Health Sector – UHC, National Health Policy, Family Planning, Health Insurance, etc.

Somatic Genetic Variants: A genomic revolution hiding inside our cells

Note4Students

From UPSC perspective, the following things are important :

Prelims level: Somatic genetic variants

Mains level: Not Much

somatic gene

Central Idea

  • The human genome, comprising 23 pairs of chromosomes, is the blueprint of our genetic makeup inherited from our parents.
  • The replication of this genetic information in nearly a trillion cells during development results in a complex mosaic of cellular diversity.
  • Despite remarkable DNA replication accuracy, mutations still occur.

What are Somatic Genes?

  • Somatic genetic variants, also known as somatic mutations or somatic alterations, are genetic changes that occur in the cells of an organism’s body (somatic cells) during its lifetime.
  • These mutations are distinct from germline mutations, which are inherited from parents and are present in every cell of an individual’s body.
  • Somatic mutations are acquired after conception and are not passed on to future generations.
  • Somatic mutations can occur due to various factors, such as exposure to environmental mutagens (like radiation or chemicals), errors in DNA replication, and other cellular processes.
  • These mutations can affect the DNA sequence of specific genes, leading to changes in protein production or function.

DNA Replication: The Copy-Paste Mechanism

  • Genetic Inheritance: Ovum and sperm carry parental genetic blueprints, which combine after fertilization.
  • Cell Division: The single fertilized cell, with 23 chromosomes, multiplies to form the human body’s trillions of cells.
  • DNA Replication Accuracy: Proteins proofread and correct DNA during replication, resulting in an error rate of 0.64-0.78 mutations per billion base pairs per division.

Impact of Somatic Genetic Mutations

  • Dependent on Timing: Errors occurring after birth but during development are somatic genetic mutations.
  • Driver Mutations: Mutations that confer a fitness advantage to cells can lead to tumor formation and are called driver mutations.
  • Cellular Mosaic: Human body is a mosaic of cells with subtle genomic differences, influenced by somatic genetic variants.
  • Genetic Variants: Genetic variants within functional genome regions can affect protein encoding and regulation.

Somatic Variants and Physiological Processes

  • Immune Cell Diversity: Immune cells undergo extensive somatic changes to create diverse antibodies recognise pathogens.
  • Recent Knowledge Explosion: Technological advancements in sequencing individual cells have led to an explosion of data and knowledge on somatic variants.
  • Cancer’s Role: Somatic genetic variants play a significant role in cancer development, aiding in early detection, diagnosis, and prognosis.

Cancer Mutational Signatures

  • Mutational Signatures: Specific genetic variations and patterns are characteristic of certain cancers, enabling early detection.
  • Blood-Based Detection: Technologies identify tumour DNA in blood to detect cancer early.
  • Disease Progress Tracking: Cancer variations can be used to monitor disease progression and therapy response.

Somatic Variants in Genetic Diseases

  • Genetic Diseases Origin: Many genetic disorders arise from somatic genetic variants, not inherited from parents.
  • Disease Severity and Timing: The severity and distribution of genetic diseases depend on the timing of somatic mutations during development.
  • Immune Disorders: Somatic changes can cause immune disorders and even beneficially reverse some genetic diseases.

SMaHT Network: Understanding Somatic Mosaicism

  • Somatic Mosaicism: US has launched the ‘Somatic Mosaicism across Human Tissues’ (SMaHT) Network.
  • Aims: SMaHT aims to discover somatic variants, develop tools for study, and improve analysis for biological and clinical insights.
  • Investment and Research: The U.S. government has invested $140 million to study somatic variants in post-mortem samples.

Implications and Future Prospects

  • Cellular Complexity: Studying somatic variants reveals the intricate diversity of cells and reshapes evolutionary understanding.
  • Disease Management: Understanding somatic genetic changes can advance disease understanding and management.
  • Innovative Approaches: Analyzing genes at the single-cell level paves the way for innovative disease approaches and insights into evolution.

Get an IAS/IPS ranker as your 1: 1 personal mentor for UPSC 2024

Attend Now

Subscribe
Notify of
0 Comments
Inline Feedbacks
View all comments

JOIN THE COMMUNITY

Join us across Social Media platforms.

💥Mentorship December Batch Launch
💥💥Mentorship December Batch Launch