Molecular characterisation of sickle cell disease and classification of major haplotypes associated with the ß-globin cluster (HBB gene) by means of SNP marker sequencing in a group of samples from Bolívar, Colombia.

BACKGROUND: Colombia has a mestizo population and the prevalence of haemoglobin variants varies according to each region, but heterozygous carriers can be found in all of them. AIM: To characterise sickle cell disease (SCD) haematologically, biochemically, and molecularly, and detect classic haplotypes by DNA sequencing in a group of samples from Bolívar, Colombia. SUBJECTS AND METHODS: Blood samples were collected after informed consent from volunteers from eight communities in the Bolívar department, plus samples from the Pacific region, Providencia Island, and Bogotá were included. Data were obtained from: (1) haematological analyses; (2) biochemical tests: dHPLC was used to determine haemoglobin (Hb); and (3) DNA sequencing data through five SNPs. RESULTS: 101 samples were identified by rs334 through Sanger's Sequencing, structural haemoglobinopathies HbAS (34.65%), HbSS (2.97%) and HbAC (1.98%) were found. When contrasting the Hb identification results between SNP rs334 Vs. dHPLC/Isoelectric Focusing (IEF), a coincidence was found in 39/43 samples analysed, therefore, when comparing these techniques, a significant correlation was found (Pearson's correlation coefficient r = 0.998). 26 samples previously analysed by rs334 were classified into classical haplotypes CAR (50.0%), BEN (30.76%), CAM (7.69%), SEN (3.84%), and ATP-I (7.69%). CONCLUSIONS: SCD characterisation and SNPs-based classification through Sanger's DNA sequencing have not been performed before in Colombia. The results of this work will make it possible to expand the data or records of carriers and those affected, which will benefit patients and their families.

Unraveling the Genetic Threads of History: mtDNA HVS-I Analysis Reveals the Ancient Past of the Aburra Valley.

This article presents a comprehensive genetic study focused on pre-Hispanic individuals who inhabited the Aburrá Valley in Antioquia, Colombia, between the tenth and seventeenth centuries AD. Employing a genetic approach, the study analyzed maternal lineages using DNA samples obtained from skeletal remains. The results illuminate a remarkable degree of biological diversity within these populations and provide insights into their genetic connections with other ancient and indigenous groups across the American continent. The findings strongly support the widely accepted hypothesis that the migration of the first American settlers occurred through Beringia, a land bridge connecting Siberia to North America during the last Ice Age. Subsequently, these early settlers journeyed southward, crossing the North American ice cap. Of particular note, the study unveils the presence of ancestral lineages from Asian populations, which played a pivotal role in populating the Americas. The implications of these results extend beyond delineating migratory routes and settlement patterns of ancient populations. They also enrich our understanding of the genetic diversity inherent in indigenous populations of the region. By revealing the genetic heritage of pre-Hispanic individuals from the Aburrá Valley, this study offers valuable insights into the history of human migration and settlement in the Americas. Furthermore, it enhances our comprehension of the intricate genetic tapestry that characterizes indigenous communities in the area.

High Mitochondrial Haplotype Diversity Found in Three Pre-Hispanic Groups from Colombia.

The analysis of mitochondrial DNA (mtDNA) hypervariable region (HVR) sequence data from ancient human remains provides valuable insights into the genetic structure and population dynamics of ancient populations. mtDNA is particularly useful in studying ancient populations, because it is maternally inherited and has a higher mutation rate compared to nuclear DNA. To determine the genetic structure of three Colombian pre-Hispanic populations and compare them with current populations, we determined the haplotypes from human bone remains by sequencing several mitochondrial DNA segments. A wide variety of mitochondrial polymorphisms were obtained from 33 samples. Our results support a high population heterogeneity among pre-Hispanic populations in Colombia.

Anemia falciforme: una revisión sobre el genotipo de la enfermedad, haplotipos, diagnóstico y estudios asociados / Disease genotype, haplotypes, diagnosis and associated studies in sickle cell anemia

Sickle cell anemia is a type of hemoglobinopathy characterized by a specific mutation in the beta globin gene with the consequent generation of an unstable hemoglobin that crystallizes in a state of hypoxia. This causes a change in the structure of the red blood cell, which ends up producing vaso-occlusion with the corresponding clinical complications for the patient. Worldwide, various diagnostic tests have been developed that allow the appropriate approach to the affected patient. These include techniques for the determination of hemoglobin and the use of molecular markers, among others. There are new therapeutic alternatives to the use of hydroxyurea and L-glutamine, such as the use of gene therapy tools. The most recent experimental trials are exploring gene editing techniques.

[Disease genotype, haplotypes, diagnosis and associated studies in sickle cell anemia]. / Anemia falciforme: una revisión sobre el genotipo de la enfermedad, haplotipos, diagnóstico y estudios asociados.

Sickle cell anemia is a type of hemoglobinopathy characterized by a specific mutation in the beta globin gene with the consequent generation of an unstable hemoglobin that crystallizes in a state of hypoxia. This causes a change in the structure of the red blood cell, which ends up producing vaso-occlusion with the corresponding clinical complications for the patient. Worldwide, various diagnostic tests have been developed that allow the appropriate approach to the affected patient. These include techniques for the determination of hemoglobin and the use of molecular markers, among others. There are new therapeutic alternatives to the use of hydroxyurea and L-glutamine, such as the use of gene therapy tools. The most recent experimental trials are exploring gene editing techniques.