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The termite symbiotic bacteria may seem inconspicuous, but in fact, it is a "microbial gold mine" hidden in nature. Its medical and commercial value is gradually being explored, becoming a new focus in the fields of biomedicine, environmental protection, and agriculture. In the medical field, the Streptomyces isolated from the termite symbiotic bacteria can synthesize new antibacterial peptides, which have significant inhibitory activity against MRSA and other drug-resistant bacteria. At the same time, the bioactive components contained in it also have the potential to combat cancer, resist oxidation, and improve intestinal health, providing a new direction for the development of new drugs, and may break the limitations of traditional antibacterial and anti-cancer drugs. In the commercial field, its value is blooming in multiple aspects. The lignocellulose degrading enzymes secreted by the termite symbiotic bacteria have a 30% higher efficiency than industrial strains and can be widely applied in biofuel production, food processing, textile and paper industries. In the environmental protection field, some strains can efficiently degrade organic phosphorus pesticides, plastics, and other pollutants, and can also be used for textile wastewater treatment, achieving a circular economy model of "turning waste into energy". In the agricultural field, the nitrogen-fixing bacteria contained in it can replace 20% of chemical nitrogen fertilizers, reducing fertilizer pollution and helping to develop green agriculture. With the deepening of research, the value range of termite symbiotic bacteria is continuously expanding, making it a microbial resource with great development potential. The release of the value of termite symbiotic bacteria is inseparable from efficient processing technologies. The application of freeze-drying machine freeze-drying technology has completely solved the pain points of traditional processing methods. It has become the core support for its industrial development. Traditional processing methods such as hot air drying and spray drying rely on temperatures of 60-120℃, which not only will damage the heat-sensitive active components in the symbiotic bacteria, causing the core substances such as antibacterial peptides and enzymes to lose their activity, reducing their medical and commercial value, but also will cause material agglomeration, nutrient loss, and a long drying cycle, high energy consumption, and subsequent storage requiring special moisture-proof and low-temperature conditions, significantly increasing production costs. The freeze-drying machine adopts the "vacuum freezing sublimation" technology. It first freezes the termite symbiotic bacteria to -40℃ or below, converting the moisture into solid ice, and then through a vacuum environment, allowing the ice to directly sublimate. The entire process is carried out under low-temperature vacuum conditions, which can maximize the retention of the biological activity, nutrients, and original form of the symbiotic bacteria, with the retention rate of active components reaching over 90%. At the same time, the moisture content of the freeze-dried termite symbiotic bacteria can be as low as 1%-3%, being less prone to moisture absorption and mold growth, and does not require the addition of preservatives. It can be stored at room temperature for more than 18 months with ordinary packaging, significantly reducing storage and logistics costs, and has good rehydration properties, quickly restoring its original activity, perfectly adapting to the industrial demands of biomedicine, food processing, etc., and becoming a "key tool" for the large-scale development of termite symbiotic bacteria. WhatsApp: +8615380024001 E-mail: sales@kemolo.com https://www.kemolo.com/ https://www.liofilizador.com/ https://www.freeze-driers.com/ https://www.freezedryer.com.cn/