Materials and methods: DNA from spontaneous, X-ray or neutron-ind

Materials and methods: DNA from spontaneous, X-ray or neutron-induced mouse tumours were used in Polymerase Chain Reactions (PCR) with mono- or di-nucleotide repeat markers. Deviations from expected allele size caused by insertion/deletion events were assessed by capillary electrophoresis.

Results: Tumours showing MSI increased from 16% in spontaneously arising tumours to 23% (P = 0.014) in X-ray-induced tumours and rising again to 83% (P << 0.001) in neutron-induced tumours. X-ray-induced Acute Myeloid selleck chemicals Leukaemias (AML) had a higher level of mono- nucleotide instability (45%) than di-nucleotide instability (37%). Fifty percent of neutron-induced

tumours were classified as MSI-high for mono- nucleotide markers and 10% for di-nucleotide markers. Distribution of MSI varied in the different tumour types and did not appear random.

Conclusions: Exposure to ionising radiation, especially neutrons, promotes the development of MSI in mouse tumours. MSI may therefore play a role in mouse radiation tumourigenesis, particularly following high Linear Energy Transfer (LET) exposures. MSI events, for a comparable panel of genome-wide

markers in different tissue types, were not randomly distributed throughout the genome.”
“We report the detailed study on the colossal dielectric constant and magnetocapacitance of LuFe2O4. The experimental results indicate that Galardin in vitro the large dielectric constant of LuFe2O4 is originated from two sources, (1) Maxwell Wagner-type contributions of depletion layers at grain boundaries and the interfaces between sample and contacts, (2) AC response of the constant phase element in the bulk. A detailed equivalent circuit analysis indicates that the conductivity variation can be responsible for the observed “”magnetocapacitance.”" (C) 2011 American Institute of Physics. [doi:10.1063/1.3560564]“
“Purpose: The molecular basis of gene regulation in cells exposed to ionising radiation is not fully understood. Gene regulation occurs at the transcriptional

and post-transcriptional levels. Recent studies have suggested that micro-RNA (miRNA) plays a significant role at the post-transcriptional gene regulation. miRNA are a recently identified Vorinostat in vivo class of RNA molecules 18-24 nucleotides in length that have been shown to negatively regulate the stability or translation of target messenger RNA. We hypothesised that ionising radiation induced stress response is controlled in part by miRNA and that a difference in tumour protein 53 (p53) status corresponds with altered expression in miRNA responses to ionising radiation.

Materials and methods: To test this hypothesis, we investigated the relative expression of several miRNA by quantitative real-time polymerase chain reaction (QPCR) in human cell lines TK6 and WTK1 that differ in p53 status and radiosensitivity after exposure to high and low doses of X-radiation.

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