It has been reported that the diversity of the merozoite surface protein 2 (msp2) is greater in areas of high compared to low endemicity, however, results for msp1 were inconsistent. These previous reports relied on low resolution genotyping techniques.
Methods: In the present study, a high-resolution capillary electrophoresis-based technique was applied to genotype samples from areas of different endemicity in Papua New Guinea and Tanzania. For both endemic settings, the diversity of msp1 and msp2 was investigated; the mean multiplicity of infection (MOI) and the F-ST values were determined to investigate whether more accurate sizing generates different
results.
Results and Conclusion: The results of the present study confirmed previous reports of a higher mean MOI for both marker genes and increased genetic diversity in areas of higher endemicity as estimated by the total number of distinct alleles for msp2. For msp1 a Liproxstatin-1 solubility dmso minor increase
in diversity was observed. Measures of between population variance in allele frequencies (F-ST) indicated little genetic differentiation for both marker genes between the two populations from different endemic settings. MOI adjusted for the probability of multiple infections sharing the same allele was estimated by using the msp2 allele frequency distribution and the distribution of observed numbers of concurrent infections. For the high-resolution typing technique applied in this study, this adjustment made little difference to the estimated mean MOI compared to the observed HKI-272 datasheet mean MOI.”
“To modify the level and composition of isoflavones, the important bioactive constituents of soybean seeds, soybean was transformed via PHA-739358 concentration co-bombardment of embryogenic cultures with three DNA cassettes containing the CHS6-chalcone synthase and IFS2-isoflavone synthase genes,
and a fragment of PAL5-phenylalanine ammonia-lyase gene, all in sense orientation under the lectin promoter mixed with the selectable marker gene, HPT (hygromycin phosphotransferase) under the 355 promoter. Four of six fertile lines produced integrated all four genes.
Isoflavone levels were lower in T1 mature seeds of 5 of the 6 lines compared to the control. Transgene segregation was found in one selected line, with formation of additional sublines with different transgene composition found also in the homozygous plants. Decreased isoflavone concentrations (by about 70%) were found in T4 homozygous seeds of the two lines studied in detail here. The embryo axes accumulated most of the glycitein and contained a higher isoflavone concentration than the cotyledons. Expression of transgenes driven by the lectin promoter reduced the isoflavone concentration only in the cotyledons and not in embryo axes, indicating that this promoter is preferably active in cotyledons. (C) 2009 Elsevier Masson SAS. All rights reserved.