Current Protein Folding News and Events

Current Protein Folding News and Events, Protein Folding News Articles.
Sort By: Most Relevant | Most Viewed
Page 1 of 25 | 1000 Results
B cells continue to work against SARS-CoV-2 months after infection, but do not recognize mutant
A new analysis of B cells and more than 1,000 different monoclonal antibodies from 8 patients with COVID-19 shows that, contrary to previous hypotheses, protective B cell responses to the SARS-CoV-2 spike protein remain stable and continue to evolve over a 5-month period, many months after the initial period of active viral replication. (2021-02-23)

Advanced imaging technology captures translation of the maternal genome
An international collaboration among researchers from Finland, Sweden, UK and the USA has captured ribosomes translating messenger RNA expressed from the maternally inherited mitochondrial genome. Utilising the latest advances in cryo-electron microscopy, the group discovered a novel mechanism that mitochondrial ribosomes use for the synthesis and delivery of newly made proteins to prevent premature misfolding. Disruptions to protein folding can lead to devastating human diseases. (2021-02-22)

Researchers discover potential new therapeutic targets on SARS-CoV-2 Spike protein
The COVID-19 pandemic has prompted considerable investigation into how the SARS-CoV-2 Spike protein attaches to a human cell during the infection process, as this knowledge is useful in designing vaccines and therapeutics. Now, a team of scientists has discovered additional locations on the Spike protein that may not only help to explain how certain mutations make emerging variants more infectious but also could be used as additional targets for therapeutic intervention. (2021-02-22)

Prion diseases: new clues in the structure of prion proteins
A new study carried out by SISSA - Scuola Internazionale Superiore di Studi Avanzati in collaboration with other institutions including Genos Glycoscience. Research Laboratory from Zagreb, Croatia and Elettra Sincrotrone Trieste, provides important information on the differences in structures of the prions, proteins responsible for diseases that at the state of the art are incurable. (2021-02-19)

Researchers find evidence of protein folding at site of intracellular droplets
Researchers at the University of Notre Dame found that elevated concentrations of proteins within the droplets triggered a folding event, increasing the potential for protein aggregation -- or misfolding -- which has been linked to neurological diseases including Alzheimer's disease and amyotrophic lateral sclerosis (ALS). (2021-02-19)

Cells use concentration gradients as a compass
Biophysicists at Ludwig-Maximilians-Universitaet (LMU) in Munch have developed a new theory, which accounts for the observation that cells can perceive their own shapes, and use this information to direct the distribution of proteins inside the cell. (2021-02-16)

Finding coronavirus's helper proteins
A group of scientists led by EMBL's Mikhail Savitski, Nassos Typas, and Pedro Beltrao, and collaborator Steeve Boulant at Heidelberg University Hospital, have analysed how the novel coronavirus affects proteins in human cells. They identified several human proteins as potential drug targets to prevent viral replication. (2021-02-16)

New discovery may enable accurate prediction of cancer spread before cancer develops
Researchers from Erler Group at the Biotech Research & Innovation Centre (BRIC) in Copenhagen have discovered that the rigidity of a thin membrane structure encompassing cells and lining all vessels regulates how easily cancer cells can breach tissues to spread through the body, and is thus a key determinant of cancer patient survival. The results are published in Nature Materials today. (2021-02-15)

New insight into protein structures that could treat Huntington's disease
In Huntington's disease, a faulty protein aggregates in brain cells and eventually kills them. Such protein aggregates could, in principle, be prevented with a heat shock protein. However, it is not well known how these proteins interact with the Huntington's disease protein. New research by Patrick van der Wel (University of Groningen) and colleagues at the University of Texas has partially resolved the structure of heat shock proteins that bind to such aggregating proteins. (2021-02-12)

Medication-based starvation of cancer cells
Immunomodulatory drugs, including the Contergan derivatives lenalidomide and pomalidomide have significantly improved the therapy of hematologic malignancies such as multiple myeloma. Researchers at the Technical University of Munich (TUM) have now further decoded the mode of action in this class of medications. At the same time, they identified new innovative targeted cancer therapies. (2021-02-12)

Bringing bad proteins back into the fold
A study led by UT Southwestern has identified a mechanism that controls the activity of proteins known as chaperones, which guide proteins to fold into the right shapes. The findings, published online today in Nature Communications, could shed light on hundreds of degenerative and neurodegenerative diseases caused by protein misfolding, such as Alzheimer's, Parkinson's, and Huntington's, potentially leading to new treatments for these devastating conditions. (2021-02-11)

Function identified of 'mystery protein' that kills brain cells of people with Parkinson's
Scientists have made a 'vital step' towards understanding the origins of Parkinson's Disease - the fastest growing neurological condition in the world. A study published in Nature Communications today (Wednesday 10 February) presents a compelling new evidence about what a key protein called alpha-synuclein actually does in neurons in the brain. (2021-02-10)

Plant-based diet and bone health: adequate calcium and vitamin D intakes should be ensured
In a study conducted at the University of Helsinki, partial replacement of animal protein with plant protein in the diet altered bone metabolism and decreased calcium and vitamin D intakes. (2021-02-10)

Cell biology - Overseers of cell death
A new study shows that proteins called IAPs, which can trigger programmed cell death, are inhibited by a specific chemical modification, and reveals that they play a wider role in protein quality control than previously assumed. (2021-02-10)

How the 3-D structure of eye-lens proteins is formed
Chemical bonds within the eye-lens protein gamma-B crystallin hold the protein together and are therefore important for the function of the protein within the lens. Contrary to previous assumptions, some of these bonds, called disulphide bridges, are already formed simultaneously with the synthesis of the protein in the cell. This is what scientists at Goethe University Frankfurt, Max Planck Institute of Biophysics and the French Institute de Biologie Structurale in Grenoble have discovered. (2021-02-10)

Origami powered by light
Some man-made materials can mimic plants' slow but steady reaction to light energy, usually triggered by lasers or focused ambient light. New research from the University of Pittsburgh and Carnegie Mellon University has discovered a way to speed up this effect enough that its performance can compete against electrical and pneumatic systems. (2021-02-10)

New clues to how SARS-CoV-2 infects cells
The molecular details of how SARS-CoV-2 enters cells and infects them are still not clear. Researchers at Uppsala University have tested the bioinformatic predictions made by another research group and have identified receptors that could be important players in the process. The results are presented in the journal Science Signaling and at the AAAS Annual Meeting held this week. (2021-02-08)

New methods for exploring the 'dark matter' of biology
New tools and methods have been described by WEHI researchers to study an unusual protein modification and gain fresh insights into its roles in human health and disease. The study - about how certain sugars modify proteins - was published today in Nature Chemical Biology. Led by WEHI researcher Associate Professor Ethan Goddard-Borger, this work lays a foundation for better understanding diseases like muscular dystrophy and cancer. (2021-02-04)

Uncovering recurring deletions in SARS-CoV-2 spike protein that drive antibody escape
Researchers have identified a pattern of deletions in the spike (S) glycoprotein of SARS-CoV-2 that can prevent antibody binding. Virus lineages featuring this mechanism are currently being transmitted between individuals globally, they say. (2021-02-03)

Scientists find promising avenue to restore cognitive function impaired by Alzheimer's disease
A team of neuroscientists has identified a potential means to address the loss of cognitive function due to Alzheimer's disease by targeting protein synthesis in mice. Their findings reveal that synthetic pharmaceuticals could rescue the activity of brain cells needed for memory formation. (2021-02-02)

Supersaturation: The barrier between protein folding and misfolding
It's commonly accepted that protein folding/misfolding are alternative reactions of unfolded proteins but the principles governing this remain unknown. Here, researchers from Osaka University describe a general concept that links protein folding and misfolding: protein folding and amyloid formation are separated by the supersaturation barrier of a denatured protein. Breakdown of this supersaturation barrier is required to shift the protein to the amyloid pathway, linking Anfinsen's intramolecular folding universe with the ''outer'' intermolecular misfolding universe. (2021-02-01)

Origami with DNA
To study the behaviour of T-cells, an unusual method was used at TU Wien: DNA molecules were folded in an ingenious way, similar to the paper folding art origami. In this way, not just a double helix is created, but a rectangular ''molecular raft'' that floats across a cell membrane and serves as a tool for novel measurements. (2021-02-01)

New protein neutralizes COVID in tiny human kidney
Northwestern Medicine scientists have developed a new protein that acts as a trickster to neutralize the COVID-19 infection in a human kidney organoid, a miniature organ made from stem cells in the lab. (2021-02-01)

New weapon for inflammation
Flinders University researchers have discovered a new anti-inflammatory role for well-known blood clot protein fibrinogen, which could support targeted new treatments for kidney, heart and other common diseases. The study in Redox Biology describes how fibrinogen can be protective against hypochlorite - a chemical generated by the body during inflammation - and so act as a kind of antioxidant in blood plasma. (2021-01-31)

NUS scientists discover a new pathway essential for blood formation
Scientists from the National University of Singapore have discovered how a protein called Tip60 plays a vital role in the renewal of blood cells in the body. Without it, the stem cells that make new blood suffer catastrophic damage. This discovery could lead to better treatments for life-threatening blood-related diseases like leukemia. (2021-01-28)

Pharmaceutical research: when active substance and target protein 'embrace' each other
Scientists at Goethe University Frankfurt, together with colleagues from Darmstadt, Heidelberg, Oxford and Dundee (UK), have investigated how the fit of potent inhibitors to their binding sites can be optimised so that they engage longer with their target proteins. Long target residency has been associated with more efficient pharmacological responses e.g. in cancer therapy. In future, the researchers want to use computer simulations to predict the residence time of inhibitors during drug development. (2021-01-28)

Dairy calves benefit from higher-protein starter feed, Illinois study says
Dairy producers know early nutrition for young calves has far-reaching impacts, both for the long-term health and productivity of the animals and for farm profitability. With the goal of increasing not just body weight but also lean tissue gain, a new University of Illinois study finds enhanced milk replacer with high crude-protein dry starter feed is the winning combination. (2021-01-25)

NAD+ can restore age-related muscle deterioration
Scientists at EPFL have discovered that Alzheimer's-like protein aggregates underly the muscle deterioration seen in aging. But the aggregates can be reversed by boosting the levels of nicotinamide adenine dinucleotide (NAD+), which turns on the defense systems of mitochondria in cells and restores muscle function. (2021-01-19)

New videos show RNA as it's never been seen
Using data from RNA-folding experiments, the researchers generated the first-ever data-driven movies of how RNA folds as it is made by cellular machinery. By watching their videos of this folding occur, the researchers discovered that RNA often folds in surprising, perhaps unintuitive ways, such as tying itself into knots. (2021-01-15)

Reverse engineering 3D chromosome models for individual cells
A new computational technique that uses heat map data to reverse engineer highly detailed models of chromosomes and researchers have uncovered new information about the close spatial relationships that chromatin folding creates between genes. (2021-01-14)

Quantum computers to study the functioning of the molecules of life
A breakthrough that has implications for molecular biology, pharmacology and nanotechnologies. The fields of application are many. Identifying the mechanisms behind neurodegenerative processes in some proteins, for example, can help limit their proliferation. Understanding how a protein takes on a certain shape can open the way to use the nanomachines that nature has designed to cut, edit or block damaged or defective genes. Their study was published in the international academic journal Physical Review Letters (2021-01-14)

A niche for the eye
What if the degenerative eye conditions that lead to glaucoma, corneal dystrophy, and cataracts could be detected and treated before vision is impaired? Recent findings from the lab of Investigator Ting Xie, PhD, at the Stowers Institute for Medical Research point to the ciliary body as a key to unlocking this possibility. (2021-01-13)

Scientists modeled protein behavior of archaeal viruses to crack protein folding mystery
Scientists from the Pacific Quantum Center of Far Eastern Federal University (FEFU) figured out how the AFV3-109 protein with slipknot structure folds and unfolds depending on temperature. The protein is typical for the viruses of the oldest single-celled organisms that can survive in the extreme conditions of underwater volcanic sources - archaea. The research outcome appears in PLOS ONE. (2021-01-13)

'Bespoke' analysis of DNA packaging sheds light on intricacies of the fundamental process
Researchers from Skoltech and their colleagues have optimized data analysis for a common method of studying the 3D structure of DNA in single cells of a Drosophila fly. The new approach allows the scientists to peek with greater confidence into individual cells to study the unique ways DNA is packaged there and get closer to understanding this crucial process's underlying mechanisms. (2021-01-12)

NIST publishes a beginner's guide to DNA origami
Jacob Majikes and Alex Liddle, researchers at the National Institute of Standards and Technology (NIST) who have studied DNA origami for years, have compiled the first detailed tutorial on the technique. (2021-01-08)

A subtle change in the DNA may predispose to polyneuropathy after gut infection
Researchers from Tokyo Medical and Dental University (TMDU) identified a novel genetic variant associated with Guillain-Barré syndrome (GBS). By analyzing the DNA sequence of patients with the disease, the researchers identified two novel variants of the ganglioside-binding protein Siglec-10 accumulated in the patients. They found that one of these variants impairs the function of the protein, predisposing carriers to the development of GBS. This study improves our understanding of the pathophysiology of GBS. (2021-01-07)

Archaeology: sharing leftover meat may have contributed to early dog domestication
Humans feeding leftover lean meat to wolves during harsh winters may have had a role in the early domestication of dogs, towards the end of the last ice age (14,000 to 29,000 years ago), according to a study published in Scientific Reports. (2021-01-07)

The brain's protein factories at work
Protein synthesis is a finely tuned process in the cell by macromolecules known as ribosomes. Which regulators are responsible for controlling protein synthesis in the brain? To address this question, researchers from Charité - Universitätsmedizin Berlin studied the structure of the brain's ribosomal complexes in great detail. The team was able to identify a new factor which is also involved in controlling brain development. Details of this research have been published in Molecular Cell*. (2020-12-22)

Development of plaques in Alzheimer's disease resolved
In Alzheimer's disease patients, the protein amyloid-beta (Aβ) clumps up in the brain to form so-called fibrils. This has a toxic effect on the surrounding nerve cells. It is believed that immune cells compact the Aβ fibrils into what are known as plaques. It is now possible to track the development of these microscopically small structures in human using infrared microscopy. (2020-12-21)

Research strongly suggests COVID-19 virus enters the brain
The SARS-CoV-2 virus, like many viruses before it, is bad news for the brain. In a study published Dec. 16, 2020 in Nature Neuroscience, researchers found that the spike protein, often depicted as the red arms of the virus, can cross the blood-brain barrier in mice. The spike proteins alone can cause brain fog. Since the spike protein enters the brain, the virus also is likely to cross into the brain. (2020-12-17)

Page 1 of 25 | 1000 Results
   First   Previous   Next      Last   
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.