Plant
breeder boosts soybean diversity, develops soybean rust-resistant plant
PUBLISHED
MAY 15, 2015
URBANA,
Ill. -- It took decades of painstaking work, but research geneticist Ram Singh
managed to cross a popular soybean variety ("Dwight" Glycine max)
with a related wild perennial plant that grows like a weed in Australia,
producing the first fertile soybean plants that are resistant to soybean rust,
soybean cyst nematode, and other pathogens of soy.
Singh works
in the Soybean/Maize Germplasm, Pathology and Genetics Research unit in the
department of crop sciences at the University of Illinois at Urbana-Champaign.
The unit is a division of the U.S. Department of Agriculture's Agricultural
Research Program.
His efforts
to introduce the desirable attributes of wild, perennial Glycine species into
soybean plants began at the U of I in 1983 and followed a path that involved
thousands of experiments, the development of a hormone treatment that
"rescued" immature hybrid seeds from sterility, and multiple
back-crosses of hybrid plants with their "recurrent parent," Dwight.
Singh's
collaborator, Randall Nelson, the research leader of the ARS soybean/maize
research unit, plants seeds from Singh's most promising experiments, grows the
plants and distributes their seeds to other scientists, who screen them for
desirable traits and conduct their own breeding experiments.
A report of
this work appears in the journal Theoretical and Applied Genetics.
Soybean is
the second-most-planted field crop in the United States after corn, worth more
than $4 billion annually. Current soybean varieties are susceptible to an array
of pests and pathogens. Among them, the parasitic roundworm known as soybean
cyst nematode attacks soybean roots and stunts their growth. Soybean rust, a
fungus first detected in the United States in 2004, taints leaves and
eventually defoliates the plants.
Scientists
have known for decades that some wild, perennial soybean relatives had desirable
traits that many hoped to introduce into soy, Singh said.
"There
are 26 wild species of Glycine perennials that grow in Australia," he
said. One species, Glycine tomentella, was of particular interest because it
has genes for resistance to soybean rust and to soybean cyst nematode, he said.
"Many people tried to hybridize it with soybean plants, starting back in
1979 at the University of Illinois." But the hybrids produced only sterile
plants, "and they decided it was impossible," Singh said.
He continued
to experiment, however, and eventually developed a hormone treatment that
interrupted the process that caused the hybrid seeds to abort. He also
developed a tissue culture method for producing several embryos - and thus,
several plants - from each seed. The plants were grown in a greenhouse, allowed
to flower and crossed again with Dwight.
Singh
eventually settled on a Glycine tomentella plant known as PI 441001 for these
experiments because the wild plant was immune to soybean rust and to soybean
cyst nematode. It also was resistant to Phytophthora root rot and could
tolerate salt and drought.
As the
experiments continued, Singh noted that each generation of hybrids had
different numbers of chromosomes, reflecting their blend of soybean and tomentella
chromosomes. The goal, said Singh, was to isolate each of tomentella's 39
chromosomes, adding one at a time to soybean's 20 pairs of chromosomes. That
way, all the genetic richness of tomentella could be captured in the hybrid
soybean plants.
Further
crosses have introduced the tomentella genes into those of the soybean plants,
creating soybean plants with 40 chromosomes and some of the most desirable
tomentella traits.
So far, the
effort has yielded plants that are resistant to soybean rust, soybean cyst
nematode or Phytophthora root rot. Some of the new plants produce more soybeans
per plant than Dwight, and some have higher protein content than Dwight.
The
research continues. As a result, soybean breeders now have access to dozens of
new soybean lineages, each with some of the traits of the wild Australian
plants.
The genetic
material in wild Glycine species "is just like a treasure that is locked
inside," Singh said. "With this method, we are unlocking the
treasure."
The
Illinois Soybean Association, the Soybean Disease Biotechnology Center at the
U. of I., and the United Soybean Board provided partial funding for this work.
News Source: Ram Singh, 217-333-8144
News Writer: Diana Yates, 217-333-5802
Fuente: Copiado textualmente desde
http://news.aces.illinois.edu/news/plant-breeder-boosts-soybean-diversity-develops-soybean-rust-resistant-plant
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