Refine by
Biofuel Articles & Analysis
21 articles found
Conclusion The advancements in lipid synthesis techniques have opened new avenues for research and application across various fields, including pharmaceuticals, biofuels, and food science. As scientists continue to explore the multifaceted roles of lipids in biological systems, the development of innovative and efficient synthesis methods will remain crucial in driving progress ...
The biological functions of platelets are preserved in platelet micromotors with their ability to target cancer cells and pathogens. Biofuels enable motor-shaped platelet micromotors to achieve directed propulsion. ...
Applications of MFA Metabolic Flux Analysis is widely applied across several scientific disciplines, including: Biotechnology: Used to optimize microbial strains for bio-production (e.g., biofuels, pharmaceuticals, or industrial enzymes), MFA enhances the efficiency of metabolic engineering projects. ...
Applications of Bacterial Genome Editing The realm of bacterial genome editing is teeming with potential biotechnological applications, as diverse as drug discovery, disease modeling, biofuel production, and more. For instance, bacterial genome editing systems are being explored in the modification of gut microbiota. ...
One of the most exciting frontiers for keratinase lies in the field of biofuels. Researchers have discovered that the enzyme can be leveraged to break down keratin-rich agricultural waste, such as chicken feathers and animal hides, into valuable precursors for biofuel production. ...
Whether unraveling the complexities of the human genome, developing sustainable biofuels, or creating innovative materials, enzymes unlock a realm of possibilities that drive progress and innovation. ...
This computational approach to protein design holds immense potential for advancing fields as diverse as biofuels, pharmaceuticals, and industrial biotechnology. By virtually introducing targeted mutations into the enzyme structures and simulating their effects on stability, activity, and substrate specificity, we can identify promising candidates for further experimental ...
Applications of Bacterial Genome Editing The realm of bacterial genome editing is teeming with potential biotechnological applications, as diverse as drug discovery, disease modeling, biofuel production, and more. For instance, bacterial genome editing systems are being explored in the modification of gut microbiota. ...
Carbohydrate synthesis is also relevant in the field of biofuels and renewable energy. Researchers are exploring ways to produce biofuels from carbohydrates, such as ethanol from corn or sugarcane. By understanding the enzymatic pathways involved in carbohydrate synthesis, scientists can optimize the production of biofuels and reduce our ...
Biotechnology and Industrial Applications: Protein engineering is playing an increasingly important role in industrial biotechnology, enabling the production of enzymes with improved catalytic activity, stability, and specificity for various industrial applications, such as biofuel production and bioremediation. Materials Science: Protein engineering is being used to design ...
This eco-virtue has been especially instrumental in elevating biofuel production, offering a greener path towards energy sustainability. ...
Protein engineering has applications in fields such as biotechnology, biofuels, and food processing. By using protein-small molecule docking services in protein engineering, researchers can create new proteins with specific functions and optimize existing proteins for a range of applications. ...
Microbial whole genome sequencing allows people to know about the secrets of these microorganisms' adaptation to extreme environments, and provides a lot of assistance in pollution control, environmental protection, oil exploitation, preservation and transportation of food and medicine, biofuel, fermentation industry and many other fields in environment and industry. ...
While sugarcane produces 70L of ethanol per ton of raw material (D Rajagopal et al, Challenge of Biofuel: Filling the Tank without Emptying the Stomach? Environ. Res. Lett. 2007) and corn produces 400L per ton of corn (D Rajagopal et al, Challenge of Biofuel: Filling the Tank without Emptying the Stomach? Environ. Res. ...
Passalid beetles’ digestive tracts contain microbes that provide a roadmap for the production of affordable, nature-derived bioproducts and biofuels. The structure of these beetles’ guts allows for different microbial communities to coexist and perform unique biochemical metabolic processes in energy ...
The long-term viability and tunable cell densities of this new bio-ink material allow for the live cells to be genetically modified for the production of chemicals, food, pharmaceuticals, and ...
Spain will raise biofuel blending and lower both speed limits and train fares, on track to reduce energy costs and its dependence on ...
Both for cattle nutrition and biofuel production, the improvement in maize (Zea mays L.) cell wall degradability depends on understanding the genetic mechanisms involved in the biosynthesis of phenylpropanoids. ...
This not only makes sewage purification but also obtains much fresh Spirulina platensis, which can be used as feed, fertilizer and biofuel. Keywords: human urine, Spirulina platensis, consumption, nitrogen, phosphorus, urine treatment, irradiation, dry biomass, total phosphorus, total nitrogen, sewage ...
Visible light-operated glucose-O2 biofuel cell consisting of chlorin-e6 metal complexes (MChl?e6, M = H2 and Zn) adsorbed on TiO2 coated onto Optical Transparent conductive glass Electrode (OTE) as an anode, platinum electrode as a cathode, and the solution containing glucose, Glucose Dehydrogenase and NAD+ as a fuel is studied. The cells using H2Chl-e6 and Zn Chl-e6 adsorbed on ...