Sacred lotus genome sequence enlightens scientists
May 11, 2013 Editor 0
CHAMPAIGN, Ill. — The sacred lotus (Nelumbo nucifera) is a symbol of spiritual purity and longevity. Its seeds can survive up to 1,300 years, its petals and leaves repel grime and water, and its flowers generate heat to attract pollinators.
Now researchers report in the journalGenome Biology that they have sequenced the lotus genome, and the results offer insight into the heart of some of its mysteries. The sequence reveals that of all the plants sequenced so far – and there are dozens – sacred lotus bears the closest resemblance to the ancestor of all eudicots, a broad category of flowering plants that includes apple, cabbage, cactus, coffee, cotton, grape, melon, peanut, poplar, soybean, sunflower, tobacco and tomato.
The plant lineage that includes the sacred lotus forms a separate branch of the eudicot family tree, and so lacks a signature triplication of the genome seen in most other members of this family, said University of Illinois plant biology and Institute for Genomic Biology professor Ray Ming, who led the analysis with Jane Shen-Miller, a plant and biology professor at the University of California at Los Angeles (who germinated a 1,300-year-old sacred lotus seed); and Shaohua Li, director of the Wuhan Botanical Garden at the Chinese Academy of Sciences.
“Whole-genome duplications – the doubling, tripling (or more) of an organism’s entire genetic endowment – are an important events in plant evolution,” Ming said. Some of the duplicated genes retain their original structure and function, and so produce more of a given gene product – a protein, for example, he said. Some gradually adapt new forms to take on new functions. If those changes are beneficial, the genes persist; if they’re harmful, they disappear from the genome.
Many agricultural crops benefit from genome duplications, including banana, papaya, sugarcane, strawberry, watermelon and wheat, said Robert VanBuren, a graduate student in Ming’s lab and collaborator on the study.
Although it lacks the 100 million-year-old triplication of its genome seen in most other eudicots, sacred lotus experienced a separate, whole-genome duplication about 65 million years ago, the researchers found. A large proportion of the duplicated genes (about 40 percent) have been retained, they report.
“A neat thing about the duplication is that we can look at the genes that were retained and see if they are in specific pathways,” VanBuren said. The researchers found evidence that duplicated genes related to wax formation (which allows the plant to repel water and remain clean) and survival in a mineral-starved watery habitat were retained, for example.
By looking at changes in the duplicated genes, the researchers found that lotus has a slow mutation rate relative to other plants, Ming said. These traits make lotus an ideal reference plant for the study of other eudicots, the researchers said.
- Coffee genome sheds light on the evolution of caffeine
- Hidden layer of genome unveils how plants may adapt to environments throughout the world
- Getting more out of nature: Genetic toolkit finds new maximum for crop yields
- ‘Most comprehensive’ genetic analysis of maize plant will help raise yields, expand its range
- Build on genomic advances to benefit the poor
- Sporadic mutations may be responsible for half of schizophrenia cases
Subscribe to our stories
- A regional enterprise to commercialize an integrated technology for waste water treatment and biowaste conversion in eastern Africa May 27, 2018
- Dr Peggy Oti-Boateng May 27, 2018
- Three years in a row: Mauritania continues to excel in its Doing Business performance May 27, 2018
- Africa RISING farming technologies reach 60,000 households in Ethiopia May 27, 2018
- 7 questions to ask before you launch an enterprise blockchain project May 27, 2018