News by Subject Biology

News Release 23-Sep-2019

Dartmouth study reveals how fungal biofilm structure impacts lung disease

The Geisel School of Medicine at Dartmouth

Findings from an innovative new study led by researchers at Dartmouth's Geisel School of Medicine and published this week in Nature Microbiology reveal that the way in which human fungal pathogens form colonies can significantly impact their ability to cause disease. Understanding how these colonies form could lead to new therapies that target these infections in critically ill patients.

Journal: Nature Microbiology
Funder: Burroughs Wellcome Fund, National Institutes of Health, National Research Service Award Fellowship

News Release 23-Sep-2019

Engineering the meniscus

Mary Ann Liebert, Inc./Genetic Engineering News

Damage to the meniscus is common, but there remains an unmet need for improved restorative therapies that can overcome poor healing in the avascular regions.

Journal: Tissue Engineering, Part A

News Release 23-Sep-2019

Better samples, better science: new study explores integrity of research specimens

Arizona State University

Biological samples can be highly susceptible to changes over time, which often occur when they are removed from deep refrigeration. Degraded samples can produce spurious results in research. To address these concerns, Borges and his colleagues have designed a highly sensitive test that can be used to establish the integrity of blood plasma and serum, the most common biosamples used in medical research.

Journal: Molecular & Cellular Proteomics

News Release 23-Sep-2019

Discovery of novel cancer signaling mechanism and design of new anticancer compound

Tokyo University of Science

Active mutations of a certain signaling receptor protein called KIT tyrosine kinase are found in several cancers, such as acute myeloid leukemia (AML). However, the different locations in the AML cells where KIT induces cancer-specific signaling remain unclear. Now, a group of scientists from Japan has aimed to answer this question by using a newly synthesized compound (along with other existing ones) that targets intracellular transport, which may offer an attractive strategy to combat cancer.

Journal: Cell Communication and Signaling
Funder: Japan Agency for Medical Research and Development (AMED)

News Release 23-Sep-2019

Gene regulators work together for oversized impact on schizophrenia risk

NIH/National Institute of Mental Health

Researchers have discovered that gene expression regulators work together to raise an individual's risk of developing schizophrenia. Such synergistic interactions seen with schizophrenia-like gene expression changes in modeled induced human neurons matched changes found in patients' brains.

Journal: Nature Genetics
Funder: National Institutes of Health, NIH/National Institute of Mental Health

News Release 23-Sep-2019

DNA is held together by hydrophobic forces

Chalmers University of Technology

Researchers at Chalmers University of Technology, Sweden, disprove the prevailing theory of how DNA binds itself. It is not, as is generally believed, hydrogen bonds which bind together the 2 sides of the DNA structure. Instead, water is the key. The discovery opens doors for new understanding in research in medicine and life sciences. The researchers' findings are presented in the journal PNAS.

Journal: Proceedings of the National Academy of Sciences

News Release 23-Sep-2019

Researchers perform thousands of mutations to understand amyotrophic lateral sclerosis

Center for Genomic Regulation

Researchers from IBEC and CRG in Barcelona use a technique called high-throughput mutagenesis to study Amyotrophic Lateral Sclerosis (ALS), with unexpected results. Results showed that aggregation of TDP-43 is not harmful but actually protects cells, changing our understanding of ALS and opening the door to radically new therapeutic approaches.

Journal: Nature Communications
Funder: European Research Council, Spanish Ministry of Economy and Competitiveness, AXA Research Fund, Bettencourt Schueller Foundation

News Release 23-Sep-2019

How molecular footballs burst in an x-ray laser beam

Deutsches Elektronen-Synchrotron DESY

An international research team has observed in real time how football molecules made of carbon atoms burst in the beam of an X-ray laser. The study shows the temporal course of the bursting process, which takes less than a trillionth of a second, and is important for the analysis of sensitive proteins and other biomolecules, which are also frequently studied using bright X-ray laser flashes.

Journal: Nature Physics

News Release 23-Sep-2019

Strip steak: Bacterial enzyme removes inflammation-causing meat carbohydrates

University of California - San Diego

When we eat red meat, the animal carbohydrate Neu5Gc is incorporated in our tissues, where it generates inflammation. UC San Diego researchers discovered how gut bacteria enzymes strip our cells of Neu5Gc, introducing the possibility of using the enzymes to reduce the risk of inflammatory diseases.

Journal: Nature Microbiology
Funder: National Institutes of Health, National Science Foundation, UC San Diego Chancellor's Research Excellence Scholarship, Science Without Borders (Capes Brazil)

News Release 20-Sep-2019

Why the lettuce mitochondrial genome is like a chopped salad

University of California - Davis

The genomes of mitochondria are usually depicted as rings or circles. But in plants, 1 ring does not rule them all. A new study of lettuce shows that the mitochondrial genome often forms branching structures with elements that can be swapped around like a chopped salad.

Journal: PLOS Genetics

Featured Newsrooms

News by Subject Biology

Search Archives