In recent years, with the continuous development of biology and proteomics, the construction and mass expression of proteins has attracted more and more attention from the scientific and industrial circles. The plant protein expression system is an extremely important part of all exogenous protein expression systems. It is easy to cultivate and produce on a large scale, the gene modification technology is relatively mature, and the recombinant protein accounts for the significant advantages of high total protein content. At the same time, the research of transgenic Oryza sativa L. as a research model expression system of transgenic plants has made considerable progress. At present, transgenic Oryza sativa L. can successfully express a variety of foreign proteins, such as hepatitis B surface antigen, hepatitis B virus antibody, cholera toxin, viral membrane protein, VLP (virus-like particles), etc.
Lifeasible has been researching in the field of plant protein expression systems for many years, and has the most in-depth research on a variety of plant protein expression systems including genome transformation plant protein expression, chloroplast transgenic protein expression, plant transient expression system, suspension cell culture. We can provide customers with a series of one-stop services including vector construction, plant transformation, plant tissue culture, protein extraction, and protein purification. Our services can fully meet the needs of customers to build a stable Oryza sativa L. protein expression system. The specific protein expression system construction methods are as follows:
The research and industrial planting of genetically modified plants have developed rapidly around the world, and breakthroughs have also been made in the production of various foreign proteins by the expression of genetically modified plants. By constructing exogenous protein genes on plant expression vectors, using Agrobacterium or gene gun transformation methods, the target gene can be transformed into plant cells and integrated into the nuclear genome to obtain stable expression of transgenic plants. Synthetic recombinant protein can be stored in leaves, seeds, fruits, tubers and other parts. It can be separated and purified by separation means, or can be used directly by humans as edible vaccines or enzymes, avoiding complex and expensive downstream processing and storage costs of products. The specific experimental process are as follows:
Figure 1. Construction process of transgenic plant protein expression system
Chloroplast genome transformation provides another effective alternative way to express foreign proteins, and its main advantage is the high expression of foreign proteins. A typical Oryza sativa L. leaf cell can contain 10-100 chloroplasts, and each chloroplast contains 10-100 gene copies. Therefore, the expression level of exogenous protein obtained by chloroplast transformation can be expanded to 100 to 10,000 times, which can reach 5% to 20% of the total soluble protein of the plant.
We use Oryza sativa L. expressed human proinsulin to reach 47% of the total soluble protein content of leaves. At the same time, chloroplast inheritance is a maternal inheritance and does not require sexual reproduction methods such as pollen transmission, which can avoid ecological safety issues such as gene drift. Another significant advantage is that chloroplast transgenic plants have no positional effects and gene silencing. The transferred foreign gene is inserted into the specific site of the chloroplast through homologous recombination, there is almost no position effect, and the stable expression of the foreign gene is ensured.
The plant protein transient expression system refers to the introduction of foreign genes into plant cells, transcription and translation as extra-genomic material for a certain period of time, then accumulate and express specific products in the transformed cells. The biggest advantage of this system is that the target protein is produced quickly, usually can be produced within a few days or weeks. Lifeasible can provide methods for constructing plant protein transient expression systems including Agrobacterium infiltration method, virus infection method and protoplast transformation transient expression. Among them, protoplast transformation transient expression can also be called suspension cell culture protein expression, the suspension cells do not carry human pathogens, do not produce endotoxins, are not prone to gene drift, and are easy to scale up. Lifeasible has a mature plant transient expression service project. We can simultaneously express more than 20 different idiotypic IgG antibodies in Oryza sativa L., and the time from expression to purification of the antibody is within two weeks.
For more information or any inquiry requirements, please contact Lifeasible, we are looking forward to your call or email.
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: