Marie J. Kidd scite author profile

The existence of many highly similar genes in the lymphocyte receptor gene loci makes them difficult to investigate, and the determination of phased “haplotypes” has been particularly problematic. However, V(D)J gene rearrangements provide an opportunity to infer the association of Ig genes along the chromosomes. The chromosomal distribution of H chain genes in an Ig genotype can be inferred through analysis of VDJ rearrangements in individuals who are heterozygous at points within the IGH locus. We analyzed VDJ rearrangements from 44 individuals for whom sufficient unique rearrangements were available to allow comprehensive genotyping. Nine individuals were identified who were heterozygous at the IGHJ6 locus and for whom sufficient suitable VDJ rearrangements were available to allow comprehensive haplotyping. Each of the 18 resulting IGHV|IGHD|IGHJ haplotypes was unique. Apparent deletion polymorphisms were seen that involved as many as four contiguous, functional IGHV genes. Two deletion polymorphisms involving multiple contiguous IGHD genes were also inferred. Three previously unidentified gene duplications were detected, where two sequences recognized as allelic variants of a single gene were both inferred to be on a single chromosome. Phased genomic data brings clarity to the study of the contribution of each gene to the available repertoire of rearranged VDJ genes. Analysis of rearrangement frequencies suggests that particular genes may have substantially different yet predictable propensities for rearrangement within different haplotypes. Together with data highlighting the extent of haplotypic variation within the population, this suggests that there may be substantial variability in the available Ab repertoires of different individuals.

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The Shape of the Lymphocyte Receptor Repertoire: Lessons from the B Cell Receptor

Jackson¹,

Kidd²,

Wang³

et al. 2013

Front. Immunol.

106

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Both the B cell receptor (BCR) and the T cell receptor (TCR) repertoires are generated through essentially identical processes of V(D)J recombination, exonuclease trimming of germline genes, and the random addition of non-template encoded nucleotides. The naïve TCR repertoire is constrained by thymic selection, and TCR repertoire studies have therefore focused strongly on the diversity of MHC-binding complementarity determining region (CDR) CDR3. The process of somatic point mutations has given B cell studies a major focus on variable (IGHV, IGLV, and IGKV) genes. This in turn has influenced how both the naïve and memory BCR repertoires have been studied. Diversity (D) genes are also more easily identified in BCR VDJ rearrangements than in TCR VDJ rearrangements, and this has allowed the processes and elements that contribute to the incredible diversity of the immunoglobulin heavy chain CDR3 to be analyzed in detail. This diversity can be contrasted with that of the light chain where a small number of polypeptide sequences dominate the repertoire. Biases in the use of different germline genes, in gene processing, and in the addition of non-template encoded nucleotides appear to be intrinsic to the recombination process, imparting “shape” to the repertoire of rearranged genes as a result of differences spanning many orders of magnitude in the probabilities that different BCRs will be generated. This may function to increase the precursor frequency of naïve B cells with important specificities, and the likely emergence of such B cell lineages upon antigen exposure is discussed with reference to public and private T cell clonotypes.

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Rapid isolation of CA microsatellites from the tilapia genome

et al. 2002

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We have developed (CA)n microsatellite markers for the cichlid fish, Oreochromis niloticus using a variation of the hybrid capture method. The resulting genomic library was highly enriched in repetitive DNA with 96% of clones containing CA repeats. The number of repeats ranged from four to 45 with an average of 19. Two-thirds of the sequenced clones had 12 or more repeats and sufficient flanking sequence to design primers. The resulting markers were tested in an F2 cross of O. niloticus x O. aureus. Nearly 90% of the markers amplified in this cross and 74% of these were informative. This work demonstrates the importance of minimizing the number of polymerase chain reaction (PCR) amplification cycles before and after the enrichment steps to reduce PCR recombination and the generation of chimaeric clones.

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DJ Pairing during VDJ Recombination Shows Positional Biases That Vary among Individuals with Differing IGHD Locus Immunogenotypes

Kidd

Jackson

Boyd

et al. 2016

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Human immunoglobulin heavy chain diversity is influenced by biases in the pairing of IGHD and IGHJ genes, but these biases have not been described in detail. We have used high throughput sequencing of VDJ rearrangements to explore DJ pairing biases in twenty-nine individuals. It was possible to infer three contrasting IGHD-IGHJ haplotypes in nine of these individuals, and two of these haplotypes include deletion polymorphisms involving multiple contiguous IGHD genes. We were therefore able to explore how the underlying genetic makeup of the heavy chain locus influences the formation of particular DJ pairs. Analysis of non-productive rearrangements demonstrates that 3′ IGHD genes tend to pair preferentially with 5′ IGHJ genes, while 5′ IGHD genes pair preferentially with 3′ IGHJ genes, and the relationship between IGHD gene pairing frequencies and IGHD gene position is a near linear one for each IGHJ gene. Striking differences are seen, however, in individuals who carry deletion polymorphisms in the D locus. The absence of different blocks of IGHD genes lead to increases in the utilization frequencies of just a handful of genes, and these genes have no clear positional relationships to the deleted genes. This suggests that pairing frequencies may be influenced by additional complex positional relationships that arise perhaps from chromatin structure. In contrast to IGHD gene usage, IGHJ gene usage is unaffected by the IGHD gene deletion polymorphisms. Such an outcome would be expected if the recombinase complex associates first with an IGHJ gene, before associating with an IGHD gene partner.

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Marie J. Kidd

The Inference of Phased Haplotypes for the Immunoglobulin H Chain V Region Gene Loci by Analysis of VDJ Gene Rearrangements

The Shape of the Lymphocyte Receptor Repertoire: Lessons from the B Cell Receptor

Rapid isolation of CA microsatellites from the tilapia genome

DJ Pairing during VDJ Recombination Shows Positional Biases That Vary among Individuals with Differing IGHD Locus Immunogenotypes

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