Wild glutinous wheat is the ancestor of today's durum wheat and bread wheat. It is one of the earliest cultivated crops in humans and has been cultivated in the Middle East about 10,000 years ago. “Complete mapping of the ge- neum wheat genomic map was the most important scientific achievement since 1906 Aaron Allen- sian proved that the second wheat is the basis of various farming wheat.
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A scientific team from the University of Tel Aviv in Tel Aviv and nrgene Gene Company announced the mapping of wild gemini genomic DNA. For the first time in a month, they deciphered the genome sequence of the durum wheat called “wheat motherâ€. This achievement will help promote the research and development of new high-yield, disease-resistant wheat varieties and will play a role in alleviating the global food crisis.
Wild glutinous wheat is the ancestor of today's durum wheat and bread wheat. It is one of the earliest cultivated crops in humans and has been cultivated in the Middle East about 10,000 years ago. "Complete mapping of the gram of the diploid wheat is the most important scientific achievement since Aaron Aronson demonstrated in 1906 that the second grain of wheat is the basis of various farming wheat," said Dr. Gil Ron, CEO of nrgene. Says, “This result is very important for global wheat research. With the genomic map of the second wheat, both the university scientists, the global seed R&D centers and the large-scale breeding companies can more easily cultivate high yields and have more Good disease resistance and wheat varieties that can better adapt to extreme environments such as drought and high fever.â€
For example, scientists say that wild glutinous wheat is rich in iron and zinc and can be naturally crossed with existing planting wheat to transfer this trait to new crop varieties and to reduce the malnutrition of those wheat-based food groups. “This effect is worldwide,†said Dr. Asaf, who has spent more than 10 years working on improving wheat traits. “Scientists are now able to identify key genes in the second wheat that can be commercially exploited through traditional methods of breeding. To develop new breeds that adapt to extreme conditions and increase global food supply."
Nrgene Genetics, a company with leading technology in the city of Nzciena, uses unique software and algorithms to reveal the complexity and diversity of plants and animals. The technology tools it developed have been used by many leading breeders. Adopted by companies and research teams. Nrgene Genetics, a company with leading technology in the city of Nzciena, uses unique software and algorithms to reveal the complexity and diversity of plants and animals. The technology tools it developed have been used by many leading breeders. Adopted by companies and research teams.