Recently, the research on "Activation of Plant-Immune Algae Protein: Development of a Biopesticide" conducted by the Institute of Protein and Pesticides at the Institute of Plant Protection, Chinese Academy of Agricultural Sciences, was reviewed by an expert panel from the Ministry of Agriculture. The experts unanimously recognized that the research achievements have reached international advanced standards, marking a significant breakthrough in the field of biological pest control. This study is groundbreaking as it applies plant immunology theory for the first time to enhance plant immunity and improve disease resistance. Through this approach, two novel proteins—PeaT1 and Hrip1—were isolated from the fungus *Alternaria alternata*. These proteins were found to stimulate plant immune responses, and their target proteins on tobacco cell membranes were successfully identified. Researchers also developed an efficient fermentation, extraction, and formulation process for the *Alternaria alternata* activator protein, enabling large-scale production of two types of bio-pesticides. This innovation led to the creation of the first fungal protein-based pesticide with 3% independent intellectual property rights. It includes a 3.4-micron fine spore-acting protein wettable powder and a 6% oligosaccharide-chain protein wettable powder designed to combat plant viral diseases. These products offer a sustainable alternative to traditional chemical pesticides. The new bio-pesticides have demonstrated high efficacy against multiple plant diseases, significantly reducing the need for chemical inputs such as fertilizers and conventional pesticides. This not only lowers production costs but also enhances the quality of agricultural produce. Moreover, the use of these bio-pesticides brings substantial economic, ecological, and social benefits. With promising application potential, they are expected to play a key role in the future of sustainable agriculture.   The air, which is drawn in by the motor of a heat gun, is electrically heated. The desired temperature can be set to between 100 to 600 and can be maintained electronically, independent of the required are flow rate. Various possible applications include thawing, drying, tinning, sharping, setting and removal of old coats of paint and staring adhesive processes.    Heat Gun,Power Tools,DIY Projects AWLOP CO.,LTD , https://www.awlop.com
Novel protein biopesticide application
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