News by Subject Biology

News Release 9-Jul-2020

Bats offer clues to treating COVID-19

Bats carry many viruses, including COVID-19, without becoming ill. Biologists at the University of Rochester are studying the immune system of bats to find potential ways to "mimic" that system in humans.

Journal: Cell Metabolism

News Release 9-Jul-2020

Surprisingly many peculiar long introns found in brain genes

Moscow Institute of Physics and Technology

In a recent study of genes involved in brain functioning, their previously unknown features have been uncovered by bioinformaticians from the Moscow Institute of Physics and Technology and the Institute of Mathematical Problems of Biology, RAS.

Journal: PLOS ONE

News Release 9-Jul-2020

OPTN-ATG9 interaction accelerates autophagic degradation of ubiquitin-labeled mitochondria

Tokyo Metropolitan Institute of Medical Science

Damaged mitochondria are selectively eliminated via autophagy (called mitophagy). Parkin and PINK1, proteins mutated in hereditary Parkinson's disease, amplify ubiquitin signals on damaged mitochondria with the subsequent activation of autophagic machinery. Researchers in the Ubiquitin Project of Tokyo Metropolitan Institute of Medical Science (TMIMS) discovered that the critical autophagy adaptor OPTN (optineurin) interacts with ATG9A, and this interaction plays a critical role in PINK1/Parkin-mediated mitophagy. These studies were published in Journal of Cell Biology.

Journal: Journal of Cell Biology
Funder: JSPS KAKENHI Grants , the Chieko Iwanaga Fund for Parkinson's Disease Research, and the Takeda Science Foundation.

News Release 9-Jul-2020

Temple scientists identify key factor regulating abnormal heart growth

Temple University Health System

In new work, researchers at the Lewis Katz School of Medicine at Temple University cast fresh light on a key molecular regulator in the heart known as FoxO1. In a paper published online July 9 in the journal Circulation, the Temple scientists are the first to show that FoxO1 attaches to and activates a wide array of genes in heart cells, leading to widespread increases in growth signaling, specifically within the heart.

Journal: Circulation
Funder: National Institutes of Health, American Heart Association

News Release 9-Jul-2020

Breast cancer cells turn killer immune cells into allies

Rockefeller University Press

Researchers at Johns Hopkins University School of Medicine have discovered that breast cancer cells can alter the function of immune cells known as Natural killer (NK) cells so that instead of killing the cancer cells, they facilitate their spread to other parts of the body. The study, which will be published July 9 in the Journal of Cell Biology (JCB), suggests that preventing this reprogramming might stop breast cancer from metastasizing to other tissues, a major cause of death in breast cancer patients.

Journal: Journal of Cell Biology
Funder: Breast Cancer Research Foundation/Pink Agenda, Twisted Pink, Hope Scarves, National Institutes of Health, National Cancer Institute, Conquer Cancer Foundation, Jayne Koskinas Ted Giovanis Foundation for Health and Policy

News Release 8-Jul-2020

New clues from fruit flies about the critical role of sex hormones in stem cell control

Huntsman Cancer Institute

In one of the first studies addressing the role of sex hormones' impact on stem cells in the gut, scientists outline new insights showing how a steroidal sex hormone, ecdysone, drastically alters the way intestinal stem cells behave, ultimately affecting the overarching structure and function of this critical organ.

Journal: Nature

News Release 8-Jul-2020

TGen-led study identifies unique cells that may drive lung fibrosis

The Translational Genomics Research Institute

This is one of the first comprehensive looks at lung cells using a technology called single-cell RNA sequencing. Instead of examining a mash-up of many cells from a tissue sample, single-cell sequencing allowed researchers in this study to closely examine the individual cells that make up the lungs; to identify their function, and ultimately understand the molecular changes that may be driving the disease.

Journal: Science Advances
Funder: National Institutes of Health, US Department of Defense, Doris Duke Charitable Foundation, US Department of Veterans Affairs, Boehringer Ingelheim Pharmaceuticals

News Release 8-Jul-2020

Study reveals how bacteria build essential carbon-fixing machinery

University of Liverpool

Scientists from the University of Liverpool have revealed new insight into how cyanobacteria construct the organelles that are essential for their ability to photosynthesise.

Journal: Proceedings of the National Academy of Sciences

News Release 8-Jul-2020

Fluorescent peptide nanoparticles, in every color of the rainbow

American Chemical Society

The discovery of green fluorescent protein (GFP), which is made by a jellyfish, transformed cell biology. It allowed scientists to stitch the GFP sequence to proteins from other organisms to trace their movements and interactions in living cells. Now, researchers reporting in ACS Applied Materials & Interfaces have designed peptide nanoparticles that can each glow in a variety of colors, opening the door for many new biomedical applications.

Journal: ACS Applied Materials & Interfaces

News Release 8-Jul-2020

Glowing worms provide live-action movies of the body's internal scaffolding

Duke University

Duke researchers have made the first time-lapse movies of the sheet-like mesh that surrounds and supports most animal tissues. While the thin layer of extracellular matrix known as the basement membrane plays key roles in development and disease, visualizing it in living organisms has been difficult to do. The team says their work offers a new way to study basement membrane defects underlying aging, and diseases ranging from cancer to diabetes.

Journal: Developmental Cell
Funder: American Cancer Society, National Institutes of Health

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