Repeat motif: (ATT)11 highlighted on FASTA sequence in red (if found).
Related Sequences (4)
>RM144_forward Oryza sativa Japonica Group Primer [22 bp]. Associated to 'RM144' via primer_forward
tgccctggcgcaaatttgatcc
>RM144_reverse Oryza sativa Japonica Group Primer [28 bp]. Associated to 'RM144' via primer_reverse
gctagaggagatcagatggtagtgcatg
>X67711 Oryza sativa Indica Group Genomic DNA [4791 bp]. Associated to 'RM144' via contained_in_sequence
GTGCCTCCTCCTCCCTCCCAACTGCTTGACGACGCGAGCGCGCAGGAGCTCCTCCTGCTGCGGCCACGGCGTGGTGCTCG
TCTCCGCCGCGGCACTCTCGCCGAAAAAGAACGAAGAGAAGAGAGAGAGAGGAGGAACCGAGGAAGAGGAGGAGAGGGAG
GGGAGAGATGACATGGCATCCTGATATGTGGGACCCATGGGTCCCACACTGACTCAGCTGCCACATAGGATAAAACCAGA
ATCAAAACCATTGGAGAATCTACTGTGACCGGTTTTGATTAGTTAAGGGACGTCGATATCTGGTTTTTCAGTTGAGGTAC
GATTTTGTAACTTGATGACAAGTTGAGGGACCTTTGGTGTACTTTTTCCTAGCCAAAAGGCCTCGGCCATGTAGTAAGGT
GACGGCCCACTTGTGCCGTCCTCGAAGACGGCCGACAGACCAACATTCATTTACAGCCCAAAAATTACGAAAACCTAGCT
GCATCGCATCTTCTTCTCCTTTCCCCGAGGGGGAGCACCGTCCGATGACATCCAACGGCTACGGTCAGCACCCTCGGAAC
CTTCGAGAACACCCTCCCCGCTATAAATTCCCGCCTTTCCGGTAGCATCTATTCTTCCTCTCCCACTCTTCCTCCTCTCC
AAACCCTAGCCGCCGCCGCCGGCGTACTCGAGAGAAACATCAGCATCCATGGCGGGCAAGGGCGAGGGTCCGGCCATCGG
CATCGACCTTGGCACGACCTACTCGTGCGTGGGCGTTTGGCAGCACGACCGCGTGGAGATCATCGCCAACGACCAGGGCA
ACCGCACCACCCCCTCCTACGTCGGCTTCACCGACTCCGAGAGGCTCATCGGAGATGCTGCCAAGAACCAGGTCGCCATG
AACCCCATCAACACCGTCTTCGGTAACTACTTATTCCCTTCTCCTCAGTCCTCTCTCTTTCTCTCTCTCCCCCCTTAGAT
CTCATCTCTAAGGTCTTCGTCGTCGTCGTATGCTAGATCTACTCTTGCCCAGCTCGTTCAGATCTGTTAGATTTGTGTGG
GATCGCTCTAATTAATTACTACCAACTTAGTAGATCTGGACTCTTTTGACTTGCAGATCTTGCTCCACTACTGTTGCATT
TTGAATCTGTGTTGATGTGATTTAAGTTGTTGGCAGTGCTTTTTGCATACTATTTGAATTTGTGGATGGTTAGCAGTCAG
TACACTAGGATTTATTACTGGATCTGGACAGATATGCTCGTTTCAATCGGCTCGATTTGCTATGTTGATAGCTGACATGT
TGTGCTTGTCCTATTGCCCTGGCGCAAATTTGATCCATGCATTCTTTTCGTTAAATGATTTGTCAAGTAGTAATGCTTGT
TTGAAAATGATATTATTATTATTATTATTATTATTATTATTATTATAAATAAATATAGCCTGAAACATTCTTAGTTTCGA
GGAGAAGTGATGATGTCTTATCCATACCACATGTCTGCATCTCATATGATGATTAATCTACATCATGCACTACCATCTGA
TCTCCTCTAGCTCATACAGCTTTTAACAAGTTAGGCGATAGATGTTTGCTACAAACAGTCAACTGGATTTGCTTTCTTGA
AAGAAAAAAATGAACCGTGTAGTTTGCAACCTGTGATGTAAATTAACCCATTTACTGAACTACGTTGATTATTTCAGTAA
AATCACCATCTTTCGGCTGAGGTTGCATGCTTAGTTATTATATTTTTACCAATGATGATTTTGTTATATAGCCAGATATA
CTGTACTTTCTTATGCCATTTGGTATCTGACTCATTGTCTACTTTTGTGACTATGTGTCTTGAAATATGGCATATAATAA
GGGGGAACGGATCTTGCGACATTGATGGCTCCTGTATGAGCCTCCAATTACTATATAGCCGTTTACATGTTCTTATCATG
TTACTTTTCCAAATTAGTGCTGCACATCTTGTCTGTTTGCAAGTTTGGGTTCATTCATATTGCTGTGGGCATTTTAATAC
ATCTTCACTAGCATACTGTAATGTAAATTTCTTGTACATTGCTAAAATTTTCTGCCTTGATTGAGTAGACTCTTTGATGA
CATCTATCTTACCTTATGCACTTGATTCGTATTTCTGTTACAACATTTTGATTATTTGATGTAGTTCACACAAGCATGAC
ACATCTCTTTGAAAAAAAGATTTCATTTTTTAAAGCAAGCCTAATGCTTTAGGGTGGGAGAAGTGATGATACTTAATCCA
TACCACATTTCTGCATCTCAGATGATGATCAATCTACATCATGCACTACCATCTGATCTCCCATCATACAATTTTTTATT
TTGTTTTGTTGGATTATATAACTTTAACATTTGATAAAGTGCCAACAGATTTTTATACACAATTTGTTATAGATATTACC
ATGACAGCTTGCAGCCTGTGATGGCAAAAGTACCCATTAAACTGAATTACACTGATTATTCCAAACAAATCACCATCTTT
CGGGCGAGGTTGGCTTGCTTGTTTAAAATTATGAATGCTTCTTGCACAACCATTTAGGACTTCGGTAGTTTGTAATGGCC
ATTTGGTATCTGACACATGGTCTGCTCTTGTGACTATTAGTCTCGAAATATGGCATAAAACAAGGGGGAACGGATCTTGC
GACATTGGTGGTTCCTCTATGATCCTCCAATTACTATATAGCCGTTTACAATTTGTTAAGTTAGGAGCATACCTTTTGCT
TTGTCATCAAAGTCTTGGTTCCTTTGTATTTCTAGTTAAGATTCATTTTTCTTCAGGTTTGGAAACATAAACTCTGTATA
ATTTTACTGTAGTTGCTGACATTGAGTCTTCTCTGCAGATGCCAAGCGTCTCATTGGCAGGAGGTTTAGCGATGCTTCTG
TTCAGAGTGACATTAAGCTCTGGCCCTTCAAGGTGATTGCTGGACCTGGTGACAAGCCTATGATTGTTGTCCAGTACAAG
GGTGAGGAGAAGCAGTTTGCTGCCGAAGAGATCTCCTCCATGGTCCTCATCAAGATGCGTGAGATTGCTGAGGCCTACCT
TGGCACCACCATCAAGAATGCCGTTGTCACTGTTCCTGCCTACTTCAATGACTCCCAGAGGCAGGCCACCAAGGATGCTG
GAGTGATTGCTGGTCTCAATGTCATGCGCATCATCAACGAGCCAACTGCTGCCGCTATTGCCTATGGTCTTGACAAGAAG
GCCACCAGCGTTGGTGAGAAGAATGTCCTCATCTTTGACCTTGGAGGTGGTACCTTTGATGTTTCCCTCCTTACCATTGA
GGAGGGTATCTTTGAGGTCAAGGCCACAGCTGGTGACACCCATCTTGGTGGTGAAGATTTTGACAACCGCATGGTCAACC
ACTTTGTGCAAGAATTCAAGAGGAAGAACAAGAAGGATATCACTGGCAACCCCAGGGCTCTCAGGAGGTTGAGGACAGCT
TGTGAGAGGGCGAAGAGGACCCTGTCCTCCACTGCCCAGACCACCATTGAGATCGATTCCTTGTATGAGGGCATCGATTT
CTACTCAACCATCACCCGTGCCAGGTTTGAGGAGCTCAACATGGATCTCTTCAGGAAGTGTATGGAGCCTGTGGAGAAGT
GCCTCAGGGATGCTAAGATGGACAAGAGCTCTGTTCATGATGTTGTTCTTGTTGGTGGCTCCACTAGGATCCCGAGGGTG
CAGCAGCTCCTGCAGGATTTCTTCAACGGCAAGGAGCTTTGCAAGAACATCAACCCAGATGAGGCTGTTGCTTATGGTGC
TGCTGTCCAGGCTGCCATCTTGAGTGGTGAGGGCAACGAGAAGGTCCAGGACCTCCTCCTGTTGGATGTTACCCCTCTTT
CTCTCGGTTTGGAGACTGCTGGTGGTGTCATGACCGTCTTGATCCCAAGGAACACCACCATTCCCACCAAGAAGGAGCAG
GTCTTCTCCACCTACTCTGACAACCAGCCTGGTGTGCTCATCCAGGTTTATGAGGGTGAGAGGACCAGGACACGTGACAA
CAACCTGCTGGGCAAGTTTGAGCTCTCTGGAATCCCTCCTGCTCCCAGGGGTGTTCCACAGATCACTGTTTGCTTCGACA
TTGATGCCAATGGTATCCTGAACGTGTCTGCTGAGGACAAGACCACCGGGCAGAAGAACAAGATCACCATCACCAACGAC
AAGGGCAGGCTCAGCAAGGAGGAGATTGAGAAGATGGTCCAGGGGGCCGAGAAGTACAAGTCAGAGGATGAGGAGCACAA
GAAGAAGGTGGAGTCCAAGAACGCGCTGGAGAACTACGCCTACAACATGCGCAACACCATCAAGGATGAGAAGATCGCCT
CGAAGCTCCCGGCAGCGGACAAGAAGAAGATCGAGGATGCCATCGACCAGGCCATCCAGTGGCTGGACGGCAACCAGCTC
GCTGAGGCTGATGAGTTCGATGACAAGATGAAGGAGCTGGAGGGCATCTGCAACCCCATCATCGCCAAGATGTACCAGGG
CGCTGGCGCGGACATGGCCGGCGGCATGGACGAGGACGATGCTCCCCCGGCTGGCGGCAGCGGTGCTGGCCCCAAGATCG
AGGAGGTCGACTAAGCGCCAAATTTGGTTAAAAACTTGGGCATGAGTTCGAAACCTACAGATTTGGGGCTGAACTTTGGT
TAGGTGATCCGCGCTTCAAGTTATCTTATTGCATTATCAGTGTCTCTTTATTAGTTGTGTTAAAAACTTGGGGATTATGT
GGTGCTATGGTACCTTTTGGTCTGTTTGGGCAGTCTATTTGAAGAACTTCGTTGGGAGCTCTATTGATCTC
>X67711 Oryza sativa Indica Group Genomic DNA [4791 bp]. Associated to 'RM144' via source_sequence
GTGCCTCCTCCTCCCTCCCAACTGCTTGACGACGCGAGCGCGCAGGAGCTCCTCCTGCTGCGGCCACGGCGTGGTGCTCG
TCTCCGCCGCGGCACTCTCGCCGAAAAAGAACGAAGAGAAGAGAGAGAGAGGAGGAACCGAGGAAGAGGAGGAGAGGGAG
GGGAGAGATGACATGGCATCCTGATATGTGGGACCCATGGGTCCCACACTGACTCAGCTGCCACATAGGATAAAACCAGA
ATCAAAACCATTGGAGAATCTACTGTGACCGGTTTTGATTAGTTAAGGGACGTCGATATCTGGTTTTTCAGTTGAGGTAC
GATTTTGTAACTTGATGACAAGTTGAGGGACCTTTGGTGTACTTTTTCCTAGCCAAAAGGCCTCGGCCATGTAGTAAGGT
GACGGCCCACTTGTGCCGTCCTCGAAGACGGCCGACAGACCAACATTCATTTACAGCCCAAAAATTACGAAAACCTAGCT
GCATCGCATCTTCTTCTCCTTTCCCCGAGGGGGAGCACCGTCCGATGACATCCAACGGCTACGGTCAGCACCCTCGGAAC
CTTCGAGAACACCCTCCCCGCTATAAATTCCCGCCTTTCCGGTAGCATCTATTCTTCCTCTCCCACTCTTCCTCCTCTCC
AAACCCTAGCCGCCGCCGCCGGCGTACTCGAGAGAAACATCAGCATCCATGGCGGGCAAGGGCGAGGGTCCGGCCATCGG
CATCGACCTTGGCACGACCTACTCGTGCGTGGGCGTTTGGCAGCACGACCGCGTGGAGATCATCGCCAACGACCAGGGCA
ACCGCACCACCCCCTCCTACGTCGGCTTCACCGACTCCGAGAGGCTCATCGGAGATGCTGCCAAGAACCAGGTCGCCATG
AACCCCATCAACACCGTCTTCGGTAACTACTTATTCCCTTCTCCTCAGTCCTCTCTCTTTCTCTCTCTCCCCCCTTAGAT
CTCATCTCTAAGGTCTTCGTCGTCGTCGTATGCTAGATCTACTCTTGCCCAGCTCGTTCAGATCTGTTAGATTTGTGTGG
GATCGCTCTAATTAATTACTACCAACTTAGTAGATCTGGACTCTTTTGACTTGCAGATCTTGCTCCACTACTGTTGCATT
TTGAATCTGTGTTGATGTGATTTAAGTTGTTGGCAGTGCTTTTTGCATACTATTTGAATTTGTGGATGGTTAGCAGTCAG
TACACTAGGATTTATTACTGGATCTGGACAGATATGCTCGTTTCAATCGGCTCGATTTGCTATGTTGATAGCTGACATGT
TGTGCTTGTCCTATTGCCCTGGCGCAAATTTGATCCATGCATTCTTTTCGTTAAATGATTTGTCAAGTAGTAATGCTTGT
TTGAAAATGATATTATTATTATTATTATTATTATTATTATTATTATAAATAAATATAGCCTGAAACATTCTTAGTTTCGA
GGAGAAGTGATGATGTCTTATCCATACCACATGTCTGCATCTCATATGATGATTAATCTACATCATGCACTACCATCTGA
TCTCCTCTAGCTCATACAGCTTTTAACAAGTTAGGCGATAGATGTTTGCTACAAACAGTCAACTGGATTTGCTTTCTTGA
AAGAAAAAAATGAACCGTGTAGTTTGCAACCTGTGATGTAAATTAACCCATTTACTGAACTACGTTGATTATTTCAGTAA
AATCACCATCTTTCGGCTGAGGTTGCATGCTTAGTTATTATATTTTTACCAATGATGATTTTGTTATATAGCCAGATATA
CTGTACTTTCTTATGCCATTTGGTATCTGACTCATTGTCTACTTTTGTGACTATGTGTCTTGAAATATGGCATATAATAA
GGGGGAACGGATCTTGCGACATTGATGGCTCCTGTATGAGCCTCCAATTACTATATAGCCGTTTACATGTTCTTATCATG
TTACTTTTCCAAATTAGTGCTGCACATCTTGTCTGTTTGCAAGTTTGGGTTCATTCATATTGCTGTGGGCATTTTAATAC
ATCTTCACTAGCATACTGTAATGTAAATTTCTTGTACATTGCTAAAATTTTCTGCCTTGATTGAGTAGACTCTTTGATGA
CATCTATCTTACCTTATGCACTTGATTCGTATTTCTGTTACAACATTTTGATTATTTGATGTAGTTCACACAAGCATGAC
ACATCTCTTTGAAAAAAAGATTTCATTTTTTAAAGCAAGCCTAATGCTTTAGGGTGGGAGAAGTGATGATACTTAATCCA
TACCACATTTCTGCATCTCAGATGATGATCAATCTACATCATGCACTACCATCTGATCTCCCATCATACAATTTTTTATT
TTGTTTTGTTGGATTATATAACTTTAACATTTGATAAAGTGCCAACAGATTTTTATACACAATTTGTTATAGATATTACC
ATGACAGCTTGCAGCCTGTGATGGCAAAAGTACCCATTAAACTGAATTACACTGATTATTCCAAACAAATCACCATCTTT
CGGGCGAGGTTGGCTTGCTTGTTTAAAATTATGAATGCTTCTTGCACAACCATTTAGGACTTCGGTAGTTTGTAATGGCC
ATTTGGTATCTGACACATGGTCTGCTCTTGTGACTATTAGTCTCGAAATATGGCATAAAACAAGGGGGAACGGATCTTGC
GACATTGGTGGTTCCTCTATGATCCTCCAATTACTATATAGCCGTTTACAATTTGTTAAGTTAGGAGCATACCTTTTGCT
TTGTCATCAAAGTCTTGGTTCCTTTGTATTTCTAGTTAAGATTCATTTTTCTTCAGGTTTGGAAACATAAACTCTGTATA
ATTTTACTGTAGTTGCTGACATTGAGTCTTCTCTGCAGATGCCAAGCGTCTCATTGGCAGGAGGTTTAGCGATGCTTCTG
TTCAGAGTGACATTAAGCTCTGGCCCTTCAAGGTGATTGCTGGACCTGGTGACAAGCCTATGATTGTTGTCCAGTACAAG
GGTGAGGAGAAGCAGTTTGCTGCCGAAGAGATCTCCTCCATGGTCCTCATCAAGATGCGTGAGATTGCTGAGGCCTACCT
TGGCACCACCATCAAGAATGCCGTTGTCACTGTTCCTGCCTACTTCAATGACTCCCAGAGGCAGGCCACCAAGGATGCTG
GAGTGATTGCTGGTCTCAATGTCATGCGCATCATCAACGAGCCAACTGCTGCCGCTATTGCCTATGGTCTTGACAAGAAG
GCCACCAGCGTTGGTGAGAAGAATGTCCTCATCTTTGACCTTGGAGGTGGTACCTTTGATGTTTCCCTCCTTACCATTGA
GGAGGGTATCTTTGAGGTCAAGGCCACAGCTGGTGACACCCATCTTGGTGGTGAAGATTTTGACAACCGCATGGTCAACC
ACTTTGTGCAAGAATTCAAGAGGAAGAACAAGAAGGATATCACTGGCAACCCCAGGGCTCTCAGGAGGTTGAGGACAGCT
TGTGAGAGGGCGAAGAGGACCCTGTCCTCCACTGCCCAGACCACCATTGAGATCGATTCCTTGTATGAGGGCATCGATTT
CTACTCAACCATCACCCGTGCCAGGTTTGAGGAGCTCAACATGGATCTCTTCAGGAAGTGTATGGAGCCTGTGGAGAAGT
GCCTCAGGGATGCTAAGATGGACAAGAGCTCTGTTCATGATGTTGTTCTTGTTGGTGGCTCCACTAGGATCCCGAGGGTG
CAGCAGCTCCTGCAGGATTTCTTCAACGGCAAGGAGCTTTGCAAGAACATCAACCCAGATGAGGCTGTTGCTTATGGTGC
TGCTGTCCAGGCTGCCATCTTGAGTGGTGAGGGCAACGAGAAGGTCCAGGACCTCCTCCTGTTGGATGTTACCCCTCTTT
CTCTCGGTTTGGAGACTGCTGGTGGTGTCATGACCGTCTTGATCCCAAGGAACACCACCATTCCCACCAAGAAGGAGCAG
GTCTTCTCCACCTACTCTGACAACCAGCCTGGTGTGCTCATCCAGGTTTATGAGGGTGAGAGGACCAGGACACGTGACAA
CAACCTGCTGGGCAAGTTTGAGCTCTCTGGAATCCCTCCTGCTCCCAGGGGTGTTCCACAGATCACTGTTTGCTTCGACA
TTGATGCCAATGGTATCCTGAACGTGTCTGCTGAGGACAAGACCACCGGGCAGAAGAACAAGATCACCATCACCAACGAC
AAGGGCAGGCTCAGCAAGGAGGAGATTGAGAAGATGGTCCAGGGGGCCGAGAAGTACAAGTCAGAGGATGAGGAGCACAA
GAAGAAGGTGGAGTCCAAGAACGCGCTGGAGAACTACGCCTACAACATGCGCAACACCATCAAGGATGAGAAGATCGCCT
CGAAGCTCCCGGCAGCGGACAAGAAGAAGATCGAGGATGCCATCGACCAGGCCATCCAGTGGCTGGACGGCAACCAGCTC
GCTGAGGCTGATGAGTTCGATGACAAGATGAAGGAGCTGGAGGGCATCTGCAACCCCATCATCGCCAAGATGTACCAGGG
CGCTGGCGCGGACATGGCCGGCGGCATGGACGAGGACGATGCTCCCCCGGCTGGCGGCAGCGGTGCTGGCCCCAAGATCG
AGGAGGTCGACTAAGCGCCAAATTTGGTTAAAAACTTGGGCATGAGTTCGAAACCTACAGATTTGGGGCTGAACTTTGGT
TAGGTGATCCGCGCTTCAAGTTATCTTATTGCATTATCAGTGTCTCTTTATTAGTTGTGTTAAAAACTTGGGGATTATGT
GGTGCTATGGTACCTTTTGGTCTGTTTGGGCAGTCTATTTGAAGAACTTCGTTGGGAGCTCTATTGATCTC
Align All Sequences