Researchers develop DANGER analysis tool for the safer design of gene editing
Hiroshima UniversityRisk-averse on/off-target assessment for CRISPR editing without reference genome
Risk-averse on/off-target assessment for CRISPR editing without reference genome
For tens of thousands of years, evolution shaped tomatoes through natural mutations. Then, humans came along. For centuries, we’ve bred and cherry-picked tomatoes with our preferred traits.
Researchers hope at least one will treat progressive blindness caused by Usher syndrome type 1F
Científicos de Mayo Clinic están creando una biblioteca extensa de prototipos de ADN de especies bacterianas patógenas. Esta colección única de secuencias genómicas sirve como base de datos de referencia para ayudar a los médicos a brindar diagnósticos certeros y rápidos, y a precisar tratamientos dirigidos para, posiblemente, mejorar los resultados que obtienen los pacientes.
Genetic evidence looked at how salmon were affected by two major culvert replacements near the city of Bellingham. One project, a major upgrade under Interstate-5, had a big impact, while the other old culvert may have been less of a barrier to fish. Researchers at the University of Washington and NOAA are studying the use of eDNA in future environmental impact reporting.
Women with a high genetic predisposition for blood clots are six times more likely to develop a blood clot during the first two years of using contraceptive pills according to a new study from Uppsala University. The results have been published in the American Journal of Obstetrics and Gynaecology
About 40,000 years ago, Neanderthals, who had lived for hundreds of thousands of years in the western part of the Eurasian continent, gave way to Homo sapiens, who had arrived from Africa.
New research examines the complex relationship between gene variants, cardiorespiratory fitness and the development of chronic disease. The study is published ahead of print in Physiological Genomics. It was chosen as an APSselect article for October.
Octopuses are fascinating animals – and serve as important model organisms in neuroscience, cognition research and developmental biology. To gain a deeper understanding of their biology and evolutionary history, validated data on the composition of their genome is needed, which has been lacking until now.
A new genomic study by UCLA biologists shows that whaling in the 20th century destroyed 99% of the Eastern North Pacific fin whale breeding, or “effective,” population — 29% more than previously thought.
Different strains of E.coli can outcompete one another to take over the gut, a new study reveals.
The DNA double helix is composed of two DNA molecules whose sequences are complementary to each other. The stability of the duplex can be fine-tuned in the lab by controlling the amount and location of imperfect complementary sequences.
Human sensory systems are very good at recognizing objects that we see or words that we hear, even if the object is upside down or the word is spoken by a voice we’ve never heard.
A new study suggests making a transition from “old school” genetics to “new school” genomics for species conservation purposes probably isn’t necessary in all cases.
Bats have acquired remarkable traits throughout their evolution. They’re the only mammals that can fly, and they live much longer than other animals their size. But perhaps most impressive is their robust immune system. It protects bats from viruses that wreak havoc in humans, like COVID-19 or Ebola. It also keeps bats relatively cancer-free. How? According to Cold Spring Harbor Laboratory (CSHL) scientists, it’s all in the genes.
A team of European researchers has developed a new test that can accurately measure biological aging in a clinical setting. The discovery was made while studying patients for the aging effects of chronic kidney disease.
An international collaboration is aiming to improve global health by uncovering the effects of genomic and environmental diversity on differences in disease risk observed across the global population, thanks to a new partnership of 20 research groups from around the world.
A new study has unravelled a crucial link between how cancer cells cope with replication stress and the role of Taurine Upregulated Gene 1 (TUG1). By targeting TUG1 with a drug, the researchers were able to control brain tumor growth in mice, suggesting a potential strategy to combat aggressive brain tumors such as glioblastomas.
Basic Research Findings by Johns Hopkins Scientists Focus on Gene Sequencing, Hearing Loss and a Brain Disorder
Evolutionary biologists have for the first time decoded the genetic lineage of a famous killer whale and a pod that once worked alongside whale hunters off the coast of New South Wales.
Multiomics3 analysis that integrates different layers of profiles altogether is challenging, since the number of variables in profile substantially differ from each other. For instance, gene expression profile and genomic DNA methylation profile are often analyzed together, however, there are only tens of thousands of genes, whereas the number of DNA methylation sites are as many as tens of millions.
An international team of scientists has identified nearly a dozen genes that contribute to calcium buildup in our coronary arteries that can lead to life-threatening coronary artery disease, a condition responsible for up to one in four deaths in the United States. Doctors may be able to target these genes with existing medications – or possibly even nutritional supplements – to slow or halt the disease’s progression.
Through a novel approach detailed in Nature, a massive computational analysis of microbiome datasets more than doubled the number of known protein families. This is the first time protein structures have been used to help characterize the vast array of microbial “dark matter.”
Generating specific cell lineages from induced pluripotent stem cells and embryonic stem cells is the holy grail of regenerative medicine.
Early predictors of cancer evolution under therapy have been identified using an artificial intelligence program to analyze data from tumor samples of patients with glioma, an aggressive and often fatal type of brain cancer. This use of machine learning in precision medicine shows signs of significantly better performance than current grading and diagnostic models.
The Faculty of Medicine, Chulalongkorn University, cordially invites all to attend the “Thailand Hub of Talent for Cancer Immunotherapy International Conference: Portal to Global Collaboration for Next Generation Cell and Gene Therapy Development” on November 16-17, 2023 at Bhumisiri Mangklanusorn Building, Faculty of Medicine, Chulalongkorn University, Bangkok, Thailand.
The “Margaritaville” in Jimmy Buffett’s famous song isn’t a real place, but it’s long been associated with the Florida Keys. This string of tropical islands is home to the only living coral barrier reef in the continental US, along with many animals found nowhere else in the world.
Johns Hopkins Medicine experts lead the longest-running clinic for people with dwarfism and other skeletal conditions. Started in the late 1950s, the clinic, now called the Kathryn and Alan C.
The software's creators have used it to study cancer’s microbiome and made it freely available to the research community.
Research sheds light on how genetics influences the growth of the placenta and reveals a link to increased risk of disease in the mother.
A team of New York University computer scientists has created a neural network that can explain how it reaches its predictions. The work reveals what accounts for the functionality of neural networks—the engines that drive artificial intelligence and machine learning—thereby illuminating a process that has largely been concealed from users.
Scientists testing a new method of sequencing single cells have unexpectedly changed our understanding of the rules of genetics.
In 2019, St. Jude lentiviral gene therapy restored the immune system in multiple infants of X-linked severe combined immunodeficiency disorder (SCID-X1) or “bubble boy disease” at the DNA level. These children can now produce functional immune systems.
African Americans have long been known to be at increased risk of kidney disease due to a dangerous genetic mutation that creates a hole in the kidney cells, but Vanderbilt University Medical Center (VUMC) researchers have now discovered a protective genetic mutation that covers the hole to eliminate the risk.
Scientists testing a new method of sequencing single cells have unexpectedly changed our understanding of the rules of genetics.
Circulating tumor DNA (ctDNA) is emerging as a blood-based biomarker for many solid tumor types, including melanoma.
A new research paper was published in Aging (listed by MEDLINE/PubMed as "Aging (Albany NY)" and "Aging-US" by Web of Science) Volume 15, Issue 18, entitled, “Biomedical generative pre-trained based transformer language model for age-related disease target discovery.”
A new paper in Molecular Biology and Evolution, published by Oxford University Press, for the first time provides a comprehensive set of genomic resources for pangolins, sometimes known as scaly anteaters, that researchers believe will be integral for protecting these threatened mammals.
The American College of Surgeons (ACS) strongly supports the Find it Early Act (H.R. 3086).
This most recent work from the Umen lab gets at the critical control mechanism for sex determination in single-celled and multicellular algae. The capacity to produce distinct mating types (e.g. male and female) is the foundation for reshuffling of genetic material within a species, which maintains genetic diversity and capacity to adapt in different environments.
UMass Amherst researchers have pushed forward the boundaries of biomedical engineering one hundredfold with a new method for DNA detection with unprecedented sensitivity.
Commercial whaling in the 20th century decimated populations of large whales but also appears to have had a lasting impact on the genetic diversity of today’s surviving whales, new research from Oregon State University shows.
During a recent review of the U.S. Fish and Wildlife Service’s recovery plans for more than 200 endangered and threatened vertebrate species in the United States, Michigan State University researchers made an interesting discovery.
Using laboratory-grown cells from humans and genetically engineered mice, scientists at Johns Hopkins Medicine say they have evidence that modifying a specific protein in immune white blood cells known as CD8+ T cells can make the cells more robust, potentially opening the door for better use of people’s own immune system T cells to fight cancer.
Scientists at St. Jude Children’s Research Hospital unraveled the genetics increasing the chance of survivors developing a second cancer later in life and its severity and prognosis to guide future cancer prevention.
Investigators from Rutgers Cancer Institute of New Jersey and RWJBarnabas Health, the state’s leading cancer program and only National Cancer Institute-designated Comprehensive Cancer Center, investigated genomic alterations based on KRAS status to identify mutations in patients with KRAS wild type (WT).
As one of just six sites in the country chosen for a new consortium of the National Institutes of Health (NIH), UTHealth Houston School of Public Health in Brownsville will use multi-omics in combination with environmental, epidemiologic, and clinical data, along with social determinants of health, to study non-alcoholic and non-viral liver disease in Hispanics/Latinos.
To commemorate this 20-year milestone and to mark National Breast Cancer Awareness Month, NIEHS developed a suite of products including a 10-minute video available in English and available with Spanish captions, to showcase how the Sister Study started, what it has accomplished, and to spotlight the participants who make it all possible.
Vanderbilt University Medical Center’s (VUMC) award-winning original podcast series, “Vanderbilt Health DNA: Discoveries in Action” (DNA), returns to podcast feeds for Season 4 with conversations about how the future of tech, economic and cultural elements are shaping medicine, work and well-being.
An international team of researchers has released a landmark study on contemporary evolutionary change in natural populations. Their study uses one of the largest genomic datasets ever produced for animals in their natural environment, comprising nearly 4,000 Darwin’s finches.