;ID   ATDNAI26T9  DNA   ; ATH   ; 2432 BP
;XX
;DE   Non-autonomous DNA transposon ATDNAI26T9 - a consensus sequence.
;XX
;AC   .
;XX
;DT   26-FEB-2001 (Rel. 6.1, Created)
;DT   26-FEB-2001 (Rel. 6.1, Last updated, Version 1)
;XX
;KW   non-autonomous DNA transposon; MuDR; ARNOLD; VANDAL; ATDNAI26T9.
;XX
;OS   consensus
;XX
;OC   Arabidopsis thaliana
;OC   Eukaryota; Viridiplantae; Charophyta/Embryophyta group;
;OC   Embryophyta; Tracheophyta; euphyllophytes; Spermatophyta;
;OC   Magnoliophyta; eudicotyledons; Rosidae; Capparales; Brassicaceae;
;OC   Arabidopsis.
;XX
;RN   [1]  (bases 1 to 2432)
;RA   Kapitonov,V.V. and Jurka,J.
;RL   Direct submission (February 2001)
;XX
;CC   ATDNAI26T9 is a  nonautonomous DNA transposon. There are five
;CC   copies of this element in the genome, they are ~99% identical to
;CC   the consensus sequence. ATDNAI26T9 is flanked by imperfect
;CC   26-bp terminal inverted repeats, and it has generated 9 bp
;CC   target site duplications upon its integration in the genome.
;CC   An autonomous transposon involved in a proliferation of ATNDAI26T9A
;CC   is related to the superfamily of megatransposons ARNOLD and VANDAL 
;CC   elements, which encode MuDR-like transposase.
;XX
;DR   [1] (Consensus)
;XX
;SQ   Sequence 2432 BP; 755 A; 457 C; 359 G; 861 T; 0 other;
ATDNAI26T9
gagaatattacgtgattagacacttttttgaaagtttatccgtaattaggcacttaaaaatcattaggca
ctttgaataattaaaattacttgttcaccctcatatcgtcggttttctataaccaaacaaatcaaatcca
ttttcactaaaccaattcagatttacggagcccacgattttgtagttgcctttgtgatttaaattttttt
tccagaatcgtaaaaatccaaatccaataaaaaatcctaaattacaatttctcgaaaaggggactccggc
gacgggatatccatctcctccgtcactgtccaccaccactgcttttcacactacactctcgtttgctctt
tcaaccgtaaaacaccaaacccaattctcttgtcatttcctctaaatctctgcaatttcttaaatcgatt
tggatttactttgcctgaaaaacccttaactcgtactgtccaaactcaatttcaatttcaattgaggtta
cttcgagaaaagttcaagaatttcggaacaactaaggtaaagttttgtcatgttgacttcggagatcttg
ttcgtaattctgtgataatgtttgataacttctctgcccagtttgtttgaaattcagtacttgaggttct
ctattggacagaagatgaacatatggactacaacacttggacaatccgtaatggacaaccacacattttg
tttgcagcgtatgtgtcgttacaaaattgaaaatcattgtccacgaccatacatgactgcacagcttggt
gtttgataattcaaggaaaaagccacataaaggttctatttcttaatcttacattttggaagaaatcaaa
tcattgatttaagaaataatatgtaagcttggatgctagagctttaggtgatcctatggccagattagga
tattgatttaactttgttcttactgctactcaacattgattgtctggtattaagttgtaaaagagtaatt
tgacttatccatttgtgttgatataattggtcattataatgtgattagtcaatagaaaaccttagagtac
ataatatcaaacttttaactttgttaatttctttaggcgagtgggtgaatacatcagttagacttgcttt
tgcacatcatgtgatcatcgttattgatgtcatccaaagaaatctgtccattcatacgcaaacatgaagg
tactgttgtttggacactccttactttaaaaccccaccttagtttgcaagtcattacttgactaatttac
tttaaaaacaaaatttaggttaggaacattgtgtcagatcctattttcgatacaagtgggaacatccaag
tcaacaaacctacaatggggtaccaaattttattaatcgtctactccttgttacgttggacatgattttt
tggatactttcttacattttttccttattgaaggtcgtgtttcttatggtttttctgaccatcttcattt
ctacttcaactcaatcagaacattttggagaggcttcctgcatcccaatcattgaaagatccccaaactg
aaaaaaaattctaatgagcaaatgaaggtctacatgtacactaaattatctttatgatttacagtccttg
taatattggacagtattttttggatagatatttaaataatcttcttattggaggcatcgctttttgttgg
tgatctagtatttgatatcagttccaaacttgaccaacatactcaatcatctcccacacataatcccaaa
gttgggttatctccaatggaagtatttcttatcatctacaactgtctatcgatgcactctatctatcatt
tgtaaatatgtcttagtaaagtataataatttcacaacatcattattatatctttcagtataaaatctct
ctctatcaagatatggatctacacgatgttgtggataatcaggtaggcataaaattaaataactagaaca
tgtatatttattattactgaaaagcagtcaatttttactacaacattcttagttctattattaattgttt
acagaaaacataagattgctatcaaagtcttgttagttatgttgtgaaaccaatctctgaagacctaaca
taacgcaagttagttatgtttgcagacaaatccatcttctcgtccgtttaattgttatatgatcggacgg
tcattatttctcattaacttctatttaaactgcaaatcttaccacgttcatttgatccgaattaacccat
tattctacacgtgtttggtacacacaattacaaaccaaaaccaatgaccggttattcttcttttcgtgat
tcagtttatttggggtataatggtctattttcactccaaaaacaaagaaaagtgtctcaaccttggaaag
tgcctgttttgtctaaactttttcccaaagtgccttattacggaacattccc1