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Summary: Research finds that a sizeable amount of domestication-related changes in rice reflects selection on traits that are determined by a portion of the genome that does not transcribe proteins.
New research now finds that a sizeable amount of domestication-related changes in rice reflects selection on traits that are determined by a portion of the genome that does not transcribe proteins.
Xiaoming Zheng, a biologist with the Institute of Crop Sciences at the Chinese Academy of Agricultural Sciences, is the first author of newly published paper in Science Advances, "Genome-wide analyses reveal the role of non-coding variation in complex traits during rice domestication." Qingwen Yang and Jun Liu, also from the Institute of Crop Sciences in the Chinese Academy of Agricultural Sciences, and Kenneth M. Olsen from Washington University in St. Louis are also communicating authors of this paper.
Noncoding RNAs are suspected to play very important roles in regulating growth and development, but they're only beginning to be characterized.
"Despite almost 20 years of genomics and genome-enabled studies of crop domestication, we still know remarkably little about the genetic basis of most domestication traits in most crop species," said Olsen, professor of biology in Arts & Sciences at Washington University.
"Early studies tended to go for 'low-hanging fruit' -- simple traits that were controlled by just one or two genes with easily identifiable mutations," Olsen said. "Far more difficult is figuring out the more subtle developmental changes that were critical for a lot of the changes during crop domestication.
"This study offers a step in that direction, by examining one regulatory mechanism that has been critical for modulating domestication-associated changes in rice grain development."
Diversity of traits
A large proportion of the DNA in the chromosomes of many plants and animals comprises genes that do not encode instructions for making proteins -- up to 98% of the genome for any given species. But this genetic information is poorly understood. Some scientists have called this stuff the 'dark matter' of the genome, or even dismissed it as 'junk DNA' -- but it appears to have played an outsized role in rice development.
In this study, researchers found that key changes that occurred during rice domestication more than 9,000 years ago could be tied back to molecules called long-noncoding RNAs (lncRNAs), a class of RNA molecules with a length of more than 200 nucleotides.
About 36 percent of the genetic information recorded in the rice genome can be tracked back to noncoding regions, but more than 50 percent of the diversity of traits important to agriculture is linked to these same areas, the researchers found.
"For the first time, the lncRNAs in noncoding region of cultivated rice and wild rice was deeply annotated and described," Zheng said.
"Our transgenic experiments and population genetic analysis convincingly demonstrate that selection on lncRNAs contributed to changes in domesticated rice grain quality by altering the expression of genes that function in starch synthesis and grain pigmentation," she said.
Working with several hundred rice samples and more than 260 Gbs of sequence, the researchers employed sensitive detection techniques to quantify and robustly track lncRNA transcription in rice. The new study validates some previously identified lncRNAs and also provides new information on previously undescribed molecules.
This new study adds fuel to speculation by some researchers that most adaptive differences between groups of plants or animals are due to changes in gene regulation, and not protein evolution.
"Based on our findings, we propose that selection on lncRNAs could prove to be a broader mechanism by which genome-wide patterns of gene expression can evolve in many species," Zheng said.
This rice study also opens eyes and possibly new doors for producing new crops and grains through precision breeding.
Source: Washington University in St. Louis
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