News by Subject Biology

News Release 12-Dec-2019

Houston Methodist developed AI app to predict risk and prevent severe patient falls

New research will be live in npj Digital Medicine on Dec. 12, 2019, that will feature a machine learning app aimed at preventing patients from severe fall-related injuries and deaths.

Journal: npj Digital Medicine

News Release 12-Dec-2019

New potential cancer players revealed by extensive tumor protein analysis

Baylor College of Medicine

Analysis of all the proteins of more than 500 cancers from five different tissue sites revealed novel molecular pathways to be considered for further study regarding their potential involvement in cancer.

Journal: Nature Communications

News Release 11-Dec-2019

Understanding Asteraceae: Validation of a Hyb-Seq probe set for evolutionary studies

Botanical Society of America

Researchers evaluated the performance of a Hyb-Seq (hybrid capture with high-throughput sequencing) probe set designed for the large and diverse sunflower family (Asteraceae) and found it effective in reconstructing relationships at multiple taxonomic levels. As part of the study, an optimized pipeline is presented for the preparation and analysis of Hyb-Seq data. These findings are important both for evolutionary studies in Asteraceae and to demonstrate the broad use of phylogenetic studies using Hyb-Seq.

Journal: Applications in Plant Sciences
Funder: National Science Foundation, Czech Science Foundation, Fundação de Amparo à Pesquisa do Estado de São Paulo, Ministerio de Ciencia e Innovación of Spain

News Release 11-Dec-2019

A machine learning approach to identify functional human phosphosites

European Molecular Biology Laboratory - European Bioinformatics Institute

Scientists have created the largest phosphoproteome resource to date, which is set to help other researchers identify new functionally-relevant phosphosites. The research demonstrates an exciting use for machine learning methods to effectively compile and analyse large phosphorylation related biological datasets. Identifying new functional phosphosites has enormous potential to progress research into many biological processes and diseases.

Journal: Nature Biotechnology

News Release 11-Dec-2019

MASS: An integrative software program for streamlined morphometric analyses of leaves

Botanical Society of America

Analysis of leaf shape is crucial in answering a variety of ecological, evolutionary, genetic, and agricultural questions. However, most morphometric analyses require the use of multiple software packages; this is not only inconvenient, but also introduces the possibility of error. A new software package, Morphological Analysis of Size and Shape (MASS), streamlines these analyses into a single program -- a development that will be key for the many large digitization projects currently underway.

Journal: Applications in Plant Sciences
Funder: National Science Foundation

News Release 11-Dec-2019

Single-cell analysis of the earliest cell fate decisions in development

Babraham Institute

With the construction of a building, one of the first steps before creating the upright structure is to set the foundations and the floorplan. Mammalian development is not so different. A multi-disciplinary group of Cambridge researchers has provided the first single-cell epigenomic analysis of gastrulation, a crucial process in early embryo development.

Journal: Nature
Funder: Wellcome Trust, UKRI Biotechnology and Biological Sciences Research Council, EMBL, Cancer Research UK, UKRI Medical Research Council

News Release 11-Dec-2019

A way to 'fingerprint' human cells

Garvan Institute of Medical Research

Researchers have developed a method that allows them to identify single cells with a unique genomic profile from a tissue sample.

Journal: Genome Biology
Funder: National Health and Medical Research Council

News Release 10-Dec-2019

Gut feeling: A network approach towards understanding IBD

Earlham Institute

Scientists at the Earlham Institute (EI), Quadram Institute Bioscience (QIB) and the University of East Anglia (UEA), UK, have pioneered how to get very detailed transcriptomics data from gut organoids, and regulatory networks to analyse them -- establishing a pipeline that can be used to explore the causes of Inflammatory Bowel Disease (IBD).

Journal: Molecular Omics
Funder: BBSRC/UKRI

News Release 9-Dec-2019

Increasing food intake by swapping mitochondrial genomes

Ecole Polytechnique Fédérale de Lausanne

To uncover the relationship between variation in genes and phenotypic diversity, geneticists use a set of fully sequenced fruit-fly genomes. But little is known about the variation in the mitochondrial genome, for which mutations are linked to an array of diseases. Now, EPFL scientists have created a high-resolution map of mitochondrial DNA variants in the fruit fly, connecting mitochondrial genes to metabolic traits and diseases.

Journal: Nature Metabolism
Funder: Swiss Initiative in Systems Biology SystemsX.ch (AgingX project) EPFL

News Release 6-Dec-2019

Scientists use crabs to validate popular method to identify unknown human brain neurons

University of Missouri-Columbia

A crab's nervous system could help scientists learn what causes single neurons in the human brain to become 'out of whack,' which can contribute to the development of neurological diseases like Alzheimer's disease. Knowing exactly how a single neuron operates among the billions housed in the human brain could one day help scientists design innovative ways to prevent and treat these diseases, such as targeted therapies.

Journal: Proceedings of the National Academy of Sciences

Featured Newsrooms

News by Subject Biology

Search Archives