Hypothesis: transcript-templated repair of DNA double-strand breaks

Equation (9) on page 2233 should read: The equation following Eq. (10) on page 2233 should read: 4H%z(h/bc)g g = Nro4 In these equations, N is Avogadro's number.

The autosomal recessive genetic disorder, Nijmegen Breakage Syndrome, is characterised by an excessively high risk for the development of lymphatic tumours and an extreme sensitivity towards ionising radiation. The most likely explanation for these characteristics, a deficiency in the repair of DNA

## Abstract DNA double‐strand breaks (DSBs) are the most hazardous lesions arising in the genome of eukaryotic organisms, and yet occur normally during DNA replication, meiosis, and immune system development. The efficient repair of DSBs is crucial in maintaining genomic integrity, cellular viabili

## Abstract DNA DSBs are formed in normal human IMR‐90 cells during repair incubation after 100 and 300 J·m^−2^ of UVL. By contrast, no DSBs are formed after UVL in human XPA cells that are unable to excise pyrimidine dimers. The DSBs are not due to immediate cell death since all the cells excluded

Communicated by

## Abstract Cells, which lacked the activity of the nuclease Artemis, retained approximately 10% of unrepaired double strand breaks (DSBs) at later timepoints after ionizing radiation. Ionizing radiation induced hyperphosphorylation of Artemis mainly by ATM and in ATM deficient cells to a minor ext