Cucurbita maxima is native to South America, and the fruit is sweet and nutritious. At present, the selection of new varieties of Cucurbita maxima is mainly based on conventional breeding methods, with a long breeding cycle and unstable genetic traits. With the development of genome sequencing and genetic engineering technology, genetic transformation technology to precisely improve plant traits can effectively accelerate the breeding cycle, providing new ideas for Cucurbita maxima germplasm resource innovation and variety selection.
Lifeasible is committed to plant genetic transformation research. Relying on the advanced plant transformation platform and experienced technical team, we aim to provide stable and rapid Cucurbita maxima genetic transformation services for many researchers and provide effective solutions to solve the problems of low transformation efficiency, poor reproducibility, false positives, etc. in the genetic transformation of Cucurbita maxima. and provide effective solutions to solve the problems of low transformation efficiency, poor reproducibility, and false positives in Cucurbita maxima genetic transformation.
Cucurbita maxima genetic transformation technology is a significant bottleneck that constrains gene function mining and molecular breeding; after continuous attempts, we have developed a set of methods for efficient Cucurbita maxima transformation. In Cucurbita maxima genetic transformation, we mainly used the Agrobacterium-mediated method. We optimized the regeneration system of Cucurbita maxima in vitro by studying the regeneration system using Cucurbita maxima cotyledon nodes, hypocotyls, true leaves, and stem segments as the explants and establishing the effects of the culture method of aseptic seedlings, the age of seedlings, the size of the explants, and the ration of different phytohormone concentrations on the regeneration of Cucurbita maxima in vitro. We also studied the effects of varying bacteriostat concentrations, different antibiotic concentrations, ultrasound-assisted Agrobacterium-mediated method, and other factors on the genetic transformation of Cucurbita maxima in the regeneration of cotyledonary nodes of Cucurbita maxima. We established optimal regeneration and Agrobacterium-mediated genetic transformation conditions for Cucurbita maxima.
The Cucurbita maxima transformation services we provide can effectively help researchers improve Cucurbita maxima breeding. Currently, the Cucurbita maxima genetic transformation services we provide are effectively applied to the creation of breeding materials and the selection and breeding of new varieties, and we focus on comprehensive traits such as general adaptability, disease resistance, and storage and transportation resistance in addition to yield, quality, shape, and color.
Lifeasible is an industry leader in plant transformation; we provide efficient and stable plant genetic transformation services to maximize the satisfaction of customer research needs. If you are interested in us, please feel free to contact us.
Lifeasible has established a one-stop service platform for plants. In addition to obtaining customized solutions for plant genetic engineering, customers can also conduct follow-up analysis and research on plants through our analysis platform. The analytical services we provide include but are not limited to the following:
July 13, 2024