The HKαα allele is a rearrangement occurring in the α-globin gene cluster containing both the -α(3.7) and ααα(anti4.2) unequal crossover junctions. The anti-HKαα allele is the reciprocal product containing both the -α(4.2) and ααα(anti3.7) unequal crossover junctions, which had been predicted but had not been detected previously. The phenotypic feature and population frequency of these two unusual alleles were not described. We report the identification of nine individuals carrying the HKαα allele and two individuals carrying the anti-HKαα allele in southern China and describe their phenotype and haplotype data. The molecular structures of HKαα allele and anti-HKαα allele were confirmed by two-round nested polymerase chain reaction assay. The mechanism of origin of both alleles is related to probably simultaneous double crossover. Heterozygotes of HKαα or anti-HKαα allele show a normal hematological phenotype. Finally, we report the carrier rates of these both alleles in the Guangxi Zhuang Autonomous Region of southern China, namely, ∼0.07% for the HKαα allele and ∼0.02% for the anti-HKαα allele.
Bipolar disorder affects about 1% of the world's population, and its estimated heritability is about 75%. Only few whole genome or whole-exome sequencing studies in bipolar disorder have been reported, and no rare coding variants have yet been robustly identified. The use of isolated populations might help finding variants with a recent origin, more likely to have drifted to higher frequency by chance. Following this approach, we investigated 28 bipolar cases and 214 controls from the Faroe Islands by whole exome sequencing, and the results were followed-up in a British sample of 2025 cases and 1358 controls. Seventeen variants in 16 genes in the single-variant analysis, and 3 genes in the gene-based statistics surpassed exome-wide significance in the discovery phase. The discovery findings were supported by enrichment analysis of common variants from genome-wide association studies (GWAS) data and interrogation of protein–protein interaction networks. The replication in the British sample confirmed the association with NOS1 (missense variant rs79487279) and NCL (gene-based test). A number of variants from the discovery set were not present in the replication sample, including a novel PITPNM2 missense variant, which is located in a highly significant schizophrenia GWAS locus. Likewise, PIK3C2A identified in the gene-based analysis is located in a combined bipolar and schizophrenia GWAS locus. Our results show support both for existing findings in the literature, as well as for new risk genes, and identify rare variants that might provide additional information on the underlying biology of bipolar disorder.
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