Sequencing of Sugarcane Genome

Why in news?

A global team of researchers recently announced the sequencing of sugarcane genome.

Why is it so significant?

Sugarcane produces 80% of the world’s sugar.
It has also emerged as the primary crop for biofuel production.
The sugarcane genome is nearly 20 times bigger than that of rice.
Its complex genetic makeup has so far posed challenges to classical sequencing approaches.
So significantly, sugarcane is one of the last crop plants to be genome-mapped.
In comparison, the rice genome was cracked nearly 14 years ago.

How was it done?

Each of the 10 basic sugarcane chromosomes is duplicated in 8-10 copies with a total of more than 100 chromosomes.
In comparison, the human genome has just 23 pairs of chromosomes.
An earlier discovery that the genomic structures of sugarcane and sorghum being very similar helped here.
Sugarcane and sorghum share large fragments with numerous genes in the same order.
So scientists used the sorghum genome (which was sequenced years ago) as a template.
The template was used to assemble and select the sugarcane chromosome fragments to sequence.

What are the benefits?

Until now, breeding programmes were restricted to hybridisation and was followed by cumbersome field assessments.
With the recent finding, sugarcane breeding will be able to enter the age of molecular biology.
The finding will help scientists create a reference genome of sugarcane.
The reference sequence can help in effectively analysing and comparing variations between various sugarcane varieties.
It can also help develop new molecular screening techniques to supplement conventional breeding methods.
Characteristics that contribute to improving a variety rely on the combination of several genes inherited.
The traits may include yield, drought resistance and ability to withstand pest attacks.
So if scientists can identify genes associated with these agronomic traits, they can easily be transferred to commercial varieties.
This in turn could shorten the time required for getting a new variety to the field.
Varieties - Theoretically, the maximum sucrose content that sugarcane can have is around 25%.
This could be breached with the knowledge of molecular mechanisms involved in sucrose storage in the plant.
Very significantly, sugarcane is a known water-consuming crop.
Genetic sequences linked to enduring water stress can help develop varieties that require lesser water.

What lies ahead for India?

The cracking of the sugarcane genome can transform the sector.
But India needs to clarify its stance on GM foods as India does not currently allow GM food crops.
This is essential to reap the benefit of the advances in sugar genome sequencing.
Notably, Brazil (with largest area in the world under sugarcane) recently allowed commercial cultivation of the world’s first GM sugarcane.

Source: BusinessLine