News by Subject Technology & Engineering

Public Release: 18-Jun-2018

Scientists find potential disease-fighting 'warheads' hidden in bacteria

A new study by Scripps Research, published today in Nature Communications, suggests scientists could build better drugs by learning from bacteria-derived molecules called thiocarboxylic acids.

Journal: Nature Communications
Funder: Chinese Ministry of Education, National Institutes of Health, Chinese Academy of Sciences, Chinese Scholarship Council

Public Release: 18-Jun-2018

Constructing new tissue shapes with light

European Molecular Biology Laboratory

Constructing biological tissues, such as skin, muscle, or bone, in customized shapes is now one step closer. Researchers at EMBL have succeeded in guiding the folding and thus shape of tissues with optogenetics: a technique to control protein activity with light. Nature Communications publishes their results, with implications for regenerative medicine, on June 18.

Journal: Nature Communications

Public Release: 15-Jun-2018

PIM-2 protein kinase regulates T-cell activity differently than PIM-1 or PIM-3 isoform

Medical University of South Carolina

The PIM-2 protein kinase negatively regulates T cell responses in transplantation and tumor immunity, while PIM-1 and PIM-3 are positive regulators, report Medical University of South Carolina investigators in The Journal of Clinical Investigation. Blocking PIM-2 in allogeneic bone marrow transplant dramatically accelerated graft-versus-host disease. In adoptive immunotherapy with autologous T cells, silencing PIM-2 on T cells produced robust tumor immunity, highlighting the importance of PIM-specific inhibition.

Journal: Journal of Clinical Investigation
Funder: Biostatistics Shared Resource, Hollings Cancer Center, Medical University of South Carolina; National Institutes of Health; Department of Defense, SmartState Endowment in Cancer Stem Cell Biology & Therapy Program

Public Release: 15-Jun-2018

Critical plant gene takes unexpected detour that could boost biofuel yields

DOE/Oak Ridge National Laboratory

For decades, biologists have believed a key enzyme in plants had one function -- produce amino acids, which are vital to plant survival and also essential to human diets. But for Wellington Muchero, Meng Xie and their colleagues, this enzyme does more than advertised. They had run a series of experiments on poplar plants that consistently revealed mutations in a structure of the life-sustaining enzyme that was not previously known to exist.

Journal: The Plant Cell
Funder: DOE/Office of Science

Public Release: 15-Jun-2018

Genetic engineering researcher: Politicians are deaf to people's ethical concerns

University of Copenhagen

New study from the University of Copenhagen reports that political discussions about genetically modified foods have ignored concerns among Danes that GM foods are 'unnatural'. This is very regrettable, according to Jesper Lassen, a researcher who has investigated public attitudes about genetic modification for the past 25 years.

Journal: Public Understanding of Science

Public Release: 15-Jun-2018

Integrated lead discovery: An evolving toolbox

SLAS (Society for Laboratory Automation and Screening)

A new SLAS Discovery review article by GlaxoSmithKline researchers in the US and UK offers an informative guide to the established and emerging tools available for early drug discovery and screening, and provides illustrative scenarios demonstrating considerations that drive decisions on choice of lead discovery tactics.

Journal: SLAS Discovery

Public Release: 14-Jun-2018

Researchers develop molecular assembly method for cancer therapy and diagnostics

Moscow Institute of Physics and Technology

Cancer is a complex disease to treat, and yet the operating principle of many current treatments is to simply kill healthy cells a little slower than cancerous ones. In response, an international team of researchers from Russia and Australia has developed a sophisticated nanoparticle-based treatment. They created a universal assembly method, which allows a number of molecules with therapeutic and diagnostic potential to be easily combined while preserving their spatial structure and properties.

Journal: ACS Applied Materials and Interfaces
Funder: Russian Ministry of Education and Science

Public Release: 14-Jun-2018

Repair and regeneration of peripheral nerves possible with dual polymer hydrogel adhesive

Mary Ann Liebert, Inc./Genetic Engineering News

Researchers have demonstrated that a novel biocompatible adhesive made of two naturally derived polymers is 15 times stronger than adhesive materials currently used for nerve reconstruction and can support the survival, extension, and proliferation of cells essential for nerve regeneration.

Journal: Tissue Engineering

Public Release: 14-Jun-2018

Proteins as a 'shuttle service' for targeted administration of medication

University of Erlangen-Nuremberg

Medication that reaches the spot where it's needed without placing strain on the rest of the body is no longer a vision of the future. Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) has successfully developed proteins that function like a shuttle and release medication directly in the place in the body where they are actually needed. The study could serve as a model and could enable targeted and tissue-specific administration of medication in future.

Journal: Proceedings of the National Academy of Sciences

Public Release: 14-Jun-2018

Minimalist biostructures designed to create nanomaterials

Universitat Autonoma de Barcelona

Researchers from the IBB-UAB fabricate four molecules of only seven amino acids with the ability to self-assemble and rapidly and inexpensively form nanomaterials for biomedical and nanotechnological purposes. Inspired on a type of natural assembly seen in amyloid fibers, four peptides were used to create one of the most resistant bionanomaterials described to date, nanocables and mini enzymes to act as a catalyst for the formation of nanomaterials.

Journal: ACS Nano

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News by Subject Technology & Engineering

Scientists find potential disease-fighting 'warheads' hidden in bacteria

Constructing new tissue shapes with light

PIM-2 protein kinase regulates T-cell activity differently than PIM-1 or PIM-3 isoform

Critical plant gene takes unexpected detour that could boost biofuel yields

Genetic engineering researcher: Politicians are deaf to people's ethical concerns

Integrated lead discovery: An evolving toolbox

Researchers develop molecular assembly method for cancer therapy and diagnostics

Repair and regeneration of peripheral nerves possible with dual polymer hydrogel adhesive

Proteins as a 'shuttle service' for targeted administration of medication

Minimalist biostructures designed to create nanomaterials

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News by Subject Technology & Engineering

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