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Biotechnological Applications in Agriculture

Let us take a look at the three options that can be thought for increasing food production
(i) agro-chemical based agriculture;
(ii) organic agriculture; and
(iii) genetically engineered crop-based agriculture.
Chemicals in AgricultureChemicals in Agriculture

The Green Revolution succeeded in tripling the food supply but yet it was not enough to feed the growing human population. Increased yields have partly been due to the use of improved crop varieties, but mainly due to the use of better management practices and use of agrochemicals (fertilisers and pesticides). 

However, for farmers in the developing world, agrochemicals are often too expensive, and further increases in yield with existing varieties are not possible using conventional breeding. 

Is there any alternative path that our understanding of genetics can show so that farmers may obtain maximum yield from their fields? Is there a way to minimise the use of fertilisers and chemicals so that their harmful effects on the environment are reduced? Use of genetically modified crops is a possible solution.

Plants, bacteria, fungi and animals whose genes have been altered by manipulation are called Genetically Modified Organisms (GMO). GM plants have been useful in many ways. 

Question for Biotechnological Applications in Agriculture
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What are genetically modified organisms (GMO)?
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Genetic Modification

(i) Made crops more tolerant to abiotic stresses (cold, drought, salt, heat).

(ii) Reduced reliance on chemical pesticides (pest-resistant crops).

(iii) Helped to reduce post harvest losses.

(iv) Increased efficiency of mineral usage by plants (this prevents early exhaustion of fertility of soil).

(v) Enhanced nutritional value of food, e.g., Vitamin ‘A’ enriched rice.


Genetic Modification in TomatoGenetic Modification in Tomato

In addition to these uses, GM has been used to create tailor-made plants to supply alternative resources to industries, in the form of starches, fuels and pharmaceuticals. Some of the applications of biotechnology in agriculture that you will study in detail are the production of pest resistant plants, which could decrease the amount of pesticide used. 

Bacillus thuringiensis

Bt toxin is produced by a bacterium called Bacillus thuringiensis (Bt for short). Bt toxin gene has been cloned from the bacteria and been expressed in plants to provide resistance to insects without the need for insecticides; in effect created a bio-pesticide. 

Examples are Bt cotton, Bt corn, rice, tomato, potato and soyabean etc.

Bt Cotton

  • Some strains of Bacillus thuringiensis produce proteins that kill certain insects such as lepidopterans (tobacco budworm, armyworm), coleopterans (beetles) and dipterans (flies, mosquitoes). 
  • Bt thuringiensis forms protein crystals during a particular phase of their growth. These crystals contain a toxic insecticidal protein. 
  • Bt toxin protein exists as inactive protoxins but once an insect ingest the inactive toxin, it is converted into an active form of toxin due to the alkaline pH of the gut which solubilises the crystals. 
  • The activated toxin binds to the surface of midgut epithelial cells and creates pores that cause cell swelling and lysis and eventually cause death of the insect.
  • Specific Bt toxin genes were isolated from Bacillus thuringiensis and incorporated into the several crop plants such as cotton. The choice of genes depends upon the crop and the targeted pest, as most Bt toxins are insect-group specific. 
  • The toxin is coded by a gene named cry. 
  • There are a number of them, for example, the proteins encoded by the genes cryIAc and cryIIAb control the cotton bollworms, that of cryIAb controls corn borer.

Cotton BallsCotton Balls

Question for Biotechnological Applications in Agriculture
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How has genetic modification contributed to reducing post harvest losses in crops?
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Pest Resistant Plants

Several nematodes parasitised a wide variety of plants and animals including human beings. A nematode Meloidegyne incognitia infects the roots of tobacco plants and causes a great reduction in yield.

Pest Resistant PlantsPest Resistant Plants

A novel strategy was adopted to prevent this infestation which was based on the process of RNA interference (RNAi). 

RNAi takes place in all eukaryotic organisms as a method of cellular defense. 

This method involves silencing of a specific mRNA due to a complementary dsRNA molecule that binds to and prevents translation of the mRNA (silencing). 

The source of this complementary RNA could be from an infection by viruses having RNA genomes or mobile genetic elements (transposons) that replicate via an RNA intermediate.

Using Agrobacterium vectors, nematode-specific genes were introduced into the host plant. 

The introduction of DNA was such that it produced both sense and anti-sense RNA in the host cells.

RNA and DNARNA and DNAThese two RNA’s being complementary to each other formed a double stranded (dsRNA) that initiated RNAi and thus, silenced the specific mRNA  of the nematode. 

The consequence was that the parasite could not survive in a transgenic host expressing specific interfering RNA. The transgenic plant therefore got itself protected from the parasite.

The following figure depicts host plant-generated dsRNA triggers protection against nematode infestation:

(a) roots of a typical control plants(b) transgenic plant roots 5 days after deliberate infection of nematode but protected through novel mechanism (a) roots of a typical control plants
(b) transgenic plant roots 5 days after deliberate infection of nematode but protected through novel mechanism 

The document Biotechnological Applications in Agriculture | Biology Class 12 - NEET is a part of the NEET Course Biology Class 12.
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FAQs on Biotechnological Applications in Agriculture - Biology Class 12 - NEET

1. What are some examples of biotechnological applications in agriculture?
Ans. Some examples of biotechnological applications in agriculture include genetic modification, Bt cotton, and pest-resistant plants.
2. What is genetic modification in agriculture?
Ans. Genetic modification in agriculture refers to the process of altering an organism's DNA to introduce specific traits or characteristics. This can be done through techniques like gene splicing or gene editing, and it allows scientists to create crops that are more resistant to pests, diseases, or environmental conditions.
3. What is Bt cotton and how does it work?
Ans. Bt cotton is a genetically modified variety of cotton that contains genes from the Bacillus thuringiensis (Bt) bacterium. These genes produce a protein toxic to certain insect pests, specifically bollworms and budworms. When these pests feed on Bt cotton plants, they ingest the Bt toxin and are killed. This reduces the need for chemical insecticides and helps protect the cotton crop.
4. How do pest-resistant plants contribute to sustainable agriculture?
Ans. Pest-resistant plants, created through biotechnological applications, contribute to sustainable agriculture by reducing the reliance on chemical pesticides. These plants are genetically modified to produce toxins that are harmful to specific pests, thereby reducing the damage caused by insects. This leads to lower pesticide usage, decreased environmental pollution, and improved crop yields.
5. Are there any potential risks or concerns associated with biotechnological applications in agriculture?
Ans. While biotechnological applications in agriculture have numerous benefits, there are also potential risks and concerns. Some concerns include the potential for unintended effects on non-target organisms, the development of resistance in pests, and the impact on biodiversity. Additionally, there are social and ethical concerns regarding the ownership and control of genetically modified organisms and their impact on traditional farming practices. It is important to carefully assess and regulate these technologies to ensure their safe and responsible use.
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