在禽类微染色体上发现了与沙门氏菌带菌状态抗性相关的新 QTL。

New QTL for resistance to Salmonella carrier-state identified on fowl microchromosomes.

机构信息

INRA UMR 083 Unité de Recherches Avicoles, 37380 Nouzilly, France.

出版信息

Mol Genet Genomics. 2011 Mar;285(3):237-43. doi: 10.1007/s00438-011-0600-9. Epub 2011 Jan 30.

Abstract

Chicken's ability to carry Salmonella without displaying disease symptoms leads to an invisible propagation of Salmonella in poultry stocks. Using chicken lines more resistant to carrier state could improve both animal health and food safety. Previous studies identified several QTL for resistance to carrier state. To improve genome coverage and QTL detection power we produced a new set of 480 informative SNP markers and genotyped a larger number of animals. Ten additional microchromosomes could be covered when compared with previous studies. These new data led to the identification of 18 QTL significant at the chromosome-wide level. The only QTL significant at the genome-wide level were identified on microchromosomes 14 and 22 and have never been identified previously. Using a higher number of animals improved the power and the precision of QTL detection. Some of the QTL newly identified are located close to candidate genes or microsatellite markers previously identified for their involvement in the genetic control of resistance to Salmonella, which confirms their interest for selection purposes.

摘要

鸡携带沙门氏菌而不表现疾病症状的能力导致沙门氏菌在禽类种群中隐形传播。使用对携带状态更具抗性的鸡系可以改善动物健康和食品安全。先前的研究确定了几个对携带状态的抗性 QTL。为了提高基因组覆盖范围和 QTL 检测能力，我们生产了一组新的 480 个信息性 SNP 标记，并对更多的动物进行了基因分型。与以前的研究相比，可以覆盖另外 10 个微染色体。这些新数据导致鉴定出 18 个在染色体水平上具有显著性的 QTL。在全基因组水平上具有显著性的唯一 QTL 位于微染色体 14 和 22 上，以前从未被鉴定过。使用更多的动物提高了 QTL 检测的能力和精度。一些新鉴定的 QTL 位于候选基因或微卫星标记附近，这些基因或微卫星标记以前因其参与沙门氏菌抗性的遗传控制而被鉴定，这证实了它们在选择目的上的重要性。

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在禽类微染色体上发现了与沙门氏菌带菌状态抗性相关的新 QTL。

New QTL for resistance to Salmonella carrier-state identified on fowl microchromosomes.

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