Fragile X syndrome in the largest world clustering. I. Genetic epidemiology and founder effect outline.

The FMR1 5' regulation gene region harbors a CGG trinucleotide repeat expansion (CGG-TRE) that causes Fragile X syndrome (FXS) when it expands to more than 200 repetitions. Ricaurte is a small village in southwestern Colombia, with an FXS prevalence of 1 in 38 men and 1 in 100 women (~100 times higher than the worldwide reported prevalence), defining Ricaurte as the largest FXS cluster in the world. In the present study, using next-generation sequencing of whole exome capture, we genotype 55 individuals from Ricaurte (49 with either full mutation or with premutation), four individuals from neighboring villages (with either the full mutation or with the premutation), and one unaffected woman, native of Ricaurte, who did not belong to any of the affected families. With advanced clustering and haplotype reconstruction, we modeled a common haplotype of 33 SNPs spanning 83,567,899 bp and harboring the FMR1 gene. This reconstructed haplotype was found in all the men from Ricaurte who carried the expansion, demonstrating that the genetic conglomerate of FXS in this population is due to a founder effect. The definition of this founder effect and its population outlining will allow a better prediction, follow-up, precise and personalized characterization of epidemiological parameters, better knowledge of the disease's natural history, and confident improvement of the clinical attention, life quality, and health interventions for this community.

Genetics of Alzheimer's Disease in the African American Population.

Black/African American (AA) individuals have a higher risk of Alzheimer's disease (AD) than White non-Hispanic persons of European ancestry (EUR) for reasons that may include economic disparities, cardiovascular health, quality of education, and biases in the methods used to diagnose AD. AD is also heritable, and some of the differences in risk may be due to genetics. Many AD-associated variants have been identified by candidate gene studies, genome-wide association studies (GWAS), and genome-sequencing studies. However, most of these studies have been performed using EUR cohorts. In this paper, we review the genetics of AD and AD-related traits in AA individuals. Importantly, studies of genetic risk factors in AA cohorts can elucidate the molecular mechanisms underlying AD risk in AA and other populations. In fact, such studies are essential to enable reliable precision medicine approaches in persons with considerable African ancestry. Furthermore, genetic studies of AA cohorts allow exploration of the ways the impact of genes can vary by ancestry, culture, and economic and environmental disparities. They have yielded important gains in our knowledge of AD genetics, and increasing AA individual representation within genetic studies should remain a priority for inclusive genetic study design.

Whole-Exome Sequencing Indicated New Candidate Genes Associated with Unilateral Cryptorchidism in Pigs.

INTRODUCTION: Cryptorchidism is a hereditary anomaly characterized by the incomplete descent of one or both testicles to the scrotum. One of the challenges of this anomaly is that the retained testicle maintains its endocrine function. As a consequence, cryptorchid animals produce hormone-tainted meat in comparison to castrated animals and are likely to be more aggressive. Cryptorchidism can lead to reduced animal welfare outcomes and cause economic losses. Identifying genetic markers for cryptorchidism is an essential step toward mitigating these negative outcomes and may facilitate genome manipulation to reduce the occurrence of cryptorchidism. Attempts to identify such markers have used genome-wide association studies. Using whole-exome sequencing, we aimed to identify single nucleotide polymorphisms (SNPs) in the coding regions of cryptorchid pigs and to characterize functional pathways concerning these SNPs. METHODS: DNA was extracted and sequenced from 5 healthy and 5 cryptorchid animals from the Landrace breed, using the Illumina HiSeq 2500 platform. Data were pre-processed using the SeqyClean tool and further mapped against the swine reference genome (Sus scrofa 11.1) using BWA software. GATK was used to identify polymorphisms (SNPs and InDels), which were annotated using the VEP tool. Network prediction and gene ontology enrichment analysis were conducted using the Cytoscape platform, and STRING software was used for visualization. RESULTS: A total of 63 SNPs were identified across the genes PIGB, CCPG1, COMMD9, LDLRAD3, TRIM44, MYLPF, SEPTIN, ZNF48, TIA1, FAIM2, KRT18, FBP1, FBP2, CTSL, DAPK1, DHX8, GPR179, DEPDC1B, ENSSSCG00000049573, ENSSSCG00000016384, ENSSSCG00000022657, ENSSSCG00000038825, and ENSSSCG00000001229. Using pathway enrichment analyses and network prospection, we have identified the following significant adjusted p value threshold of 0.001 involved with the biological function pathways of estrogen signaling, cytoskeleton organization, and the pentose phosphate pathway. CONCLUSION: Our data suggest the involvement of new SNPs and genes in developing cryptorchidism in pigs. However, further studies are needed to validate our results in a larger cohort population. Variations in the GPR179 gene, with implications at the protein level, may be associated with the appearance of this anomaly in the swine. Finally, we are showing that the estrogen signaling pathway may be involved in the pathophysiological mechanisms of this congenital anomaly as previously reported in GWAS.

Avances genómicos de la última década y su influencia en el enfoque diagnóstico de la discapacidad intelectual / Genomic advances in the last decade and their influence in the diagnosis of intellectual disability

RESUMEN La inteligencia humana es un rasgo poligénico (~1000 genes) con una influencia de cada gen aproximadamente ascendente al 0,1%. Es un atributo indispensable para el desarrollo personal, familiar, social y económico y tiene, además, una relación directamente proporcional al mantenimiento de la salud y a una mayor esperanza de vida. La discapacidad intelectual, consecuentemente, afecta todas estas áreas y constituye un problema de salud pública en varios países de Latinoamérica en los que exhibe una prevalencia mayor al 10%. La etiología de la discapacidad intelectual sea aislada o sindrómica, es genética hasta en un 85% de los casos; se diagnostica mediante las nuevas tecnologías de búsqueda en el genoma, tales como la secuenciación masiva y el análisis cromosómico por micromatrices. El diagnóstico etiológico de la discapacidad intelectual permite la selección de terapias específicas, la determinación del pronóstico y de riesgos de recurrencia familiar e individual.

SUMMARY Human intelligence is a polygenic trait (~1000 genes), with an approximate influence of 0.1% per every individual gen. It is an indispensable attribute for personal, familial, social, and economic development; furthermore, it is directly proportional to health maintenance and a longer life expectancy. Consequently, intellectual disability affects all these areas, and constitutes a public health problem in several Latin American countries where it shows a >10%. In ~85% of the patients, the etiology of intellectual disability, be that isolated or syndromic; it is mostly diagnosed through the new technological search studies of the genome, such as new generation sequencing and/or chromosomal microarray analysis. The clinical and etiological diagnosis of intellectual disability, when duly confirmed, allows the choice of specific treatment modalities, the precise determination of prognosis, and the estimation of individual or familial recurrence risks.