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హ్యూమన్ జెనెటిక్స్ & ఎంబ్రియాలజీ

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వాల్యూమ్ 14, సమస్య 2 (2023)

మినీ సమీక్ష

Exploring Genetic Linkages: Unraveling the Connections Between Genes and Traits

Fedrick James*

The phenomenon of genetic linkage arises from the fact that chromosomes are long strands of DNA that contain numerous genes. During meiosis, the process of cell division that produces gametes (sperm or eggs), homologous chromosomes pair up. When genes are located on the same chromosome, they tend to stay together and are passed on to the next generation as a unit. Genetic linkage is a fundamental concept in genetics that describes the tendency of genes located close to each other on a chromosome to be inherited together more frequently than expected by chance. This phenomenon occurs because genes that are physically close to each other on the same chromosome have a lower chance of undergoing recombination, the exchange of genetic material, during meiosis.

మినీ సమీక్ష

Advances in DNA Sequencing Technologies: Revolutionizing Gene Mapping and Beyond

Nelin Dexico*

DNA sequencing technologies have undergone remarkable advancements in recent years, revolutionizing the field of gene mapping and opening new avenues for genetic research. This paper provides an overview of the latest developments in DNA sequencing techniques and their impact on gene mapping and related fields. We discuss the evolution from Sanger sequencing to Next-Generation Sequencing (NGS) platforms, highlighting their advantages, limitations, and applications. Furthermore, we explore the role of DNA sequencing in unraveling genetic variations, identifying disease-causing mutations, and elucidating complex traits through Genome-Wide Association Studies (GWAS). The integration of DNA sequencing with bioinformatics tools has paved the way for efficient data analysis, enabling the identification of genetic markers, structural variants, and epigenetic modifications. We also discuss emerging trends such as long-read sequencing, single-cell sequencing, and nanopore sequencing, which promise to further enhance our understanding of genomic complexity.

మినీ సమీక్ష

Unveiling the Genetic Symphony: Exploring the Intricacies of Gene Expression

Leo Pavin*

Genetic expression is a fundamental process that governs how genes in our DNA are activated or silenced, ultimately shaping our traits, physiology, and overall biological functioning. This intricate process involves a complex network of molecular interactions and regulatory mechanisms that control when and to what extent genes are transcribed into functional molecules such as proteins. This article aims to delve into the fascinating world of genetic expression, shedding light on the mechanisms involved, their significance in various biological processes, and the factors that influence gene regulation. Histone modifications refer to chemical alterations of proteins called histones, which play a crucial role in organizing and packaging DNA. These modifications can activate or suppress gene expression by altering the accessibility of genes to transcription factors. Additionally, non-coding RNA molecules, once considered "junk DNA," have emerged as key players in gene regulation. They can interfere with gene expression by binding to RNA molecules or chromatin and modulating gene activity.

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