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Associated RNAi Experiments
Homology
BLAST of hypothetical protein EIN_287360 vs. L. salmonis genes
Match: EMLSAG00000001664 (supercontig:LSalAtl2s:LSalAtl2s128:251527:263374:-1 gene:EMLSAG00000001664 transcript:EMLSAT00000001664 description:"maker-LSalAtl2s128-augustus-gene-2.8") HSP 1 Score: 76.2554 bits (186), Expect = 7.211e-15 Identity = 101/416 (24.28%), Postives = 176/416 (42.31%), Query Frame = 0
Query: 49 DFCKLLSPRGKLYCSPDVSQYVDAGCDQLPSISITASFEGCTFAMDYVDANTDYGSWTVTASSFGA--EAKSTIFLTRPVSIDIEMENTWGILSVKADQESSFLCSL-LSEETEEFALP--TMVWKVGEDVKQESNKFDKIKLG-YTQNFKYTPDVKDSQKKVSCSFKNGDEVKQDFVELHVYYFEDKSAS-GQSLELDVNKAAVITKTFKFIPRP--QNIEWEFDTPNGIEVIKAGEDNGR-LSSSVIKDLGYDMYEVEFRFKRVIAKHDGQVLKLRVIDPDRSFEMNTVIKTAQPQTGRPPMVPQDPVKPPMVPQ------------------------VPDEPQPDSVPVTLQPSNEGSDEAQMDGTTES--GEVSQAGANINLMIIVG--ILALLICLCVLYYCCKCKANKK 426
D C S RGK C+ D D C++ I I C + ++ + YG W+ ++ E T ++ P+ + +EM + +G + + + C + + E E P ++ W+VG +V N + + + + Q Y P ++D+ K+++C E + D + LH+ FE S + +L+ +++K +I FK P P +N+ W+ GI+ + GE NG SS+ I G Y V+ I PD S +MNT++ + + ++P K P+V + VP QP+S+ V QP + +++ D T S VS+ + L I+G I+ L++ C+ YY KC KK
Sbjct: 40 DACLFTSARGKRVCAYDG----DTNCERHQGIKIKRIGNVCHLSFSPLE-DEHYGQWSCQDETWYGDIEILKTFEISPPMELFVEMTDYFGDVYFQRGDGLNISCHVSVDSEKEYMNYPGSSLQWRVGNEVISNDNPYVQTDVNQWEQILNYEPVMEDNHKRLTCYINENIEDQADGINLHMVDFEFHSQTIYYTLQENIDKEIIIESDFKSYPEPRVENVFWKV---GGIK-LHPGETNGNGFSSTKIMSTGDSEYTVKLN-----------------IPPD-SIDMNTLLVEENYLSVDIANI-REPFKVPIVFEKATNDVEAIIPVPPPIGPSQSESIVPS--QPESI-VPSQPESIVPSQSEPDSPTNSIQSTVSKLSNSSILGYILGGIIVFLVLGCCIGYYIYKCCCGKK 424
BLAST of hypothetical protein EIN_287360 vs. L. salmonis genes
Match: EMLSAG00000005706 (supercontig:LSalAtl2s:LSalAtl2s309:39291:41869:-1 gene:EMLSAG00000005706 transcript:EMLSAT00000005706 description:"maker-LSalAtl2s309-augustus-gene-0.29") HSP 1 Score: 51.6026 bits (122), Expect = 3.518e-7 Identity = 59/257 (22.96%), Postives = 112/257 (43.58%), Query Frame = 0
Query: 11 LLVLCGLSSGIKFNRESNNVLVGNGQDFTVTIPSSEPPDFCKLLSPRGKLYCSPDVSQYVDAGCDQLPSISITASFE-----GCTFAMDYVDANTDY-GSWTVTASSF----GAEAKS-----TIFLTRPVSIDIEMENTWGILSVKADQESSFLCSLLSEETEEFALPT--MVWKVGEDVKQESNKFD--------KIKLGY---TQNFKYTPDVKDSQKKVSCSFKNGDE------VKQDFVELHVYYFEDKSAS 233
LL L G + G+ ES+ ++V V+ S P CK+ P+G + C+ G + S A F+ C A+D A++D+ G + +F G +A S + ++ P D+E ++ +G ++V +++++F C T E+ P +W++GE+ + + FD K + Y +Q+F Y P++ + K + C + D+ D + VYY + +A+
Sbjct: 10 LLFLYGSNIGLLHGIESSLIIVKEKDPLHVSCQGSRPYSICKITLPQGTI-CTI-------KGGESEKSCEDGAKFDKTDPNAC--ALDIESASSDFNGFYKCEIITFEDDDGGKATSDAQDIEVIVSTPA--DVEFDDIYGSVTVIVNKQNNFTC------TAEYGRPVGEFIWRLGEEDEDNAVFFDNESPMNIVKDENSYYKVSQSFWYNPEIDHNAKNLYCIYNQHDQDGNVIHSTSDHISFDVYYLNEPAAA 248
BLAST of hypothetical protein EIN_287360 vs. nr
Match: gi|1325286680|ref|XP_023328073.1| (uncharacterized protein LOC111701141 isoform X1 [Eurytemora affinis]) HSP 1 Score: 79.337 bits (194), Expect = 1.122e-11 Identity = 110/438 (25.11%), Postives = 187/438 (42.69%), Query Frame = 0
Query: 49 DFCKLLSPRGKLYC--SPDVSQYVDAGCDQLPSISITASFEGCTFAMDYVDANTDYGSWTVTASSFGAEAKSTIFLTRPVSIDIEMENTWGILSVKADQESSFLCSLLSEETEE--FALPTMVWKVG--EDVKQESNKFDKIKLGYTQ---NFKYTPDVKDSQKKVSCSFKNGDEVKQDFVELHVYYFEDKSASGQSLELDVNKAAVITKTFKFIPRPQN--IEWEFDTPNGIEV--IKAGEDNGRLSSSVIKDL-GYDMYEVEFRFKRVIAKHDGQVLKLRVIDPDRSFEMNTVIKTAQPQTGRPPMVPQDPVKPPMVPQVPDEPQPDSVPVTLQPSNEGSDEAQMDGTTESGEVSQAGANINLMIIVGILALLICLCVLYY---CCKCKANKKKKAAKAADDLEKAEEKEQLVESKDVKD-PDAKTVAFVSHDELD 468
+FC + P C P+ + V C S+ + C + + +G W A + A+ST+ L ++E+++ WG L ++ D + + C L ++ E F + W++G ED Q + +++ G T+ + TP D K + CS +G K D+V L ++ F + +S+ + AA T F+ PR Q+ ++ E NGI V I AG+ G +S +++L G +M+ V+ + K S T+I + Q R + D V P V Q+PDE VT +P+ + + + S E +++L II+GI+ + LC+ YY CC CK + K + A + AE + V S +KD P+ V D +D
Sbjct: 48 EFCSFIRPDKLEVCQNGPN-NDLVGKSCINDDSVQVLTGGSSCKLNITRTKEH-HFGKWGCKAMFWDEWAESTLDLGTFKMGELELKDVWGTLKLETDIQQTLSCLLTLDDPLESGFEGTILNWELGDIEDRIQLTEAVLEMRNGRTEFESTLQLTPTQADDGKMLYCS--SGVTGKDDYVTLDLFKF--SFPNSESMRIVEGGAATSTIQFQAYPRIQSDQVKLEVRENNGIMVNTIPAGQTAGGVSVDYVENLGGRNMHSVDVTINNITQKA--------------SNYKYTIIYSTDAQEYRTEL---DIVLLPRV-QLPDE------VVTDKPNFFTTTTIVVSDSLVSKE------SMSLYIIIGIIVVFSILCIAYYSFKCC-CKEEEAKNDPELAPMVVIAETGQPGVNSPLLKDGPEKDQVVVNGLDTVD 448
BLAST of hypothetical protein EIN_287360 vs. nr
Match: gi|1325286684|ref|XP_023328075.1| (uncharacterized protein LOC111701141 isoform X3 [Eurytemora affinis]) HSP 1 Score: 78.9518 bits (193), Expect = 1.156e-11 Identity = 110/438 (25.11%), Postives = 187/438 (42.69%), Query Frame = 0
Query: 49 DFCKLLSPRGKLYC--SPDVSQYVDAGCDQLPSISITASFEGCTFAMDYVDANTDYGSWTVTASSFGAEAKSTIFLTRPVSIDIEMENTWGILSVKADQESSFLCSLLSEETEE--FALPTMVWKVG--EDVKQESNKFDKIKLGYTQ---NFKYTPDVKDSQKKVSCSFKNGDEVKQDFVELHVYYFEDKSASGQSLELDVNKAAVITKTFKFIPRPQN--IEWEFDTPNGIEV--IKAGEDNGRLSSSVIKDL-GYDMYEVEFRFKRVIAKHDGQVLKLRVIDPDRSFEMNTVIKTAQPQTGRPPMVPQDPVKPPMVPQVPDEPQPDSVPVTLQPSNEGSDEAQMDGTTESGEVSQAGANINLMIIVGILALLICLCVLYY---CCKCKANKKKKAAKAADDLEKAEEKEQLVESKDVKD-PDAKTVAFVSHDELD 468
+FC + P C P+ + V C S+ + C + + +G W A + A+ST+ L ++E+++ WG L ++ D + + C L ++ E F + W++G ED Q + +++ G T+ + TP D K + CS +G K D+V L ++ F + +S+ + AA T F+ PR Q+ ++ E NGI V I AG+ G +S +++L G +M+ V+ + K S T+I + Q R + D V P V Q+PDE VT +P+ + + + S E +++L II+GI+ + LC+ YY CC CK + K + A + AE + V S +KD P+ V D +D
Sbjct: 48 EFCSFIRPDKLEVCQNGPN-NDLVGKSCINDDSVQVLTGGSSCKLNITRTKEH-HFGKWGCKAMFWDEWAESTLDLGTFKMGELELKDVWGTLKLETDIQQTLSCLLTLDDPLESGFEGTILNWELGDIEDRIQLTEAVLEMRNGRTEFESTLQLTPTQADDGKMLYCS--SGVTGKDDYVTLDLFKF--SFPNSESMRIVEGGAATSTIQFQAYPRIQSDQVKLEVRENNGIMVNTIPAGQTAGGVSVDYVENLGGRNMHSVDVTINNITQKA--------------SNYKYTIIYSTDAQEYRTEL---DIVLLPRV-QLPDE------VVTDKPNFFTTTTIVVSDSLVSKE------SMSLYIIIGIIVVFSILCIAYYSFKCC-CKEEEAKNDPELAPMVVIAETGQPGVNSPLLKDGPEKDQVVVNGLDTVD 448
BLAST of hypothetical protein EIN_287360 vs. nr
Match: gi|1325286682|ref|XP_023328074.1| (uncharacterized protein LOC111701141 isoform X2 [Eurytemora affinis]) HSP 1 Score: 78.1814 bits (191), Expect = 2.347e-11 Identity = 106/422 (25.12%), Postives = 181/422 (42.89%), Query Frame = 0
Query: 49 DFCKLLSPRGKLYC--SPDVSQYVDAGCDQLPSISITASFEGCTFAMDYVDANTDYGSWTVTASSFGAEAKSTIFLTRPVSIDIEMENTWGILSVKADQESSFLCSLLSEETEE--FALPTMVWKVG--EDVKQESNKFDKIKLGYTQ---NFKYTPDVKDSQKKVSCSFKNGDEVKQDFVELHVYYFEDKSASGQSLELDVNKAAVITKTFKFIPRPQN--IEWEFDTPNGIEV--IKAGEDNGRLSSSVIKDL-GYDMYEVEFRFKRVIAKHDGQVLKLRVIDPDRSFEMNTVIKTAQPQTGRPPMVPQDPVKPPMVPQVPDEPQPDSVPVTLQPSNEGSDEAQMDGTTESGEVSQAGANINLMIIVGILALLICLCVLYY---CCKCKANKKKKAAKAADDLEKAEEKEQLVESKDVKD 453
+FC + P C P+ + V C S+ + C + + +G W A + A+ST+ L ++E+++ WG L ++ D + + C L ++ E F + W++G ED Q + +++ G T+ + TP D K + CS +G K D+V L ++ F + +S+ + AA T F+ PR Q+ ++ E NGI V I AG+ G +S +++L G +M+ V+ + K S T+I + Q R + D V P V Q+PDE VT +P+ + + + S E +++L II+GI+ + LC+ YY CC CK + K + A + AE + V S +KD
Sbjct: 48 EFCSFIRPDKLEVCQNGPN-NDLVGKSCINDDSVQVLTGGSSCKLNITRTKEH-HFGKWGCKAMFWDEWAESTLDLGTFKMGELELKDVWGTLKLETDIQQTLSCLLTLDDPLESGFEGTILNWELGDIEDRIQLTEAVLEMRNGRTEFESTLQLTPTQADDGKMLYCS--SGVTGKDDYVTLDLFKF--SFPNSESMRIVEGGAATSTIQFQAYPRIQSDQVKLEVRENNGIMVNTIPAGQTAGGVSVDYVENLGGRNMHSVDVTINNITQKA--------------SNYKYTIIYSTDAQEYRTEL---DIVLLPRV-QLPDE------VVTDKPNFFTTTTIVVSDSLVSKE------SMSLYIIIGIIVVFSILCIAYYSFKCC-CKEEEAKNDPELAPMVVIAETGQPGVNSPLLKD 432
The following BLAST results are available for this feature:
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| scaffold131_size323982 | supercontig | scaffold131_size323982:307569..320262 + |
Analyses
This gene is derived from or has results from the following analyses
Relationships
The following mRNA feature(s) are a part of this gene:
Sequences
The following sequences are available for this feature:
gene from alignment at scaffold131_size323982:307569..320262+ Legend: mRNA Hold the cursor over a type above to highlight its positions in the sequence below. >maker-scaffold131_size323982-snap-gene-2.20 ID=maker-scaffold131_size323982-snap-gene-2.20|Name=hypothetical protein EIN_287360|organism=Tigriopus kingsejongensis|type=gene|length=12694bp|location=Sequence derived from alignment at scaffold131_size323982:307569..320262+ (Tigriopus kingsejongensis)
ACTGGTCGAAGTCTATCGTTGGAGATTAGTGACTAGTATCAAAGAGGAGA
GTCAGAGCAAGGGAATCCTGATTTCATCTCAAGATGTTGTCCAAATCTTT
CACGTGGATTGTATTGCTTGTCCTTTGTGGCTTGTCAAGTGGAATTAAGT
TCAATCGCGAATCCAACAATGTGCTTGTGGGCAATGGACAAGACTTTACT
GTAACAATTCCGAGTTCGGAGCCTCCGGATTTTTGTAAACTTCTGAGGTA
CGACGCAACTGTTCCAAATGTGTTGACTCACCCAACCTAACCCGCTCATT
TCCTTCAAGTCCCCGAGGAAAACTATATTGCTCTCCCGATGTGTCTCAAT
ATGTGGATGCAGGTTGTGACCAACTTCCCTCCATCTCCATCACAGCCTCA
TTTGAAGGATGCACCTTTGCCATGGATTATGTTGACGCGAACACGGATTA
CGGCTCTTGGACCGTGACGGCTTCATCATTTGGAGCGGAAGCAAAATCAA
CCATATTCCTGACACGCCCAGTGTCCATTGATATTGAAATGGAAAACACT
TGGGGGATCTTAAGCGTAAAAGCTGGTAAGCAAAATGGGCCCATGTCCAT
GTAGGCTTTAAAAAGATATGGTTTATGCGCAAACATTGAAATCCAGTCTC
GCAACCTTTAGTGAGTGAGTCGTACCACGATTGTGATCGATAATTCGGAA
GGGAGTGTCAAAAACACCCTGTATCGAGTTGTTGGTTCTTTCCTCTCTTC
TTTGTAAGGATGCATTTTTGAAGCCTTCAGTGTAAAATGGGGGGCCCTTT
TGCCCAACGTTCGGCTACAATCTTTTGTCACGGCCCAATGAATTTGTTTC
AGATTGGAACTGAACTTTGGTCGAGAGCAGTTGTGTTTTGAAGCTTATAA
GACATATATATGTTTACAAATTTAATTGTCAGAGCAATCAAAGGCTTGAG
CCAGCACTCCTTGCACAATGCAAAAACTAGAGCACCTCTGCCTGCACTCT
AGTCACAATATCTTTCGAGCCCAGCCGAGCAAGCCAATGTCCTCCCTACA
AGTCTTAATATGTCGCCTAATCAGCCGACCCTTGTTGCATTAAGCCCATT
AAATATTGAAGTCATCCTTGGAGTAGGGCCAATATCGTACGCTGTGGGAC
AAATGCAGAGGTTGAAAATTGGTCCAATTGCAGAGAGCGAATAAAAATCA
AATTCGATAGTATAAATAACCCTTTAATATTTTGCCTTTTTCTTGAGATA
CGACAAATTCGGTCGTTTTCTGCAGTAAGACATATTGTCGTCCATGTAGT
GGTTTCCTATGTGAATAGCCCTGAGTAACCATTTCGATTTAAGACTAGGC
ATGAGGGAACTCATGTTTCAACCACTATTTTTTACTGTCGTTTGGCCTAC
TAAATGTTTTTATGTTTTTCGATCCCTCACCATAAATGATTTGAAAGCTT
ACCCTCTACGTATTGGGTTCTAAAAGTCTCGGTAAATTATCCTGCTTTGG
GCAAGTTTTGCTTCAGCTTCTTGCAAACAATACCCTTAGGAATGGTGCTA
CTATTGACTAAGTAAGAAGCATGTTGTTAGATTCCAGGCATCAACCCTAT
GCTCATTTTGCAATTACATATGAATACACGAATTTGTTTCCAGACCAGGA
AAGCTCGTTTTTGTGCTCGTTGCTCTCTGAGGAAACCGAAGAATTCGCTC
TCCCAACAATGGTTTGGAAAGTTGGCGAGGATGTCAAACAGGAGTCAAAC
AAATTCGACAAGGTACTGCTTAAGACTTAGTATTTGCCTCACCAAACTTA
TAACTTATAATATCTCCTCCACTTGAAGATCAAACTTGGCTATACGCAAA
ACTTCAAATACACCCCCGATGTGAAAGACTCGCAAAAGAAAGTGAGCTGC
TCATTCAAGAATGGAGATGAAGTCAAACAAGATTTCGTGGAACTCCACGT
CTACTATTTCGAGGATAAATCAGGTAATACTGTCAAAACGCATTGGGGCT
TTGTTCCGAAACACTTCCGAAACAGTCAAAATTGGAATACTCCAAGACAT
AGGAAACACCAATTGCGTTCAATTTAGGAATACACCAAAACTCCCTCGCT
TGTCGTGTTTTGCCTACTTCTGGTGTCAGGTCCATAAAATGACGAAAAGC
AAGTCCCATTGGGCAAGCCATTCTTTATTTCAGCAACTTTCAGCCGAAGT
CGACGTCGAAAAGGTGTTTTTGAATCATTATCTAGATTAAAAAACAACCA
CTAGCATTTCTGAGTCAAATGCAAGTTTCGTCTCCTTAAGCTCCGTAATT
CAAATGCCCCTGATACTTGAAAGTTTGAGGCAGTATTTTCCCATGCCCAA
ATATATTGTTCATTGATCAGCTTGATTGTTTATCATTAGGAACGTCAAAC
AGATGCAATTATGCAAAACAATTTGCAATAAAAAAGTGAAAATGCATAAA
AATGTGCTAAAAAAGTCAAAAATGCATAAAAATGGGCTAAAAAGTCAAAA
ATGCATAAAAAGATCCAATATAAAAGAGTGACAAATGCATGTAAATGCAA
ATGAAGAGTTTAATTGTTAATAAAGCAGGAAAAACTGGAAAGAAGTTTGC
CAAAACTGCAACTGCAGAACTGGACGGAGGGCCTAAAACACCAGCCCAAG
TTTGCCCGACTATCTGGTGAGACAATTTCTTGGTAAGGTAAGCAAGTGCT
TGACAAAGCAAAGCTTTACCCAGGTTGCTCACGTCTTGTCAATCAAAACA
GGTGAACAGGGAGCATGAGAAGGTGACCAAATTTGTAGACGCAAAACACT
TTTACAATGTGCTTATACGTATACCTATTATATATAAATTTAATATAATA
ATTTCCCAAACAATCACAAAGTTTTGGGGAAATTGTTTGGGAAATAATTG
TAAAAATGTAACTCAAAAATGTAAAAAAACCAGAATAGATTGAAGCTGCA
GCATATTGTATAGTCCAATTGCCTTCGTATGTAGTATTTGTCCTTCTCAA
AATGCAATTCAATATTTTATTGAAATTGGATGTCATAGTGGTCAGCCATG
TGTGCTGCGTATCGCATCGGCAGATCGAATCCTGACCTTCTTCAAGTGAG
CAGGCCTGACAATTCCCTGTAACCCTAATCGTGGAATCCTGTACACATGG
AAGAATTACGCTGGCCAGACTTGGGGCCAACGTCCAAAAGGACCAGAATT
TCAAATCGGAAATACAGATGCATTCAGCCCTAAATTGGTGGCCAAAGTAG
ATAATCACGACTAATGCAGCACTAATGGGCTGAAAATGGCCATCCTGACA
TCACTGAGAGCTGGCCAAAGTGCCCAGAGTCCGCATATTATCTAGGATTG
ATTTTCGTTATTGGAAACTTCGACCAACCTTTGGCGCTTTTTAATGCTGG
ATTTCCAATCTGAAAATTTGGCCACTTTTGAGTTTGGCCGTAAGTCTGGC
AATGTACAATCGTAAGTAATGCTTCCAGATGTATAGGGTTCCGTGCCCTA
GTCGATAAGGTTAGGATCAGGTGCAGTCACATCTTTAGAAAGGTCAACTC
TGGCTTTCCGTTCACTGGCGTTTTGGTCCATTTCTAATATTCACCGACCA
GCTAATAATATCAGCGAGCCCCCAAGGGTGACTTTCCCTGATGAGAGCAC
GAAACCACCCTGATCATGATCACCAAACTGCAGAAAAAAACGATTTTGCG
ATGGCAATTTATTTTTCTAAATGAACATTACTGTTTGGTCCCCAAAGTCA
GTCAAAATTGGCAAAAGTGACTTTTTTGTCGTAACGTCAGGAAATGGTCG
CAAAAATACGCAAATGTCGTTTTGGTCCACTTCTAATATTCACCGAACCA
ATTGCATATCCCAAAGGATGGGAAATACTTCGGCTTTTTTTAATGTACAG
TAAAAATATTTTCAGTGAAAAATACAGAAATATAGGAATAAGTTTTTTGT
TCTGCTAATCACGAATAAATGGAAGCTGGCAAAATTCACATTTGAAAACA
ATGTTTTATTATGGTTCAAAATACACATTGTCAAAAAGTGGTAAAAAATA
TTTCTGTTTTCGAATTTCGGTAGGTTTTCCAACCATCCTATTGACCTCAA
ATTTAGAGGTCCAAAACAAAATCTTGCAACCCCCAAATAGAGTAATGTTC
GATACGCATTATTGTGTACGGGCCAAATAATTCCAAATTCGAAACCTACG
GTAATTGGCCGATATTGTCCTCTCTTTTTCTGATGTCATTACAAGCTTAT
TATTTACCCATGTTAGGTGACAACCGCGATCTTTGGGACGAGTTAACGTA
CAAAAAGCGTAGTTTGGCAAACGGGATCCCAAATCCATGATTTTCCTTTG
CTAAAAAATTGGAATAGTATGAACTGTGAATGAAAATGTGAACTTTTCCT
TCTCAGCCAGCGGCCAATCGCTTGAACTCGATGTGAACAAGGCAGCTGTG
ATTACGAAGACTTTTAAGTTCATACCGCGGCCCCAGAATATTGAGTGGGA
GTTTGATACTCCTAACGGTATTGAAGTTATCAAGGCTGGCGAGGACAACG
GCCGACTGTCGTCCTCGGTGATCAAGGACTTGGGTTACGATATGTATGAA
GTGGAATTTCGCTTTAAACGAGTGATTGCTAAACATGATGGACAGGTCCT
GAAGCTGAGAGTAATAGATCCAGACAGGTCCTTTGAAATGAACACCGTCA
TCAAAACAGCCCAACCTCAGACAGGCAGACCTCCCATGGTTCCTCAAGAC
CCTGTCAAGCCACCAATGGTTCCGCAGGTCCCTGACGAGCCACAACCTGA
TAGTGTACCAGGTGAGCCTTGACAATGCTTTGTTGCATGACACGGTCCAA
AATGTGATAATCCTCTGTCAAATCCTGTTTTTCTCGAATGTTCTTGAACG
ATATTGTCTTGTTTGTATTTGGTATTCTTTTTTCATCCCTCATTGTTTCT
GTTGCATTTCGTTCTTTTCTTGTTTTTTTTTGTCTTTATTGTGTAGTTCT
ATTACGGTATGCTTTGTTTGGTTTTAATCATTATATAATGATCTAGCACA
ATTGACTAAATCTTGTTTTCCAAGTGCTGGTTTCAGGGTATTAACACAAG
TTGAATTAAATAAAAGTATTGATTACACACGATCTTTTTAAGACCCCATT
AGGTCCCACCAAATTCCCGACTCTGTAAAGGCATAATGCGATGAGTGCAT
TGCCTCTTTGCTCATAATAAGTTCCACAAATAGTGCTAAATAGTGGTGGT
ATTTAAATGTTAAAAACCACAAAAACATTTCCTATATTGGTTACTGTACA
CCTGACTCGTGACCCAGCCGTACAAGATGTTGACCGGAAAAGAAGACGAG
AAGACCAATTATATGCATTGTCTCATTTATGTTGCAACTGCCAAATGTTC
ATGGCCGATGTGATTGGTTCTCTTTTCTCTGTCAATGTCTATGTTGCCCT
GAATACACACAGTAACAGGTTACTGTACATGCGATGTCGCTAAGAGAGTG
GCGCCAGTTTGCAGCCTCTGTGGCCTGGGCTGCCCAAGAGAAAGGTACTA
CTGTACATGGCGCTTGCCGGTGATCCTCCCCCGGGCGTGCTTTTTGGTTC
AGACGCGGAAGAAAACACATTTATGGGAGAAGAAAATTAGAAATGGCCTC
TTTTAGTGTAAAATATTTCGAAAATGAAGTGTAGAAAAATGTCACATTTG
AGTGGGGCAGATACTCAGGTTTGCTTCTAACTAACTAATTAACTCCACAA
GTCCCCAAGGAAAGAGAATTTGGATTGTATCCAACCCTTACCTGGACCAA
ACTCAGTGCAGAAGGATTTGTTGTTTTGGACCAGAATTGAGTTCAGTTCG
GCCAGAGGTTGTCGTAACTCTCTTAGGAGGTGCAGGGTTATTTATGGCAA
TTCTACGTTTGTGCAAGTAATGCCCACTACACTATTAAGATGGATGAAGT
GCACAACTGCCTTTAAGAACAAAGAAAGGTAAATTGCAATGTTTTGCCCA
AATTGAGCACTCGGTTTATGAGAGTCAAGATTACCAGAAAGTAGGAAAAG
GGTAATCGAACCATATTTTTCACGTTTTTGGGCCTTCAGGGGTGAATGGT
TTCGGTAAACAGTTACTTTTAGGCATACTTTTTTATACATTTATCGGAGT
TGCCTTTTGGGGAGCCAAAACTAAATCCAAAACGACAACAAAACGGAGAT
TTTGTTTCCCAAGATGACGAAAAATGACTGGTGTAAGGAAATATTTTGGG
GTCACAAATATCGTTTCATAAGTTATTTTGCAACAAAATACCCTACAGTT
AAAAAAAAACCTGACTATTTCAGCCCCATCAAACAAGGCACGTATTTGAT
CCACATGTAATAGAGTGGGGAGTTAATTAAACTTTGAAGATTTACTCGAT
TGCATCCGAAATATCTGACACAAGATCAATCGGAAGCACATTTTTTTAAA
TTAAAGGGATGAAATCCAGCCTCGAGATTGCCCTGCTCGTAAGCGCATTC
ATTTTCCGGAACCTTGGTCTCTTCAGAGACATATGCAGGGCGCGTACGGT
GTCCTCTATGTCCTCTAGAGGACATCCAAAAGTTGAAATGTCCTCTAAAG
TCCTCTAGAGGACGAGTTGTGTCCTCTATTTCTTTTTTTACGGATTGTTT
GTCATTTTTTCACAGCTTTTGCATAAATGCTAACCAAACTTAACCGAACA
GAAAAATAATTCTGCCATTTTATGGCCGATTTTTATGGTTTGTACTTGTA
TTTATTTTCTTGTATTTATTTTCTTGGCAGGACACTGCATCATAATTGAA
AACCTAAATAATCAACTACAGTAGGAATGTTATGCCAAAGGGTCACAGAT
AAGCAGGATTGCTTGTTTTCACTGAGCCCCGAAAATTGAAGGAATGAAAG
AACACGAATCAAGAGAGCTATTGATACGTTTGGCGTAAAGCACCAAATAT
TGCCTGAGCTAAAATATATGCAGGCGTAGATAAATTAAATAAAAATGGGT
AAAATAATAATCCAAAAAACGGACAAAAGCGACTTCATTCAAAGTAAGTA
CAGACAGATCGGGTGAGGGGTGACTTTCAGCGTGGAAGTTTTTTGCGAGG
CTTAACAGAGGGATGGGATGAAGATCGGGCACGGGTTTTTGCTCCGGAGT
CTTCACCCATGAAAGCTTTCTTCTTTTTAACAATGACAGTTTGATTGCTG
CTTTGGTCAGGTTTCCGTTTTGATCCAGAAGCTAATTCATTTGTCTGCCG
TTGTTCGATCGGTTCAGAATAGTCTTGTGGTTGACTGTGTTCATTCTGGA
GTTCGTAGTGTTTGTCGCTAAGCAGGATGGCGGGTTGAAGATCAGGAAAC
CCTTCAGAAATCACCTGCCCCTTAATTTCTCTTCGTGGATCCATCCGTTC
TCGAACTCCTGATGTGGGTGGGCTGGGTGATGTGTCCCCAAGAGGATCTG
TTCCGAGTCTTATAGTTGGCGTGGTTTCTTGTTCATCATGGATCGGAACG
CTTGAAGAAGGTACCACCGAGTGATCTTGCACTTCTCCGTTGATTTCATC
GATCGCTTCCCGTTCTTGAACAACTTCGCAGTATTCCATTATTTCATTGT
GTTTGCCCCTGTTTTTGTCACTGAGTTGACGGAATCCTTCAGATCCTCTG
GTCTCTTTCTTGACCTTGCAATTCTTGATGATATGTCCTGGTTCTTTGCA
GTGATAACATCGCTTAACCTGGTCCCGGTGCCACAACCTAACCTGATGGC
CCATTAGAACAATGGTATCGGGAACTTCGTCCATCAGCTCGACTTTGAGC
ACTTTGTTCCCATTGGCAATCCCCTTGAGCCGCTGATCATGGGCAATGCC
AAACACCTCGTCTTCCACGTTCGATTGAATTTTTGCAAACACTCCAATAG
CTTCCTCTATGGCTTTGTCATTGACTTCTTCGGNCAGTATTCCATTATTT
CATTGTGTTCGCCCCTGTTTTTGTCACTGAGTTGACGGAATCCTTCAGAT
CCTCTGGTCTCTTTCTTGACCTTGCAATTCTTGATGATATGTCCTGGTTC
TTTGCAGTGATAACATCGCTTAACCTGGTCCCGGTGCCACAACCTAACCT
GATGGCCCATTAGAACAATGGTATCGGGAACTTCGTCCATCAGCTCGACT
TTGAGCACTTTGTTCCCATTGGCAATCCCCTTGAGCCGCTGATCATGGGC
AATGCCAAACACCTCGTCTTCCACGTTCGATTGAATTTTTGCAAACACTC
CAATAGCTTCCTCTATGGCTTTGTCATTGACTTCTTCGGGTACGTTAAGC
AATTTAAGGGAAGTCCATGACTGGCACCCCGCAATTGAACAGACCCACTC
ATGCTCTCTATACCTCCTGGAAAATTGAGAGCTCCTGAAGCGATTTCTTA
TATCAATTGGCTCGAATGTTTGCACCCTGATGGTTCGGTTCTGATACCCA
TGATTGCACAACCTGAATCTTCGAATTTCAGTCCGACTGAACCTCAGATC
TTCGAAGAGAAAGTCGGCGACTTGGCTGGTGCTTAAACCCTGGCCTCCCA
ATGAACACACAAATTCGAGGATCACTCCAGGAATTTGTTCCTTCGCCTTT
GCCGAGTATGTCAACCTTGATGACAACACCTTGTGATCAAAGTTGCTTGA
ATTGGTCACCCTTTCCATGTGTTCTTCAACAGGGGACTTTTCGGGGTGTG
TCCTGGGCACACCCATGGGGGCAGACGTTTTTTCTTAGTCTCGGTGGATG
CTTGGATCATTCACGTCATAGTTAGCACTGGTTAAACACCAAAACTGTGT
TGCAAACACCATTGCAAAGCGGTTTTCACAGAGCAAGATACTCCACAGCT
GTTCACATCAGCTCGATATCCTGTTTCATTTTGGGTGTCCCAAAAAAATC
CCCATTTCGTACTTTTTCGACCTACAGAAAAAAATATGGGTAAAGACGCA
AAGTGTCACATTCAGGCGAGATGAAGTGGCAAAATGTGTGAAAAAGTGAA
ATTAATCCGTGGAGTGGCTTTCGCTAACGAATACACCTCAATAATAGTGC
TTCACTTTGGCAAATTTCGTTCAGTTAAAACTTTTACTTAATTAGGCGAT
TTTGCCTTTTTTGATTGTTTAGAATTGAGTAGTTTGAGCATTGAGGCCCT
GAGTAGATGCAATGCCATAAGTAGAGCTGTAAAAAAAGGTGCAAAAATGC
CCCAAAAAGCGCTGGAAATACACATACGTGTAGACGAAAAAATTTACAAA
AACTGAAAAAACTGCTTTCCAGCAAAAAAGAGAGAAACTTCGGAAAAATC
GGAAAAATTGCCAATAAACAAAAAACATAGCCCACCATGGGAGCATACAG
CCATGAAGTAACGCAGGAACTCATGAAAAGATATCCAAATTAGAAATATA
TTCCTCATATTTTCTTCGAGAATTAATATCTATGACTGATAAGTACCTGC
ATCTGAAGATAGTAAGAAGTAGGAATCGAACACAAATGATGGAAAAACAG
TTTGGACAGAAGTAAAAGGGATGAAAACATGACATTTTTGTTCTATGACT
ATTTTTAAAACTGCCTGCTAAAGAAAGAAGCAAAATATGTGAATGGAGTT
TAAATCAGATCTATCGAAAGAAAACGAAAATTATTTGGGTCAGAAAAGCA
ATGGAGGTTCATAATTCGAAAAATCTTAAAACTGTCGAAAATTACTTGAT
AATACGTCAAAAATTCAAAATTTGTGAAACGGGCATAACTGTGAGCGCCT
TTGGCAAGATTCAGTACAAAATTGTAAGCATGGGTTGTGGTCATTTATTT
GTTTTATCTGACAGCGTGTTAGTGTTATCCCTATGTGATCCCTGAGAAAA
AAACATTTTTCCCCTTTCTGCTTCCAACCAAATTTTTTACTTTACATTTA
TTTCGTAACCAGCAACACTTTTTTATAGTTGGACAGACACGTCAGACTAT
ATTAGAAAAGTAAAAAAAAATTGGAAAAACGTTTCGCGTGAAACATAAAA
AAGTATAAACTTGACAAGATTGAATTATACCAAATTTACGTTCTGAGCAT
TGACACAGCTTGTTTTTAAGTTGACTATTCTGAACGAGTTGCCCTGCAAG
CGAAATATCAAACGAAGGGGGAGGGGGGAGGGGGCATTGATATGTAAAGA
TGACATCTTTGTATCAATAAAGTACTAAAAGTGTCCTCTATTTTTGTTCC
AAAATTCCTTATTTGTCCTCTAATCTGGATTTTTCACTGTCCTCTATAGA
GGACGAAGCCCCGTACGCGCCCTGCATGCTGAAAACACCTTGGAAAATGA
ACAAAAAGGAAGATTTCCCTATAAATTGGCTTATTCATTCTTAGTTGTGT
TTTCATTTGATTGTTACGCTGTTTCACCCTAACGTCATTGTTCATTTTCA
GTCACCCTACAACCGAGCAATGAGGGATCCGATGAAGCTCAAATGGACGG
AACCACCGAGAGTGGGGAGGTTTCACAAGCTGGAGCGAACATCAACTTGA
TGATCATTGTGGGAATTTTGGCCCTTTTGATTTGCCTCTGCGTCCTTTAT
TACTGCTGCAAATGCAAGGCCAACAAGAAGAAGAAGGCCGCGAAAGCAGC
TGATGATCTTGAGAAGGCCGAGGAGAAGGAGCAGCTTGTCGAAAGTAAGC
TTAATTCAGATTTTAAAAGAAGCGGGCGATATATATTACGCGACTGCATT
TACGTTTATTGCTCCCTTGTAAAATTTTGCTCATTCATAGAAAACATTTA
TCCTTCCTTCAGTCGGAGGCTTAGGTTACCATGTGTTTGGCTTCAATAAC
TCTTTGATGCCCTCCGACCTAGTTAGGTTACACTTTAAGCTTTAGTGAGA
TTAGAGCTCGCTGCCCGGGCCCAATTGCGTTAAGCCGTTCAGATTGTGAC
TGATTATTTAGATCATACCTAGGGCAGAGTCGTAAACTATAATCAGTCAC
CATTCATTAAAGCTCAATCAATAACACACAATCATCAATGGGGCGAAATT
AAACACTGCATAGAGAATACATGGTTACCCCGATAGTTTATGAGTGTCTA
TATTTTTTTTGTTTTCCTCAAGGACGGAAATTCGCCCTTAGCATTGAGAA
TAGATTAAGACAATGGAATGGTATTGCTTCCTTGTACGTGCATCGAACAG
AAAAGCAATGACATGAAGTAGCTCCATCTAGTGAGGAGTCATACCCAATT
TGGCCGGAAAAGGGAGCAAAATAGAGGAATGACGCAAATAAATAAATATA
CTTAACACAATGCTAGCTCTGTTTTTGGGTTAATGTGATTTGTGTCAAAA
GCGTAGAGTAACTGGCTGCCTCAAAAATGGGCAAAACCTGCAAAAAACAA
CATTTTTTCCAATTGATGGTTATGAGTGCTCATACTTACATGCAATTTAA
CCCAAAATGGACTGCACCAAGTCCATGGGGATGCATTCCCTATTCCATTG
CTGGTTCGATCTTCTTCAGCATTGTGAAATGTTGCGAAGAACGAAGGGTT
GCGCTCTTTGGGTTAAAATATACCATACAAACCACCATGGAAAATGAACT
AAACCCCAAATCCCTACTTTATATTTACACATACATTCTTTAATTTATGT
GAACACGTCCTTAACTAGCAGATTTGCTAGAGTGTTTACTTTAAAATAAA
ATTCGGATAATATCGAAACTAGAAACGAAAAAATATAACATCGGATATCA
GATACATCGGATTATTATGGTGGGGTTAGGATCTTGAGAAGATAATAAAG
TTAAAGCCTTCTTTAGATGGTGGCTATAAATTGTAAACCTGATTTTGGCA
TAACAATTGCTGTGCAGCGAAGGAGCAACCACAAAAGGAGATTTGAAAGT
ATAGTCTTCTCACCACTGCAGTAAATACACATAAAAAGGCAGTTCTTCTA
CGAAAGCTCTTTCTGAATATTATTAATATGTAAGGTATCAATATCTTCTC
CAGATCCCCTAAAGGGATTGGCTGGTGCTAAGGATCTAGATTGAGCATGA
TTTATTACATGAATCCCTCACTGGCTTTTATCATTGCGGATTACTTTTCT
TACCGAGCTTTAGTTGAAGCTAGCTTGTTTCTGGCCATATAAGTTACATA
ATCATATCCAAGTGGGTGATTTGTATTGCTCTCAACTGACCCTGAAATGT
CCTTGAATGCCCTGAATGCTTGGCGATCCTATTTGCCCGATATTCACATC
AAGTTACAAAACTAAAAAAAAAACCAACTGAATTAACTTTTCTCCCGCAA
CAGGCAAAGACGTCAAAGATCCAGATGCAAAAACTGTCGCTTTTGTGAGC
CACGACGAATTGGACAAGGGCAAATCCGTTCCCGAGGCCCAAGCGTTGGC
CCAAAACATCTCCAAAGAAGCCACAGTGCCTGTCATTCCGGAATTCCAAG
AGCAGGCTGACGACCATGCGGTAATTAGGACTCTGACCAGAAAGCTTCCA
AAGGATCGAAACTCTGTTCAAGACGAGGGAAACCTAAGCAATTACATGAA
AAAAGATCCAGGCTTGAATTCCCCACGCAACCTCAACTCTCTGACGGTCG
AAGACGTCCCACCTACACCTCGAACCCCAGTTGGATCACGAAGCAACTCA
ATCGAAAACGACGATATCCATTCTACTCTTGACCAGAAACATCAGGTAAG
ACTTTAAAATTCAAAGATAGGTCTGCTGGTCAAAATATGGCCAT back to top
Synonyms
The feature 'hypothetical protein EIN_287360' has the following synonyms
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