Corn Research Exposes Mechanism Behind Gene Silencing
November 29, 2017A team of researchers has uncovered a previously unknown mechanism that triggers gene silencing in corn. Gene silencing turns off genetic traits, and plant breeders consider it as the key on trait inheritance from one generation to the next.
Lead researcher Surinder Chopra, professor of maize genetics in the College of Agricultural Sciences at Penn State and his team showed that silencing the corn pericarp color 1 gene can have two "overlapping" epigenetic components — RNA dependent DNA methylation (RdDM) and non-RNA dependent DNA methylation (non-RdDM).
The pericarp color 1 gene regulates the accumulation of brick-red flavonoid pigments called phlobaphenes. The pattern of pigmentation on the corn kernel pericarp and "glumes" depends upon the expression of this gene. Some examples of these patterns are: white kernels, red cob; red kernels, red cob; variegated kernels, variegated cob; red kernels, white cob; and white kernels, white cob.
Chopra said that the study showed the involvement of both small RNA-dependent and small RNA-independent mechanisms for gene suppression. He added that the study revealed the additional layer of gene regulation by small RNAs, and improved their understanding of how gene expression is regulated specifically in one tissue but not in the other.
For details, read Penn State News.
The Crop Biotech Update is a weekly newsletter of ISAAA, a not-for-profit organization. The CBU is distributed for free to over 23,000 subscribers worldwide to inform them about the key developments in biosciences, especially in agricultural biotechnology. Your support will help us in our mission to feed the world with knowledge. You can help by donating as little as $10.
-
See more articles:
-
News from Around the World
- AUC and FAO Ask African Gov'ts to Promote Agri-Biotech to Help Combat Food Insecurity
- Corn Research Exposes Mechanism Behind Gene Silencing
- Argentina Approves New Biotech Soybean
- EU Ban on GM Crops Hurting Productivity, says Retired Professor
- EFSA Releases Scientific Opinion on Four-Stack GM Maize
-
Research Highlights
- Biotech Cotton Co-expressing Vip3AcAa and Cry1Ac Confers Protection against Cry1Ac-resistant Bollworm
- Cgl2 Gene Involved in Cuticular Wax Synthesis in Cabbage
- SlJAZ2 Overexpression Accelerates Reproductive Growth in Tomato
-
Plant Breeding Innovations
- Heat Stress Increases the Efficiency of CRISPR-Cas9 Mutagenesis in Plants
- Study Shows CRISPR Mainly Used to Develop High-yielding, Healthier, and Stress-resistant Crops
-
Beyond Crop Biotech
- DARPA Explores on Using Plants to Detect Security Threats
- Researchers Pinpoint the Regulator of Phenylalanine Synthesis in Maritime Pine
- Scientists Study Genes Involved in Triterpenoid Synthesis in Birch
-
Announcements
- 3rd Biennial National Agricultural Sciences Conference and Exhibition
-
Resources
- Biotech Country Facts and Trends
-
Read the latest: - Crop Biotech Update (August 17, 2022)
- Genome Editing Supplement (August 10, 2022)
- Gene Drive Supplement (July 27, 2022)
-
Subscribe to CBU: - Share
- Tweet