87 per 100 000 people of incidence rate on average from 2004 to 2011. Individuals living in urban districts had higher risk of contracting measles than counties. Infants aged < 1 y observed the highest incidence rate with
239.35/100 000, and the age-specific incidence rate declined along with age-group but the trend reversed at adults. 52.20% of cases were floating cases and the measles vaccination was significantly Salubrinal nmr different from the local cases (x(2) = 51.65, p < 0.001). February to June was the epidemic period for measles incidence with 81.88% of cases reported in cluster.\n\nConclusion: The descriptive characteristics of measles suggested that factors included infant and adult individual, migrant population, and living urban area might be relate to the elimination target. More efforts were need to ensure susceptible population had accepted qualified measles vaccination.”
“A strain of Brevibacillus formosus, capable of producing
a high level of chitinase, was isolated and characterized for the first time from the Great Indian Desert soils. The production of extracellularly secreted chitinase was analyzed for its biocontrol potential and optimized by varying media pH, temperature, incubation period, substrate concentrations, carbon and nitrogen sources, etc. A twofold increase in chitinase production (798 IU/mL) was achieved in optimized media containing (g l(-1)) chitin 2.0, malt extract 1.5, glycerol 1.0, ammonium Selleck GSK2879552 nitrate 0.3 %, T-20 (0.1 %) and media pH 7.0 at 37 A degrees C. The produced enzyme was purified using a three-step purification procedure involving ultra-filtration, ammonium sulphate precipitation and adsorption chromatography.
The estimated molecular weight of the purified enzyme was 37.6 kDa. The enzyme was found thermostable at higher temperatures and showed a t (A1/2) of more than 5 h at 100 A degrees C. Our results show that the chitinase produced by B. formosus BISR-1 is thermostable LY411575 price at higher temperatures.”
“In this paper we report on a multilink electromigration test structure in which the current density is varied for the different links. We show the time to failure can be determined for each link by analyzing the resistance vs. time characteristic of the whole chain. Distributions of the obtained times to failure are then used to compute electromigration current exponent and threshold product. Both parameters can be determined with satisfactory accuracy by performing a reduced set of experiments. This structure and method can therefore be employed to significantly reduce experimental workload and cycle time usually required for complex electromigration parameters determination, such as electromigration threshold product. (C) 2010 Elsevier B.V. All rights reserved.