News by Subject Biology

Public Release: 24-May-2018

Programming synthetic molecular codes to turn genes 'on'

A team of researchers in Japan developed a synthetic molecular code to script gene activation. The process, described in the Journal of the American Chemical Society, could help lead to future gene-based therapies for a wide array of diseases.

Journal: Journal of American Chemical Society

Public Release: 24-May-2018

The big clean up after stress

University of Würzburg

When cells become stressed, they activate specific response patterns. Würzburg researchers have identified new details of these responses, which can help to get a better understanding of neurodegenerative diseases.

Journal: Molecular Cell
Funder: Deutsche Forschungsgemeinschaft, University of W€urzburg, Graduate School of Life Sciences

Public Release: 24-May-2018

A system of check and balances in the blood

University of Vienna

Hematopoietic Stem Cells (HSCs) give rise to blood and immune cells of the body, and are therefore essential for our survival. The group of Manuela Baccarini at the Max F. Perutz Laboratories, a joint venture of the University of Vienna and the Medical University of Vienna, has now shown how intracellular signalling can safeguard this delicate balance between activation and dormancy. Their results are published in the prominent journal Cell Stem Cell.

Journal: Cell Stem Cell

Public Release: 24-May-2018

Cell damage caused by the pesticide DDT is palliated

University of Córdoba

University of Cordoba researchers manage to reduce oxidative stress brought about by this well-known pesticide in mice via a selenium-enriched diet.

Journal: Food and Chemical Toxicology

Public Release: 24-May-2018

Cancer cells co-opt pain-sensing 'wasabi receptor' to survive oxidative stress

Harvard Medical School

Some cancers express unusually high levels of a neural calcium channel known as the 'wasabi receptor,' which plays a role in detecting pain, cold and other sensations. New research finds cancer cells co-opt this neural channel to increase their tolerance against toxic oxidative stress. Blocking the activity of this channel in mice curbs tumor growth and makes cancer cells more sensitive to chemotherapy.

Journal: Cancer Cell
Funder: Susan G. Komen for the Cure Foundation, Breast Cancer Research Foundation, F. Hoffmann-La Roche Ltd, NIH/National Cancer Institute

Public Release: 24-May-2018

Tumor cells evade death through in extremis DNA repair

Institute for Research in Biomedicine (IRB Barcelona)

p38 blockage has been shown to increase the death of tumor cells, thus causing tumors to shrink. The combination of p38 inhibitors with chemotherapeutic drugs (taxanes) strengthens, accelerates or prolongs the antitumor effect in patient-derived tumors grown in mice.

Journal: Cancer Cell
Funder: BBVA Foundation, European Research Council, Ministry of Economy and Competitiveness of Spain, Government of Catalonia

Public Release: 24-May-2018

A cascade of immune processes offers insights to triple-negative breast cancer

Michigan Medicine - University of Michigan

Researchers at the University of Michigan Rogel Cancer Center have discovered that tumor cells reprogram metabolic pathways to gain control over a type of immune cell that allows cancer growth.

Journal: Cell Metabolism
Funder: NIH/National Cancer Institute, Major State Basic Research Development Program of China

Public Release: 23-May-2018

In the beginning was the phase separation

Technical University of Munich (TUM)

The question of the origin of life remains one of the oldest unanswered scientific questions. A team at the Technical University of Munich (TUM) has now shown for the first time that phase separation is an extremely efficient way of controlling the selection of chemical building blocks and providing advantages to certain molecules.

Journal: Nature Communications
Funder: European Union, Deutsche Forschungsgemeinschaft, Technical University of Munich, Institute for Advanced Study

Public Release: 23-May-2018

University of Guelph study uncovers cause of pesticide exposure, Parkinson's link

University of Guelph

Previous studies have found an association between two commonly used agrochemicals (paraquat and maneb) and Parkinson's disease. Now U of G professor Scott Ryan has determined that low-level exposure to the pesticides disrupts cells in a way that mimics the effects of mutations known to cause Parkinson's disease. Adding the effects of the chemicals to a predisposition for Parkinson's disease drastically increases the risk of disease onset.

Journal: FASEB Journal

Public Release: 23-May-2018

Complementing conventional antibiotics

Goethe University Frankfurt

Antimicrobial resistance (AMR) is a major medical problem worldwide, impacting both human health and economic well-being. A new strategy for fighting bacteria has now been reported in the latest online issue of Nature by a research group headed by Professor Ivan Dikic at the Goethe University Frankfurt. The scientists revealed the molecular action mechanism of a Legionella toxin and developed a first inhibitor.

Journal: Nature

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News by Subject Biology

Programming synthetic molecular codes to turn genes 'on'

The big clean up after stress

A system of check and balances in the blood

Cell damage caused by the pesticide DDT is palliated

Cancer cells co-opt pain-sensing 'wasabi receptor' to survive oxidative stress

Tumor cells evade death through in extremis DNA repair

A cascade of immune processes offers insights to triple-negative breast cancer

In the beginning was the phase separation

University of Guelph study uncovers cause of pesticide exposure, Parkinson's link

Complementing conventional antibiotics

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Featured Newsrooms

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News by Subject Biology

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