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Identification of retrotransposon-like sequences in Iranian river buffalo
Abstract
Retrotransposon elements are peculiar genetic elements raised through copy and paste mechanism by retrotransposition. Their ability to move and/or replicate inside the genome is an important evolutionary
force responsible for the increase of genome size and the regulation of gene expression. In this paper, molecular identification of retrotransposon-like elements including seven LTR and non-LTR (LINE and
SINE) like sequences, which were characterised by cloning RAPD fragments in Iranian river buffalo, is reported. The analysis demonstrated the presence of partial sequences of SINEs (MIRb, Bov-A2, BovtA2, CHR-2_BT and CHR-2B), LINE (L1_Carn7) and LTR (ERVL-B4) in the target genome. The sequences of Bov-tA2 and CHR-2 like elements contain the whole promoter boxes of RNA polymerase III and tRNArelated region with few differences in their nucleotides. This may occur by mutations and extinction of elements during evolution. The identification of these retrotransposable elements for the first time in Iranian river buffalo represents an important step towards the understanding of mechanisms of genome evolution within the species and perhaps will be useful in other related studies on population genetics, speciation and genome manipulation of this species.
force responsible for the increase of genome size and the regulation of gene expression. In this paper, molecular identification of retrotransposon-like elements including seven LTR and non-LTR (LINE and
SINE) like sequences, which were characterised by cloning RAPD fragments in Iranian river buffalo, is reported. The analysis demonstrated the presence of partial sequences of SINEs (MIRb, Bov-A2, BovtA2, CHR-2_BT and CHR-2B), LINE (L1_Carn7) and LTR (ERVL-B4) in the target genome. The sequences of Bov-tA2 and CHR-2 like elements contain the whole promoter boxes of RNA polymerase III and tRNArelated region with few differences in their nucleotides. This may occur by mutations and extinction of elements during evolution. The identification of these retrotransposable elements for the first time in Iranian river buffalo represents an important step towards the understanding of mechanisms of genome evolution within the species and perhaps will be useful in other related studies on population genetics, speciation and genome manipulation of this species.