DR haplotype diversity of the cynomolgus macaque as defined by its transcriptome

The DR region of particular primate species may display allelic polymorphism and gene copy number variation (region configuration polymorphism). The sum of these distinct types of polymorphism is defined as complexity. To date, however, the DR region of cynomolgus macaques (Macaca fascicularis) has been poorly defined. Transcriptome analysis of a pedigreed colony, comprising animals from Indonesia and Indochina, revealed a total of 15 Mafa-DRA and 57 DRB alleles, specifying 28 different region configurations. The DRA alleles can be divided into two distinct lineages. One lineage is polymorphic, but the majority of the amino acid replacements map to the leader peptide. The second lineage is at best oligomorphic, and segregates with one specific Mafa-DRB allele. The number of Mafa-DRB genes ranges from two to five per haplotype. Due to the presence of pseudogenes, however, each haplotype encodes only one to three bona fide DRB transcripts. Depending on the region configuration in which the Mafa-DRB gene is embedded, identical alleles may display differential transcription levels. Region configurations appear to have been generated by recombination-like events. When genes or gene segments are relocated, it seems plausible that they may be placed in the context of distinct transcription control elements. As such, DRB region-related transcription level differences may add an extra layer of polymorphism to this section of the adaptive immune system

Haplotype analysis of common transthyretin mutations

The most frequent transthyretin (TTR) variant associated with hereditary amyloidosis is TTR Met 30, which has its major focus in Portugal, although it also occurs in many other countries. The distribution of the mutation and its occurrence in a CpG dinucleotide lead us to question the origin of the mutation and the possibility of its having originated in Portugal. In order to investigate these questions, we studied the distribution of haplotypes associated with the Met 30 mutation in families from different European countries. All the analysed Portuguese families presented the same haplotype associated with the Met 30 mutation (haplotype I). The same was found for the Swedish and Spanish families studied. However, a distinct haplotype (haplotype III) was found in three families, one Italian, one English and one Turkish. These results suggest that, although the Portuguese Met 30 carriers might have one founder, the mutation probably recurred in populations in Europe in a similar manner to that reported in Japan. In this study, we have also analysed the haplotypes associated with other TTR variants frequent in the Portuguese populatio