Susan E. Holmes scite author profile

We previously isolated two human L1 elements (L1.2 and LRE2) as the progenitors of disease-producing insertions. Here, we show these elements can actively retrotranspose in cultured mammalian cells. When stably expressed from an episome in HeLa cells, both elements retrotransposed into a variety of chromosomal locations at a high frequency. The retrotransposed products resembled endogenous L1 insertions, since they were variably 5' truncated, ended in poly(A) tracts, and were flanked by target-site duplications or short deletions. Point mutations in conserved domains of the L1.2-encoded proteins reduced retrotransposition by 100- to 1000-fold. Remarkably, L1.2 also retrotransposed in a mouse cell line, suggesting a potential role for L1-based vectors in random insertional mutagenesis.

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Expansion of a novel CAG trinucleotide repeat in the 5′ region of PPP2R2B is associated with SCA12

Holmes

et al. 1999

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A new retrotransposable human L1 element from the LRE2 locus on chromosome 1q produces a chimaeric insertion

et al. 1994

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We have found a 2 kilobase insertion containing a rearranged L1 element in the dystrophin gene of a muscular dystrophy patient. We cloned the precursor of this insertion, the second known active human L1 element. The locus, LRE2, has one allele derived from the patient which matches the insertion sequence exactly. LRE2 has a perfect 13-15 bp target site duplication, two open reading frames, and an unusual 21 bp truncation of the 5' end, suggesting that a slightly truncated element can still retrotranspose. It differs from LRE1 by approximately 0.7%. There is an L1 element at LRE2 on approximately 66% of human chromosomes 1q, and the element is absent from chimpanzee and gorilla genomes. These data demonstrate that multiple active L1 elements exist in the human genome, and that a readthrough transcript of an active element is capable of retrotransposition.

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A repeat expansion in the gene encoding junctophilin-3 is associated with Huntington disease–like 2

et al. 2001

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Susan E. Holmes

High Frequency Retrotransposition in Cultured Mammalian Cells

Expansion of a novel CAG trinucleotide repeat in the 5′ region of PPP2R2B is associated with SCA12

A new retrotransposable human L1 element from the LRE2 locus on chromosome 1q produces a chimaeric insertion

A repeat expansion in the gene encoding junctophilin-3 is associated with Huntington disease–like 2

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