L1 retrotransposition is suppressed by endogenously encoded small interfering RNAs in human cultured cells.

LINE-1s, or L1s, are highly abundant retrotransposons comprising 17% of the human genome. Most L1s are retrotransposition defective; nonetheless, there are approximately 100 full-length L1s potentially capable of retrotransposition in the diploid genome. L1 retrotransposition may be detrimental to the host and thus needs to be controlled.

LINE drive. retrotransposition and genome instability.

The LINE-1 (L1) retrotransposon, the most important human mobile element, shapes the genome in many ways. Now two groups provide evidence that L1 retrotransposition is associated with large genomic deletions and inversions in transformed cells. If these events occur at a similar frequency in vivo, they have had a substantial effect on human genome evolution.

Evidence consistent with human L1 retrotransposition in maternal meiosis I.

We have used a unique polymorphic 3' transduction to show that a human L1, or LINE-1 (long interspersed nucleotide element-1), retrotransposition event most likely occurred in the maternal primary oocyte during meiosis I. We characterized a truncated L1 retrotransposon with a 3' transduction that was inserted, in a Dutch male patient, into the X-linked gene CYBB, thereby causing chronic granulomatous disease. We used the unique flanking sequence to localize the precursor L1 locus, LRE3, to chromosome 2q24.

Mobile elements and the human genome.

Genomic DNA is often thought of as the stable template of heredity, largely dormant and unchanging, apart from perhaps the occasional point mutation. But it has become increasingly clear that DNA is dynamic rather than static, being subjected to rearrangements, insertions and deletions. Much of this plasticity can be attributed to transposable elements and their genomic relatives.