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Secret unlocked to underwater rice seed survival


The Philippines
September 11, 2015

Source: Rice Today

The cover of Nature Plants' September issue, featuring Tobias Kretzschmar and co.'s study on rice seed survival underwater.
The cover of Nature Plants’ September issue, featuring Tobias Kretzschmar and co.’s study on rice seed survival underwater.

A team of scientists from the International Rice Research Institute (IRRI) and the University of California Riverside recently published a study in Nature Plants unlocking the secret to how rice seeds can survive under water.

The study, which appears in the leading scientific journal Nature Plants, identified a gene that controls the availability of sugar to a growing seed, especially when under flooded conditions.

“Basically, the gene that we identified as AG1 (or OsTPP7) works opposite the one found in scuba rice, in which the SUB1 gene signals the plant to conserve energy while underwater, allowing it to stay dormant until the floodwater recedes,” said Dr. Tobias Kretzschmar, one of the paper’s authors and head of IRRI’s Genotyping Services Laboratory.

A surprising find

“The gene that we found creates an ‘all or nothing’ escape mechanism that tricks the seed into thinking that more sugar should be given to its shoot—the plant part that grows into stems and leaves—so that the seed under water is able to grow more quickly and reach the surface of the water,” he said.

He explained that the mechanism works when the seed is submerged up to a water depth of 10 cm, and can get ‘activated’ as soon as the seed is sown.

“This is the first time anyone has established that the AG1 gene is responsible for this specific type of mechanism because it comes from a family of genes—and rice has 13 members of this family of genes,” Kretzschmar said.

“This mechanism is well known on the other end of plant development during grain filling, but this is the first time it’s been shown to be important during germination,” he stressed.

Surviving under water

Rice survival under flooding is important when it comes to direct seeding, in which seeds do not have to be pre-germinated and then transplanted. With direct seeding, seeds can be directly sown or broadcast into the field, requiring less time and energy from farmers.

Moreover, one of the major limiting factors to direct seeding is weeds, because these can germinate well in air—although not under water without air. So, if rice can germinate well under water while none of the weeds can, then rice will be able to outcompete the weeds.

Mystery of the missing gene
“One thing that I’ve noticed is that Indica varieties, which are the ones mostly grown in the tropical parts of Asia, lack the trait or ability to grow under flooded conditions,” said Kretzschmar.

“But in Japonica, varieties grown in the more temperate regions of Asia, Australia, and the United States, the trait is present,” he added. “That’s why these varieties have fewer problems with direct seeding.”

He explained that the missing trait is a problem, especially with modern Indica varieties, as traditional ones have it.

Looking for an answer

“We looked at a third to a half of IRRI released varieties, but the gene was missing. At first, we thought that maybe it was actively bred out, meaning that it could have had some negative effect, so the IRRI breeders selected against it,” Kretzschmar noted.

http://ricetoday.irri.org/wp-content/uploads/2015/09/OstPP7.jpg

Thanks to the AG1—or OsTPP7—gene (shown in blue), rice seeds will be able to grow and survive when submerged in water up to 10 cm. (Photo: Tobias Kretzschmar)

“But, since we couldn’t find any yield penalty or negative effect on yield, we actually thought the gene got lost—and we know where it got lost.”

The gene, he said, got lost during the time IR8, the famous miracle rice variety, was bred, because one of its parents had the gene, whereas the other didn’t.

Fitting pieces together

“I guess it was just never needed as a trait because the varieties were transplanted almost every time so there was no pressure for it. If they were direct seeded, then that gene would have probably been retained from the very beginning,” explained Kretzschmar.

“Now that direct seeding is becoming popular, we’ve realized that we need that gene in the breeding program. Through the marker-assisted backcrossing approach, which significantly reduces the breeding period, you can reintroduce the gene and then fix it within one-and-a-half to two-and-a-half years,” he added.

The way forward

With the unfolding of the ‘AG1 secret’, the work of rice scientists is far from done. AG1 works well in moderate stress conditions. In severe stress conditions, however, AG1 alone is not sufficient; additional quantitative trait loci (QTLs) or genes that complement the AG1 mechanism will be needed. IRRI and its partner universities are moving in that direction.



More solutions from:
    . IRRI - International Rice Research Institute
    . University of California, Riverside


Website: http://www.irri.org

Published: September 11, 2015


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