Lamya Al‐Haj scite author profile

Cyanobacteria hold significant potential as industrial biotechnology (IB) platforms for the production of a wide variety of bio-products ranging from biofuels such as hydrogen, alcohols and isoprenoids, to high-value bioactive and recombinant proteins. Underpinning this technology, are the recent advances in cyanobacterial “omics” research, the development of improved genetic engineering tools for key species, and the emerging field of cyanobacterial synthetic biology. These approaches enabled the development of elaborate metabolic engineering programs aimed at creating designer strains tailored for different IB applications. In this review, we provide an overview of the current status of the fields of cyanobacterial omics and genetic engineering with specific focus on the current molecular tools and technologies that have been developed in the past five years. The paper concludes by giving insights on future commercial applications of cyanobacteria and highlights the challenges that need to be addressed in order to make cyanobacterial industrial biotechnology more feasible in the near future.

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Optimization of oil extraction from waste “Date pits” for biodiesel production

Jamil

Al-Muhtaseb

Al‐Haj

et al. 2016

Energy Conversion and Management

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Lamya Al‐Haj

Heterogeneous carbon-based catalyst modified by alkaline earth metal oxides for biodiesel production: Parametric and kinetic study

Combustion and emissions characterization of terpenes with a view to their biological production in cyanobacteria

Cyanobacteria as Chassis for Industrial Biotechnology: Progress and Prospects

Optimization of oil extraction from waste “Date pits” for biodiesel production

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