A C T G A T G A A C C T G A C A C T T C T A A A A T A G A T G A A A G T G A G G A A C A C A T G G A C A T T A T A G A G A C T C A G A G T T C G C A A G T T C T T G A T A A G A A T G C C A T T G A A A A T G C A G A T A C A A G A C A T T T A G A A G G G G G A T C G A A A C A A T C A A T G C A T T T G G T T G A T C A T A A T G A T T C T A C A C C A C T G G A T C T C A A T A C T G A A A T G T G C A C T G A T G A A A A T A C A G G T T A T A T T G A A G C T G T T G T G T C T C T A G A A G G T C C C A A A A A A C A T T C C T C A C A T G C A A A A G G C A A A G C C A T C C T T G A T C A T A A T C A T A T G T C T T T G G A T G G T A A T C A C T T G A A T C T T A A T G C T G A A G A C G T T G C T A G C T C A G C A A A T C A T G A T C C T T T A T A C A C C C A T A G A T C C C A A A A T A A T C A G A A G A C G A A G G A C A C T T C G G A T A G T G G G A G A A C C A C A G G C C G C T T G G A G G G T A A A G A T G C T C T A A G A A A G T G G A A A G A G A T G A A G A A A A A T G G T T T T A T G T C A T C T T C T A A T A G T T A T G G A G G C A T A C C A G C A G C G C C T A A G C A G C G T G G A A G G A A G A A C A A A A A T G A G G T A C T C A A G C A G A A G A T G A T G G A A C A A G C A A A G A A G G A A C A G G T T G A T A G A T T T A C G A A G A T G G C T G C T C C T A G T G G A T T G C T C A A T G G A T T G A A C C C T G G A A T T A T A A A C C A T G T A A G G A A T A G T A A A C A G G T G C A T T C C A T T A T T C A G G C A C T T G T G A A A T C T G A G A A A A A G G A A A A T C G C A G A C A A G C A A A C G A G A T G A A A A G T A G A G A A C T A T C T G A A A G A A A T A C A G A A C A A G A A A A T T T A A A T A T T T C T G G G G T A C A T G G A T C T G G T C T C T C T T A T T C A A T G C C A G A A A G C A A T T T A C T C T A T G A G A A C C A T T T T T T A C A T C A T C C T T C A A A C T T A T T T A G T T C A G G G G A T A G G A C T G G A T G C A G G G A C T C C G T C A C C G A G C A G A G G A G A T C T T A C C C A A A T G T A T C T T T G T T T T C A A A C A C C A A G A A T T A C A G T G A G A A T G A T A T A C T T G C T C T A A A G T T G G C A T C A T C A T C T A A G G T C A C A G A A A G T A C C A G C T G T C T T T C C A A T G A G G A A T C A G C A A A T G G C A G C A G T G T T G A C A C T C T T T C T G T C A A A G C T G C T A C A G T A G C T T C C C A A T G G C T G C A G C T T C T A C A T C A G G A C A T A A A A G G C C G T C T T G C T G C T T T G C G T C G A A G T A A G A A G A G A G T A C G T G C T G T T A T T A C T A C T G A G T T G C C T T T C C T G C T G T C A A A A G A A T T C C C T C C C A A C C A G G A G A T T G A T C C T T A T G C T A T G A A G G A T T C T A C T T C T G G T T A C A C T A G T A A A G C A A C A G C T G A A T T G C A T C A A T C T C A T T G G A G T A A G C T G T T C A A C C A G A T G G A T A A T T C T C T T T G T G A A G A G G A G A A A C A A C T G G A G T G C T G G A T A A A T C A A G T A A A T G A A A T G A T G T T A C A C T G T G A T C A A G G T C T G C A A C A T G T A C A T T G G A A C A C A A T A T T T G A G A T G C A G C A T G T G G G A A T T G T A G A T A A C A A C T T A A G A T C A A A G A T T G A T G A T C C G G A G A A A G A T T T G T C T G T A A G A G C T G C A G C A G C T T C C A T T T A C T C G A C G T G C A A T T T T C T T T C G T C A A G G G A A A A T G T C A G C T G C T G C T G A C C A T T C T T C C C A A C A T C T G A G A G T T G C T T G T T T C C A G T T A C A G T T T T T T C G C C C T T T T C C T T A C A C A G T T C C A G A T C T T C T G A T C A C C A T G T G C A T T T A C A A A T T T C A C C G C C C T G T T C C C C T G C G G A A T A A T G A T C T G T C T G A G C T T G T T T C C A T G T A G A A T T A G C T G G T G A G T T C A C C A A T G T A T C C A G T C A A T T T T C T T A G A T G A T A G G T G T A G A A A A C T G A C A G T T T G G A T A T T C A T G T T A T A G T A G T T A G G A G A A A T T T T T C T T T A C C C T T T T T C T G C T A C T T G A T T C T C G A A A G T A G C T A A G C C A T T G T G C T T T A C T G T A T T T A G G T G A C T G A A T A A T T G T G T T C C G A A A T C T G A T A T G T C T C T G C T T G C G T A T T C C T C G A T T A A C T G T T T T T T A A G C A C C A G C A G A T G A A T T A G A A A T G T A T C A T C A G A G A C T A G C A A T G A T A T G C C A T C A A T G T T A T G C C T C A C G C T T A C C C T A 500 1000 1500 2000 2500 Expect = 0.00e+0 / Id = 100.00 Expect = 9.80e-242 / Id = 74.31 Expect = 2.50e-221 / Id = 75.50 Expect = 4.10e-123 / Id = 47.81 Expect = 7.00e-123 / Id = 48.72 Sequence KNA17959.1 XP_010670600.1 XP_010673014.1 XP_010103651.1 XP_010658174.1
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BLAST of Spo06769.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL )
Total hits: 5
G C G G C G A G T A G T G C G A A A T T A C C C T C C A T T T G A T T T G A A T T T G A A T A T A T T T T G C A C A A T A T C T G T G A G C C C T A C C T T T C A T T C C T G C G G G A A A C A A T A T C A A G C C C A T C C C A A T G A G G A G A G A G A A A A C T A C T C G A A A C T A C A G A T G G A G G C G G C A G T G A G C A C A C T C A T G A C T C A T C T C A C C G C G C T A T A C T T G A A T T C A A A T T C A T T T C C A T T T T C T A T T T C C C A T T T C A A T T C G A A T C A A T T T T C T A C T C T T G T A A A C T A A T C C C C A A T T T A C A C T C A C C A A C A A A A A A G A T T C T C T C C A A A A A A A C C A A A A A A G C T T A A A A C C C C T C A A G A A C A A A C C C T A A T A C C C G C G C T T C C T T C T C T A A T C T C A A T T T T C A T T C T C A A C C C C A C T T C A T T T C T T C T T T G A T T T C G G A A T T A C C A A C T A C C C A T C A A A A T T C A A T G A G T T T C C T A C C G A C C C T T T T C A G C A A T C A G A T T C G C G T G C T T T T T T T G T T T G T T T C C C T T G A T C T A G G G A T T G C T T C T T G A T T T T T T G T A A T T T T T T A C C T T T T C T G C T T G A T T A T C T T C A A A T T T G A G A T T T T G T T T C T C T T C A A A A G G G T T G A T T T T G A G C T A T A A G T T G G T A A T G G G G G A T G A A A T G A G T T C C C A T G G T G A T T C T G A G G C A T C T G G G A G G A T C C C A C A A T C T G A T T C T A A G A T G G T G G T G G G T G C A A A G C G G A G A G G C C A A G A G T T G G A G G A T G A C T C T C A T G C A A G T C G T A A G C A G A T T A A G A C A A G G G A T C T C C A A T C A G T T C A T C A A T C T G A A G G A A T T G A T A C T G A T G A A C C T G A C A C T T C T A A A A T A G A T G A A A G T G A G G A A C A C A T G G A C A T T A T A G A G A C T C A G A G T T C G C A A G T T C T T G A T A A G A A T G C C A T T G A A A A T G C A G A T A C A A G A C A T T T A G A A G G G G G A T C G A A A C A A T C A A T G C A T T T G G T T G A T C A T A A T G A T T C T A C A C C A C T G G A T C T C A A T A C T G A A A T G T G C A C T G A T G A A A A T A C A G G T T A T A T T G A A G C T G T T G T G T C T C T A G A A G G T C C C A A A A A A C A T T C C T C A C A T G C A A A A G G C A A A G C C A T C C T T G A T C A T A A T C A T A T G T C T T T G G A T G G T A A T C A C T T G A A T C T T A A T G C T G A A G A C G T T G C T A G C T C A G C A A A T C A T G A T C C T T T A T A C A C C C A T A G A T C C C A A A A T A A T C A G A A G A C G A A G G A C A C T T C G G A T A G T G G G A G A A C C A C A G G C C G C T T G G A G G G T A A A G A T G C T C T A A G A A A G T G G A A A G A G A T G A A G A A A A A T G G T T T T A T G T C A T C T T C T A A T A G T T A T G G A G G C A T A C C A G C A G C G C C T A A G C A G C G T G G A A G G A A G A A C A A A A A T G A G G T A C T C A A G C A G A A G A T G A T G G A A C A A G C A A A G A A G G A A C A G G T T G A T A G A T T T A C G A A G A T G G C T G C T C C T A G T G G A T T G C T C A A T G G A T T G A A C C C T G G A A T T A T A A A C C A T G T A A G G A A T A G T A A A C A G G T G C A T T C C A T T A T T C A G G C A C T T G T G A A A T C T G A G A A A A A G G A A A A T C G C A G A C A A G C A A A C G A G A T G A A A A G T A G A G A A C T A T C T G A A A G A A A T A C A G A A C A A G A A A A T T T A A A T A T T T C T G G G G T A C A T G G A T C T G G T C T C T C T T A T T C A A T G C C A G A A A G C A A T T T A C T C T A T G A G A A C C A T T T T T T A C A T C A T C C T T C A A A C T T A T T T A G T T C A G G G G A T A G G A C T G G A T G C A G G G A C T C C G T C A C C G A G C A G A G G A G A T C T T A C C C A A A T G T A T C T T T G T T T T C A A A C A C C A A G A A T T A C A G T G A G A A T G A T A T A C T T G C T C T A A A G T T G G C A T C A T C A T C T A A G G T C A C A G A A A G T A C C A G C T G T C T T T C C A A T G A G G A A T C A G C A A A T G G C A G C A G T G T T G A C A C T C T T T C T G T C A A A G C T G C T A C A G T A G C T T C C C A A T G G C T G C A G C T T C T A C A T C A G G A C A T A A A A G G C C G T C T T G C T G C T T T G C G T C G A A G T A A G A A G A G A G T A C G T G C T G T T A T T A C T A C T G A G T T G C C T T T C C T G C T G T C A A A A G A A T T C C C T C C C A A C C A G G A G A T T G A T C C T T A T G C T A T G A A G G A T T C T A C T T C T G G T T A C A C T A G T A A A G C A A C A G C T G A A T T G C A T C A A T C T C A T T G G A G T A A G C T G T T C A A C C A G A T G G A T A A T T C T C T T T G T G A A G A G G A G A A A C A A C T G G A G T G C T G G A T A A A T C A A G T A A A T G A A A T G A T G T T A C A C T G T G A T C A A G G T C T G C A A C A T G T A C A T T G G A A C A C A A T A T T T G A G A T G C A G C A T G T G G G A A T T G T A G A T A A C A A C T T A A G A T C A A A G A T T G A T G A T C C G G A G A A A G A T T T G T C T G T A A G A G C T G C A G C A G C T T C C A T T T A C T C G A C G T G C A A T T T T C T T T C G T C A A G G G A A A A T G T C A G C T G C T G C T G A C C A T T C T T C C C A A C A T C T G A G A G T T G C T T G T T T C C A G T T A C A G T T T T T T C G C C C T T T T C C T T A C A C A G T T C C A G A T C T T C T G A T C A C C A T G T G C A T T T A C A A A T T T C A C C G C C C T G T T C C C C T G C G G A A T A A T G A T C T G T C T G A G C T T G T T T C C A T G T A G A A T T A G C T G G T G A G T T C A C C A A T G T A T C C A G T C A A T T T T C T T A G A T G A T A G G T G T A G A A A A C T G A C A G T T T G G A T A T T C A T G T T A T A G T A G T T A G G A G A A A T T T T T C T T T A C C C T T T T T C T G C T A C T T G A T T C T C G A A A G T A G C T A A G C C A T T G T G C T T T A C T G T A T T T A G G T G A C T G A A T A A T T G T G T T C C G A A A T C T G A T A T G T C T C T G C T T G C G T A T T C C T C G A T T A A C T G T T T T T T A A G C A C C A G C A G A T G A A T T A G A A A T G T A T C A T C A G A G A C T A G C A A T G A T A T G C C A T C A A T G T T A T G C C T C A C G C T T A C C C T A 500 1000 1500 2000 2500 Expect = 0.00e+0 / Id = 100.00 Expect = 6.80e-242 / Id = 74.31 Expect = 1.80e-221 / Id = 75.50 Expect = 2.90e-123 / Id = 47.81 Expect = 1.10e-122 / Id = 49.10 Sequence A0A0K9RG57_SPIOL A0A0J8CT27_BETVU A0A0J8CNT0_BETVU W9RLU4_9ROSA F6HC74_VITVI
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BLAST of Spo06769.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. ExPASy SwissProt )
Total hits: 0
G C G G C G A G T A G T G C G A A A T T A C C C T C C A T T T G A T T T G A A T T T G A A T A T A T T T T G C A C A A T A T C T G T G A G C C C T A C C T T T C A T T C C T G C G G G A A A C A A T A T C A A G C C C A T C C C A A T G A G G A G A G A G A A A A C T A C T C G A A A C T A C A G A T G G A G G C G G C A G T G A G C A C A C T C A T G A C T C A T C T C A C C G C G C T A T A C T T G A A T T C A A A T T C A T T T C C A T T T T C T A T T T C C C A T T T C A A T T C G A A T C A A T T T T C T A C T C T T G T A A A C T A A T C C C C A A T T T A C A C T C A C C A A C A A A A A A G A T T C T C T C C A A A A A A A C C A A A A A A G C T T A A A A C C C C T C A A G A A C A A A C C C T A A T A C C C G C G C T T C C T T C T C T A A T C T C A A T T T T C A T T C T C A A C C C C A C T T C A T T T C T T C T T T G A T T T C G G A A T T A C C A A C T A C C C A T C A A A A T T C A A T G A G T T T C C T A C C G A C C C T T T T C A G C A A T C A G A T T C G C G T G C T T T T T T T G T T T G T T T C C C T T G A T C T A G G G A T T G C T T C T T G A T T T T T T G T A A T T T T T T A C C T T T T C T G C T T G A T T A T C T T C A A A T T T G A G A T T T T G T T T C T C T T C A A A A G G G T T G A T T T T G A G C T A T A A G T T G G T A A T G G G G G A T G A A A T G A G T T C C C A T G G T G A T T C T G A G G C A T C T G G G A G G A T C C C A C A A T C T G A T T C T A A G A T G G T G G T G G G T G C A A A G C G G A G A G G C C A A G A G T T G G A G G A T G A C T C T C A T G C A A G T C G T A A G C A G A T T A A G A C A A G G G A T C T C C A A T C A G T T C A T C A A T C T G A A G G A A T T G A T A C T G A T G A A C C T G A C A C T T C T A A A A T A G A T G A A A G T G A G G A A C A C A T G G A C A T T A T A G A G A C T C A G A G T T C G C A A G T T C T T G A T A A G A A T G C C A T T G A A A A T G C A G A T A C A A G A C A T T T A G A A G G G G G A T C G A A A C A A T C A A T G C A T T T G G T T G A T C A T A A T G A T T C T A C A C C A C T G G A T C T C A A T A C T G A A A T G T G C A C T G A T G A A A A T A C A G G T T A T A T T G A A G C T G T T G T G T C T C T A G A A G G T C C C A A A A A A C A T T C C T C A C A T G C A A A A G G C A A A G C C A T C C T T G A T C A T A A T C A T A T G T C T T T G G A T G G T A A T C A C T T G A A T C T T A A T G C T G A A G A C G T T G C T A G C T C A G C A A A T C A T G A T C C T T T A T A C A C C C A T A G A T C C C A A A A T A A T C A G A A G A C G A A G G A C A C T T C G G A T A G T G G G A G A A C C A C A G G C C G C T T G G A G G G T A A A G A T G C T C T A A G A A A G T G G A A A G A G A T G A A G A A A A A T G G T T T T A T G T C A T C T T C T A A T A G T T A T G G A G G C A T A C C A G C A G C G C C T A A G C A G C G T G G A A G G A A G A A C A A A A A T G A G G T A C T C A A G C A G A A G A T G A T G G A A C A A G C A A A G A A G G A A C A G G T T G A T A G A T T T A C G A A G A T G G C T G C T C C T A G T G G A T T G C T C A A T G G A T T G A A C C C T G G A A T T A T A A A C C A T G T A A G G A A T A G T A A A C A G G T G C A T T C C A T T A T T C A G G C A C T T G T G A A A T C T G A G A A A A A G G A A A A T C G C A G A C A A G C A A A C G A G A T G A A A A G T A G A G A A C T A T C T G A A A G A A A T A C A G A A C A A G A A A A T T T A A A T A T T T C T G G G G T A C A T G G A T C T G G T C T C T C T T A T T C A A T G C C A G A A A G C A A T T T A C T C T A T G A G A A C C A T T T T T T A C A T C A T C C T T C A A A C T T A T T T A G T T C A G G G G A T A G G A C T G G A T G C A G G G A C T C C G T C A C C G A G C A G A G G A G A T C T T A C C C A A A T G T A T C T T T G T T T T C A A A C A C C A A G A A T T A C A G T G A G A A T G A T A T A C T T G C T C T A A A G T T G G C A T C A T C A T C T A A G G T C A C A G A A A G T A C C A G C T G T C T T T C C A A T G A G G A A T C A G C A A A T G G C A G C A G T G T T G A C A C T C T T T C T G T C A A A G C T G C T A C A G T A G C T T C C C A A T G G C T G C A G C T T C T A C A T C A G G A C A T A A A A G G C C G T C T T G C T G C T T T G C G T C G A A G T A A G A A G A G A G T A C G T G C T G T T A T T A C T A C T G A G T T G C C T T T C C T G C T G T C A A A A G A A T T C C C T C C C A A C C A G G A G A T T G A T C C T T A T G C T A T G A A G G A T T C T A C T T C T G G T T A C A C T A G T A A A G C A A C A G C T G A A T T G C A T C A A T C T C A T T G G A G T A A G C T G T T C A A C C A G A T G G A T A A T T C T C T T T G T G A A G A G G A G A A A C A A C T G G A G T G C T G G A T A A A T C A A G T A A A T G A A A T G A T G T T A C A C T G T G A T C A A G G T C T G C A A C A T G T A C A T T G G A A C A C A A T A T T T G A G A T G C A G C A T G T G G G A A T T G T A G A T A A C A A C T T A A G A T C A A A G A T T G A T G A T C C G G A G A A A G A T T T G T C T G T A A G A G C T G C A G C A G C T T C C A T T T A C T C G A C G T G C A A T T T T C T T T C G T C A A G G G A A A A T G T C A G C T G C T G C T G A C C A T T C T T C C C A A C A T C T G A G A G T T G C T T G T T T C C A G T T A C A G T T T T T T C G C C C T T T T C C T T A C A C A G T T C C A G A T C T T C T G A T C A C C A T G T G C A T T T A C A A A T T T C A C C G C C C T G T T C C C C T G C G G A A T A A T G A T C T G T C T G A G C T T G T T T C C A T G T A G A A T T A G C T G G T G A G T T C A C C A A T G T A T C C A G T C A A T T T T C T T A G A T G A T A G G T G T A G A A A A C T G A C A G T T T G G A T A T T C A T G T T A T A G T A G T T A G G A G A A A T T T T T C T T T A C C C T T T T T C T G C T A C T T G A T T C T C G A A A G T A G C T A A G C C A T T G T G C T T T A C T G T A T T T A G G T G A C T G A A T A A T T G T G T T C C G A A A T C T G A T A T G T C T C T G C T T G C G T A T T C C T C G A T T A A C T G T T T T T T A A G C A C C A G C A G A T G A A T T A G A A A T G T A T C A T C A G A G A C T A G C A A T G A T A T G C C A T C A A T G T T A T G C C T C A C G C T T A C C C T A 500 1000 1500 2000 2500 Sequence
Match Name E-value Identity Description
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BLAST of Spo06769.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. TAIR )
Total hits: 2
G C G G C G A G T A G T G C G A A A T T A C C C T C C A T T T G A T T T G A A T T T G A A T A T A T T T T G C A C A A T A T C T G T G A G C C C T A C C T T T C A T T C C T G C G G G A A A C A A T A T C A A G C C C A T C C C A A T G A G G A G A G A G A A A A C T A C T C G A A A C T A C A G A T G G A G G C G G C A G T G A G C A C A C T C A T G A C T C A T C T C A C C G C G C T A T A C T T G A A T T C A A A T T C A T T T C C A T T T T C T A T T T C C C A T T T C A A T T C G A A T C A A T T T T C T A C T C T T G T A A A C T A A T C C C C A A T T T A C A C T C A C C A A C A A A A A A G A T T C T C T C C A A A A A A A C C A A A A A A G C T T A A A A C C C C T C A A G A A C A A A C C C T A A T A C C C G C G C T T C C T T C T C T A A T C T C A A T T T T C A T T C T C A A C C C C A C T T C A T T T C T T C T T T G A T T T C G G A A T T A C C A A C T A C C C A T C A A A A T T C A A T G A G T T T C C T A C C G A C C C T T T T C A G C A A T C A G A T T C G C G T G C T T T T T T T G T T T G T T T C C C T T G A T C T A G G G A T T G C T T C T T G A T T T T T T G T A A T T T T T T A C C T T T T C T G C T T G A T T A T C T T C A A A T T T G A G A T T T T G T T T C T C T T C A A A A G G G T T G A T T T T G A G C T A T A A G T T G G T A A T G G G G G A T G A A A T G A G T T C C C A T G G T G A T T C T G A G G C A T C T G G G A G G A T C C C A C A A T C T G A T T C T A A G A T G G T G G T G G G T G C A A A G C G G A G A G G C C A A G A G T T G G A G G A T G A C T C T C A T G C A A G T C G T A A G C A G A T T A A G A C A A G G G A T C T C C A A T C A G T T C A T C A A T C T G A A G G A A T T G A T A C T G A T G A A C C T G A C A C T T C T A A A A T A G A T G A A A G T G A G G A A C A C A T G G A C A T T A T A G A G A C T C A G A G T T C G C A A G T T C T T G A T A A G A A T G C C A T T G A A A A T G C A G A T A C A A G A C A T T T A G A A G G G G G A T C G A A A C A A T C A A T G C A T T T G G T T G A T C A T A A T G A T T C T A C A C C A C T G G A T C T C A A T A C T G A A A T G T G C A C T G A T G A A A A T A C A G G T T A T A T T G A A G C T G T T G T G T C T C T A G A A G G T C C C A A A A A A C A T T C C T C A C A T G C A A A A G G C A A A G C C A T C C T T G A T C A T A A T C A T A T G T C T T T G G A T G G T A A T C A C T T G A A T C T T A A T G C T G A A G A C G T T G C T A G C T C A G C A A A T C A T G A T C C T T T A T A C A C C C A T A G A T C C C A A A A T A A T C A G A A G A C G A A G G A C A C T T C G G A T A G T G G G A G A A C C A C A G G C C G C T T G G A G G G T A A A G A T G C T C T A A G A A A G T G G A A A G A G A T G A A G A A A A A T G G T T T T A T G T C A T C T T C T A A T A G T T A T G G A G G C A T A C C A G C A G C G C C T A A G C A G C G T G G A A G G A A G A A C A A A A A T G A G G T A C T C A A G C A G A A G A T G A T G G A A C A A G C A A A G A A G G A A C A G G T T G A T A G A T T T A C G A A G A T G G C T G C T C C T A G T G G A T T G C T C A A T G G A T T G A A C C C T G G A A T T A T A A A C C A T G T A A G G A A T A G T A A A C A G G T G C A T T C C A T T A T T C A G G C A C T T G T G A A A T C T G A G A A A A A G G A A A A T C G C A G A C A A G C A A A C G A G A T G A A A A G T A G A G A A C T A T C T G A A A G A A A T A C A G A A C A A G A A A A T T T A A A T A T T T C T G G G G T A C A T G G A T C T G G T C T C T C T T A T T C A A T G C C A G A A A G C A A T T T A C T C T A T G A G A A C C A T T T T T T A C A T C A T C C T T C A A A C T T A T T T A G T T C A G G G G A T A G G A C T G G A T G C A G G G A C T C C G T C A C C G A G C A G A G G A G A T C T T A C C C A A A T G T A T C T T T G T T T T C A A A C A C C A A G A A T T A C A G T G A G A A T G A T A T A C T T G C T C T A A A G T T G G C A T C A T C A T C T A A G G T C A C A G A A A G T A C C A G C T G T C T T T C C A A T G A G G A A T C A G C A A A T G G C A G C A G T G T T G A C A C T C T T T C T G T C A A A G C T G C T A C A G T A G C T T C C C A A T G G C T G C A G C T T C T A C A T C A G G A C A T A A A A G G C C G T C T T G C T G C T T T G C G T C G A A G T A A G A A G A G A G T A C G T G C T G T T A T T A C T A C T G A G T T G C C T T T C C T G C T G T C A A A A G A A T T C C C T C C C A A C C A G G A G A T T G A T C C T T A T G C T A T G A A G G A T T C T A C T T C T G G T T A C A C T A G T A A A G C A A C A G C T G A A T T G C A T C A A T C T C A T T G G A G T A A G C T G T T C A A C C A G A T G G A T A A T T C T C T T T G T G A A G A G G A G A A A C A A C T G G A G T G C T G G A T A A A T C A A G T A A A T G A A A T G A T G T T A C A C T G T G A T C A A G G T C T G C A A C A T G T A C A T T G G A A C A C A A T A T T T G A G A T G C A G C A T G T G G G A A T T G T A G A T A A C A A C T T A A G A T C A A A G A T T G A T G A T C C G G A G A A A G A T T T G T C T G T A A G A G C T G C A G C A G C T T C C A T T T A C T C G A C G T G C A A T T T T C T T T C G T C A A G G G A A A A T G T C A G C T G C T G C T G A C C A T T C T T C C C A A C A T C T G A G A G T T G C T T G T T T C C A G T T A C A G T T T T T T C G C C C T T T T C C T T A C A C A G T T C C A G A T C T T C T G A T C A C C A T G T G C A T T T A C A A A T T T C A C C G C C C T G T T C C C C T G C G G A A T A A T G A T C T G T C T G A G C T T G T T T C C A T G T A G A A T T A G C T G G T G A G T T C A C C A A T G T A T C C A G T C A A T T T T C T T A G A T G A T A G G T G T A G A A A A C T G A C A G T T T G G A T A T T C A T G T T A T A G T A G T T A G G A G A A A T T T T T C T T T A C C C T T T T T C T G C T A C T T G A T T C T C G A A A G T A G C T A A G C C A T T G T G C T T T A C T G T A T T T A G G T G A C T G A A T A A T T G T G T T C C G A A A T C T G A T A T G T C T C T G C T T G C G T A T T C C T C G A T T A A C T G T T T T T T A A G C A C C A G C A G A T G A A T T A G A A A T G T A T C A T C A G A G A C T A G C A A T G A T A T G C C A T C A A T G T T A T G C C T C A C G C T T A C C C T A 500 1000 1500 2000 2500 Expect = 9.60e-70 / Id = 39.56 Expect = 3.20e-25 / Id = 32.33 Sequence AT5G05240.1 AT2G40630.1
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