News by Subject Biology

News Release 22-Apr-2019

DNA is managed like climbers' rope to help keep tangles at bay

Scientists have uncovered a process in cells that prevents DNA from becoming tangled, which resembles a method used to control climbers' ropes.

Journal: Proceedings of the National Academy of Sciences
Funder: European Research Council

News Release 22-Apr-2019

Biomimetics: Artificial receptor distinguishes between male and female hormones

Tokyo Institute of Technology

Researchers at Tokyo Tech have revealed that an artificial receptor preferentially binds male steroid hormones from a mixture of male and female hormones in water. Based on their findings, they succeeded in the preparation of a prototype detection system for male hormones at the nanogram level. This achievement could lead to the development of ultrasensitive analytical devices for medical diagnostics and anti-doping testing in sports.

Journal: Science Advances

News Release 18-Apr-2019

Research provides important insight on the brain-body connection

University of Arkansas

A study conducted by University of Arkansas researchers reveals that neurons in the motor cortex exhibit an unexpected division of labor, a finding that could help scientists understand how the brain controls the body and provide insight on certain neurological disorders.

Journal: Nature Communications

News Release 18-Apr-2019

Growing a cerebral tract in a microscale brain model

Institute of Industrial Science, The University of Tokyo

An international research team led by The University of Tokyo modeled the growth of cerebral tracts. Using neurons derived from stem cells, they grew cortical-like spheroids. In a microdevice, the spheroids extended bundles of axons toward each other, forming a physical and electrical connection. Fascicles grew less efficiently when one spheroid was absent, and when a gene relevant to cerebral tract formation was knocked-down. The study further illuminates brain growth and developmental disorders.

Journal: iScience

News Release 17-Apr-2019

New automated biological-sample analysis systems to accelerate disease detection

Polytechnique Montréal

Professor Thomas Gervais of Polytechnique Montréal and his students Pierre-Alexandre Goyette and Étienne Boulais, in partnership with the team led by Professor David Juncker of McGill University, have developed a new microfluidic process aimed at automating protein detection by antibodies. This work, the topic of an article in Nature Communications, points to the arrival of new portable instruments to accelerate the screening process and molecule analysis in biological laboratories to accelerate research in cancer biology.

Journal: Nature Communications

News Release 17-Apr-2019

Finding the key to flightlessness

Harvard University

Based on the analysis of the genomes of more than a dozen flightless birds, including an extinct moa, a team led by Harvard researchers found that while different species show wide variety in the protein-coding portions of their genome, they appear to turn to the same regulatory pathways when evolving flight loss.

Journal: Science

News Release 17-Apr-2019

Making a fast ion transporter

National Institutes of Natural Sciences

An international team of researchers at Institute for Molecular Science in Japan and Max Planck Institute of Biophysics in Germany reveals an ion transport mechanism of sodium/proton antiporter by simulating its motion. Based on the simulations, they now design a faster transporter by making mutation on "gate" of the transporter.

Journal: Nature Communications
Funder: Max Planck Society, Ministry of Education Culture Sports Science and Technology, Grant-in-Aid for Scientific Research

News Release 17-Apr-2019

Folding revolution

Harvard Medical School

A Harvard Medical School scientist has used a form of artificial intelligence known as deep learning to predict the 3D structure of effectively any protein based on its amino acid sequence. This new approach for computationally determining protein structure achieves accuracy comparable to current state-of-the-art methods but at speeds upward of a million times faster.

Journal: Cell Systems
Funder: NIH/National Institute of General Medical Sciences, NIH/National Cancer Institute, National Institutes of Health

News Release 16-Apr-2019

Catfish use complex coordination to suck in prey

Brown University

Using a powerful X-ray-based technology, Brown University scientists tracked catfish as they caught and swallowed prey to develop a precise understanding of the complex set of motions required to create the suction necessary to eat. They found that many of the bones in the catfish skull work in a coordinated manner to catch food. However, the bones move more independently when the fish swallow.

Journal: Proceedings of the Royal Society B
Funder: National Science Foundation

News Release 16-Apr-2019

Team measures puncture performance of viper fangs

University of Illinois at Urbana-Champaign

A team that studies how biological structures such as cactus spines and mantis shrimp appendages puncture living tissue has turned its attention to viper fangs. Specifically, the scientists wanted to know, what physical characteristics contribute to fangs' sharpness and ability to puncture? They report their findings in the Royal Society journal Biology Letters.

Journal: Biology Letters
Funder: National Science Foundation

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