[HTML][HTML] Minimizing carbon footprint via microalgae as a biological capture
The threatening crisis of climate change and pollution resulting from various anthropogenic
interventions has attracted worldwide attention over the last few decades. However, carbon …
interventions has attracted worldwide attention over the last few decades. However, carbon …
New applications of synthetic biology tools for cyanobacterial metabolic engineering
Cyanobacteria are promising microorganisms for sustainable biotechnologies, yet unlocking
their potential requires radical re-engineering and application of cutting-edge synthetic …
their potential requires radical re-engineering and application of cutting-edge synthetic …
Recent advances in biofuel production through metabolic engineering
S Joshi, SD Mishra - Bioresource technology, 2022 - Elsevier
Rising global energy demands and climate crisis has created an unprecedented need for
the bio-based circular economy to ensure sustainable development with the minimized …
the bio-based circular economy to ensure sustainable development with the minimized …
Harnessing the power of microbial autotrophy
NJ Claassens, DZ Sousa, VAPM Dos Santos… - Nature Reviews …, 2016 - nature.com
Autotrophic microorganisms convert CO2 into biomass by deriving energy from light or
inorganic electron donors. These CO2-fixing microorganisms have a large, but so far only …
inorganic electron donors. These CO2-fixing microorganisms have a large, but so far only …
A critical review of genome editing and synthetic biology applications in metabolic engineering of microalgae and cyanobacteria
Being the green gold of the future, microalgae and cyanobacteria have recently attracted
considerable interest worldwide, for their metabolites such as lipids, protein, pigments, and …
considerable interest worldwide, for their metabolites such as lipids, protein, pigments, and …
Microbial applications for sustainable space exploration beyond low Earth orbit
AP Koehle, SL Brumwell, EP Seto, AM Lynch… - npj …, 2023 - nature.com
With the construction of the International Space Station, humans have been continuously
living and working in space for 22 years. Microbial studies in space and other extreme …
living and working in space for 22 years. Microbial studies in space and other extreme …
[HTML][HTML] Current advances in engineering cyanobacteria and their applications for photosynthetic butanol production
Highlights•Cyanobacteria can be engineered for chemical production from solar energy and
CO 2.•Recent progress has advanced cyanobacteria as green cell factories for …
CO 2.•Recent progress has advanced cyanobacteria as green cell factories for …
Enzyme-Assisted Microbial Electrosynthesis of Poly(3-hydroxybutyrate) via CO2 Bioreduction by Engineered Ralstonia eutropha
X Chen, Y Cao, F Li, Y Tian, H Song - ACS Catalysis, 2018 - ACS Publications
Microbial electrosynthesis (MES) is a promising technology to reduce carbon dioxide using
inward electron transfer mechanisms to synthesize value-added chemicals with …
inward electron transfer mechanisms to synthesize value-added chemicals with …
Cyanobacteria mediated heavy metal removal: a review on mechanism, biosynthesis, and removal capability
Heavy metal in wastewater is a crucial concern due to its toxicological manifestations on
human health, particularly in developing countries. Compared to different conventional …
human health, particularly in developing countries. Compared to different conventional …
Advances in plant materials, food by-products, and algae conversion into biofuels: use of environmentally friendly technologies
Green technologies have emerged as useful tools for the generation of clean fuels with the
potential to minimize the effect of human activity on the environment. Currently, these fuels …
potential to minimize the effect of human activity on the environment. Currently, these fuels …