Gene editing tech for 20 November 2025

by Vajiram & Ravi - 20 November 2025

Vajiram & Ravi provides Daily Gene editing tech for 20 November 2025, tailored for aspirants. We cover all relevant news and events crucial for the exam, ensuring you stay updated & well-prepared.

Indigenous Gene Editing Technology to Make GE Crops Cheaper in India

November 20, 2025
Gene Editing Tech

Gene Editing Tech Latest News

  • Indian scientists have created a homegrown, “miniature” alternative to the globally patented CRISPR-Cas system for precise genome editing in plants. 
    • CRISPR-Cas is a natural bacterial defense system adapted for genome editing. 
    • It uses a guide RNA to lead a Cas enzyme, such as Cas9, to a specific DNA sequence. 
    • The Cas enzyme cuts the DNA at that exact spot, and the cell’s repair machinery is then used to insert, delete, or modify genes with precision.
  • The new technology, recently patented by the Indian Council of Agricultural Research (ICAR), uses TnpB — transposon-associated proteins — to cut and modify plant DNA. 
  • This development strengthens India’s ability to produce genome-edited (GE) crops at lower cost while reducing dependence on foreign proprietary tools.

Gene Modification Vs Gene Editing

  • Gene Modification - GM introduces foreign DNA from a different species into an organism.
    • Process: A new gene from another organism is inserted into the target organism’s genome.
    • Outcome: Produces a genetically modified organism (GMO) containing genetic material from multiple species.
    • Analogy: Like inserting a new chapter from another author into a book.
    • Example: Adding a gene from another plant species to make a crop disease-resistant. 
  • Gene Editing - Gene editing makes precise, targeted changes to an organism’s existing DNA without adding foreign genes.
    • Process: Small changes—such as deletions, corrections, or replacements—are made at specific DNA sites. It uses Molecular scissors (Cas/TnpB) and Guides RNA to direct cuts at precise DNA locations.
    • Outcome: Produces a genetically edited organism (GEO) with modified original DNA.
    • Analogy: Like correcting or deleting a word in a document.
    • Example: Removing a gene to stop an unwanted protein or correcting a mutation causing a genetic disorder.

India’s First GE Rice Varieties

  • ICAR announced two CRISPR-edited rice varieties:
    • Samba Mahsuri (IIRR) – Edited cytokinin oxidase 2 gene using CRISPR-Cas12a → higher yield.
    • MTU-1010 (IARI) – Edited DST gene using CRISPR-Cas9 → drought & salinity tolerance.
  • These varieties face commercialisation hurdles due to CRISPR patent restrictions.

Indigenous Breakthrough in Genome Editing

  • Indian scientists have developed a “miniature alternative” to CRISPR-Cas technologies using TnpB proteins, offering a fully indigenous genome-editing (GE) tool for plants. 
  • The technology, recently patented by ICAR, enables precise DNA cutting and modification to improve crop traits.

What Makes TnpB Technology Different

  • The new tool uses Transposon-associated TnpB proteins that function like Cas9/Cas12a as molecular scissors.
  • Key advantages:
    • Much smaller size (400–500 amino acids) compared to Cas9 (1,000–1,400) and Cas12a (1,300).
    • Compact size allows easy delivery via viral vectors, avoiding tissue-culture-based delivery.
    • Uses Deinococcus radiodurans-derived TnpB, enabling efficient gene editing.
      • Deinococcus radiodurans is a bacterium that can survive in extremely harsh conditions.
      • The bacterium is harmless to humans. It is useful in bioremediation and can help clean up radioactive waste.

Why TnpB-Based Editing Is a Game Changer

  • The indigenous tool allows:
    • Freedom from foreign IP control
    • Lower costs for GE crop development
    • Easier DNA delivery due to the protein’s small size
    • Potential to address NGO concerns about foreign companies dominance

Why India Needed an Alternative to CRISPR

  • CRISPR-Cas technologies are controlled globally by:
    • Broad Institute – patents for CRISPR-Cas12a
    • Corteva Agriscience – joint licensing for CRISPR-Cas9 in agriculture
  • Indian scientists can use CRISPR for research but commercial release of GE varieties requires licensing fees. 
  • Indigenous TnpB systems eliminate such IP restrictions, making GE crop development affordable and scalable.
  • ICAR has been negotiating with Broad Institute and Corteva since July 2025. They permit research use but may charge licensing fees for commercial GE crop cultivation.
    • India has requested fee waivers for small and marginal farmers.

Source: IE | AFS

Gene Editing Tech FAQs

Q1: What is the new indigenous gene-editing technology developed in India?

Ans: India’s new genome editing tool uses miniature TnpB proteins as molecular scissors, offering a compact, IP-free alternative to CRISPR for precise plant DNA modification.

Q2: How is TnpB different from CRISPR-Cas systems?

Ans: TnpB proteins are much smaller than Cas9/Cas12a, enabling easier delivery through viral vectors without tissue culture, lowering costs and simplifying genome editing.

Q3: Why does India need an alternative to CRISPR?

Ans: CRISPR tools are patented by foreign institutions, requiring license fees for commercial GE crop use. Indigenous systems avoid IP barriers and reduce dependence.

Q4: What advantages does the TnpB-based tool offer crop breeders?

Ans: It allows precise DNA editing, simpler delivery into plant cells, lower development costs, and independence from global CRISPR patents for commercial applications.

Q5: What is the future potential of India’s TnpB genome-editing tool?

Ans: Successful adoption by plant breeders can accelerate affordable GE crop development, improve yield and resilience traits, and strengthen India’s agricultural biotechnology ecosystem.

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