Engineering of Chloroplast Photosynthesis

The unique advantages of chloroplast transformation make it have broad application prospects. With the rapid development of chloroplast genetic engineering technology, chloroplast engineering can be applied in various fields to benefit human beings and nature. Based on our rich experience in the field of chloroplast engineering, researchers have successfully used chloroplast transformation technology for photosynthesis engineering to improve photosynthesis efficiency.

Here, Lifeasible is committed to providing global customers with the best solutions for engineered chloroplast photosynthesis. Our custom solutions will guarantee your 100% satisfaction.

Introduction

As the world's population continues to increase, so does the demand for food and energy. More than 90% of crops are produced by photosynthesis. Among them, chloroplasts have the mechanism of photosynthesis and give plants their characteristic green color. Increasing photosynthetic capacity is widely recognized as a promising approach to increasing crop yields. To date, two general strategies have been used to improve photosynthesis through nuclear transgene expression, either by expressing enzymes with potentially direct effects on photosynthesis or by using enzymes to reduce energy loss in photorespiration. Based on decades of intricate research into the photosynthetic process of plant chloroplasts, researchers have proposed a variety of potential ways to improve photosynthetic efficiency, greatly boosting crop growth and yield.

Fig. 1. Many ways are being studied to improve photosynthesis in crop plants. (Orr D J, et al., 2017)

Our Solutions

Chloroplast transformation technology is currently being used to improve photosynthetic efficiency by manipulating photosynthetic enzymes and pathways. Lifeasible is committed to developing a variety of state-of-the-art methods and technologies to identify specific targets for improving plant photosynthesis for the new green revolution. Our team has a strong interest in the application of chloroplast engineering and hopes to bring more valuable and innovative solutions to people through the chloroplast gene transformation platform.

With years of experience in chloroplast engineering, Lifeasible can provide global customers with safe, effective and economical solutions for enhancing plant photosynthesis. Our solutions in engineered chloroplast photosynthesis are proven and you can choose with confidence. Combining genome editing technologies and molecular bioengineering, our engineers develop multiple strategies to increase photosynthetic capacity and plant production.

• Engineering of Improving Rubisco Performance
• Engineering of Improving Thermotolerance of Rubisco Activase
• Engineering of Increasing CO₂ Concentration Around Rubisco
• Engineering of Enhancing the Activity of Calvin-Benson Cycle Enzymes
• Engineering of Enhancing Electron Transport Rate in Thylakoid Membranes

Advantages of Engineering Chloroplast Photosynthesis

• Our team has a solid base of expertise in chloroplast photosynthesis.
• A variety of solutions to meet the diverse needs of customers.
• A variety of possible candidate targets were fully considered including Rubisco, Rubisco activase, Calvin-Benson cycle enzyme, CO₂ transport, and photosynthetic electron transport.
• Various advanced genetic engineering methods are used to increase photosynthetic efficiency.
• Enables easier and more precise manipulation of the photosynthesis process in crops.

Lifeasible has successfully used chloroplast transformation technology for abiotic and biotic stress tolerant plants, vaccines, biomaterials, biopharmaceuticals, phytoremediation and more. Here, we provide reliable, economical solutions for engineered chloroplast photosynthesis. Each project will be customized according to customer requirements and provide 24h after-sales service. Our clients have direct access to our experts and provide instant feedback on any online query. If you are interested in our services, please feel free to contact us.

References

1. Yamori W. (2021) Strategies for engineering photosynthesis for enhanced plant biomass production[J]. Rice Improvement. 31.
2. Orr D J, Pereira A M, da Fonseca Pereira P, et al. (2017) Engineering photosynthesis: progress and perspectives[J]. F1000Research. 6.