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Innovations from the fields of bionics, marine biology and microbiology

Understanding nature and transferring its traits to technology is not only the objective of bionics, but also of marine biology and microbiology.

Bionics, marine biology or microbiology. Here you can find scientific reports and articles about achievements and developments in the fields of bionics, marine biology and microbiology. Technical research departments at many universities and institutes are examining and learning from nature and then collaborating with the fields of bionics, marine biology and microbiology. Although Arnold Gehlen once labeled humanity as a "flawed being" that had to create its own culture to survive nature's environment, we can be certain he had not yet considered the opportunities presented by bionics, marine biology and microbiology. Science is meanwhile using the traits of the flawed being to contemplate how to utilize bionics, marine biology and microbiology to copy animals, plants and the rest of the environment. Because nature features attributes such as the hardest and most durable materials and efficient energy production and conversion, it has become a treasure trove of knowledge for bionics, marine biology and microbiology. As a stand-alone branch of research, science can use bionics to demonstrate that nature is superior to humans in many aspects and that we still have a lot to learn from it, whether in macro or microbiology.

Bionics takes the leap from comics to research

The "Bionic Six" comic and animated television series revolved around a family who collaborated with a researcher to utilize the attributes of nature to combat those intent on destroying it. The "Bionic Six" acquired their power and speed through bionics. They knew how to take advantage of the physical forces of nature and were already advancing into the fields of marine biology and microbiology research. Today, bionics is a well-respected field of research that has little to do with children's entertainment. Bionics occupies itself with nature's "inventions" and works closely with the fields of marine biology and microbiology to transfer their attributes to the human culture. Bionics has already proved its worth in the fields of materials research and nano technology. Bionics and microbiology have also made progress in areas such as energy production and storage.

Marine biology and microbiology - two close partners

Marine biology has enjoyed new impetus over the past several years. Although researchers have long been occupied with both fields, marine biology and microbiology were thrust into the public spotlight no later than with the publication of "The Swarm", a novel by German author Frank Schätzing. Over the last year, marine biology and microbiology reports revealed that although scientists have unearthed a wealth of new discoveries in marine biology and microbiology, there remain thousands of undiscovered animal species in both areas. Microbiology is actually a vital part of marine biology since the ocean depths contain not only large animals, but also organisms that cannot be seen with the naked eye. And this is where microbiology comes into play. Marine biology and microbiology are engaged in examining the effects of currents, depths and temperatures on the development and propagation of organisms and animals. For this reason, marine biology and microbiology researchers are working to discover new animal species and organisms, all the while further expanding the depths of geography and science. When marine biology and microbiology come together with bionics, this can result in unimagined discoveries and thus the development of new methods that humans can implement for their own benefit and for the protection of the environment. The latest achievements in the fields of bionics, marine biology and microbiology can be found in innovations-report.

Life Sciences

Articles and reports from the Life Sciences area deal with applied and basic research into modern biology, chemistry and human medicine.

Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.

Latest News:

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Enduring cold temperatures alters fat cell epigenetics

A new study in fat cells has revealed a molecular mechanism that controls how lifestyle choices and the external environment affect gene expression. This mechanism includes potential targets for next-generation drug discovery efforts to treat metabolic diseases including diabetes and obesity.

Researchers tracked how the epigenome changes after long-term exposure to cold temperatures, and how those changes cause energy-storing white fat cells to...

19.04.2018 | nachricht Read more

Full of hot air and proud of it

University of Pittsburgh confined gas research could expand natural gas market

Of the four states of matter, gases are the hardest to pin down. Gas molecules move quickly and wildly and don't like to be confined. When confined, heat and...

18.04.2018 | nachricht Read more

Keeping the excitement under control

James Poulet's lab at the MDC uses advanced techniques to monitor the activity of networks of single sensory neurons in the brain. By listening in on hundreds of conversations, the scientists have discovered how a single signal from one cell manages to attract attention.

When we are awake, an incredible amount of sensory information flows into the brain, where it is filtered to distinguish important signals from all the noise....

18.04.2018 | nachricht Read more

Observing inflammatory cells in the body: new method for preclinical research

Immunologists and imaging specialists at the Cells-in-Motion Cluster of Excellence have jointly developed a method enabling them to better evaluate and study the activity of inflammatory cells in mice. The study has been published in the “Theranostics” journal.

The process that the body sets in motion in the event of inflammation is complex, but also impressive. The main role here is played by immune cells migrating...

18.04.2018 | nachricht Read more

Enzyme designers: Simulation of the AsqJ enzyme opens up new options for pharmaceutical chemistry

Practically all biochemical processes involve enzymes that accelerate chemical reactions. A research team from the Technical University of Munich (TUM) has now for the first time deciphered the molecular mechanism of the enzyme AsqJ. They see potential applications in the production of pharmaceutically active molecules, for example.

Without enzymes, nature would come to a standstill. These tiny molecules accelerate biochemical reactions or make them possible in the first place. But how...

18.04.2018 | nachricht Read more

Warming climate could speed forest regrowth in eastern US

Faster takeover by trees could boost carbon sequestration on abandoned land

Climate change could speed the natural regrowth of forests on undeveloped or abandoned land in the eastern U.S., according to a new study.

17.04.2018 | nachricht Read more

Cleavage Product of Alzheimer's Key Protein APP Stimulates Nerve Cell

Researchers discover receptor for the protein fragment APPsα mediating its physiological function

A cleavage product of the Alzheimer's APP protein stimulates nerve cell communication and memory. The protein fragment, known as APPsα, has neuroprotective...

17.04.2018 | nachricht Read more

Basel researchers succeed in cultivating cartilage from stem cells

Stable joint cartilage can be produced from adult stem cells originating from bone marrow. This is made possible by inducing specific molecular processes occurring during embryonic cartilage formation, as researchers from the University and University Hospital of Basel report in the scientific journal PNAS.

Certain mesenchymal stem/stromal cells from the bone marrow of adults are considered extremely promising for skeletal tissue regeneration. These adult stem...

17.04.2018 | nachricht Read more

Like a wedge in a hinge

Researchers lay groundwork to tailor drugs for new targets in cancer therapy

In the fight against cancer, scientists are developing new drugs to hit tumor cells at so far unused weak points. Such a “sore spot” is the protein complex...

16.04.2018 | nachricht Read more

Mimicking nanoscale natural movements with the help of DNA Origami

Researchers at the Max Planck Institute for Intelligent Systems together with researchers at the University of Heidelberg and the University of Stuttgart use a technique called DNA origami to mimic a multitude of vital movements seen in nature, such as the sliding motion exerted by protein motors during cell division. Their invention, which is a thousand times smaller than a human hair, features a preliminary attempt to construct nanoscale analogues of the mysterious natural machines in living cells.

“We have managed to couple two origami filaments and to move them apart in a controlled fashion. We call this filament sliding. By doing so, we have imitated,...

16.04.2018 | nachricht Read more
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Die letzten 5 Focus-News des innovations-reports im Überblick:

Im Focus: Writing and deleting magnets with lasers

Study published in the journal ACS Applied Materials & Interfaces is the outcome of an international effort that included teams from Dresden and Berlin in Germany, and the US.

Scientists at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) together with colleagues from the Helmholtz-Zentrum Berlin (HZB) and the University of Virginia...

Im Focus: Gamma-ray flashes from plasma filaments

Novel highly efficient and brilliant gamma-ray source: Based on model calculations, physicists of the Max PIanck Institute for Nuclear Physics in Heidelberg propose a novel method for an efficient high-brilliance gamma-ray source. A giant collimated gamma-ray pulse is generated from the interaction of a dense ultra-relativistic electron beam with a thin solid conductor. Energetic gamma-rays are copiously produced as the electron beam splits into filaments while propagating across the conductor. The resulting gamma-ray energy and flux enable novel experiments in nuclear and fundamental physics.

The typical wavelength of light interacting with an object of the microcosm scales with the size of this object. For atoms, this ranges from visible light to...

Im Focus: Basel researchers succeed in cultivating cartilage from stem cells

Stable joint cartilage can be produced from adult stem cells originating from bone marrow. This is made possible by inducing specific molecular processes occurring during embryonic cartilage formation, as researchers from the University and University Hospital of Basel report in the scientific journal PNAS.

Certain mesenchymal stem/stromal cells from the bone marrow of adults are considered extremely promising for skeletal tissue regeneration. These adult stem...

Im Focus: Like a wedge in a hinge

Researchers lay groundwork to tailor drugs for new targets in cancer therapy

In the fight against cancer, scientists are developing new drugs to hit tumor cells at so far unused weak points. Such a “sore spot” is the protein complex...

Im Focus: The Future of Ultrafast Solid-State Physics

In an article that appears in the journal “Review of Modern Physics”, researchers at the Laboratory for Attosecond Physics (LAP) assess the current state of the field of ultrafast physics and consider its implications for future technologies.

Physicists can now control light in both time and space with hitherto unimagined precision. This is particularly true for the ability to generate ultrashort...

All Focus news of the innovation-report >>>

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