;ID   ATGP2NLTR   DNA   ; ATH   ; 2033 BP
;XX
;DE   Long terminal repeat from the nonautonomous ATGP2N Gypsy-like 
;DE   LTR retrotransposon - a consensus sequence.
;XX
;AC   .
;XX
;DT   06-MAR-2000 (Rel. 4.1, Created)
;DT   27-DEC-2001 (Rel. 6.3, Last updated, Version 2)
;XX
;KW   LTR-retrotransposon; Gypsy superfamily; ATGP2N family; ATGP2NI1; 
;KW   ATGP2N_I; ATGP2NLTR1; ATGP2NLTR.
;XX
;OS   consensus
;XX
;OC   Arabidopsis thaliana
;OC   Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;
;OC   euphyllophytes; Spermatophyta; Magnoliophyta; eudicotyledons;
;OC   Rosidae; Capparales; Brassicaceae; Arabidopsis.
;XX
;RN   [1] (bases 1 to 2033)
;RA   Kapitonov,V.V. and Jurka,J.
;RL   Direct submission (March 2000)
;XX
;CC   There are more than 30 copies of ATGP2NLTR in the genome;
;CC   they are ~97% identical to the consensus sequence.
;CC   Solo LTRs are flanked by 5 bp target site duplications.
;CC   ATGP2NLTR shares homologous fragments with ATGP2LTR.
;XX
;DR   [1] (Consensus)
;XX
;SQ   Sequence 2033 BP; 585 A; 430 C; 608 G; 408 T; 2 other;
ATGP2NLTR
tgtaacgaccgcgtcccgcgttcataaagaggccaggttgttttaggagaaaactagaccatggtcaaga
aacggactaaaatacttagtcggaagaacgagaaagttcaagctgaaccagctaggtgagctggacaagc
taggatgaactagctagctaagctaggtgagctaaaccagctggaagactagctagctcagctaggtgag
ctgaccgacagctcgactgagctcggtgagctgatcgwgtactgacccagctgggtggtccggtcagctg
acactcgagctggtggactgtggtagctcacgggtgaagaggtgtctcggccaaaaggtgtaaggtcgag
cgggtaccaacgaacggttgcatcgcccaaaggatgcaaggaacggatgtgacctttcggaaggatgcaa
ggaacggatgtgacctttcggaagggtgcaaggaacggatgtgatgcttcgggaagcatccattcgcccc
ctatataagggaggacgcccaaggcctttggaataatctcacatcatctcacaacatccaaaacaccata
aaacattcttaaaggagtcccaacacatcctagagttgttggtcggaaagggggtgcggctcggcgagta
taactcgaccgaactgatgcgcatgctacctcccggtccaacggttcgatggagtgtagaggatggagag
ggtagaccgttcgtcttagagacgaatcggatctggtagaccgatcgttggatcggatcggccagaccga
tcgtcagacggatcggatcggccagacggatcggacagaccgatcgtcggacgggtcggatgggacaggc
cgatcgtctgacggaacgggtcggacagaccgatcgtcggatgggatggatcgagaaaagtgttcgagga
agcacaaggataagtgcatccgaacacacccaagggtcgcccatggatgcaatcttaccggtaaagggag
aaagcaccaagaatgggtaaggaacgtgattcaccatataggatcaacatcgcggccgccttcatgtatc
tatctcctcagccatggtgaaaccgatcagagatcggtaagaccaaagggtgactcgacggataaccaac
gggaaagtccacggtgggaaccgatggacaaaacggatgttggacccgcgagcaaacctaaggccgacgg
aagaargatttcatgggctagcctacgatgatccagtggatgaatccacggacccttgggtgtgataagg
atatcgttcggaccgcatggatggatcattaagccgaaagctttatcgaccaccatggaccggacgggta
aacggttagtaaaccgtgggcggtcgtagtgttaaacgaccggatcggaaacatggatggttcgataagc
cgagggctcaatcgtccaccatgtagccggaggggcgtacgtttggagaacggatggaccaataagccaa
gagcttgattcggccatcgtgaaccaagggaatcgtacgatccccaatctctatcgttgtacttagacca
gtggggttggttggttgtatggctaagtaacgatagggattggttcatcaattcacgaccgatgacgagt
cgttgaacgaatggagtaaggcgacaaacgggctaaggaatcaaatccgcatattggccaaggtatgtaa
cgatctagcttattagttaagatagacgtttggtaattgaccgtgaaagtaggataaaggaatatgcgat
tgtttggcttagaatggttagcgaacaatatgcatgtcttgaccgagtaaaggatcgatctaagtctaag
ggacaaagacgatgaaaccggtacaagagttggttagaattaaaccaaggttagaaagacttccgctgtg
taataagagagcgattatagaatttagcctcgtaaaggcaattctatgttgaatcgcgaaaaattaagag
gttcggccgggaagaggcgcgaacttgagtacaacgtcgccggacgccgagacgtccgggacggggtctc
aca1