By engineering photosynthetic cyanobacteria to live symbiotically ... pathways to non-petroleum-based energy, other synthetic biology applications and the experimental study of evolution.

Another significant aspect of cyanobacterial research is their potential for carbon-negative synthetic biology. Cyanobacteria can directly utilize sunlight and CO 2 to produce valuable chemicals ...

The unique metabolic and regulatory pathways present in cyanobacteria present new challenges for metabolic engineers and synthetic biologists. Moreover, their requirement for light and the dynamic ...

However, there are still limitations that prevent microalgae to function optimally. Synthetic biology is a new biological discipline developed to solve challenging problems via bioengineering ...

I am interested in synthetic biology as applied to re-engineering the photosynthetic capabilities of cyanobacteria. I also have an interest in protein design and engineering, again with applications ...

coli, fermentative; cyanobacteria, autotrophic) using both computational and experimental methods, and engineer synthetic metabolic pathways ... Understanding metabolism by computational and ...

For more than thirty years, I have been working s of functional genomics and ecogenemics of photosynthetic prokaryotes in gene regulation, evolution and biogenesis of the photosynthetic complexes, ...

“Once you know that sequence, you can use essentially pretty standard synthetic biology to synthesize a stretch of DNA that codes for it ... possibly as a consequence of photosynthesis carried out by ...

To try to understand how harmful algal blooms might evolve in Lake Erie in a warming climate, University of Michigan ...

In other cases, cyanobacteria and microalgae have been engineered for photomixotrophic chemical production, extending the range of synthetic biology applications. Directed Endosymbiosis ...