May 30, 2010, Updated September 13, 2012

Previously, mutant plants were assumed to have negative effects on growth and were discarded, but new Israeli-American research suggests they may lead the next revolution of improved crops.

 

Tomato-Crates

Photo courtesy of Nati Shohat/Flash90.
Crossing mutant tomato plants with normal counterparts increased yield by up to 60 percent in some cases.

Israeli and American researchers have discovered the yield-boosting power of a single gene, which controls when plants make flowers. This gene works in different varieties of tomatoes and, crucially, across a range of environmental conditions.

The scientists at the Faculty of Agriculture, Food and Environment at the Hebrew University and the Cold Spring Harbor Laboratory (CSHL), New York recorded spectacularly increased yields, as well as improved taste, for hybrid tomato plants.

Their discovery was patented by Yissum, the technology transfer arm of Hebrew University, which is seeking potential partners for further development and commercialization.

“This discovery has tremendous potential to transform both the billion-dollar tomato industry, as well as agricultural practices designed to get the most yield from other flowering crops,” says CSHL’s Dr. Zach Lippman, one of the three authors of the study, which appears in the magazine Nature Genetics online. The study is co-authored by Dr. Uri Krieger and Prof. Dani Zamir of the Hebrew University of Jerusalem.

The mystery of vigorous hybrids

The team made the discovery while hunting for genes that boost hybrid vigor, a revolutionary breeding principle that spurred the production of outstanding hybrid crops like corn and rice a century ago.

Hybrid vigor, also known as heterosis, is the phenomenon by which intercrossing two varieties of plants produces more vigorous hybrid offspring with higher yields.

First observed by Charles Darwin in 1876, heterosis was rediscovered by CSHL corn geneticist George Shull 30 years later, but how heterosis works has remained a mystery.

Plants carry two copies of each gene, and Shull’s studies suggested that harmful, vigor-killing mutations that accumulate naturally in every generation are exposed by inbreeding, but hidden by crossbreeding.

While there is still no consensus as to what causes heterosis, a theory supported by the new Hebrew University-Cold Spring discovery postulates that improved vigor stems from only a single gene – an effect called ‘superdominance’ or ‘overdominance.’

Searching for superdominance

To find such superdominant genes, the American-Israeli team developed a novel approach. They turned to a vast tomato ‘mutant library’ – a collection of 5,000 plants, each of which has a single mutation in a single gene that causes defects in various aspects of tomato growth, such as fruit size, leaf shape, etc.

Selecting 33 mutant plants, most of which produced low yield, the team crossed each mutant with its normal counterpart and searched for hybrids with improved yield. Among several cases, the most dramatic example increased yield by a whopping 60 percent.

This hybrid, the team found, produced greater yields because there was one normal copy and one mutated copy of only a single gene that produces a protein called florigen.

This protein, touted as the breakthrough discovery of the year in the 2004 issue of Science magazine, instructs plants when to stop making leaves and start making flowers, which in turn produce fruit.

In plants such as tomatoes, flowering (and therefore yield) is controlled by a delicate balance between the florigen protein, which promotes flowering, and another related protein that delays flowering. A mutation in only one copy of the florigen gene causes the hybrid to produce more flowers in less time – the key to improved yield.

More and tastier tomatoes

What the researchers found is that to maximize yield, there can’t be too much or too little florigen. A mutation in one copy of the gene results in the exact dose of florigen required to cause heterosis.

The scientists have observed the gene’s heterosis effect in different varieties of tomatoes and in plants grown in different climate and soil conditions, both in Israel and in New York at CSHL and the Cornell Horticultural Experiment Station at Riverhead, NY.

In addition to superior yield, the hybrids also display another, perhaps equally important quality – taste. Tomato plants produce a finite amount of sugar, which they distribute equally among their fruits. This means that higher yields usually result in each fruit having a lower sugar content. But, remarkably, the florigen gene also boosted sugar content (sweetness) of the individual fruits.

This study marks the first example of a single gene that consistently causes heterosis. The scientists are now looking to team up with agricultural companies to develop the hybrids for commercial use.

The concept that mutations in one copy of a single gene can improve yield has broad implications for breeders. Mutant plants are usually thrown away because of the notion that mutations would have negative effects on growth, but this study suggests that hybrid mutations might lead the next revolution of improved crops.

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Jason Harris

Jason Harris

Executive Director

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