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Breeding for Disease Resistance in Black Pepper
Black pepper is one of the most popular spices in the world and has a large economic value worldwide. It is used for cooking food and also for preserving food, acting as a natural food preservative, and in addition, pepper has medicinal properties. However, the poor resistance of black pepper cultivars to the plague has become a problem for the healthy and sustainable development of the world black pepper industry.
Lifeasible is dedicated to mining black pepper disease resistance genes and using advanced genetic engineering techniques. We have provided an effective technical means to obtain disease-resistant varieties of pepper. This solution of ours is of significant importance in research into the use of biotechnology for breeding to obtain disease-resistant varieties.
We offer effective solutions for black pepper disease resistance research
Black pepper is native to tropical Asia. The tropical climate is conducive to disease development, and crop losses due to pests and diseases remain a major limitation to black pepper production. We currently use genetic engineering technology to promote breeding research for disease resistance in black pepper. This is based on the cloning and expression of genes related to disease resistance in black pepper. In addition, our solutions can provide genetic and technological support for future genetic improvement and transgenic breeding of black pepper.
Currently, we have used the RACE method to clone and obtain key genes for disease resistance in black pepper cultivars for poor disease resistance in production. We have also used bioinformatics methods for gene structure and function resolution, which are utilized to verify the structure of target genes involved in regulating plant defense responses.
We provide rapid amplification of cDNA ends (RACE), an efficient method based on PCR to rapidly amplify the 5' and 3' ends of cDNA from low-abundance transcripts. Compared with conventional PCR, RACE uses only one specific PCR primer and a second non-specific primer, depending on The region to be amplified at the 3' or 5' end of the cDNA to choose whether the second primer binds to the polyA tail (3' RACE) or the transcript (5' RACE). This method has various advantages, such as being simple, fast, and inexpensive. Currently, the RACE method we provide has been widely used in plant gene cloning studies.
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Advantages of our services
- Innovative. We accelerate the development of solutions to meet the diverse needs of researchers and fragrance practitioners for fragrances.
- Integrity. We insist on doing the right thing and providing the highest quality service with the highest ethical and safe standards.
- Green and safe. We promote fragrance research while adhering to safety guidelines and environmental principles.
Lifeasible has many years of experience in spices research. It is our constant pursuit to promote the progress of spice research and to obtain the satisfaction of our clients. If you are interested in us, please feel free to contact us.
The services provided by Lifeasible cover all aspects of plant research, please contact us to find out how we can help you achieve the next research breakthrough.
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For research use only, not intended for any clinical use.