|
Associated RNAi Experiments
Homology
BLAST of a-kinase anchor protein vs. L. salmonis genes
Match: EMLSAG00000011431 (supercontig:LSalAtl2s:LSalAtl2s78:257612:456210:-1 gene:EMLSAG00000011431 transcript:EMLSAT00000011431 description:"maker-LSalAtl2s78-augustus-gene-5.11") HSP 1 Score: 82.0333 bits (201), Expect = 5.212e-16 Identity = 61/188 (32.45%), Postives = 100/188 (53.19%), Query Frame = 0
Query: 132 DLEWDYEDM--PYEVS---WSFNAFMDEYNRLYTFLNTIQGRTFDANHLEVPVQDTAE-----LARQLDRERPKYDELINCGKQMSDKFPFLADDLLCRVELLAVKWEILQIFVLTQRPSAAENPHGLDSQFNEKHFHEWLSSVEDKMIPLKFKINWSAKAIKQKKNEMKIIQEDIVSQGQIVRSLIK 309
+LEWDY D+ P ++ W+FN FM+ YN+LY LN IQ F + ++ L L+ R +Y+ + M+++F L D+++CRVELLA KWEIL R SA++ H ++ + N HFH ++S +++ K + ++EM +I DI S G+IV+S+++
Sbjct: 152 ELEWDYGDVQTPLNLNSSNWTFNDFMERYNQLYASLNQIQDMVFSSTATSTSSSADSKILNEALVTHLEGIREEYERFLKRSSLMAEEFTDLWDEVMCRVELLAAKWEILMA-----RSSASK--HSVE-ESNPDHFHSDINST--RLLQNKEFL----------QSEM-VILNDIESHGRIVKSVLR 318 HSP 2 Score: 63.5438 bits (153), Expect = 2.486e-10 Identity = 26/42 (61.90%), Postives = 36/42 (85.71%), Query Frame = 0
Query: 471 EFWDQESYLSEHHYDEAPIDDSSLNMLNFGDDYRNYIDSLSE 512
+FWDQE+YLSEH+YDEA +D++ +LNFGDDY YI+S+S+
Sbjct: 1008 DFWDQENYLSEHNYDEAIDEDTTYRVLNFGDDYSIYINSISD 1049
BLAST of a-kinase anchor protein vs. nr
Match: gi|1059879486|ref|XP_017795060.1| (PREDICTED: uncharacterized protein LOC108576557 [Habropoda laboriosa]) HSP 1 Score: 102.834 bits (255), Expect = 2.208e-18 Identity = 75/273 (27.47%), Postives = 130/273 (47.62%), Query Frame = 0
Query: 131 GDLEWDYEDMPYEVSWSFNAFMDEYNRLYTFLNTIQ-----------GRTFDANHLEVPVQDTAELARQLDRERPKYDELINCGKQMSDKFPFLADDLLCRVELLAVKWEIL-QIFVLTQRPSAAENPHGLDSQFNEKHFHEWLSSVEDKMIPLKFKINWSAKAIKQKKNEMKIIQEDIVSQGQIVRSLIK-----------------------SSKHKEESK----IRQLEERWHKVWLRCLEWQCLLEGLGSSNVKDENIANDKCDGETSQ 364
G+L WD D+ + SWSF +++ LY++L +Q ++ A H+E EL R+ R R ++E GK +S + P D++ RV+ L KWE++ QI +RP + + D + K +W+ +E ++ PL F I+W+ +++K E ++Q DI + G+IV S++K + +E + R LE RWH ++LR LEWQC +E L S + +N+ +C ++ +
Sbjct: 91 GELTWDETDVSTQ-SWSFKEVSSQFSELYSWLRVLQELVYCKEENLLDKSLRAAHME-------ELRRRAYR-RKLFNE--QAGKLVS-RAPAFKDEVAWRVDHLNAKWELVEQIMAPVERPISNQQDISADFEHEVKCLRKWIREMESRLQPLSFHIDWTLAELEEKAVEHMVLQRDIEAHGRIVSSVVKLGDKVFNQQQEQQQQEQQVQEEDKQEQREPPQALRVARSLERRWHLLFLRALEWQCHIETL-VSRISSKNVVPYRCSSDSDE 350
BLAST of a-kinase anchor protein vs. nr
Match: gi|1227988071|ref|XP_021925730.1| (uncharacterized protein LOC110832755 isoform X4 [Zootermopsis nevadensis]) HSP 1 Score: 102.449 bits (254), Expect = 2.384e-18 Identity = 64/239 (26.78%), Postives = 122/239 (51.05%), Query Frame = 0
Query: 131 GDLEWDYEDM-PYEVSWSFNAFMDEYNRLYTFLNTIQ----GRTFDANHLEVPVQDTAELARQLDRERPKYDELINCGKQMSDKFPFLADDLLCRVELLAVKWEILQIFVLTQRPSAAENPHGLDSQFNEKHFHEWLSSVEDKMIPLKFKIN--WSAKAIKQKKNEMKIIQEDIVSQGQIVRSLIK--------------SSKHKE----ESKIRQLEERWHKVWLRCLEWQCLLEGLG 344
G+L WD +D+ +WSF+ F+ +++ LY++LN+IQ G+ + + V ++ ++ R + D+ ++ + P + D+++ R+ L KWE+L+ + + + + D + K +W+ +E ++ PL F++ WS + +++K E ++Q D+ S G+IV S++K + H + +S R LE RWH ++LR LEWQC LE L
Sbjct: 226 GELSWDEKDVTAASYTWSFSEFLKQFSELYSWLNSIQEAVYGKEENVIDRSLRVSHVEDMQHKVYRRKLFNDQ----ANRLLRRCPDMRDEVMWRMARLNSKWEMLEQAITPCKSNPGQLDVCTDVEHEVKCLRKWIRDMESRLQPLDFRVGDGWSLQELEEKAWEHMVVQRDVESHGKIVCSVVKLCEKIGSSCPATLRTKGHYDTAHAQSVARNLERRWHHLYLRSLEWQCHLETLA 460
BLAST of a-kinase anchor protein vs. nr
Match: gi|1227988073|ref|XP_021925731.1| (uncharacterized protein LOC110832755 isoform X5 [Zootermopsis nevadensis]) HSP 1 Score: 102.064 bits (253), Expect = 2.674e-18 Identity = 64/239 (26.78%), Postives = 122/239 (51.05%), Query Frame = 0
Query: 131 GDLEWDYEDM-PYEVSWSFNAFMDEYNRLYTFLNTIQ----GRTFDANHLEVPVQDTAELARQLDRERPKYDELINCGKQMSDKFPFLADDLLCRVELLAVKWEILQIFVLTQRPSAAENPHGLDSQFNEKHFHEWLSSVEDKMIPLKFKIN--WSAKAIKQKKNEMKIIQEDIVSQGQIVRSLIK--------------SSKHKE----ESKIRQLEERWHKVWLRCLEWQCLLEGLG 344
G+L WD +D+ +WSF+ F+ +++ LY++LN+IQ G+ + + V ++ ++ R + D+ ++ + P + D+++ R+ L KWE+L+ + + + + D + K +W+ +E ++ PL F++ WS + +++K E ++Q D+ S G+IV S++K + H + +S R LE RWH ++LR LEWQC LE L
Sbjct: 219 GELSWDEKDVTAASYTWSFSEFLKQFSELYSWLNSIQEAVYGKEENVIDRSLRVSHVEDMQHKVYRRKLFNDQ----ANRLLRRCPDMRDEVMWRMARLNSKWEMLEQAITPCKSNPGQLDVCTDVEHEVKCLRKWIRDMESRLQPLDFRVGDGWSLQELEEKAWEHMVVQRDVESHGKIVCSVVKLCEKIGSSCPATLRTKGHYDTAHAQSVARNLERRWHHLYLRSLEWQCHLETLA 453
BLAST of a-kinase anchor protein vs. nr
Match: gi|1227988065|ref|XP_021925727.1| (uncharacterized protein LOC110832755 isoform X1 [Zootermopsis nevadensis]) HSP 1 Score: 102.064 bits (253), Expect = 2.785e-18 Identity = 64/239 (26.78%), Postives = 122/239 (51.05%), Query Frame = 0
Query: 131 GDLEWDYEDM-PYEVSWSFNAFMDEYNRLYTFLNTIQ----GRTFDANHLEVPVQDTAELARQLDRERPKYDELINCGKQMSDKFPFLADDLLCRVELLAVKWEILQIFVLTQRPSAAENPHGLDSQFNEKHFHEWLSSVEDKMIPLKFKIN--WSAKAIKQKKNEMKIIQEDIVSQGQIVRSLIK--------------SSKHKE----ESKIRQLEERWHKVWLRCLEWQCLLEGLG 344
G+L WD +D+ +WSF+ F+ +++ LY++LN+IQ G+ + + V ++ ++ R + D+ ++ + P + D+++ R+ L KWE+L+ + + + + D + K +W+ +E ++ PL F++ WS + +++K E ++Q D+ S G+IV S++K + H + +S R LE RWH ++LR LEWQC LE L
Sbjct: 252 GELSWDEKDVTAASYTWSFSEFLKQFSELYSWLNSIQEAVYGKEENVIDRSLRVSHVEDMQHKVYRRKLFNDQ----ANRLLRRCPDMRDEVMWRMARLNSKWEMLEQAITPCKSNPGQLDVCTDVEHEVKCLRKWIRDMESRLQPLDFRVGDGWSLQELEEKAWEHMVVQRDVESHGKIVCSVVKLCEKIGSSCPATLRTKGHYDTAHAQSVARNLERRWHHLYLRSLEWQCHLETLA 486
BLAST of a-kinase anchor protein vs. nr
Match: gi|972199644|ref|XP_015181829.1| (PREDICTED: serine-rich adhesin for platelets isoform X2 [Polistes dominula] >gi|972199646|ref|XP_015181830.1| PREDICTED: serine-rich adhesin for platelets isoform X2 [Polistes dominula] >gi|972199648|ref|XP_015181831.1| PREDICTED: serine-rich adhesin for platelets isoform X2 [Polistes dominula]) HSP 1 Score: 102.449 bits (254), Expect = 2.840e-18 Identity = 78/273 (28.57%), Postives = 134/273 (49.08%), Query Frame = 0
Query: 131 GDLEWDYEDMPYEVSWSFNAFMDEYNRLYTFLNTIQGRTF--DANHLEVPVQDT--AELARQLDRER---PKYDELINCGKQMSDKFPFLADDLLCRVELLAVKWEIL-QIFVLTQRPSAAENPHGLDSQFNEKHFHEWLSSVEDKMIPLKFKINWSAKAIKQKKNEMKIIQEDIVSQGQIVRSLIKSSKHKEESK----------IRQLEERWHKVWLRCLEWQCLLEGLGSSNVKDENIANDKCDGETSQCSDTTSTAMITEPHKIEPQEQ 385
G+L WD D+ + SWS +++ LY++L +Q + + N L ++ AEL R+ R + + ++L++C P L D++ RV L KWE++ QI +R + E D + K +WL +E ++ PL ++W+ +++K E I+Q DI + G+IV S++K S+ + + R LE RWH ++LR LEWQC +E L S A++K G + QCS + +T+ ++ Q
Sbjct: 85 GELTWDETDVSTQ-SWSLKELSCQFSELYSWLRILQELVYSKEENLLNKSLRAAHMAELRRKAYRRKLFNEQAEKLVSCT-------PALKDEVAWRVNHLNAKWELVEQIMAPVERTVSDEQDVSADFEHEVKCLRKWLREMESRLKPLSLHVDWTLAELEEKAMEHMILQRDIEAHGRIVCSVVKLSERVFKQRQQQSSQSLRIARSLERRWHLLFLRALEWQCHIETLVSR-------ASNK-SGVSCQCSSESDEEPVTKQPRLSRSRQ 341
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Aligned Feature | Feature Type | Alignment Location |
scaffold1039_size68027 | supercontig | scaffold1039_size68027:45904..67831 + |
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 scaffold1039_size68027:45904..67831+ Legend: mRNA Hold the cursor over a type above to highlight its positions in the sequence below. >maker-scaffold1039_size68027-snap-gene-0.9 ID=maker-scaffold1039_size68027-snap-gene-0.9|Name=a-kinase anchor protein|organism=Tigriopus kingsejongensis|type=gene|length=21928bp|location=Sequence derived from alignment at scaffold1039_size68027:45904..67831+ (Tigriopus kingsejongensis) GCAGTCTCCACGAAGCCAGCCTCGACTCCAATTCGACTGGGCCTCATGCC
ACCCTGGCCTCGTCTCCGGATAACCTACCCGCCGTTTGGGCGCTTTGCAC
TCGGGCCAAATGGCCACGCTCTGGGTCCGAAGGTGCCAAGGCGATGCCAG
CCATGCCGGCGATGCCTCCGCTCCTAATCTGTGCCCTCCTGCCGGCAGCG
GCGAAAGCACCTGAGCTGCATGCCCGGTGCTCCGAGCTGCTCGGGGTAGC
TGAGCCGGAGAGGTGCTTTCACAACAAACCAATGCCAGGCCTAGCGCAAA
GCATTGGCCTAGCGCTGGCCCAACCTGTGGTGGTGGCCCACTGGCAGAGC
GGTTCCGGCGGGCAGGATAGCACTAGGCCTCACTCACGGCGGGAACAGCC
TCGTGTCTCGCGCTCGCTCACGGCCATGGAGGGCAAGACCATGGGCGACT
TGGAATGGGACTACGAGGACATGCCCTACGAGGTCTCGTGGTCCTTCAAC
GCCTTCATGGACGAGTACAACCGCCTCTACACTTTCCTCAACACCATCCA
GGGCCGCACGTTCGACGCCAACCACCTCGAGGTGCCCGTGCAGGACACGG
CCGAGCTGGCCCGACAGCTCGACCGCGAACGACCCAAGTACGACGAGCTC
ATCAATTGCGGCAAGCAAATGTCCGACAAGTTTCCCTTCCTGGCCGATGA
CCTCTTGTGCCGGGTTGAGCTGTTGGCCGTCAAATGGGAGATCTTGCAAA
TCTTCGTGCTAACTCAGCGGCCTAGTGCGGCCGAGAATCCTCACGGTTAG
ACCCACAACCCAGTCCCCACGTCCGACAGCCTCGGCTAACCCGCCTCTCC
CTAGGTTTGGATTCACAATTCAACGAGAAACACTTCCACGAGTGGCTGAG
CAGCGTCGAGGACAAGATGATCCCGCTCAAGTTTAAGATCAACTGGTCGG
CCAAAGCCATCAAGCAGAAGAAAAATGAGATGAAGGTAAACCACCACTTC
ATCGCTGTATGTTCATCGGGAGTCTGGCCGATGGGTTGAAGGCCAAGTCG
CACCGTCAGCAGTGACCCACGCTGTCACTGTCACTCGGACAATGAGCCGT
TCGGGGCCTCAGGGTGTACGTAGTGGCGAGCGATTGCAAGGCTCACTCGG
AGGGTTATGGTAAAACCCGCCTGCTCTGGCCTTTGATTTCCGTTATCCTG
GGGCCAGGATTTTAGGATGCGATAGTCATAAAATCCTGTGGCTGAATACC
CCTGAAGTTGTGTCATACGGGCATGGCGGATGCATCATCGGGCCGATTAG
TTCCCAATCAGAGGCGATCCCGTGCCCATCGCATGGAATCGTGATTTGGG
AACCAACTGGAGTATTCAGCTCAGGCCTGTATCGAACCCTTATAGCGTCA
CCCTATAGAATGGCGATCAAAGATTGACATGCATAATAAAGGTGCATTAA
TAAGCGACCCCGTTAAAGACGTGGAGAGGCAAAGGCCACTGTCACTCTTC
CCCTGAATGCACTGGATGGATGACTCGACCCCACCGGCGGGTGCATCACC
AAAATGTGCCAACTCCTTTTCACAAACACCTACAATTCAGTTGAGTAATC
AGCCAATCAACCCATTATCCATATTGAGCTATTCGATGGCTCAATGATGG
AATTTTCCCTTCTCGCGTGGCTGTTCTTAATCGCCATTTTTTGGTCGCTT
ATTCAGAAATTCAAATAAAATCAGCCGCTTCTCCATATCGTGGCTCGTGA
AAGCGCTGTTGTTCATCCTGTAATATAAAAAAGCCAAGAGATTGGTATAA
TGCTGAAAGCAAGACCAATCCTGTCCTTGTCCTCCAAAATTTCGAGAACT
TTTGGCTGGTCGCTCGAAGTACCAGTACTGGCCATTGACTTGCTCTTTCA
AACTTTGTAACAATCAACTGTACTTGGTAACAATTACAGCGAAGTGCAAA
TTGTCCCATGGTTTGGAAAAATGGCCAAATACGAAAGAGAAAACCTCACG
AAATCGCCCCTCGAGACCAAAGTGCATTCATGACACTTGAAGATCTAAGG
TTTATCAGTGAAGAGCATAAAGTTTGCCAGTTTGTCATATATACTCGGAA
AACTGAATTCAAGCGGTCAGTTTTATTTTCCGCCAAACTTTCGTCACGCA
ACCTTCCACTACTTTAAAGACAACCTGATAGAAGGCAACTTATCTGAATC
ATGAAAAACGCCTTGGTCGCCAAAATATGAAACCGATGAAAATATGAGAC
GAGAAAAGACCAAAAACCTTACTTTGTGGATGATGGTAAAAACAACCTGT
ATTAAAATATGGAATTGTAGTGGCCTGCGAGTTGGTTGCTCTGATTGGAT
CATTCGCAGGTCGCTAAGCTATCCATAGTTTATGGTGTTCTCTGAATATA
CCAGTCATTTACCATCTCCCAACTCGGTTTGAGCTCAGCTCTTAAAAAAT
ATGCTGTGAAGATGATCCTAATGATTTTGTTTTAAATTGCATCTTCGAAA
ACCATGAGATCAGCTTAGGTTTTGTGAGTCTGTTCGAAAATATAAACTTT
TTTAAAATGATCAATTACAATAAAGGCTGTCCGATAATGCAAAATCTGCG
CCAAGCTAGAAATTGGTTACAAAAGACCAAAAACATGGTTGGAAGTGCAA
AGAACAACGAAATAGGAAGGAAAACTGAAGTGCGTTGGGATTCAGAGGGA
ACAGAAGTAAAAACTTAACGAAGAAAAGTGCTTCATTAATACTTTAGGAG
ACCCAACGATTATTTTTAACGAGCCTTCGCTAATGTTCGACAATTCATAC
TCCTAGCCGAAGATAGGAGATTTACAACTATTTCTATTGTGAGCGTTAAT
TATTTGAGGTGATTCACGAGTATCAGTAATAACATACCATCCGGTTATTG
ACGAGTTAATTTTTCATACTGTAGAAAGAAAAAAAAAATGGTCTGGCATA
GTTGAAGTGATATTCATTCATCATTCACAACAAGAATATGGGAGCATCAA
GGGTTTCACCATTTGCAAAAGATCAAACCAAAGCATTGGTTTGCCCATGT
GCATAGAACTCATGAGACCGTAATCTGAATTACAAACCTGCAACTTGGCG
TGCTTCCCTAAGCAAGTTTGCAATATGAAATTGGGTGGCAAACAAATAAC
TTCCCCGATGGCATGACACCCTAGTATTGATTTTTCAAACGATAGCCTCA
TGCAATGCCGAATTAGTTCTTGCCATTATGCGCACTGTTCCATTCCTCCG
CCGCCTCGATGTGCTTGAGGCTGCGCAGCCAACTGTAGCTGACATGCACA
AGCGCATCTCCAAACGGAACGTCGGGCTTGGTACAGGTACGAGTCGCATC
CGCCGGGCTTTTGGCTTCACAGGCGCGTTGTCTGCGTACACCCTAATGAA
CTCTCCGGGCGAAGAACTTGTGTTCCTTGGCTTTACCTGCCTTGGCCCCT
ATCACATTGAGTGAAGAACTGAAAATCGGAGGGAAGCGGGGTTCTTGTCA
GGTGGTGGAGGAGCACTTCTGGACGAGGGGGGCCAACAATCCTGGCATTT
GCAGGCCAGAGGGTGAAGTAGGCACTGTGCCTTGGTGTACAACATACTGG
ACAAAGTCCTGTGTCCACATATACGTTGTTCTTACGTAGTGGATTCAGAG
GGAGCGTTACAAATTTTGGGATGGACTGGGTGCATCGGCGTCGGTGGTGG
TTGTTTGTGGTCTATCATCAAATGCTGCCGTGCATGCACTATAGTACTAC
ACCCTAGCTGTGTACTGCAGGTCTCGTGCCTGTTCAAAAACAAGTTGGAG
AAGCTCCGAGTGCATGACTGCTTGCTTGAACGATCGTTTCTTCCACGTAC
AGCGTCGACGACGCTCAGGACCGAATAAGAACCACGCGAGGCGTACTGTA
CAATGTCCAACGACCAAACCCAGTGGTTGTGTATCCAAAACACACCCACT
CAAAGTTGCGTCTGAACTCTGATCTCACAGATTATTCAAGAGGACATCGT
TTCCCAGGGCCAGATTGTCCGCAGCCTGATCAAAAGCAGCAAACACAAGG
AAGAATCGAAAATCCGCCAACTCGAAGAAAGGTGGCACAAAGTGTGGTTA
CGGTGCTTGGAATGGCAATGTCTGTTGGAAGGACTCGGATCGTCCAATGT
TAAGGTACGAACACACCGTTGAACACAACTCAATTTATGGGGTTTTACAA
ACGGCTGATTAATGTGTCTTTCACATGTCCAGGATGAAAACATTGCCAAC
GATAAGTGTGATGGTGAAACATCACAATGCTCTGACACAACGTCCACGGC
CATGATAACGGAGCCACATAAAATTGAGCCACAAGAGTATGTCAATTCAG
CAGAGATATGGAGATTGGCCCATATTTGAGTAATCCTTACAATTTCCCCC
ATTTCGACCAGACAAATCACTACCACTACCTCTTCATCAAATACCACCAA
CATGGCGAATTGCGGCAACAGCGTGATCAAAACATCGGATTGTCCTTCGA
CTAACGCCAGTCTGGTGGAAGAATCTCCAAGTTGTGATGCGAGTGCCGAA
AACTCGAGTGCGTCTTCGGAAGAAGATGGCGAGGATGAGATGGATCTCAC
CCTCCGAAGGCCCGACTCGGTAACCAAAGGGACAGAGGGTGAAGAAGGCA
ATAAGGAGGTGGAAATAATTGAATTCTGGGATCAGGTCAGTGATAGGGTT
GAAGCATTTCATTTTGTGTCAGGTTGTCCGATTATATTGGCTGGACACGT
ACATGTAGAGCTTCCCTAAACCAAGCACTTGCCTTTCAGGAGAGCTACTT
AAGTGAACACCACTATGACGAGGCGCCGATTGATGACTCGTCTCTGAACA
TGCTCAACTTTGGTGACGATTACCGAAACTACATTGATAGTCTGTCGGAA
GATGAAGAGGCCATGGAGGAAGTGGAAAAAATGAGTCGACAAGGGTTGCT
CTCTCCGGTGAGGATTGCTTTTGTTTGTGCCCATGTTTCATATACCTGGT
TGGACGCACTCTCAAACCAGCTGTCGAGAAGTTCAATCCAGGGATAGTAG
ATGATGGGATCAATTTCATTCACAGGTTCAATCAGTCAAAGACGAGGACC
AAACCAGCGTCAAAAGTCACGGTGACGAATCTGTGTGTTCGGATACGTTG
AAAAAAAGTACCTTCCATTATCGACGCAACAACGAGAAAGTCCTGACACT
TCTACGAAACTTGGAGAAGTGTAAAGTGTTCAATGAGGAATTGGTAAGCA
ATTGAGACTAGTGTAAGCGTTAAGATTCAAGTTGTCCTAAAGAACCAGCC
CCCTCGATGCCATGGTGAGGTTGCGTGAAAATTGGAACAAAAAGTTGCGC
TCAAATTTGTGAGGAAGGGTTGGAAGTCTTCGGATTCGTGTACTATGTGT
AGCGATATTTGCCGGAATATTCATGAAAAGCTTTTGTGCCCTTCCAGAAT
GCTGCCAAGACCTTTTGCTCACAGAGTGTATTGGAACTCACGGCCATTAG
AAAACATCTAGCATCGAGTAAAGAAAGCTCTCTCCTGTCCGGTAACTACG
AACTTGGTTCTACGTATGTCGAGGATGCAACCATTTACAACCATGTTTCT
CTCCTATTTCAAATAGCACTCATCTGTCGGTGGGAAAACCTGTGTTCAAT
TATAGAAGATGGTATTCAAGTGGGGAAGAAAGTGCTAACCACGTGCCAAA
CCATCAACATTTTAAAGCTCTCTCTGCATCAGATGCTAAATGACAATCCC
AGAGCAGACCAGGAGGACCATCTCACTATGTTGGTGAGTCAAGCACCATG
GGTCGAAGTCTACCTTGGTTAGACGTTGTACCAAGTCACTCTACCGAGTC
TACACATTCTTCCCCTTGAGGGATGGTGCTTTAGTGATCTGTTTCGAATG
CCGGCGTTTAAGATGGCCGCGTGAATCGACGATGCAGTTCAAGATCATAT
TAAGATATTTTACTGCCATGGTGGGAGTTAGTTTGGCCAAGCGCACTCAC
TCGACCATTGAAGTTGGAACAGTCCCTCACCATCTCTAGCCATGGAAATT
TGAGCTCCGGCAAGGGAACCCAAGGGCAGAATCCAATTGTAATAGGGTTA
AGATCAGCGGCACCCTACGGAAGTGCGTTTTTATCATTCGGAGAGGAATT
TTATTGGGCTGTACGGTCTCTTTCTTATCCCTCACACTGCCTGCATAACT
ATGCTATATTGACCTGTAGAGGAGGAGGGAAGGAGGAGCGGTGACCGTTT
TAAAATAAGACTTTTTGTGTCTGACCACTGCCCCCGTCTCTTTTTCTACG
AATTATCCTTGGTCCTGTATGTATTTTCTCGGACTCCCTTCCTTTTCCCA
CTCTGGCGCCTTTATGCGAGTCCCTCCTAGCAATCACACTTGTACTGTAG
TGCGTCACTTATGTCCGAGACCCACACACACTGGCGTGCACACTGCTGCA
CTCGACGGACAAACATGTACACGTCCTTTTTACCCCCACACAAAGAGAGC
GAGTGAAAGCCTTCTCTCCTCCCTCCTCTGAGGGATCTGTCCTGGATCCC
AAATGATAATGAAGTTGTCCCTTGAGGAGGTCAATTTCCAACTCACCTTT
GAGAACTTTTTCCTCCAGAGCGGGCGATGATGGCATTATTGGATTAGATC
TAGACGGGAAACGCTGCCGGCAATGAAAGTAGAACGTGGTCCCAATGGTG
TGGTGGTCCTCGCCCCGCTCACTGACCATGGGTGATTCGCAATAGAATCA
TGTGGGGATCGAGCTTTGTCTTCGTATTTCATTTCTCCCTTCCCACTCTA
AAGAAGCACCAAGTCCCATTGAACATCTGTTGCTCGGTCAAAAACATGAT
TTGGGATGCAGAACTTGATTTGGTCTTTCAGGATGTGGACTATGTTCCCG
ACTTGATGCGGATCCAAAGTGAAATATTTTCTCTCAACGTGAATATGCAC
GAGATCATGCATGAGCTGCAATCGCTCATCTCGAGTCTGGAAAGGAAGCC
TAGGACGCGGAATCAGCCTCGTCGTTGCACCACCCGCTTGGAGTTCCACA
AAATGCACGAGAAAATGCTGGAGCTTTACTCTCTTTGGGAGCAAGTTTAC
CAACGGTAAGCTCTATTTCGGCTCTTCTTTAAGGTTTTGTAACTACTAGT
AGAATAAAATGCTCAGGTAATGGTGAGAAAAGTATCTGGTGCGAATTGAG
ACAAAAAGCGATAATGTTTTCGATCGAGTAAATCGAGAACACAACTGAAC
AATGCCATAGTGGACATGTCCAATGTTTCATAGACATGAGTGGCATTATT
TGGCGAAAGCCAATTCTTTAAAATCCAAATTTGTCAGATCGTAAGTCCGT
TAAGTAGCTGACGACAAATGGCTGTTTTTAAAATGAAAACAAGAAACCAA
TGTTTTTTTACTTTTTAAATTTTCCTTGCAGTTTTGTAATTTCAAAGTCT
CAGCCAAAAAAGGCCACGGTAAAATATCACCAACTCAGTTGAGCTCCAAA
GACTTGGAAAGCTGTCGTTTTTTTCCGAAACTTTGAAACCTTGGAGAAGC
TGAAAAAGTTGTAATATTTCACGCTCAACAATGTTTATTTTGAATTCAAC
TTCTCAAGAGTAATAAATAACTGGAAAGAGAAAAATATTTTCTTTCAATA
CTGCACAAAATGCGAAAATTGAAGCTTGCTCATTTCACAACTTTTTCCTC
TTCGTTTCACTTTATTGCCTTGACCATTCTGCTGGTTTTTTTCACTGGCG
AATCTCGCCGGTTGTTATACCTCAACGTGAATCGCAAATTATACTGCATT
TATTTTTTCCACCCCTCTCTTGCCATCTGGCCCAGTTCACGAGTTTTGGT
ACGGCCTGGTGTAGGCTACATTTAGTGTGAAATTTCTGGGAATGATCTTT
CCCATTCCTGCCTCATGATACCGGCGCTGCGAAGCTCGGGGAAACTAGGC
ACACTTTTCAAATTTCTCCCTCCCGAGCGGGATGGTAATGAAATTATGTT
GCCTTGATGAAGTCATTCAGCGTCTCGGGTTAAGATCCTTTGATTGAGTC
CTCGTAGTATTTTCCTCTTTTTGTCCCCCCGGATCAGGGATGGCCTGCCA
CTGTTTTGATGACTGTTGCCGTTCCTTGGAAACGGGAAATTCGGACGTGT
ACCTCCTGTGTGCACATAAAGAGACGGAGGAGGATCCCTGGGAGATCCAG
CCGAAAGAGGGATGAAGAGGAGAATAATTTCCGAGTCATTCAGAGACCTA
TTTATTTCTCTTGACGTGACCCGTGCGATGATCGAGGAGGCGAAGAACAC
AATTCCCTCTGTCTGAGTGACACTTGCCATTCAATGAAAGAGAGAGAGAT
CATACCTAGCTCATACATAGAGCATTATCGTCATTACATCTCAATGACGA
AGGGATCTAGGCGATGAGGAATCAAACTCGCCATTTTGAGTCTTCTCGTT
CAAAGCAATCGAAATACCCACTGTCGGCGTGGCTGCTCGGCGTTGGTGAT
AGGGAAAGTTGGGGTCTCTTTGCGACTCCTTGCATATTTATTTTGGGGGC
AAACCACCCTGGTTAGTCACCACAAGTCCATTTCAATTCAAATGAGCTAC
ATTCGTTCCCAAGATGAGAACTCTGCCATACCACGAAATGGCAACACCAT
GGAGAAAGTTCATTGAAATTCCAATTTTCAACCCAATTTCTGCTCGCTTC
AGAGCCGCCTCGAAAGCTTAATGATGTTGCATCAGCCCAAACCTGTTGGA
AACTGTGAAAGGGCTCCTCCAGTTCCTTGCATTTTTTGATAAGACCACTG
TATGAATGGAAATGGGGCTAATATGCGGAGCCCTCCAATTGAGAAGAGAA
TCCCAGCTAATTTTGTCCTTTGTGACCTGTCGCTATATTAGCATAGCTCT
GATCCTTTCCCCCTTCTTCGACCGGATCTCAAAATGAGTCGGCCGGACAC
GCTTTTGAGGGTGAATGACAGTGAGGATCTTTTCTTCCCATCTCATGGCA
TTAGTTGCCACTGCATGCACTATCCACTATGAGTGGGCATTAGTGAGTCT
CCAGCTGACTTGGCCCGCTTGATTGGAAACCAATTGGGGACATTTTGGGG
TTTGGAAACCCTAGCCTTTGGTTGCGACCAAACTGGACGCGCCAACTACT
CAGTTTGTTCATTATCCATGGTCCAGTCTCGTTGGTTTAAAACTCCCCTA
GCCATTTCTTAGGGTACATCCACGACTGTTGTGTGTATACACTAGTACGG
ATCGTAGAGAGTGGTCCTATTATGTCGTCGCCGTCCCTTTCTTTGTCGTC
ATGGGGATAGTGCCCGGGTGGAGGTGCGTGGACTTGCATATATTTTGGGT
TGCCCGAGCTTGTGCGAAGGCTGGACAGTCAGAGTCTGTGGGTCGCTCCT
TTATCCCTAACTTATTATTCCTCCTCTGCTGTATTTGAAGAGCAACTAGT
AATGTTTCCCCAGAGGGGACTCGGTCATCAAGAGCAGCGGAATTTGCTAC
TCGTTGGGATCCGTGCCCGTCGCCCATGGAAGGACTTTAGAAGTGGTACA
AACGTAGTGACCCCCGATCCATTCATTCGCCATGGCCGCGAGCGAAGTAG
AACCATCATTCTCAGAGCTGGAATACAAATTCACCACATCCTTCGGGTGG
GACTGGTCGACCCTGCCCTAGCTCGGCCCATGTCCTTTGGAGGCCAGCAG
CAACAGCAGCAATCAGACCGCTCACGTTTTCGCCAACCAAGCGCTGTGCG
CACACACACACACACACACACACACACTTGGTGAACGGGAAAGGATCGTG
GGGACGCAGTGGAGCTCCTTGAATCCATGACCATGGCTGGACATGGGGGC
TTAATGCTGCTAAGGCGACGTGGGATTAACTACCGACCCGGGAGTAGTAT
CAATGTGTGTCCCTCCCTCCCCATCCTCTGGCCGCCGGCTCCTGCTACCT
CTGACGGATAGGAGCATGACTATGATGTCGTTTGACTCATGCCCGCCACT
GGCTTCCTTCAATAATGACTAAAAAGGAATCGGATGAGGGTGACTAAGAT
GAGGGGAAATGTGTCCGACCAACACGGGGATCAACACTCCCAATAACACC
CAGCCATTGAACGTATGGACCCATGGCCAGTCACTGCGTTCCCATATTAG
TACCCAGAAGAGCGGCTATGCGTTGTTGCTGTCCACTTGGCCATTGCCCG
TCATCCCATTGAATATGCATAGATAAATTGCCAGCAACTTTAGCTGGCAC
CGAGCAAAACCTGGCCATACTTATCCTCCTATTACTCATCCATCGTGCTC
ATTTAGGAGGGATTTGAAATCGGTTTGGGCAGAAAGAAAATCGCCAATGG
GCCGAGGTTGTCAGCCTTTCCCGAAAAGAACACAAGTGGGACAGCAACAG
TGTTTGATAGCCCCTCCATTTTCAGATTCAGCCAATTTCACGAGGAGCGT
CAGCTAACACCGGGACTGCACATGCCTCCAAGCCACGTCGAGTTCCGTCT
CCTGGACACCAAGGTAAGTGTGATGGTGTTAAAGGCACTGTGCATGTCAC
GAGCTCACTGGATTTGGCCCTTTGCATGGGAGTTGATCTGCGAGTATACA
CGGGTGTAAACATGGGGAAAATTGTGCCCTGTTGCACAGTTAAAACAACC
TTGATGCAGCATCTCAAGAGTGTCTGATGCTTTTTAAAGTTAGTGCTCTG
ATGACAAGCAAATGCTCGCTCATCGACGCTGCTCCATCCACTCACATGAA
CCGCCAGAAGAAAGTGTGAGCGTAACATTTGAAACATCCACCGTGTCAAT
TACATCAAGCTCCCATTACTTGGAGCGACAGCCATGGACCCCACTACTGT
ATTACATTCCCCCGTTCTATGTCCATGCATGCAGTTAGTGGTACGTATGT
ACAGAAGAGGGCTGTCTAGTACTCTGGACGTGGGCTGAACAACACAAGTG
ATAGCCGTCGGATGTGGTGCTAATAGTGGATGCTGCTCCAGCCATGAGAT
GCCGGTCCACCGGCACGTTGGCTGTCAATTCCTCAACCCGAGCATGACTT
GGCCAACCGCAATTGAAGCCAGACCTGGATTGTGGCATTTGAATATAAGC
CACACATTGCATATGAGTCGGGCATGTCAATCTTCGGCTGGTATTGTGGC
TCTATTGTGCGCCATTCTTATTCATTCATATTTGTCAAATAGTTCGAAGT
GTCAAAGGTTGAGAGCAAATTAGGCGAGATGTCGTCGTCACCCAGGATGA
ATGTTAATTCGCCATTCATTGAAGCCATGCTGAATCGCACGGAACATTAG
CACTTCCCACCAAACGGACATTTGGGGCCGAAGCTCCAACTAGTCGGGCT
ACCAAATGCAGATTCGCCGTTCCCATCCAGTGGTCATCAACCTGATTGAC
CTTTGCGTTTCTAGCTTCTATCGAGTCCCATCCGTCTCTGGTTGAGTTGG
CCAGTGAGAAGATATTGGACACGATTGAGTGACCATCCCATGGTTTAAGC
CTTTGGCTTCCTCATCTTCTCCTCATACATTCTCAATTTCGTTCTTTTGT
TGGATGGCTGTTCCTTCGATCCAGAGCAGAACAGCTTCTTCATCCACCAC
TCGATGACGGCCCAGATTGCCCTTGCAACACGTACTGATCGAAGTACTGT
AGGTAGATCATAGCATTGTACGGTAGTAAGTGAAGACTCTGGCCATTGTG
GTGTTGATCCAATCTTGTCAACCTGAGTTGTTGCCCTCCGCCCAGACTCT
GGATCCCAACAAAAGCGTCTCATAGGTTAGGTGCAGTCGCTCTGCCGAGC
TTGACGACAATGTTTAGATTGACCACTGATGAATTTTCAGACCGAGAACA
ATTGGCGTTTTTTGGTGGTTAGGGCCACCAACAAAAAAGGGGTTAAAGGG
ACGGATTCCTGGACATCTTGTCCACCATTGACCTCACTCGTACGGGTCAG
ACCATTTGGTTTGCATCGTTTACCTCGGCCCAGTGTGGACTCCAAAGTCT
AACTGATTGATTGGATTCTTGATCGTAGCTATATTCGAAGACATTAAACG
ACTTTGCACTGGTGTCTTGGACGCCTCTCGTCCATGGAGTCTGGAGGAGT
CGAGGAGCTCCGAGCTCGGGTATTTGTGAGCCGTCAGCCTCGCTCGCTCT
TCGACCCCTTCCACTCTTTTTTTGCCTTCATGGGAGCTCATCAAAATTCA
TAAAGTCCAAGAAATCATGCTCAAGTGAAATCCATTTTGTTATCCGTCTC
ACCTCGCGTTTTGCCCAATTTGGTGTCAGACGGTCATAAAAATTGATGAT
GAAGACCATGATGCCTGATGATTGGTTCAGTGGCTCCATTGTGGTTCTCG
CCGAGACTCGAGCATCTCTCACCACGCTCAATTGCTCCATCCATAATCGC
ACGAGTGAGTGGTGGTTTGTGTTCATGTGCCACCCACATACTGACTGATT
GACCATGAAGTTGGTTATGCGCTCACAACAGCGACAGGATTGTACGTATG
CACTACCTATGGCGAAAATGGATCATATCAGAGTCTTGTTCTACTCCATG
TCCGATTGGTATCAGCGAATGTCGATGAGCCCAAGCCGCGCCATTGGACA
ATGCTTAAAGCTCTGAGCTGGCTCCAAACCACCCCGAGTGTCGGTATGTA
TCACCCAGAGACACATTTACCCATGCGCACCTAGGACGACTTGCTCCTCG
CTTCCCTATTACCATGGCGATAGGTGGAAAATTGTGTCAACATCGTGGTT
CTAGAAGCTCGACTGGGCGAGTCCGTGAACGTGTGGGGCAGTTTGAAGAG
AGGTATGAATGGTGTCAGCACAATCGGAGAACAAACAAGTTGGGAGAGCG
GAACGCGGCGAGAACAGGTTGACCCGATGTACATCGGGAATTGGACTGTC
GAGTGGTGGCTAGATTCATGTCTGCATGCTTTTTTTCCTCTCATCTTCGG
GTTTGTGTTCTTGAGGCACTCCATAAGATCGGAATGATTGTGGTTGCGTG
ATGGCCATCACTGACCCAGGCTGATACCTCGTCCATCCCCACGGCCCAAC
CTTGAGTAGACGCACGCAAGCTCCAGAAACGAGATCCTGGCTGATCAGAA
AAAATGTATATTATTCTGAGCGATTGTATCTCGCATAAATTCTTATTTTC
CGATCGTCAGTCAATCGCCAAAACAGGTTTAGCGGAATAATTCATCCTCT
GGCTGGATTCACCCTCGACCCTTCAATGGCGTTTAACCTCCACCGAAGGA
GCGGCGCTCCTTGGTCGTCCGAGCTTGGACACGGTTCGAGATTCCTCTGG
CCAGCACAGCCCAACGTGGATATGTGTATGTATGTCCGATGCTTCAGACT
GCCGTTGGTGATTCCAGCACTACTTGTCGAGCAGCAGCAGGGTTCATAAA
ATGGGATCTTGGGCGGCCAGAAGGCATTATTTTCCCTCCCACTTGGCCCA
ACCTATACCCACCATGTCCCCAAAAGAGCACCCACCGGACATTAGAATGG
TCCTGGTCTGGAGAACGCACACTCGACCCGCTCGGAGTCGGCTGCTAACA
GCGTCGAAACCCCGCGGAAGCGAGGCCAGAAGCTGGAAGTCACAGGGTCG
ATCTCAGGCCATCTTTAGCCAGCCATGCATGTAGTGGTGCCCACCGCCCG
AGCCAAGAGAAGGGGAGCAACAATCCTCCTCTGGCGAAACGACCCTGGAG
CCGATGGTGGGCCACATGAGTAGGCGTGAAGGAGGCGAGGACGGGAGCTT
TCTTCTGGTTAAAATTCTGTCCGAGTGTCTGATAGCGAGATAGCATACTG
ATGCCGAAGGAGGAGAAGGAGACCGAGGCAAAGACGAGGAAAGAAATGGT
CGCTTGCAGTTTTGGGGGGAAATACGAGAAATTTTCCGCTCACCGACGAC
TTCGACATTACAATCCGCACAGATTCTTCAATGACATTGGTAGTTGACAT
GCTCATAAATGTTCTGCTCACAAATTATCAGCCCCGGGTCAAAACTCAAA
CGTACTCCGACGCCGGGCCCGCCCTCACACGCCCCCAATGACGAGTCTAT
AAACTCATCTCTGGGTTGGACTGCAATCAGTTGCTCGGGTCCTTTTTCTT
CCACAATTTGGCCTGAGCTGGAGAGCCCAGGAGGGGCTGAAGGGAGCAAG
CAAATTACGGATGCAACAGACGGTCTAGGAGGAGACGAGGGTGAATGTTG
TGGGGGAAAGGGAGGAAAAATTGTTATTCCAATGCAAAAAGCGTCGGATT
TTTCTCACACAGACGCACGCAAATGCTGCTTACCACCAGGGGCGGACGAT
TTTATGACAGTTTTCAAGTGCAATTACTGCTACTCATTCCCCCAGCATTG
CTGATGGTGTGATGCTTACAGTCAACCAGGGTGGAGGAGGGGATGCCTTG
GCCTAGGTTCCATCCGTCGCCAAAATGCCCCCATGGAGAACCTCGTTAGA
TGGGACCAGTTTATGGCCTCTCCTTCTGGACTGGGCTATGGTTGGGCTCA
GATTGATAGTTGAGGAGACCAAGTCGACCAACGTCTCCCCGGATTGGCCG
ACTGTCAATGCGGGCCCCATGGCAAAATCGAGGGACCCATTAGCCTGTTC
TTGATTGGAGGTGTTCCTTTTCCAGGTGGACGATAGTGGCATCTCGGAGA
CGAGCTCTTGTGGCCGAAAGCGAATTCCCAGCTCGACGTCGCGCCCCGCG
CCGAATCATGCATTACACGATCAAGTGAGTAGACAACGCCTGGTTTCCGA
GAAGGAACCCATTCTTTGACCTCGAGTCTGGTCAGGTGTTGATTTAGGGC
ATGGGATAAGCTCCTTGGCCAATTGTTCCATTCAACCGGCTTGGGTGATG
TGAGCCATGCCTCGTTCCCTTGGTGCATACCCAGAGTAGCAAGACGCCTC
ATTGCTATCCTATCCCATGGGCCTAATAATAAGTGCTGACCAGCCAGAGC
TCGAAATGATTCATAGTTCCCGTTTTGAAATGTGTGCGTGTAGTCGAAAG
GTTTGGAAGACTCCCCAACATCTGATACTAGTTTTGAGCTTGAGACAATC
CTCTGAAGGTTCACAGATGAATGCCTGCATTCGCCATCATTAGTATTCTA
TGAGCACCCACACTACCGTACGACGCCATAGTAGATCTGTGCCCGTGCAA
ACGAGTCATCGAGTGCACCCAGGCGAAGAGTATCTACGATAAAAATAAGA
GTCCACGTTTTTTAGGTCGTCGTTTCGCCCGAGTCTGCCCAATGAGTTGA
ATGCTGCCTGCTCATGGTTTTGATTTTACAGTTTCAGGATCCAACTTCGG
TCCCTGCGCCCGGCTCACCATACCCTCCAGTGTCCTCAATCTGCTCGAGG
TAAGTTTGGCCCATGCGAGTGCCTGAAATTAAAAGCGACTGAATTTAGGA
GCAAAAGCGACGCCAAACTCGGCGACATGTGCCCGGGACCAGAGAGCTCT
AAATCAATGTCCGCACACTTCCAGCGACTAGTGCTTAGACTAGATAAGTC
CTCGCGGCCCCGATAAGCTCCGAATTTCTGGAGGGGTCCTGGGCTATCCC
TGCAGTCGCTGGATGCTATTTACCACACTTCTCCTATCGTTGTCGATCGA
TGGTGGTCGAGCCTGGACAAATTGTAGCCAGGGGTGGGTGACTCGGGTTA
CCTCAATTGAAGCGGTGGTTCCCTTTTAAACCGCATCCATCGCACTTGGC
GTCCGAAAGAGATCAGTGCCCAGTAGCTCTTCTGCGTCCAGTGCCGGACG
ACAGGAGTGTTTCGAACATATCTGAGCTGCCGAGAGGCGATTTCTCGGGT
GACTCGCCAAGGGAACCGATGCTCAACGCACTCTGGGTTTGGCGGTGAAG
AATTACGTCCGTAATTCCAAAGTTAATAGCCCACTCCGACTGGGGATGAA
TGGGGTGAGGAGGAGCTGGGATTTTGACAATCATTAGCGATTTGTCTCGG
ACGACATGATCCCGAATAGTGTGAGGCTGCTGTTGTTGCTACCCTTTGTT
GTCAATATGCTCTCTCTCTGATGTGTACCACGAATGTACTCGTATTAGTA
GTGTCCACGCTGGGTGAGACGAAGGAGTCGCTATTTGTGGAGACTCGCTT
CCCCTCAGACCACCATTGGCATGGTTGTAATGTACTTCTTCTACCTGGTC
CATCATGATGAGCCTCTTCTTTCCTGCCCTTAAATTGTGGTCCGCTTTGT
ACCTGTCAGCGAGGCAGAGTGAATGGCGCATGTAGTTGCGGTACCACTAT
TTGAGCTTCTGTCCGCCGCGATCATAATAAGTCCATTATGTTGTTCCTGT
GTTGCTCTTTATTGTCGTCGTGTTTGAGTGCATTTCGGATGGTTTGTACG
TGCGAGCTGGAGGAGGTCGCCAAATTCTCGTCAACTCCCAAATTGGTGGG
GTTGACGAACTCTCAAATGGGGCGGATGAAATCGACCAAGATTTTTCCAT
TGGGTGATTGGAATTGATCCGGGCGTATTGCTTCGGATGGGTGGTGTACA
TTTTTTAGCCCACTCGTGGAGGCAAAAAAGTGGCTCCCCACCACTGTCCG
TGTTTTTCTCCAATGCACATCAGTGGCATATTGTGAACTGTAGCAAGTGT
ATCCTCGTGATGATTCCTCCTGGACTTTGAGTGTGCTCCGGCCGAGTTCC
ACCACACGCACTGCCCCCATTAGAAGCATGTATAAAAGCCCATGCCGAAC
GTTACCCTCGTCTTCCAGGAGGAAGAGACAATCGCTTAGAAATCCTCGAT
GGGAAGCCAAGTTTGTGGTGCTTTTAACTTTGCTGACATAATTAGGTTGT
CGACTTTTATGAGAGTTCCGCAATTAGGCGAAATAAGATGGCTCTCTTAG
GTGGTTTTTTCAGTCATGGAGTTGTAATTACATTCTATGGGTCTCTTCCT
CTCAATCGTCGTCTCGTTTCTCCCGGTTTCAATGCGGATGGCTTCATGAC
GTCGTGGCCAAGGTTTTGTATGGGGAGAGATTTCCCTGCTGGATCGTTGA
ATGTGTGAGTCCTCCCAGCTGGAAGTGGAGTAAACCAGAGGTTCGAATAG
GGATCAAACATGTCGCTAAGGCGTAAGTTCATTCAAAAAGGCAGCCTGGC
GAATTCCCAAGTGTCTCTCACCTCAAGGGGATCCTCGCCATCCTTGAGTC
TGTCACCCTCGCGGGCTGACCCAAAACACCGCGAGCCGTTGGTTCGAGAC
CCTGTTCCTGGTCTTGGGAAGATAAATCCCTCCATCCAGGGGTTTGGCTG
TGGATTTCTGACAGAGTCCTCATTCCGAGAGCTGCCTTTATTATGGAGTG
GTTGTCGCGTGTGGGTATCCAGCTCTAGCCATCCGTGATCAATGGTCCCA
AACAGAGAGAGAGCTCCATGCCTCAAGCGAGTGGCAAAGCCTTATCTTGG
ATTGGAGTTCTTACCCCTGTTGATCATGTTTGTGCGAAGGGGGTTGGACC
TCTTGATGGATTGACTTAAAAGTCCTCTTGGGGCGTCATGGGTGGCAATA
CTTGTGTGGCTCGAGTTATTGTTGTCGAGGAGTTGAACAACGTATGTCGT
CCATGCCAATCTGCATGATTTGGATGCTCAGCCGAGCTCTCTAAACCAGT
TCGGAGTGCCAGAGTGCTGGCGCCCCAACCAGCCATGCATAGTGTGGGTT
CCGACTGCTCGGACGGGTTGAGAAGGTCTGTGGAGTGGAGGAAATCTTCT
TAACAATACGAAGAACAAGTCCCGGGATTGATTCAGTTAAAATTTGCATA
TATTCGAATAAGGAGAGAATGGGACCCCATAGCTCTCCCAACACTCCCTC
TGGCAAGAATGCAGGACTTCCAGTTGGTGGACTATTATAGGGCGTGCTAC
CTCGCGCGGATCTGGCACGTAGACGGGAGCGGGCTCCATGTACCGGTTGC
CCTCGCCTACTCACTCGAGCTCCTCCGTCCGAGGCAACCCAAGCAACTTG
GGAATGAACTCAATTCATTGGAATTATTGCCGAGTACGAAATATGCCGCT
TCCGACTTGGGCTCGGTCGCCAGTCAGCAAATTCACCCTCGCTGTCTATC
CATCCATCTATCTTTCCATCCAAATTCTCCCGACGTACTATAAATTGCAT
TTGAATATGTAAGAAGAAGAAGAACCACGCGGCGGGGATTGAGCGCGAGA
CGCACCAGCCCAGTGGGTGTATAGCCATGAAGTCAAAAAAAGTACGAATT
GTTGCTCTCGCTCTCCTCGGGGTGATCTCCAGCGGTTCCACATTGTCCCA
CTGAATAATAATCGGTGGGCTTTGGGGATCTTCGGAGAGCAGAGGGCAAT
TTAACTCGTTTGCCTGCCTAGTACTCCTCGTCGATGACACCACTCGTTCA
AAGGGCTCAAGTGCACATAGCCGGGTTGACATTGTATCTCCTCCGAGAAC
AAGCCACAAACTCGGCCGAGTTGAACACTCTGCCTAGGATCTCGGGGCGA
CAAAATGGCCAGCCAACGACATCGAGGAGGCGGAGGAGAGGAGAAGGAGG
AAGAAGGGGAAAATGGCTCCAAGGCGAGGCTGCACGACCATCAAAGAGTG
CATTTGGGAATTGTTGAATTGTCTGCCAAATCAGAACTCGCTTAAACTTG
TCTCCTCCGTCTTGTCCCACTCGCTTTCACCCTTCTTCATGTTCCTCTCC
CTTCGTTCCACCACTAGCACCACCACCATCCTCGACAATCACTGCATGCA
AATTGCGGTGACGCACATGTCTCCGAACGGATTTATTCGCCTCTTGACCC
AAGTTTCTGGCGGAACAAGTGTGTTCCTCACGTTGGAACAAGGCTAATGA
GCCAACCCGACAAGGTGACGGCCTAATTCCCTCCATTCGAGAAGCGGCGG
AAGCTGCAGATGCTCCGTCTCTCAATGAATGGTCATTATTGGTCCGGGGA
ACCTGCTTCGAGCCAAAGGGACCTCCAAAGTGTGCCCTCGCCCAAGCGGC
CGATGGGTGAATTGGGTGCAACATCTTTTTTGAGATGGCCACCGCCAATC
CACCATGGATGAGACTGTTTTTGTTCGCCAGACATGAGCACAGCTCTCGA
GTAATGAGATCCAAGCGAGTCGCTAAACTGCGTTACCAATGCTGCCTACC
AGAGAGAGAGAAATACCTCGGGTGCTGCCCGGCTCTAGGCTCGTATCCTG
GATGCCTGTGGCGTGGACGTCACATAATCGACGGCTATTTGTTCTGAGAA
AATCATGGTTACCTCCACCACCCTCATTGAGCAATTGAGCAGGAATCGAG
TAGCCGTGGCTTCTGCATTGAAGGCTCCTCACTCCCTCGCTCACTCAGTC
AGTCAGTCAGTCAGTCGAGTAGGTGGGGAATTGAAGTCGACGAAGAGTCG
TCCACGGATTGTACACGTCCATCCGGAGTGATCATGTAGTCAATCCAAGC
CTGGCTTAGACGAAAAGTAGCGGACCTGCGACGACCGGCCCGAGTGATTC
CCGATGCACAAGAAGTACGTATGTAGTCGATGTTGTCGATGTTTGTAGTG
GTAGTAGCAGCAGTAGTTTCCCTCTATTAAAGGTGATGATTTGCTGTGAG
TCACGTAGTCGTTTTAGTGCTTTACACACGGGTGGAAAAGAACGTTGCTA
ACTTGGGATTTTCGGTTCCAACCACTCAGCTCTGGTTGAAGACACAAATG
CTCAGCCCAGTGAGTGGTGGCTCTACCTTCAAGATGATGTTCTTTTTCCT
ATCGGAGTTCAAAATGCCCCATTACAATTCCAGAAGGACTCCCAGAGCTG
GTAGTTGGAGCAGTTAGACGGGTACCACACCGAAGTGGGGAAAGAATCGA
GGAGTGAGCTTGAGGGGTCGCCGGAGATTAGCGCATGAAACCCACTTGCG
CCCAGACTATATATAACCTGAGAATGAATGAGTTTGGAGGAAACTTTTCG
CCTGCTCTGAGAGAGGCTGGTATCGTCGTGGGCCAAGATGATCTTGGGGG
CCAGATCCTCACTGCCATCATCTTGTGTTCCAACTGTTGGAGCGCGATGT
CTCCGTCTGTATGTACATTCGGGGAGTACACATACTCCGCTCAGATAGTT
GCTGCTGGTTGAGCTTCCATCGAGTTGGTTTCAGACTGCGACGAGCAATC
AGATAAAAATGTTGCCGTGTAATTTCTTCCTGCTGTTCGTCTGACTATAA
ATAATGCTGCTCATTTGCATATTTTGTTCACATGGCTTTTAAATGCTCTC
CGGGGAGGCAGAAGACCATCATCATGCATGTTGGGGGCCTGTGGTTTCAT
TTCTTCCGCACCTCCATAATCTGTCAATATTGTGGCAAGTCACCTAGCTC
TGGCTCCGCCACTGGCCGAAGCTGGCCCAGGGCCTCTGGGCTCGCTGGCC
CAAGGAGAGCTCAATGACGGGCGGTCATAGCTCAGAAAAGCACTTGAGTT
TTTTCCGGCCCGATCGCTGGCTGGTGGCCGTGAGTGGTAGTGAGCATCTC
GTCATCTCGGCGATGCTGATCGTCATCATCCCGTGGCTCGTCATAATCAG
CCAGTCAAACGGGTTAGGGAACGACACCACACCAGAGTTGACCACCGGCC
CTCGGAGGTTGGGCCGGGGTGAGTTGTTAGGCCGGTAGAGTTCGTCTTGG
ATGGAGTGCCACCAGGGTGAGGAGAGGAGCCACTGGCATTCTTTCCCATC
ATCATCAGGCATGGCTCAGGCGGAAAAAATACCCCTCTACTCCACTCATA
ATGCGGATGCCGATTCCGTTGATAGAACCGGCTATTTTGCATAGTGATCA
GCCTCATAACTAACGCGGCTGCTACTCTCTCGCTCTCGGTGGCGTGACAC
TCGGAATTTTCTCCCATTATTTGCTCCCTGTCTCCGGAAGATTCAAATGA
GGTGATTGCAAAAAGTCTCCGTGAAAAACAAAAGCCATCCCCGTCGAACA
TGCCGAGAATACGTATATGAGTTGATCCAGCTTTTTGCCTCTTCTGCATA
CACCCTTGTCTTTCTTTCATTGAATGGTAGTTATAATTAAACCCGCCAAA
TGCGATTGGGCATTCTTAATGGGAGGCCACTTTTTGTGCCTCTGCCCCCA
GCCGGCGGGTCTCACGGAGTGCCCCCACCCGCTCAACCAGCCCAACGCGG
TGAGGCGATGATCAGGGTCGATCAAGGATCGAGGCCAATGCTGTGGCTTC
CCGCCAGGATCGACGGGCAGACGCAGCCCAGTCCGACTGTCCCAGTCTAT
CTTGGCGAGTGGTGCGGGATGAGGGTGCGCATTCATAAGGCGGCATTTCT
CCCGATTCCGAGATGCTCCCAATGAGTGGGGTGTCAATCTCCGGGCTCAA
TGTACATATCCTGACGGGGGGAGAGATCCGAGTTGTGGTGGGAAAAGCGC
CAGTCTGAGGCTGCCCGGGCGGCCTATTGAACGACAAAACTATGTAAAAC
TCATTAACCGGGGAAAAAATCATCAAAGCTGGAATAAAGCCCTATCGCTC
ATTGTTCCTGCTTAATATGCAGACCTATGCAAATGTATTCAACCCAAAAG
GCAGGCTCCTCGACTGTCTACCAGTCGCAGAAAAGTGTTCTCACAGCTAA
TTAAATAATTCAGATCATTTTTCAACGTTTCGTTCCAGGACAACAACGGC
CACACCATCACCATCCCCCCACAGCAGTCCCACCGCGCCTCAGTCGGTGA
GCCGAGACGTTGTTACCACCACCCCATTGGGGCGGGCCTCGACCGCCCCC
ATCCGGGGATCCCGCTTCGGCCGCACCATAGTCCGCAGCATCCTCCAAGT
CCAGCTCATGCTCGGCCTCTGCCTGGCTTGGGGCCTCTACCTCGAACCTC
AGTGTTGCGAACACATGTGTCCGCCCTTCATCTCCAGCGTGTTTCTCACG
ACGAGCAGCGGGGTGACGCCGCCCATATGAAACCACCGCCTCGAGTGGGC
CCCGCCCAGCCTGATGATCATACGAGTC back to top
Synonyms
The feature 'a-kinase anchor protein' has the following synonyms
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