At exRNA Agro, we are revolutionizing agricultural practices by harnessing the power of bacterial extracellular RNA (exRNA) to accelerate crop growth and enhance resilience. Our pioneering research focuses on utilizing exRNA to promote faster growth and improved flourishing of crops, surpassing traditional growth methods.
Through extensive studies and trials, our team has developed a novel approach where bacterial exRNA has been shown to stimulate vital plant processes — leading to accelerated growth rates and better overall health compared to control crops. This groundbreaking technique involves isolating and applying exRNA derived from beneficial bacteria, known for their natural ability to influence plant growth, nutrient uptake, and disease resistance.
We have unlocked new pathways for improving crop productivity and resilience. Our research not only opens new avenues for sustainable farming practices but also provides a practical solution for addressing global food security challenges.
With a commitment to scientific excellence and cutting-edge biotechnology, we are shaping the future of agriculture — empowering farmers with effective, environmentally friendly solutions that foster stronger, healthier crops.
At exRNA Agro, we envision a world where crop protection is as precise as medicine. By bridging the gap between molecular biology and field agriculture, we aim to eliminate the dependency on harsh chemical pesticides through bio-intelligent solutions.
Every product line at exRNA Agro maps to one of these four focus areas — and is tested against them before it reaches a grower.
Improving plant growth, yield, and nutrient efficiency through advanced biological strategies.
Leveraging extracellular RNA biology to regulate plant responses and stress adaptation.
Enhancing soil fertility and microbial balance for sustainable agriculture.
Developing natural molecular solutions to strengthen plant immunity.
Every solution at exRNA Agro is moved through the same disciplined sequence — from computational analysis to in-vitro propagation, then through controlled, semi-controlled, and natural growing environments. A solution only graduates to the next stage once it proves itself in the previous one.
In in-silico analysis, we evaluate gene regulation patterns and conduct detailed genomic studies to understand both regulatory and non-regulatory elements. This process helps us analyse gene behaviour, interactions, and functional roles using computational tools — enabling accurate interpretation of biological data for research and application purposes.
Our Plant Tissue Culture Laboratory supports rapid, disease-free plant propagation and cellular-level research in a fully sterile, controlled environment. Equipped with growth chambers, sterilization systems, and culture racks, the lab enables precise in-vitro development, maintains genetic purity, and prevents contamination — multiplying elite plant varieties before they move to polyhouse, greenhouse, and open field conditions.
In the polyhouse, we work under controlled environmental conditions to promote sustainable agriculture and systematically evaluate crop performance. Here, temperature, humidity, irrigation, and light exposure are carefully regulated to create an ideal microclimate for crop growth.
The greenhouse trials allow us to test how crops adapt when exposed to variable light intensity, airflow, and external climate influences while still receiving structural protection.
In the open field, crops are grown entirely under natural environmental conditions without any artificial control. Plants are exposed to natural temperature, natural humidity, sunlight, rainfall, soil conditions, and real pest and disease pressure — allowing us to observe how crops perform in a true farming environment.
Our credibility lives at the intersection of rigorous science, real-world validation, and a commitment to sustainability.
Every product begins with peer-grade biology — not marketing claims.
Each solution moves through Polyhouse → Greenhouse → Field before it reaches a grower.
RNA-based, biodegradable inputs that work with — not against — the ecosystem.
Outputs that show up on the balance sheet: higher yield, fewer losses, stronger crops.
A next-generation toolkit for growers, cooperatives, and research partners.
Every metric here represents a real shift for growers — measurable in the field, on the soil, and on the farm balance sheet.
Stronger plants, denser produce, and more consistent harvests across seasons.
Lower pesticide, fungicide, and synthetic-fertiliser loads at the field level.
Living soils that hold water, cycle nutrients, and rebuild themselves over time.
Crops better equipped to handle heat, drought, and emerging pest pressure.
exRNA Agro’s roadmap is built around scaling validation, broadening the product portfolio, and deepening institutional partnerships.
Expand large-scale, multi-state field trials across Indian agro-climatic zones.
Develop a portfolio of farmer-ready RNA biostimulants for major Indian crops.
Integrate molecular diagnostics with precision-ag platforms and decision tools.
Deepen partnerships with research institutions and agricultural universities.
exRNA Agro works alongside its sister organizations — sharing scientific platforms, research infrastructure, and a shared commitment to the regions we serve.
Research institutions, agri-businesses, and farmer cooperatives — we'd love to hear from you.