"Biotechnological applications" refers to the practical uses and advancements of technology in biology to create or improve products, processes, or solutions that benefit various fields such as medicine, agriculture, and environmental sustainability. It involves using living organisms or their components to develop innovative technologies and solutions for a wide range of applications.
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We hope that the genes collected in Malaspina Expedition open the door to multiple
biotechnological applications in fields such as bioenergy, food or cosmetics.»
In one area, the use of cyanobacteria as biocatalysts for light -
driven biotechnological applications is being examined and tested in a range of industrially relevant model reactions.
Sequencing a diverse set of Aspergillus genomes allows researchers to build a more comprehensive catalog of enzymes for
biotechnological applications, added DOE JGI Fungal Genomics Program Head Igor Grigoriev, senior author of the paper.
These gene circuits hold great promise in medical and
biotechnological applications, such as combating super bugs, producing advanced biofuels, and manufacturing functional materials.
They have also started harnessing the temperature - sensing parts of proteins for
biotechnological applications, like separating one type of molecule from another in response to a shift in temperature.
«As in the mouse,» he continues, «the human elements can be used in
biotechnological applications to target mRNA encoding different proteins, by simply engineering the antisense part.
Fluorescent and luminescent materials, such as yttrium aluminum garnet doped with different metal ions (rare earths or transition metals), have found applicability in various fields, from optoelectronics (i.e.: lighting systems, LCDs, CRTs, lasers) to aerospace (i.e: thermal barriers) and
biotechnological applications (i.e.: fluorescence marker, contrast agent in medical imaging, imaging screens, drug delivery etc).
They also have potential
biotechnological applications.
The 16th and final issue of the MaCuMBA (Marine Microorganisms: Cultivation Methods for Improving
their Biotechnological Applications) project newsletter is...
It is of great importance to increase the number of marine microorganisms in culture because it is the only way to understand their nature, their function in the marine microbiome, and their properties, including potential pharmaceutical or
biotechnological applications.