Homology-directed recombination, i.e. the preferential joining of gene segments at short sequence homologies, is found in 80% of IgH variable region genes from neonatal mice and causes a marked uniformity of their VH-DH- and DH-JH-junctions, which are predominated by one to three junctional sequences. To analyze the impact of homology-directed recombination on IgH gene diversity in humans, IgH rearrangements from fetuses and neonates (gestational age 20-42 weeks), infants (age 1-27 months) and adults were cloned and sequenced. As a marker of homology-directed recombination the VH-DH- and DH-JH-junctions were searched for nucleotides that could have been encoded by each of the two adjacent gene segments. Such overlapping sequences were rare (<3%) in VH-DH-junctions from newborns, infants, and adults. In contrast, overlapping sequences were found in 30% of the DH-JH-junctions from preterm neonates. Their frequency decreased with age to 19% in term neonates, 12% in infants and 4% in adults (p<0.001). Our analysis of the five most common DH-JH-combinations in neonates demonstrated that overlapping nucleotides reduced diversity: only 48% of junctions with overlapping nucleotides were different compared to 99% of junctions with N-insertions between DH and JH (p<0.001). However, homology-directed recombination had a much smaller effect on overall junctional diversity in human neonates than in neonatal mice because it rarely occurred in VH-DH-junctions and affected only 19% (term neonates) to 30% (preterm neonates) of the DH-JH-junctions. Therefore, unlike in mice, homology-directed recombination does not cause junctional uniformity in human neonates.

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http://dx.doi.org/10.1016/j.molimm.2007.01.003DOI Listing

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