Hi My Friends: A VUELO DE UN QUINDE EL BLOG., A curious twist in a family of plant proteins called chalcone-isomerase
recently was discovered by Salk Institute for Biological Studies scientist
Joseph Noel and colleagues at Iowa State University led by Eve Wurtele.
May 13, 2012
A curious twist in a family of plant proteins called chalcone-isomerase
recently was discovered by Salk Institute for Biological Studies scientist
Joseph Noel and colleagues at Iowa State University led by Eve Wurtele.
Pursuing basic scientific discovery, they found three similar proteins that
could soon translate into positive results for bio-renewable fuels, commodity
chemicals like plastics, food security and nutrition and biomedicine.
The findings, reported May 13 in the advance online publication of the
journal Nature, may lead to higher-yield crops and quantities of oils,
help to address growing world demands for food and fuel, and mitigate
environmental pressures on stressed ecosystems.
Researchers long wondered about the origin and action of the
chalcone-isomerase. They knew it played a key role in producing
flavonoids--compounds important to plants for many reasons, including defense as
natural sunscreens and antibiotics, as well as attraction of pollinators and
development.
Flavonoids are also seen as valuable in disease prevention agents as
"nutraceuticals" and in plant-rich diets employed in fighting cancer and other
age-related diseases.
Looking into the evolution of the plant protein, the researchers discovered
three chalcone-isomerase "cousins" that bind fatty acids.
"This is a beautiful study demonstrating that chalcone-isomerase arose from
another important class of proteins, which have no enzymatic activity but bind
fatty acids," said Greg Warr, acting deputy director of the National Science
Foundation's Division of Molecular and Cellular Biosciences, which funded the
study.
"The findings may have important implications for agriculture and biofuel
development."
Researchers found the chalcone-isomerase cousins clustered in something
called chloroplasts, specialized parts of a cell that serve as the engines of
photosynthesis, but are also the key place for making essential fatty acids,
including omega-3 fatty acids.
Fatty acids, such as omega-3s, are as important to both plant and human
well-being as the flavonoids. Noel and colleagues' research shows that bringing
about changes in the genes that encoded for the chalcone-isomerase cousins
produced reproductive changes in plants.
Bringing about changes in the genes for this protein family had an effect on
seed oil content, something vital for the energy stores of the plant embryo but
also for human nutrition and new kinds of renewable fuels.
As the benefits of over a decade of basic research on chalcone-isomerase are
reaped, biologists look forward to opening the door for bio-engineers. Armed
with the structures of the four proteins, bio-engineers will be able to adjust
the plant cellular factory for fatty acid production to the advantage and
benefit of agriculture as well as the fields of renewable energy, biorenewable
chemicals and biomedicine.
-NSF-
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com ayabaca@yahoo.com
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