Current DNA Methylation News and Events

Current DNA Methylation News and Events, DNA Methylation News Articles.
Sort By: Most Relevant | Most Viewed
Page 1 of 25 | 1000 Results
Scientists use DNA origami to monitor CRISPR gene targeting
The remarkable genetic scissors called CRISPR/Cas9, the discovery that won the 2020 Nobel Prize in Chemistry, sometimes cut in places that they are not designed to target. (2021-02-23)

UIC researchers invent new gene-editing tool
Researchers have discovered a new gene-editing technique that allows for the programming of sequential cuts -- or edits -- over time. (2021-02-23)

A sleep disorder associated with shift work may affect gene function
Going on holiday can affect shift workers on the level of gene function: a new study indicates that resting during a holiday period restored functions associated with DNA regulation in shift workers suffering from sleep deprivation. (2021-02-22)

Dozens of new lichen species discovered in East African mountain forests
The species diversity and relationships of lichens in the genus Leptogium, which are often very difficult to identify to species, were assessed on the basis of DNA analyses using a large dataset collected during more than 10 years from East Africa. (2021-02-22)

Cancer control: Non-DNA changes induce metabolism variations in hepatocellular carcinomas
Mechanisms underlying metabolic variations in hepatocellular carcinoma (HCC), a fast growing and invasive cancer, remain unclear. Now, researchers from Fudan University, China identified signatures of ''m6A,'' the most abundant ''post-transcriptional RNA modification,'' that segregate HCC into sub-types with distinct metabolic characteristics. They have also developed a novel m6A score that can quantify such modifications and aid risk assessment, prediction of prognosis, and response to treatment in patients with HCC. (2021-02-22)

Air pollution puts children at higher risk of disease in adulthood
First of its kind study reveals evidence that early exposure to dirty air alters genes in a way that could lead to adult heart disease, among other ailments. The findings could change the way medical experts and parents think about the air children breathe and inform clinical interventions. (2021-02-22)

First DNA extracted from modern, ancient and fossil tropical shells
The next time you eat seafood, think about the long-term effects. Will consistently eating the biggest fish or the biggest conch, mean that only the smaller individuals will have a chance to reproduce? (2021-02-22)

New research on mitochondrial function can play significant part in serious disease
Disorders of the cells' energy supply can cause a number of serious diseases, but also seem to be connected to ageing. More research is needed on mitochondrial function to find future treatments. A new study involving researchers at Karolinska Institutet shows how an important molecule inside the mitochondria affects their function in mice and fruit flies. The study, which is published in Science Advances, adds valuable knowledge on formerly relatively unexplored protein modifications. (2021-02-19)

Scientists develop blood test to predict environmental harms to children
Scientists at Columbia University Mailman School of Public Health developed a method using a DNA biomarker to easily screen pregnant women for harmful prenatal environmental contaminants like air pollution linked to childhood illness and developmental disorders. This approach has the potential to prevent childhood developmental disorders and chronic illness through the early identification of children at risk. (2021-02-17)

Proton therapy induces biologic response to attack treatment-resistant cancers
Mayo Clinic researchers have developed a novel proton therapy technique to more specifically target cancer cells that resist other forms of treatment. The technique is called LEAP, an acronym for 'biologically enhanced particle therapy.' The findings are published today in Cancer Research, the journal of the American Association for Cancer Research. (2021-02-17)

Fixer-upper: Understanding the DNA repair toolkit to chart cancer evolution
DNA repair pathways exist to correct molecular damage caused by internal and external factors. However, any damage to these pathways can result in the creation of tumors and specific types of cancers. A group of scientists from China have conducted an extensive investigation into the relationship of DNA repair pathways with cancer evolution. Their review, been published in Cancer Biology & Medicine, also shed light on the potential treatment applications of these mechanisms. (2021-02-16)

Capuchin monkey genome reveals clues to its long life and large brain
An international team of scientists has sequenced the genome of a capuchin monkey for the first time, uncovering new genetic clues about the evolution of their long lifespan and large brains. Published in PNAS, the work was led by the University of Calgary in Canada and involved researchers at the University of Liverpool. (2021-02-15)

Epigenetic mechanisms allow native Peruvians to thrive at high altitudes
Scientists reveal the epigenetic mechanisms that enable humans to survive at extremely high altitudes in the Andes (2021-02-15)

New discovery could pave the way for improved treatments for diabetes
Monash University researchers have uncovered the barrier to β-cell (beta cell) regeneration that could pave the way for improved treatments for diabetes and diseases that involve organ and tissue damage. (2021-02-12)

Detecting single molecules and diagnosing diseases with a smartphone
Ludwig-Maximilians-Universitaet (LMU) in Munich researchers show that the light emitted by a single molecule can be detected with a low-cost optical setup. Their prototype could facilitate medical diagnostics. (2021-02-12)

Lifestyle changes in pregnant women affected babies' genes
A study led by researchers at Lund University in Sweden showed a connection between lifestyle intervention in pregnant women with obesity and epigenetic alterations in the baby. The study is published in the journal Diabetes. (2021-02-11)

Study identifies never-before-seen dual function in enzyme critical for cancer growth
In developing therapies for hard-to-treat breast and ovarian cancers in patients with BRCA gene mutations, scientists aim to identify ways to keep cancer cells from using DNA break repair pathways. New findings demonstrate a previously-unknown capability for polymerase theta (pol theta) - a key enzyme in this repair function - that shows promise as a new avenue for treatment development. (2021-02-11)

Stirring up conflicts in tumour cells
With two commercially available inhibitors, the cell cycle of the cancer cells in the childhood tumour neuroblastoma can be disrupted at a key point causing tumour cell death. (2021-02-11)

New improved dog reference genome will aid a new generation of investigation
Researchers at Uppsala University and the Swedish University of Agricultural Sciences have used new methods for DNA sequencing and annotation to build a new, and more complete, dog reference genome. This tool will serve as the foundation for a new era of research, helping scientists to better understand the link between DNA and disease, in dogs and in their human friends. The research is presented in the journal Communications Biology. (2021-02-10)

Unusual DNA folding increases the rates of mutations
DNA sequences that can fold into shapes other than the classic double helix tend to have higher mutation rates than other regions in the human genome. New research shows that the elevated mutation rate in these sequences plays a major role in determining regional variation in mutation rates across the genome. (2021-02-09)

An end to invasive biopsies?
Hebrew Unievrsity researchers have found a less invasive and more accurate options for diagnoses using a simple blood test that detects DNA fragments. (2021-02-08)

AI researchers ask: What's going on inside the black box?
Brain-like artificial networks are often referred to as a ''black box'' because researchers do not know how they learn and make predictions. Researchers at CSHL reported a way to peek inside the box and identify key features on which the computer relies, particularly when trying to identify complex DNA sequences. (2021-02-08)

A single-molecule guide to understanding chemical reactions better
Scientists at Tokyo Institute of Technology (Tokyo Tech) report measurement of electrical conductivity of single DNA molecules as a way of monitoring the formation of double-stranded DNA on a gold surface. In their latest paper, they investigate the time evolution of the reaction and report findings not observed previously, demonstrating the suitability of the single-molecule approach in elucidating reaction pathways and exploring novel chemical processes. (2021-02-04)

DNA-based technique allows researchers to determine age of living beluga whales in Alaska
Researchers can now determine the age and sex of living beluga whales in Alaska's Cook Inlet thanks to a new DNA-based technique that uses information from small samples of skin tissue. (2021-02-04)

Epigenomic map reveals circuitry of 30,000 human disease regions
MIT researchers have published the most comprehensive map yet of noncoding DNA circuitry, helping elucidate candidate mechanisms for 30,000 disease-associated regions. (2021-02-03)

Hypoxia, a feature inside solid cancer tumors, reprograms methylation of ribosomal RNAs
Hypoxia -- where a tissue is deprived of an adequate supply of oxygen -- is a feature inside solid cancer tumors that renders them highly invasive and resistant to treatment. Researchers now report that chronic hypoxia, surprisingly, upregulates RNA polymerase I activity and alters the methylation patterns on ribosomal RNAs. These altered epigenetic marks on the ribosomal RNAs appear to create a pool of specialized ribosomes that can differentially regulate translation of messenger RNA. (2021-02-03)

Potential drug target found for treating rare genetic disorder in children
Scientists have identified a potential new treatment approach for Hutchinson-Gilford progeria syndrome (HGPS), a progressive genetic disorder that causes rapid and premature aging in children. (2021-02-02)

The underestimated mutation potential of retrogenes
mRNA molecules from retrogenes are reverse transcribed to DNA and incorporated into the genome. (2021-02-02)

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)

Understanding how genetic motifs conduct "the music of life"
Our genetic codes control not only which proteins our cells produce, but also - to a great extent - in what quantity. This ground-breaking discovery, applicable to all biological life, was recently made by systems biologists at Chalmers University of Technology, Sweden, using supercomputers and artificial intelligence. Their research, which could also shed new light on the mysteries of cancer, was recently published in the scientific journal Nature Communications. (2021-01-28)

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)

Rules of resistance against transgene silencing
A new protocol brings the precise standards of engineering to the realm of synthetic biology. (2021-01-28)

'You say tomato, I say genomics': Genome sequences for two wild tomato ancestors
A research team led by University of Tsukuba has produced genome sequences for two wild species of tomato from South America, ancestors of the cultivated tomato. The ancestral species contain thousands of genes that are not present in modern types. The novel genes will help plant breeders produce new tomatoes with features like improved disease resistance, increased tolerance for the changing climate, and improved flavor and shelf-life. (2021-01-27)

Humanizing yeast ORC sheds light on cancer therapy and human development
Researchers from the HKSUST and the HKU recently demonstrated that the selectivity determinant of Origin Recognition Complex for DNA binding lies in a 19-amino acid insertion helix in the Orc4 subunit, which is present in yeast but absent in human. (2021-01-27)

VCU technology could upend DNA sequencing for diagnosing certain DNA mutations
Doctors are increasingly using genetic signatures to diagnose diseases and determine the best course of care, but using DNA sequencing and other techniques to detect genomic rearrangements remains costly or limited in capabilities. However, an innovative breakthrough developed by researchers at Virginia Commonwealth University Massey Cancer Center and the VCU Department of Physics promises to diagnose DNA rearrangement mutations at a fraction of the cost with improved accuracy. (2021-01-27)

New study points to better diagnostics for cancer
A new University of California, Irvine-led study finds a new method for identifying biomarkers may aid in early cancer diagnosis. The study focused on lung cancer, however the Cell Heterogeneity-Adjusted cLonal Methylation (CHALM) method has been tested on aging and Alzheimer's diseases as well and is expected to be effective for studying other diseases. (2021-01-27)

Oncotarget: Prognostic biomarker for patients with hepatocellular carcinoma
Reduced expression of TBX15 in tumor tissue represents a potential biomarker for predicting poor survival of patients with HCC (2021-01-25)

Identification of Oligo-DNA that promotes skeletal muscle differentiation
Skeletal muscle is the largest tissue in the human body and is responsible not only for locomotion but for energy metabolism and heat production. Myoblasts play an important role in maintaining muscle homeostasis, but it has been reported that the differentiation ability of myoblasts decreases with age and disease and this will be one of the causes of muscle atrophy. To prevent muscle atrophy, researchers of Shinshu University studied molecules that promote myoblast differentiation. (2021-01-25)

Biologists unravel full sequence of DNA repair mechanism
Researchers led by the University of Iowa have observed the entire sequence in break-induced replication, a method by which organisms from viruses to humans repair breaks in DNA that cannot be fixed otherwise but can introduce or cause genomic rearrangements and mutations contributing to cancer development. (2021-01-25)

Proteins unspool DNA so cells can take on unique properties
New research reveals how proteins, called 'pioneer transcription factors,' help turn on key genes that give cell types their unique properties and functions. (2021-01-22)

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.