Research Topic · Peer-Reviewed

Genetic Analysis

Genetic analysis is the systematic study of genes, chromosomes, and DNA and RNA sequences to determine their structure, variation, inheritance, and contribution to phenotype. It encompasses a continuum of methods, from classical pedigree and linkage approaches that trace traits through families, to molecular techniq…

Curated from this journal's research 📚 8 peer-reviewed articles cited Cited 20× across the literature 🔖 ISSN 2694-1198 🗓 Reviewed July 2026

Overview

Genetic analysis is the systematic study of genes, chromosomes, and DNA and RNA sequences to determine their structure, variation, inheritance, and contribution to phenotype. It encompasses a continuum of methods, from classical pedigree and linkage approaches that trace traits through families, to molecular techniques such as DNA sequencing, genotyping, and cytogenetics that resolve mutations, polymorphisms, and chromosomal rearrangements at high resolution. In clinical contexts, molecular analysis of specific genes identifies disease-causing variants, as in the characterization of metabolic disorders where mutations in enzyme-encoding genes such as those of the pterin and phenylalanine pathways explain biochemical phenotypes, or in inherited bleeding disorders attributable to defects in coagulation-factor genes. Cytogenetic investigation, including the detection of structural abnormalities and translocations, supports diagnosis and prognosis in haematological malignancies. Beyond medicine, genetic analysis underpins plant breeding and crop improvement, where it quantifies genetic diversity, constructs phylogenetic relationships, and links morphological and metabolic traits to underlying loci to guide precision selection. Population-level applications address inbreeding, heritability, and the distribution of variants across groups. Increasingly, genetic analysis is integrated with bioinformatics and pathway modelling, allowing researchers to interpret variants within networks and to connect genotype to molecular mechanism and to observable biological outcomes.

Research published in this journal

8 peer-reviewed articles, ranked by relevance. Each links to its DOI.

2014

Bioinformatics of Metabolomics in Diabetes Mellitus Type 2

Ahmad Sliem HamdyCorresponding author
Biochemistry and internal Medicine*, Basic oral and medical sciences, College of dentistry, Qassim University, Saudi Arabia
Exact topic Bioinformatics And Diabetes Cited by 2 doi:10.14302/issn.2374-9431.jbd-13-212
2019

Robust Sampling of Defective Pathways in Parkinson Disease

Luis Fernández-Martínez JuanCorresponding author
Group of Inverse Problems, Optimization and Machine Learning. Department of Mathematics. C/ Federico García Lorca, 18. 33007 Oviedo. University of Oviedo. Spain
Medical Informatics and Decision Making Cited by 2 doi:10.14302/issn.2641-5526.jmid-18-2529

How this research is being cited

The 8 articles above have been cited 20 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.

A sample of recent works citing this journal's research on Genetic Analysis, linking to each citing work.

Editorial oversight

Curated from peer-reviewed research published in Genetic Engineering (ISSN 2694-1198).

Journal editorial board
Gabriela Roca · Germany Khalid Al-Nedawi · Canada Giuliana Giardino · Italy

This page summarises published research for orientation; it is not medical or professional advice.