Mammalian-wide interspersed repeats (MIRs) are transposable elements in the genomes of some organisms and belong to the group of Short interspersed nuclear elements (SINEs).
MIRs are found in all mammals (including marsupials). [1]
It is estimated that there are around 368,000 MIRs in the human genome. [2]
The MIR consensus sequence is 260 basepairs long and has an A/T-rich 3' end. [1]
Like other Short interspersed nuclear elements (SINEs), MIR elements used the machinery of LINE elements for their propagation in the genome, which took place around 130 million years ago. They cannot retrotranspose anymore since the loss of activity of the required reverse transcriptase. [3]
MIR elements have been first described in human genome 1989-1991 [4] [5] [6] and were first referred as MB1 family repeats (mirror to sequences of mouse B1 repeat). Then this family repeats were found in other mammalian genomes. [7] Then this family was renamed as "Mammalian interspersed repeats" in 1992 [8] Later this family was shown to be common for vertebrate genomes. [9]
Mammalian-wide interspersed repeats (MIRs) are transposable elements in the genomes of some organisms and belong to the group of Short interspersed nuclear elements (SINEs).
MIRs are found in all mammals (including marsupials). [1]
It is estimated that there are around 368,000 MIRs in the human genome. [2]
The MIR consensus sequence is 260 basepairs long and has an A/T-rich 3' end. [1]
Like other Short interspersed nuclear elements (SINEs), MIR elements used the machinery of LINE elements for their propagation in the genome, which took place around 130 million years ago. They cannot retrotranspose anymore since the loss of activity of the required reverse transcriptase. [3]
MIR elements have been first described in human genome 1989-1991 [4] [5] [6] and were first referred as MB1 family repeats (mirror to sequences of mouse B1 repeat). Then this family repeats were found in other mammalian genomes. [7] Then this family was renamed as "Mammalian interspersed repeats" in 1992 [8] Later this family was shown to be common for vertebrate genomes. [9]