- Can we build better systems? Can we go from the Wright Brothers to a Boeing 747?
- Notes from PlantSynBio19 Day 2
- Introducing iGEM UIUC
- Rob and Rubisco: directed evolution of photosynthesis
- The promise and perils of synthetic biology
- The Era of Editing
- CRISPR for future food
- Plants Developed by New Genetic Modification Techniques—Comparison of Existing Regulatory Frameworks in the EU and Non-EU Countries
- Careers in Plant Synthetic Biology Part I: Introducing the modern steam mill
- Careers in Plant Synthetic Biology Part II: Computational Synthetic Biology
- Careers in Plant Synthetic Biology Part III: Using and Running a DNA Foundry
- Careers in SynBio: Startup companies
- Synthetic Biology: Improving Photosynthesis
- CRISPR-DERIVED PLANT RESISTANCE TO RNA VIRUSES
- A metabolic bypass increases crop productivity
- MANIPULATION OF PHOTORESPIRATION H-PROTEIN LEADS TO INCREASED BIOMASS IN TOBACCO PLANTS
- The Sainsbury Laboratory Golden Gate Cloning Tutorial
- Plant genetic editing – a green synbio future?
- Rise of The Plant Machines
- From Plough to Pipette – Tools for Crop Development
- Plant SynBio: Feynman and Flowers
Rise of The Plant Machines
Part 3 of the PLOS Synbio plant synthetic biology blog series from 2016. Orlando de Lange (@SeaGreenODL) of The New Leaf blog introduces how synbio approaches are being used to develop novel disease resistant crops, overcoming some of the challenges faced by monoculture farming.
you can read the full article here.