;ID   ATLANTYS1_I DNA   ; ATH   ; 10633 BP
;XX
;DE   ATLANTYS1_I is an internal portion of the ATLANTYS1 endogenous 
;DE   retrovirus - a consensus sequence.
;XX
;AC   .
;XX
;DT   27-SEP-2000 (Rel. 5.9, Created)
;DT   27-SEP-2000 (Rel. 5.9, Last updated, Version 1)
;XX
;KW   Gypsy-like endogenous retrovirus; ATLANTYS superfamily; gag; RT; 
;KW   RNase H; integrase; ATLANTYS1_LTR; ATLANTYS1_I.
;XX
;OS   consensus
;XX
;OC   Arabidopsis thaliana
;OC   Eukaryotae; mitochondrial eukaryotes; Viridiplantae;
;OC   Charophyta/Embryophyta group; Embryophyta; Magnoliophyta;
;OC   Magnoliopsida; Capparales; Brassicaceae; Arabidopsis.
;XX
;RN   [1]  (bases 1 to 10633)
;RA   Kapitonov,V.V. and Jurka,J.
;RL   Direct submission (September 2000)
;XX
;CC   ATLANTYS1_I is an internal portion of the ATLANTYS1 endogenous 
;CC   retrovirus. There are about 10 copies of ATLANTYS1_I in the genome;
;CC   they are ~97% identical to the consensus sequence. Long terminal
;CC   repeats from ATLANTYS1 are deposited in Repbase Update as
;CC   ATLANTYS1_LTR. ATLANTYS1 has generated 5-bp target site duplications.
;CC   ATLANTYS1_I encodes a 2030aa polyprotein, ATLANTYS1p1, composed
;CC   of gag, reverse transcriptase, RNase H and integrase domains:
;CC   ATLANTYS1p1 (exons 75-5635 and 5676, predicted by GENSCAN):
;CC   MDPNSSNSSGSGLPVQIPNDDVTDGHLPTDLPLGTKVDAVHNADAEDISQNSNSSGSDQI
;CC   TPPPQTRGGERNVTIQPPNGDNPANPSNQVPPRPASELAELRAMIMNLINLTKNQEIAHR
;CC   NLAAIVGQQRRDSTRMAHEVERDTAGKEVPPRETGIPAQVPIDLTGTVSPADPTPRTRLD
;CC   FASIDVSPPINRQVTFLQAPANALVENLATGNETSTTPAFPRLPVPPLLPLGYSPPRYTW
;CC   TRNQTTASSSRIPGNSTQQRTSIANPPSIPRIPGSDLLNSPTDPQAPVDPRNVVDMETFR
;CC   NYAAQTNANMAQMHSRMHLAVSDAPDIDRVIEETRRTPFTDRIARFRLRDVGRLRFPEYD
;CC   GTSDPKAHLRSFRFAITRAYLTDEENEAGHCRFFAENLVGHALEWFASLEGNSIDTFDQL
;CC   AAAFLKQYSVLIEHRTSEADLWSLTQLQNESLRSYVEKFKAIKSKIANLNEEVAIAALRN
;CC   GLWFSSRFREELTVRQPVSLDDALHKALHFAKAEEELAVLALRFKESKTQNAPLAIKKPF
;CC   KKENQTQGQHTLFAIEEAAEDESPELDLGKYCKYHKKRGHSTEECRAVKKLIAAGGKTKK
;CC   GSNPKVETPPPDEQEEEQTPKQKKRERTPEGGDSPPPARRERIDLVFAELDLGGRTGRSV
;CC   TTPPPAPHKKNMRFPLRLSKFCRSATEHLSPKRIDFIMGGSQLCNDSINSIKTHQRKADS
;CC   YTKGKSPMMGPDHQITFWESETTDLDKPHDDALVIRIDVGNYELSRIMIDTGSSVDVLFY
;CC   DAFKKMGHLDSELQGRKTPLTGFAGDTTFSLGTIQLPTIARGVRRLTSFLVVDKKAPFNA
;CC   ILGRPWLHAMKAVPSTYHQCIKFPSDKGIAVVYGSQRSSRKCYMGSYELIKKADPVVLMI
;CC   EDKLAEMKTVRSSDPSQRGPRKSLITQVCIDESDPKRCVGIGQDLDPAIREDLITFLKEN
;CC   KDSFAWSSANLRGISLEVTSHELNVDPTYRPIKQKRRKLGPERAKAVHDEVDRLLKIGSI
;CC   REVKYPDWLANPVVVKKKNGKWRVCIDFTDLNKACPKDSFPLPHIDRLVEATAGHELLSF
;CC   MDAFSGYNQILMRPDDQEKTAFITDRGTYCYKVMPFGLKNAGATYQRLVNRMFADQLGKT
;CC   MEVYIDDMLVKSAREKDHVPQLRECFKILNKFEMKLNPEKCSFGVPSGEFLGYLVTERGI
;CC   EANPKQIAAFIDMPSPKTAREVQRLTGRIAALNRFISRSTDKCVPFYQLLRKDKKFDWNE
;CC   DCEQAFKQLKAYLSEPPILAKPEEGEPLYLYTAVSRTAISGVLVREDHEGQKPIYYVSKT
;CC   LIDAETRYPAMEKLALAVVMSARKLRPYFQSHPIVVMTSQPIRTILHSPTQSGRLAKWAI
;CC   ELSEYDIEYRTRTSLKAQVLADFVIELPLADLDGTNSNKKWLLHVDGSSNRQGSGVGIQL
;CC   TSPTGEVIEQSFRLGFNASNNESEYEALIAGIKLAQGMGIRDIHAHSDSQLVTSQFHGEY
;CC   EAKDERMEAYLELVKTLTQQFESFELTRIPRGENTSADALAALASTSDPFVKRIIPVEGI
;CC   EHPSIDLTVKHAGMETSATCNFTRVTRSTTAAARALAAAAEAGAAEEEPELGTPEQPASY
;CC   EPEPYNDWRIPIIDYIERGITPPDKWETRKLKAQSARYCIMEGRLMKRSVAGPYMVCTYG
;CC   QQTKDLMKSMHEGQCGSHCSGRTLALRIKKQGYFWPTMLADCIAHSLRCDKCQRHAPTLH
;CC   QPPEEMSSISSPYPFMKWSMDVVGPMEASGGKKRLKNLLVLTDYSTKWIEAKAFQQVTEK
;CC   QVEDFLWENIVCRHGIPYEIVTDNGTNLTSGKIKAFCDKWKIRLTTSTPLLPTSNIKKRL
;CC   DSKKSMWSDVLHGVLWAYRTTPRKSTQETPFSLAYGLEAVIPVETIVPSVRRTASPANSD
;CC   LNTQMLQDNMDFIDERRDQAMIRVQNYQQAAARYYNSNIKIRRFEVGELVLRKVFSNTRE
;CC   LNAGKLGTNWEGPYRITEVVRDGVYKLVKVINGVPELRPWNAMHLKKYHE
;CC
;CC   The second strand encodes 824-aa protein, ATLANTYS1p2, similar
;CC   distantly to ORF3 in the the rice RIRE2 retrovirus. Its C-terminal
;CC   portion (position 600-800) is related to a coiled coil
;CC   domain present in the myosin heavy chain.
;CC   ATLANTYS1p2 is enoded by 8 exons (10596-10576, 10483-10337, 
;CC   10096-9842, 9676-9385, 9271-9035, 8928-8204, 8130-7981, 7906-7259;
;CC   predicted by GENSCAN).
;CC   ATLANTYS1p2:
;CC   MSGHIGQIPLTERFRGDTRDKSLLMWTAEMERLFSAPHLTVQIRRGEEISAISKIVMSDF
;CC   EDSQNKSNHSYGDDSSSSETRSAASPPRVQRRVITLGGMGPIRPPSTRADKPKKKKAAKQ
;CC   GGGTPMTNSDLVDLRRRCQVPMCPNFVRHVLALFTRAREVNREFSCHDLLQLCQVKTNAR
;CC   SDQGTYYISARPGSLVLGGLKACRDTNWRSKYFFFRVDRHSIGSFDPARITRTWSTNLAR
;CC   TKEVTLSETELELLTLLRRGQTDWATFSRDRIVAALAVAPAVPVAPAVPAIVLPAAQLDP
;CC   IEEVPRIEPIPEADLPIVPPDSSSTSELPLIRRMRRPSLRVQRANAGAPARAGDLSAAVT
;CC   AARNTLAVSSASASASHPSLPEINTGTSAAAGQSDNNQVAQVSGPSAVVRSDGAPSSPKR
;CC   ARTQPEVHPAAELVVSDQGVASPREERMEPAAAIPEAAASADRRSSGRSHGGGRGSRGGG
;CC   RSSNRSQEVRQTSNSGGGSAGSRPFHWSYTHDRDHPIVEDEAGLANLLRHIKGRNCQVPG
;CC   VKNMAEAAAYADMMAKEGQAIAATNKLVALYEQRLSQVPSASELEEGKTLIRELTSSVKA
;CC   GQDREVSFQAEIERLKMELSTSKDLEKGYAEKIGFMEMEIGGLQADKQTARNQIHRLEQR
;CC   REELSKKVMDLTSTAQGAKKAVHDAKVELAAAYSKLLAGIKEKWVAKKEYTVLEGQAAEV
;CC   ESNLALIDQITKAAIDLTVEKPRLQAELDDLEARCKSKEVSDFTLSKLDLPQVSEISVVR
;CC   PMDVDEQGTPIGLDEFGSNKDAFPGGLAEGSGTVFATPAGESRE
;CC
;CC   ATLANTYS1 forms a distinctive superfamily of GYPSY-like retroviruses
;CC   together with RIRE2 and RETROSOR1 found in the orysa sativa and 
;CC   the sorghum bicolor genomes. These retroviruses have ~10 kb internal
;CC   sequences and their second strands encode a structural-like
;CC   protein with a coiled coil domain.  
;XX
;DR   [1] (Consensus)
;XX
;SQ   Sequence 10633 BP; 3062 A; 2988 C; 2411 G; 2172 T; 0 other;
ATLANTYS1_I
tttggcgccgtctgtggggacggaaatagatcattccaacaccgaaactaacacatcaattgtgaccaac
gatcatggatcccaattcatccaattcatcgggatctggcttaccagttcagatcccaaacgatgacgtt
acggacgggcacctcccaacggatctccctctcggaaccaaggttgatgctgtccataacgctgatgcgg
aggacatctcccaaaactcgaattcttctggatctgaccaaatcactccccctccgcaaacaaggggcgg
agaacgaaacgtcacgatacagcctccaaacggagataacccggccaacccgtctaatcaggtccctccg
cgacctgccagcgaattggccgagctccgcgcaatgatcatgaacttgatcaacttaaccaaaaaccaag
aaattgcgcatcgcaacctcgccgcaattgtgggtcagcagagacgcgactccactcgcatggcacatga
ggtagagcgcgataccgcgggtaaggaagttcccccccgcgaaactgggattcctgcccaggtccccata
gatctgacaggtaccgtctccccggccgatcctactccgaggactcgtctggacttcgcctcgatagacg
tctcacctcctatcaaccggcaggtcacctttttacaggcacctgcgaacgctctcgtcgaaaacctggc
aacaggaaacgagacaagcacaacgcctgccttcccaaggctaccggtcccacctttactaccgctgggc
tattcgcctcctaggtacacgtggacgagaaaccaaacaaccgcgtccagttcccgcattcccgggaact
caacgcaacaacggacctctatcgctaatccgccatccattccccggataccaggaagcgacctccttaa
cagtccaaccgatccccaagcaccggtcgatccgcgtaacgtcgtagatatggaaacattccgcaattac
gcagctcaaacaaatgcgaacatggctcaaatgcattcgcgaatgcatctagcagtgagcgatgctcccg
acatagatcgcgtgatcgaagaaaccaggcgcaccccgttcacggataggatcgctcgttttcgcctccg
agacgtcgggagactccgtttcccggagtacgacggaacgagcgacccaaaggctcatctgagatccttc
cgtttcgctataacacgagcgtacctgacagacgaagaaaacgaagcaggtcattgccgtttcttcgcag
aaaacctcgtaggtcacgccctcgaatggtttgctagcctcgaagggaactccattgataccttcgacca
gctcgccgccgctttcttaaaacagtattcggtacttatcgaacacaggacgtctgaagccgacctctgg
agtctcactcaacttcagaacgaatccctgcgatcttacgtcgaaaaattcaaagcaatcaaatcgaaaa
ttgcaaacctaaacgaggaggtagccatagcagcccttcgtaacggtctgtggttctcctctaggttccg
tgaggaactcactgttaggcaaccagtctctttagacgatgcccttcacaaagctctccacttcgccaaa
gccgaagaggagctcgctgtgctggccttacgattcaaagaatctaaaacgcaaaacgctccccttgcaa
ttaaaaaacccttcaaaaaggaaaaccaaacgcaagggcagcataccttattcgcaatagaagaggcagc
tgaggacgagagtccagaacttgacctcggaaaatattgcaagtaccacaagaaaagaggacattccacc
gaggagtgtcgcgccgttaaaaaattaatcgcagctgggggcaaaactaaaaaaggttcaaaccccaaag
ttgaaacccctcctcccgacgaacaggaggaggagcaaactcccaaacaaaagaaacgggaacgaacacc
ggagggaggtgactctcccccacccgctaggagagaacgcatagacctagtctttgcagaactcgatcta
ggtggcaggacaggaaggtcagtcaccacacctccccccgccccgcataagaaaaacatgaggtttccat
tacgcctctcgaaattctgcagaagcgcaaccgagcacctctccccgaaacgcatcgatttcatcatggg
agggtctcagctctgcaacgactcaatcaattcgatcaaaactcatcagaggaaggcagattcctacaca
aaaggcaagagcccgatgatgggacctgaccaccagatcacattctgggaaagcgaaaccaccgacctcg
ataaacctcacgatgacgctctcgttattcgaatcgatgtaggcaactacgaactctcccgtataatgat
cgacacgggaagctcagttgacgtactcttttacgacgccttcaaaaaaatggggcacctcgattccgag
ctgcaaggcagaaaaacgccacttaccgggttcgctggagatacgaccttttctctaggaaccatccagc
tcccaaccatcgcacgaggagtgaggcgactcacgagtttcctcgtagtcgacaagaaagctcctttcaa
cgcaatactgggaagaccatggctacacgccatgaaagccgtcccatcaacctaccaccaatgcattaaa
ttcccctcggacaagggaatagcagtcgtatacggcagccaacgcagctcccgaaaatgctatatgggca
gctacgagcttatcaaaaaagctgaccccgtagtactaatgatagaagacaaactcgcggaaatgaaaac
agtcagatcctctgatccttctcaacgcggacctcgaaaatcattgataacacaggtctgcatagacgaa
tcagatcccaaacgatgcgttgggataggtcaagacctcgacccagcgatacgagaggatctcataacct
ttctcaaagaaaacaaagacagctttgcctggtcaagtgcgaacctccgaggaataagcctcgaggtaac
ctcacacgaactcaacgtcgatccgacctaccgacctataaagcagaaacgtcgcaagctaggtcccgaa
agggctaaagctgtgcacgatgaggtcgatcgattgctcaagatcggatcgataagagaagtaaaatacc
ctgactggctcgccaacccggtcgtcgttaaaaagaaaaacgggaagtggagagtatgcatcgactttac
ggacctgaataaggcatgtcctaaagacagtttcccactcccacatattgaccgactggtcgaagccact
gcgggacacgaactattgtccttcatggatgcattctccgggtacaaccaaatacttatgcgcccagatg
accaagaaaaaacagcttttattactgaccgaggcacctactgttataaagtaatgccctttggtttaaa
aaacgctggagctacttaccaaagattggtgaacagaatgttcgccgaccagctaggtaaaacgatggag
gtctatatcgacgacatgctggtcaagtcagctcgcgaaaaagaccacgtcccgcaattaagagaatgct
tcaaaatcctaaacaaattcgagatgaagctaaaccccgagaaatgctctttcggagttccctcaggaga
attcctcggatacctagtaaccgaaagaggcatcgaggccaatcctaagcagattgcagccttcatcgac
atgccatcgccaaaaacggcacgggaggtccaacgactaaccggccgtatcgccgccctcaacaggttca
tatccaggtctaccgataaatgcgtccctttctatcagctcctccgaaaggataaaaagttcgattggaa
tgaggactgcgagcaagccttcaaacaattgaaagcatacctgtccgaaccacccatactcgcaaaaccc
gaagaaggagaaccgttgtacctgtacacggcagtctcccgaaccgcgataagcggcgtcctggtgagag
aagatcacgaaggacagaaaccgatctattacgttagtaaaacgttgatagacgctgaaacccgttatcc
agcaatggaaaaactggcactggccgtagtcatgtcagctcgaaaactgagaccatattttcaatcacat
cccatcgtagtgatgacgtctcaaccaatcagaaccattctgcacagtccaactcaatcaggtcgacttg
caaaatgggccatagaactaagtgagtacgatatagaatatcgcaccagaaccagcttgaaagcacaggt
cctagccgactttgtaatcgagctcccgttagcggacctggatggaaccaactccaataagaaatggctc
ctccacgtcgatggctcctccaaccgacagggatccggagtaggaatacaactcacctcccccaccgggg
aagtcatcgaacaatcgttccgactcggattcaacgcatcaaacaacgagtctgagtacgaagccctcat
tgctggcattaagctagctcaaggaatggggatccgcgatatacacgcccatagcgactcccaactcgtc
accagccagttccacggggaatatgaagctaaagacgagcgcatggaagcgtacctcgaactagtcaaaa
ccttgacccaacagttcgaatcgttcgaactgaccaggatccccagaggagaaaacacctctgcagacgc
cttggcagctctcgcctccacgtcagatcctttcgtcaaaagaattatcccggtcgaaggaatagaacac
ccgagcatcgacctaacggtcaaacacgctgggatggaaacctcggcaacttgcaactttacgcgagtaa
cccgaagcaccaccgccgcggctagagccctcgcagcagccgcggaggcaggtgcagcggaggaagagcc
ggagctcggaacccccgaacaacctgcctcgtacgaacctgaaccgtacaacgactggagaatcccaatc
atcgattacatcgaacgagggatcacacctcccgacaagtgggagaccagaaaactcaaagcccagagcg
caaggtactgcatcatggaagggagacttatgaaacgcagcgtcgcaggtccctatatggtgtgtaccta
cgggcaacaaacaaaagacctcatgaaaagcatgcacgaggggcaatgtggtagccactgtagtggacgt
accctcgccctcagaatcaaaaagcaaggctacttctggccaacaatgctagccgattgcatagctcatt
cactcaggtgcgataaatgccaacgacatgcacctactcttcatcaacctcccgaggaaatgtcctcgat
atcttctccttacccatttatgaagtggtccatggatgtcgtaggtcccatggaagcctccggtgggaag
aagagactaaaaaacctgctggtcctcaccgactactctaccaaatggattgaggctaaagccttccaac
aggtaaccgagaaacaagtcgaggacttcctatgggaaaatatcgtatgccgacatggcataccttatga
gatcgtcaccgataacgggactaacctcacctcgggaaaaatcaaagcattttgcgacaagtggaagatc
cgtcttaccacatccacccccctgttacccacaaggtaacggacaggcagaagccgccaacaaagctata
cttagcaacatcaagaaaagacttgattccaaaaaatcaatgtggtccgacgtgctccacggagttctct
gggcctaccgaactacacctcgcaaatcaacgcaagaaacaccgttctctctcgcctatggtttagaagc
agtaatccctgtcgaaaccatagtaccaagcgtgagaaggaccgccagtcctgctaactcggacctgaac
acgcaaatgttacaggacaacatggacttcatcgatgaacgcagagatcaggcaatgatccgagttcaaa
actatcaacaagctgccgcccgctactataactccaatatcaaaattcggagattcgaagtgggagagct
cgttttacgaaaagtgttcagcaacacgagagagctaaacgctggaaaactgggaactaactgggaaggt
ccctatcgaatcaccgaggtggtacgtgacggcgtctataagctcgtaaaagttatcaacggagtacctg
agttacggccttggaatgccatgcatctcaagaaataccacgaataggtactcaaaaacaatcgaactac
gataaggcttgatcccttggcagggtacgtaggcagctccccccaagagcgcagccaccacttcaatcaa
atcacaaaagggcttaatcccctaaccaggtatgcaggcagttccctccgcaaacgcaattaccatctca
acccttccatttgaaagacgaaacttcaacaagggaaacagacatcacatcttccatcaacgaagatcag
ctgctcacctgacagttcaatcacccttcggtatcgagcaggtccctgctcgatgatcaaacgccagatc
gtcgcttgctttacctctttttgtacttaacaatttcgagataagaataaaagaaaattttgatactcat
tatcatgtttcgcaaaaacaatcatttacactatgatttaaaactcattcgtaatcttacgatacccaaa
gcccaacacccgaatgttggcggatccattttgtgatctcgcttccaaaaagtcgatagtgaactaaact
tataagaacacatcacttcggcttcatcggagctcacctactacaaccatatctaactctttcgctatca
acacataacatagtaaacaaggaagaaacgaaggtttcattcgcgacctggcgataccacaagcccagct
cccaaaatctggcaggtcccttgtgtgacctcacttcaacaggttcccgagacaaaacaactcaaactca
ctcaaagttttaaccttcgaagaacataccatatcacatccgaaataacttggactcgaaacaagtccaa
ttattatccggaacgtggacaaagcgaggtgatcatacaccaaaatcaacgaagtgtcaacactcgaacg
aaagacaaaaaatacttgctaaaaaggataaaagccttcccaggcatccaagtacttaaacgaacaaagg
ataaaagccttcccaggcaccaagttcaaaaagcaataaacgaaaggataaaagccttcccaggcattaa
gtctgaaacaaaacacaaaatcctaaaacaaacaaggagcgaaagtgatcactccctcgattctccggct
ggcgtagcgaagacagtaccagaaccctccgcgagacctcccggaaacgcgtctttgttgctcccgaact
catccaagccaattggcgtcccttgctcgtcgacgtccatcggacgtaccaccgaaatctctgaaacctg
cgggagatccaacttgcttagagtaaagtctgatacctccttcgatttgcaccgcgcctctaggtcatcc
agctctgcttgcagccgaggtttctccacggtcagatcgatagcagcctttgtgatctggtcgatcaaag
ccaggttcgactccacctcggccgcttgcccctccagcaccgtgtactcctttttggcgacccacttctc
cttgatcccagctagcagcttcgaatacgcagcagccagctcaaccttagcatcgtgaaccgccttcttc
gccccttgtgcagtcgaagtcaggtccatcacctttttggagagctcttccctcctctgctccaagcgat
gaatctggttcctcgccgtctgcttgtcggcttgcaaccccccgatctccatctccatgaacccgatctt
ctcagcataacctttctcgaggtcttttgaagtggacagctccattttcagcctctcgatctccgcctga
aatcacaatcaggtcagaatcatcgaatcatcgacgaattatatacaaacaagtcaaaaccgaggtgtac
ctggaacgagacttcgcgatcctgaccagccttcacactcgacgtcagctcccggatgagggtctttcct
tcttcgagctcactcgccgaggggacctggctcagacgctgctcatagagagcgaccagcttgtttgtgg
cagctatcgcctaccgaaagcaaaacagaaagtcacaactagcataaagatggaattagaaggagacagt
tatcgattattacctggccctccttcgccatcatgtcagcataggccgccgcctcggccatgttcttcac
tccaggaacctggcagttcctccctttgatgtggcgaagcaggttcgccaacccagcctcgtcctcaacg
atcgggtgatcacggtcgtgagtgtaagaccagtggaaaggcctgcttcccgcggatcctccgccggagt
tggacgtctgcctcacttcctgagaccggtttgaagacctgcccccacctctggagcctcgtcctccgcc
atgggacctgcccgaggatcgcctatccgcggacgcagctgcctccggaatagcagccgcaggttccatc
ctctcctctctgggagaggcgaccccctggtcgctcacgaccaactcagccgccggatgcacctccggct
gggtccgagctctcttcggagaggacggtgcaccatcagaacgaacaactgcagatggcccagacacctg
agcgacctgattgttatctgactgacctgctgcagcagaggtcccggtattgatctcaggaagcgaggga
tgagatgctgaggcagatgcgctggagacagctagagtgtttcgagccgcggtcaccgcggccgacagat
caccagcacgagcaggagccccggcgttggctcgttgaacacgaagacttggacgcctcattcttctaat
gagcgggagttctgaagtggagctggagtcaggaggaactgaacagacaaagcacgacatgtgttagtta
gcagctcgagttgcgcagctgtctcgataactcgtacattttttaaaccaaagaaaatataacggaactc
gtacctataggcagatcagcctcggggatcggttcaatccgcgggacctcttcgatcggatctagctgtg
ctgctggaaggacgattgcgggaactgctggagctacgggaactgctggagctacggcaagagcagctac
gatgcgatctctgctaaaagtggcccagtcagtctgaccacgtcggagaagggttaacagctcgagttcc
gtctccgagagagtaacttccttggtccttgctgcaaaccatcaaaaacaaacaattagtttcagtacta
acgttcagcaaaagcagtcaaggattcgacacaaacaacaaagaaaaatcaagaggctcaggtctccatc
tgacccaggttggtagaccaggtccttgttatcctcgcgggatcaaaactgccgattgaatgacgatcta
ctctgaaaaagaagtacttggatcgccaattggtgtctcgacaagccttcaaaccgccgaggaccagaga
tccgggacgagcactgatgtagtacgtcccctggtcgctcctagcattggtcttgacctggcagagctga
agcaggtcatggcagctgaattctctgtttacttcccgagcccgggtgaataacgccagcacatggcgga
cgaagttcgggcacatctggggaaaggcgaggccgagacagtagagcatctcgaggatacacgccggaat
cgggaaaaataggccacatttctcgaagaaattggcataagcgcagcaccacccgaccggcacgttctca
ggatgcagcggcggccttgggagtatcatagttacccccaccggaacctggcatctcctccggaggtcga
ccaggtcgctgttcgtcatcggcgtgcctcctccttgcttggcagcctttttcttcttcggcttgtcggc
tctggttgacggcggacgaattggacccattccgcctagggttatgacgcgtctttgtactcgcggcggt
gacgccgccgacctcgtctcggacgaacttgaatcgtcgccgtaactgtggttgcttttattctgggaat
cttcgaagtcgctcatctttgggtttcgacagagaaggacgagagagatgaaagaaaagagcaaagaagg
cagatcgagaaagagggaatagcagagaaacgaaggagatagcaaaaaaaataaagacgagatttttcta
cctctacaaaacaaagcgcagtaaataataaaggaggagagaagttaccttgagagttgtgtgagttgac
gtgacgtcaagtggagaggtgggaagttatttaaagccatcatcaccacgattttcgagattgcagagat
ctcttctccgcgcctgatctggaccgtcagatgcggtgcgctgaagagacgctccatctcagccgtccac
atcagcagcgacttatctcgcgtatctcctcgaaatctttcggttaagggaatctgaaattaaatcgaaa
ttgttgagtttatcctcaaaaccgactgatcttatcacatttatcttctcatcaagaatattttcgcaat
cttacctgacctatatgtccgctcatcgagttcgcctactcactcaatgggctggggggcaaa1