The in silico prediction of peptide binding affinities to MHC proteins is a very important first step in the process of epi-tope-based vaccine design and development. Five MHC class II binding prediction servers were ...The in silico prediction of peptide binding affinities to MHC proteins is a very important first step in the process of epi-tope-based vaccine design and development. Five MHC class II binding prediction servers were combined in different ways and the resulting performance of these combinations was evaluated using a test set, which consisted of 4540 known HLA-DRB1 binders. The five servers were: NetMHCIIpan, NetMHCII, ProPred, RANKPEP, and EpiTOP. The top 5% of the ranked predictions from each server were combined using union and intersection operators. The outputs were evaluated in terms of sensitivity and positive predictive value (PPV). The union operator showed high sensitivity (65-79%) and low PPVs (6-8%), while intersection outputs had low sensitivities (4-41%) yet significantly higher PPVs (14-31%). Thus there is a defining trade-off between sensitivity and PPV for each combination. The union of outputs from different servers brings more “noise” than “signal” to the resulting set of predicted binders. Conversely, selecting only commonly predicted binders increases the probability that an identified binder is a true binder.展开更多
本文应用 PCR 法及 ASO 探针斑点杂交技术,对100例无关个体血液 DNA 及10例性犯罪案件混合斑中精子 DNA 进行了 HLA-DQα基因的扩增及其 DNA 分型。结果正常人0.1~0.3μgDNA 就能满足 DQα基因扩增的需要。在100例个体中可以观察到由4...本文应用 PCR 法及 ASO 探针斑点杂交技术,对100例无关个体血液 DNA 及10例性犯罪案件混合斑中精子 DNA 进行了 HLA-DQα基因的扩增及其 DNA 分型。结果正常人0.1~0.3μgDNA 就能满足 DQα基因扩增的需要。在100例个体中可以观察到由4种等位基因组成的10种 DQα基因型。10例不同条件的混合斑中精子 DNA 经30~60次扩增后与 ASO 探针杂交均能准确地判定 DQα基因型。HLA-DQα是个体识别能力较强的遗传标志。本文为性犯罪中精子来源的个体识别提供了一个新方法,具有一定的实用价值。展开更多
Understanding the sequence diversity of rice blast resistance genes is important for breeding new resistant rice cultivars against the rice blast fungusMagnaporthe oryzae. In this study, we selected 24 rice cultivars ...Understanding the sequence diversity of rice blast resistance genes is important for breeding new resistant rice cultivars against the rice blast fungusMagnaporthe oryzae. In this study, we selected 24 rice cultivars with different genetic back-grounds to study the alelic diversity of rice blast resistance genesPiz-t, Pitaand Pik. For Piz-t, a total of 17 alelic types were found within the 24 cultivars. Blast inoculations showed that most of the mutations can affect the function of the resistance gene. For Pita, except for the difference at the 918th amino acid, a majority of the 21 mutations were detected among the cultivars. Inoculations with blast isolates carryingAvr-Pita revealed that cultivars with mutations in other sites except for the 918th amino acid did not affect the function of thePita gene. ForPik, a total of six alelic types were found within the 24 cultivars, but ifve of them lost the function of the resistance gene. In addition, we found thatPiz-t, Pita and Pik were expressed constitutively in the 24 rice cultivars and the expression level was not related to resistance. Our results have provided the sequence diversity information of the resistance genesPiz-t, Pita and Pik among the popular rice cultivars grown in the northeast region of China. Keywords:resistance gene, avirulence gene, aleles, function, genetic evolution zae(M. oryzae), is one of the most destructive diseases in rice production worldwide. Over the years, comprehensive studies on rice blast resistance have been conducted (Silue et al. 1992). The resistance in newly cultivated rice cultivars to M. oryzae can be lost quickly due to the high level of instability in the genome of the fungus (Bonmanet al. 1992). Previous studies show that cultivars with durable and broad-spectrum resistance againstM. oryzae carry multiple major resistance (R) and minor resistance genes (Liuet al. 2014). An effective way to control rice blast disease is, therefore, to breed rice cultivars with multiple R and QTL genes. To date, 展开更多
文摘The in silico prediction of peptide binding affinities to MHC proteins is a very important first step in the process of epi-tope-based vaccine design and development. Five MHC class II binding prediction servers were combined in different ways and the resulting performance of these combinations was evaluated using a test set, which consisted of 4540 known HLA-DRB1 binders. The five servers were: NetMHCIIpan, NetMHCII, ProPred, RANKPEP, and EpiTOP. The top 5% of the ranked predictions from each server were combined using union and intersection operators. The outputs were evaluated in terms of sensitivity and positive predictive value (PPV). The union operator showed high sensitivity (65-79%) and low PPVs (6-8%), while intersection outputs had low sensitivities (4-41%) yet significantly higher PPVs (14-31%). Thus there is a defining trade-off between sensitivity and PPV for each combination. The union of outputs from different servers brings more “noise” than “signal” to the resulting set of predicted binders. Conversely, selecting only commonly predicted binders increases the probability that an identified binder is a true binder.
文摘本文应用 PCR 法及 ASO 探针斑点杂交技术,对100例无关个体血液 DNA 及10例性犯罪案件混合斑中精子 DNA 进行了 HLA-DQα基因的扩增及其 DNA 分型。结果正常人0.1~0.3μgDNA 就能满足 DQα基因扩增的需要。在100例个体中可以观察到由4种等位基因组成的10种 DQα基因型。10例不同条件的混合斑中精子 DNA 经30~60次扩增后与 ASO 探针杂交均能准确地判定 DQα基因型。HLA-DQα是个体识别能力较强的遗传标志。本文为性犯罪中精子来源的个体识别提供了一个新方法,具有一定的实用价值。
基金supported by the National Natural Science Foundation of China (31571993)the Natural Science Foundation of Liaoning Province of China (2014027027 and 2013020074)the Doctoral Fund of Liaoning Province of China (20131053)
文摘Understanding the sequence diversity of rice blast resistance genes is important for breeding new resistant rice cultivars against the rice blast fungusMagnaporthe oryzae. In this study, we selected 24 rice cultivars with different genetic back-grounds to study the alelic diversity of rice blast resistance genesPiz-t, Pitaand Pik. For Piz-t, a total of 17 alelic types were found within the 24 cultivars. Blast inoculations showed that most of the mutations can affect the function of the resistance gene. For Pita, except for the difference at the 918th amino acid, a majority of the 21 mutations were detected among the cultivars. Inoculations with blast isolates carryingAvr-Pita revealed that cultivars with mutations in other sites except for the 918th amino acid did not affect the function of thePita gene. ForPik, a total of six alelic types were found within the 24 cultivars, but ifve of them lost the function of the resistance gene. In addition, we found thatPiz-t, Pita and Pik were expressed constitutively in the 24 rice cultivars and the expression level was not related to resistance. Our results have provided the sequence diversity information of the resistance genesPiz-t, Pita and Pik among the popular rice cultivars grown in the northeast region of China. Keywords:resistance gene, avirulence gene, aleles, function, genetic evolution zae(M. oryzae), is one of the most destructive diseases in rice production worldwide. Over the years, comprehensive studies on rice blast resistance have been conducted (Silue et al. 1992). The resistance in newly cultivated rice cultivars to M. oryzae can be lost quickly due to the high level of instability in the genome of the fungus (Bonmanet al. 1992). Previous studies show that cultivars with durable and broad-spectrum resistance againstM. oryzae carry multiple major resistance (R) and minor resistance genes (Liuet al. 2014). An effective way to control rice blast disease is, therefore, to breed rice cultivars with multiple R and QTL genes. To date,
