Enhancement of IUdR Radiosensitization by Low-Energy Photons Results from Increased and Persistent DNA Damage.

Low-energy X-rays induce Auger cascades by photoelectric absorption in iodine present in the DNA of cells labeled with 5-iodo-2'-deoxyuridine (IUdR). This photoactivation therapy results in enhanced cellular sensitivity to radiation which reaches its maximum with 50 keV photons. Synchrotron core facilities are the only way to generate such monochromatic beams.

Technological overview of iPS induction from human adult somatic cells.

The unlimited proliferation capacity of embryonic stem cells (ESCs) combined with their pluripotent differentiation potential in various lineages raised great interest in both the scientific community and the public at large with hope for future prospects of regenerative medicine. However, since ESCs are derived from human embryos, their use is associated with significant ethical issues preventing broad studies and therapeutic applications. To get around this bottleneck, Takahashi and Yamanaka have recently achieved the conversion of adult somatic cells into ES-like cells via the forced expression of four transcription factors: Oct3/4, Sox2, Klf4 and c-Myc.

Structural and functional insights into Saccharomyces cerevisiae Tpa1, a putative prolylhydroxylase influencing translation termination and transcription.

Efficiency of translation termination relies on the specific recognition of the three stop codons by the eukaryotic translation termination factor eRF1. To date only a few proteins are known to be involved in translation termination in eukaryotes. Saccharomyces cerevisiae Tpa1, a largely conserved but uncharacterized protein, has been described to associate with a messenger ribonucleoprotein complex located at the 3' end of mRNAs that contains at least eRF1, eRF3, and Pab1.

The Bloom syndrome protein limits the lethality associated with RAD51 deficiency.

Little is known about the functional interaction between the Bloom's syndrome protein (BLM) and the recombinase RAD51 within cells. Using RNA interference technology, we provide the first demonstration that RAD51 acts upstream from BLM to prevent anaphase bridge formation. RAD51 downregulation was associated with an increase in the frequency of BLM-positive anaphase bridges, but not of BLM-associated ultrafine bridges.

Topoisomerase IIIalpha is required for normal proliferation and telomere stability in alternative lengthening of telomeres.

Topoisomerase (Topo) IIIalpha associates with BLM helicase, which is proposed to be important in the alternative lengthening of telomeres (ALT) pathway that allows telomere recombination in the absence of telomerase. Here, we show that human Topo IIIalpha colocalizes with telomeric proteins at ALT-associated promyelocytic bodies from ALT cells. In these cells, Topo IIIalpha immunoprecipitated with telomere binding protein (TRF) 2 and BLM and was shown to be associated with telomeric DNA by chromatin immunoprecipitation, suggesting that these proteins form a complex at telomere sequences.

The Bloom syndrome helicase is a substrate of the mitotic Cdc2 kinase.

Bloom syndrome (BS) is a rare human autosomal recessive disorder characterized by marked genetic instability associated with greatly increased predisposition to a wide range of cancers affecting the general population. BS arises through mutations in both copies of the BLM gene which encodes a 3'-5' DNA helicase identified as a member of the RecQ family. Several studies support a major role for BLM in the cellular response to DNA damage and stalled replication forks.

A major role for mitotic CDC2 kinase inactivation in the establishment of the mitotic DNA damage checkpoint.

Cdc2 kinase is inactivated when DNA damage occurs during the spindle assembly checkpoint. Here, we show that the level of mitotic Bloom syndrome protein phosphorylation reflects the level of cdc2 activity. A complete inactivation of cdc2 by either introduction of DNA double-strand breaks or roscovitine treatment prevents exit from mitosis.