Synthetic biology and biofuel development essay
Strain development and process engineering are necessary to make algae biofuels practical and economically viable. Nature - Harnessing diversity and synthetic biology for the production of biofuels from algae. This in turn can accelerate the development and commercialization of biofuels, making them attractive and affordable for industrial manufacturers. Synthetic biology SynBio can be applied. The development phase begins in the century. In the first decade of the new millennium, it is known to every biological researcher that synthetic biology involves inventions of bioswitches. One way to capture this solar energy is biofuels. Biofuels are fuels that are chemically similar to gasoline and diesel, but are produced by processing crops, algae or microbial cultures. The carbon in biofuels comes from carbon dioxide that plants convert into their biomass through photosynthesis. Burning it for energy therefore adds nothing. Improving photosynthesis efficiency. Although the solar energy conversion efficiency of algae and cyanobacteria is higher than that of agricultural plants, efficiencies are still low with yields during the growing season and, in bioreactors on an annual basis, according to Blankenship et al. 2011 Synthetic biology articles from the entire Nature Portfolio. Synthetic biology is the design and construction of new biological parts, devices and systems, and the redesign of existing, natural parts. With continued research and development, it is conceivable that synthetic biology could enable the creation of tailor-made microorganisms for the production of a wide range of biofuels with superior properties. Strain development and process engineering are necessary to make algae biofuels practical and economically viable. Comparison of oilseed crops. The United States, of the world's petroleum sector. However, much more innovative solutions, such as fourth-generation biofuels or direct solar fuels and synthetic biology technologies, are needed to replace all fossil fuels. Bioengineering of photosynthetic microorganisms for the direct production of solar fuel, i.e. fuel production without a biomass phase, has resulted in Brazil, the second largest ethanol producer after US fuel, producing more than one percent of ethanol exists, with sugar cane as the main raw material. Alternatives to diesel fuel include biodiesel and. The production of biofuels from renewable and sustainable sources is playing an increasingly important role within the fuel industry. Of the biofuels, bioethanol is most commonly used as an additive for gasoline. Higher alcohols can be blended in a higher volume compared to ethanol and generate lower greenhouse gas emissions. Biofuels are mainly produced from photosynthetic organisms. such as photosynthetic bacteria, micro- and macro-algae and vascular land plants. The. primary products of biofuel can be in a. As described above, synthetic biology enables rapid evolution of genetic parts, even in some of the most persistent members of the human microbiota. This may facilitate the development of improved therapeutic microbial constructs with a wide dynamic range and high accuracy to detect biomarkers and produce therapeutic molecules.