We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Engineering α-carboxysomes into plant chloroplasts to support autotrophic photosynthesis.
- Authors
Chen, Taiyu; Hojka, Marta; Davey, Philip; Sun, Yaqi; Dykes, Gregory F.; Zhou, Fei; Lawson, Tracy; Nixon, Peter J.; Lin, Yongjun; Liu, Lu-Ning
- Abstract
The growth in world population, climate change, and resource scarcity necessitate a sustainable increase in crop productivity. Photosynthesis in major crops is limited by the inefficiency of the key CO2-fixing enzyme Rubisco, owing to its low carboxylation rate and poor ability to discriminate between CO2 and O2. In cyanobacteria and proteobacteria, carboxysomes function as the central CO2-fixing organelles that elevate CO2 levels around encapsulated Rubisco to enhance carboxylation. There is growing interest in engineering carboxysomes into crop chloroplasts as a potential route for improving photosynthesis and crop yields. Here, we generate morphologically correct carboxysomes in tobacco chloroplasts by transforming nine carboxysome genetic components derived from a proteobacterium. The chloroplast-expressed carboxysomes display a structural and functional integrity comparable to native carboxysomes and support autotrophic growth and photosynthesis of the transplastomic plants at elevated CO2. Our study provides proof-of-concept for a route to engineering fully functional CO2-fixing modules and entire CO2-concentrating mechanisms into chloroplasts to improve crop photosynthesis and productivity. Engineering carboxysomes into crop chloroplasts is a potential route to improve photosynthesis and crop yield. Here, the authors engineer functional CO2-fixing modules into tobacco chloroplasts to improve their photosynthesis and productivity.
- Subjects
PLANT engineering; PHOTOSYNTHESIS; CROP yields; CHLOROPLAST membranes; ENGINEERS; CHLOROPLASTS; ORGANELLES
- Publication
Nature Communications, 2023, Vol 14, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-37490-0