Biotechnology Research Collection

Genetic modification, conceptual artwork. Human figures and DNA (deoxyribonucleic acid, upper left to bottom right corner), which carries the genetic code. Chromosomes are seen at top left corner

Dried algae on finger produced by Greenfuel Technologies, USA. Algae are photosynthesising microorganisms that convert carbon dioxide (CO2) and sunlight into lipids, carbohydrates and proteins

Algae growing in a photobioreactor with a researchers shadow. Algae are photosynthesising micro-organisms that can convert carbon dioxide into commercially valuable lipids

Genetically modified food

Algae growing on petri dishes, Solazyme Inc. USA. Algae are photosynthesising micro-organisms. They convert carbon dioxide (CO2) into sugars, that are then metabolised into lipids

Algae research. Researcher from Solazyme Inc. USA, examining a petri dish from an incubation room containing different algae strains. Algae are photosynthesising micro-organisms

Biofactory, conceptual artwork
Biofactory, conceptual computer artwork. Cartoon of a factory producing molecules on a conveyor belt. This may represent the use of bacteria to mass-produce molecules for disease prevention

Designing molecules, conceptual artwork
Designing molecules for protein binding. Conceptual artwork of a molecule design process, where the aim is to develop a molecule suited to the particular task of binding to proteins, peptides

Algae fermentation bioreactor, Solazyme Inc. USA. Algae are photosynthesising micro- organisms that can convert carbon dioxide into sugars

Researcher with algae fermenter
Researcher with algae fermentation bioreactor, Solazyme Inc. USA. Algae are photosynthesising micro-organisms that can convert carbon dioxide (CO2) into sugars

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Biotechnology research is revolutionizing the way we understand and manipulate living organisms. Genetic modification, a key aspect of this field, allows scientists to alter the genetic makeup of organisms for various purposes. One area where biotech research has shown immense potential is in harnessing the power of dried algae. Algae research has become a focal point as these microscopic plants hold tremendous promise for numerous applications. In specially designed photobioreactors, researchers are able to cultivate algae under controlled conditions, observing their growth and behavior closely. These reactors provide an ideal environment for studying how different factors impact algae growth and productivity. One significant outcome of biotech research on algae is genetically modified food. By manipulating the genes within these tiny organisms, scientists can enhance their nutritional content or modify them to produce specific compounds beneficial for human consumption. This breakthrough opens up new possibilities in addressing global food security challenges. In laboratories worldwide, you'll find petri dishes filled with vibrant green algae colonies being studied extensively by dedicated researchers. Algae research aims to uncover valuable insights into their unique properties and potential applications across industries ranging from pharmaceuticals to biofuels. The concept of a biofactory represents an exciting vision within biotechnology research – envisioning large-scale production facilities that utilize biological systems like bacteria or yeast to manufacture valuable products sustainably. Conceptual artwork showcasing such biofactories highlights our ambition towards sustainable manufacturing practices using nature's own tools. Designing molecules is another fascinating avenue explored in biotech labs through conceptual artwork. Scientists strive to engineer molecules with specific functions that could be used in medicine or other fields, pushing boundaries beyond what nature provides us naturally. An essential component of algal biotechnology lies in fermentation processes conducted within specialized bioreactors. Researchers work diligently alongside these fermenters, optimizing conditions to maximize product yield while minimizing resource consumption and waste generation—a crucial step towards creating more sustainable industrial processes. Through continuous exploration and innovation driven by passionate researchers around the world, biotechnology research is unlocking the potential of algae and other organisms.