Genomics-Based Analysis of Antibody Response to Sheep Red Blood Cells in Chickens

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Date
2007-05-18
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Publisher
Virginia Tech
Abstract

Immune response provides vertebrates an important mechanism to fight pathogens and to reduce the incidence of diseases. Defining the molecular basis of antibody response may facilitate genetic improvement in the immune response of animals to pathogens. For almost 4 decades, antibody titers in response to challenge by sheep red blood cells (anti-SRBC) have provided an investigative tool in the efforts to define molecular mechanisms that underlie vertebrate immune response. The overall objective of this dissertation research was to identify DNA markers associated with anti-SRBC response in chickens. Specific objectives were: to develop a resource population for QTL analysis for anti-SRBC, to identify DNA markers and genes associated with primary anti-SRBC, and to evaluate the allelic frequencies in non-selected chicken populations of candidate markers associated with either high or low anti-SRBC response. These objectives tested the hypothesis that genetic control of a chicken's response to SRBC is polygenic. The resource population developed consisted of F1, backcross, and F2 derived from reciprocal crosses of birds from parental lines in the 28th generation of divergent selection for low (L) and high (H) anti-SRBC. The mean anti-SRBC titers of the parental lines were significantly different, with 11.5 for H and 2.6 for L (P<0.05). That for the 4 groups of F2 progeny ranged from 6.3 to 7.5, while those of the 8 groups of backcross progeny ranged from 3.9 to 13.3. Four of 555 random primers used to screen the parental H and L anti-SRBC lines were informative by amplifying seven line-specific fragments (P<0.0025). Each of the 7 line-specific fragments was converted to a sequence characterized amplified region (SCAR) within which single nucleotide polymorphisms (SNPs) were identified and tested for association with anti-SRBC. Only two of the seven SCARs in the parental lines were associated (P<0.05) with anti-SRBC level in the backcross resource population. Additionally, from analysis of the parental L and H anti-SRBC lines using microarrays, a total of 57 line-specific SNPs were also identified. Twenty of the line-specific SNPs were in and/or near genes previously reported to have immunity-related function. Microarray-based gene expression profiling of pooled RNA samples from L and H anti-SRBC birds identified three differentially expressed genes. In summary, this dissertation describes resources that include candidate SCARs and SNPs as well as differentially expressed genes that may be useful for the identification of genes that underlie antibody response.

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Keywords
Gallus gallus, antibody response to sheep red blood cells, quantitative trait locus
Citation