Recombination dynamics in InGaN/GaN nanowire heterostructures on Si(111).

We have performed room-temperature time-resolved photoluminescence measurements on samples that comprise InGaN insertions embedded in GaN nanowires. The decay curves reveal non-exponential recombination dynamics that evolve into a power law at long times. We find that the characteristic power-law exponent increases with emission photon energy. The data are analyzed in terms of a model that involves an interplay between a radiative state and a metastable charge-separated state. The agreement between our results and the model points towards an emission dominated by carriers localized on In-rich nanoclusters that form spontaneously inside the InGaN insertions.

Expression level of adenosine kinase in rat tissues. Lack of phosphate effect on the enzyme activity.

In this report we describe cloning and expression of rat adenosine kinase (AK) in Esccherichaia coli cells as a fusion protein with 6xHis. The recombinant protein was purified and polyclonal antibodies to AK were generated in rabbits. Immunoblot analysis of extracts obtained from various rat tissues revealed two protein bands reactive with anti-AK IgG. The apparent molecular mass of these bands was 48 and 38 kDa in rat kidney, liver, spleen, brain, and lung. In heart and muscle the proteins that react with AK antibodies have the molecular masses of 48 and 40.5 kDa. In order to assess the relative AK mRNA level in rat tissues we used the multiplex PCR technique with beta-actin mRNA as a reference. We found the highest level of AK mRNA in the liver, which decreased in the order kidney > spleen > lung > heart > brain > muscle. Measurement of AK activity in cytosolic fractions of rat tissues showed the highest activity in the liver (0.58 U/g), which decreased in the order kidney > spleen > lung > brain > heart > skeletal muscle. Kinetic studies on recombinant AK as well as on AK in the cytosolic fraction of various rat tissues showed that this enzyme is not affected by phosphate ions. The data presented indicate that in the rat tissues investigated at least two isoforms of adenosine kinase are expressed, and that the expression of the AK gene appears to have some degree of tissue specificity.

Decreased expression of adenosine kinase in streptozotocin-induced diabetes mellitus rats.

Adenosine has been implicated as an important endogenous regulator of various tissue functions. In diabetes, the responsiveness of several tissues to adenosine is altered. The aim of this study was to investigate the activities of enzymes metabolizing adenosine in tissues of diabetic rats. The cytosolic activity (V(max)) of adenosine kinase (AK) was decreased by 50% in the kidney and by 40% in the heart and liver of diabetic rats. A decrease in the V(max) of AK in diabetic tissues was not associated with a change in the K(m) for adenosine. Evaluation of AK gene transcript status showed significantly lower levels of AK mRNA in diabetic tissues as compared to normal tissues. In diabetic kidneys, the level of AK gene transcript was lowered by 50% on first day after streptozotocin administration, and these reduced levels were sustained declined during the next 10 days. Smaller changes in AK gene transcript levels were observed in the heart and liver than in the kidney. The cytosolic activities of 5'-nucleotidase, AMP deaminase, and adenosine deaminase were unchanged in kidney, heart, and liver of diabetic rats. These results suggest that the turnover of the AMP-adenosine metabolic cycle might be impaired in diabetic tissues due to the reduced activity of adenosine kinase.