For the first time in the world!

The Feed Research Institute of the Chinese Academy of Agricultural Sciences announced on October 30 that China has made a major breakthrough in the field of one-carbon biosynthesis: the world's first realization of the synthesis of carbon monoxide to protein, and has formed a 10,000-ton industrial capacity

According to Dr.

She emphasized that under artificial conditions, large-scale biosynthesis of proteins using naturally occurring carbon monoxide and nitrogen sources (ammonia) is not subject to this limitation.

After years of joint research, the Feed Institute of the Chinese Academy of Agricultural Sciences and Beijing Shoulang Biotechnology Co.

VdK China Feed Industry Information Network-Based on feed, serving animal husbandry

△ Production process of Clostridium ethanoicum protein (picture provided by Feed Institute of Chinese Academy of Agricultural Sciences)VdK China Feed Industry Information Network-Based on feed, serving animal husbandry

This research uses industrial exhaust gas containing carbon monoxide and carbon dioxide and ammonia as the main raw materials to produce a new type of feed protein resource Clostridium ethanolicum protein, which converts inorganic nitrogen and carbon into organic nitrogen and carbon, realizing a change from 0 to 1 The independent innovation has completely independent intellectual property rights

Based on the industrialized production of 10 million tons of Clostridium ethanolicum protein (83% protein content), equivalent to 28 million tons of imported soybeans (protein content 30%) equivalent, "not competing for food with people or land with food" has opened up A new way to produce high-quality feed protein from low-cost non-traditional animal and plant resources can reduce carbon dioxide emissions by 250 million tons and save 1 billion mu of arable land (based on an average yield of 300 kilograms of soybeans per mu)

Original title "my country's first realization of the synthesis of carbon monoxide to protein and the formation of 10,000-ton industrial production capacity"VdK China Feed Industry Information Network-Based on feed, serving animal husbandry

According to Dr.

She emphasized that under artificial conditions, large-scale biosynthesis of proteins using naturally occurring carbon monoxide and nitrogen sources (ammonia) is not subject to this limitation.

After years of joint research, the Feed Institute of the Chinese Academy of Agricultural Sciences and Beijing Shoulang Biotechnology Co.

VdK China Feed Industry Information Network-Based on feed, serving animal husbandry

△ Production process of Clostridium ethanoicum protein (picture provided by Feed Institute of Chinese Academy of Agricultural Sciences)VdK China Feed Industry Information Network-Based on feed, serving animal husbandry

This research uses industrial exhaust gas containing carbon monoxide and carbon dioxide and ammonia as the main raw materials to produce a new type of feed protein resource Clostridium ethanolicum protein, which converts inorganic nitrogen and carbon into organic nitrogen and carbon, realizing a change from 0 to 1 The independent innovation has completely independent intellectual property rights

Based on the industrialized production of 10 million tons of Clostridium ethanolicum protein (83% protein content), equivalent to 28 million tons of imported soybeans (protein content 30%) equivalent, "not competing for food with people or land with food" has opened up A new way to produce high-quality feed protein from low-cost non-traditional animal and plant resources can reduce carbon dioxide emissions by 250 million tons and save 1 billion mu of arable land (based on an average yield of 300 kilograms of soybeans per mu)

Original title "my country's first realization of the synthesis of carbon monoxide to protein and the formation of 10,000-ton industrial production capacity"VdK China Feed Industry Information Network-Based on feed, serving animal husbandry