MIT researchers used ultrathin van der Waals materials to create an electron magnet that can be switched at room temperature. This type of magnet could be used to build magnetic processors or memories that would consume far less energy than silicon devices.
Gene editing technology could revolutionize the treatment of genetic diseases, including those that affect the mitochondria—cell structures that generate the energy required for the proper functioning of living cells in all individuals. Abnormalities in the mitochondrial DNA (mtDNA) could lead to mitochondrial genetic diseases.
Targeted base editing of mammalian mtDNA is a powerful technology for modeling mitochondrial genetic diseases and developing potential therapies. Programmable deaminases, which consist of a custom DNA-binding protein and a nucleobase deaminase, enable precise mtDNA editing.
There are two types of programmable deaminases for genome editing: cytosine base editors and adenine base editors, such as DddA-derived cytosine base editors (DdCBEs) and transcription activator-like effector (TALE)-linked deaminases (TALEDs). These editors bind to specific DNA sites in the mitochondrial genome and convert bases, resulting in targeted cytosine-to-thymine (C-to-T) or adenine-to-guanine (A-to-G) conversions during DNA replication or repair. However, the current gene editing approaches have many limitations, including thousands of off-target A-to-G edits while using TALEDs.
For more information on the Somatic Cell Genome Editing program, visit our website at: https://commonfund.nih.gov/editing Follow this link to for a version of the video that does not include audio descriptions: • NIH Common Fund Somatic Cell Genome E… Thousands of human diseases are caused by changes, or mutations, to the body’s DNA. What if we could treat all these diseases by diving into our living cells to correct the mistakes? The Somatic Cell Genome Editing program aims to make that happen. Recently, researchers have made great progress in correcting DNA mutations using a technique called genome editing, and the first tests of genome editing for human diseases are starting. However, there are still some challenges to achieve safe and effective genome editing in patient cells. The Somatic Cell Genome Editing, or SCGE, program was launched by the NIH Common Fund to develop quality tools to perform safe and effective genome editing in human patients. The SCGE program will make more genome editing tools available to researchers to develop better packages to deliver the tools to the right cells, design new tests for the safety and efficacy of genome editing, and make all of the information available to the scientific community to drive future discoveries and cures for patients.
AI needs to develop more solid assumptions, falsifiable hypotheses, and rigorous experimentation.
For generations, physicists have been searching for a quantum theory of gravity. But what if gravity isn’t actually quantum at all?
String theory is widely considered beyond empirical investigation. But we could conceivably test it thanks to ancient particles called moduli, which might appear in astronomical observations, says theorist Joseph Conlon.
Scientists are a step closer to unravelling the mysterious forces of the universe after working out how to measure gravity on a microscopic level.
Experts have never fully understood how the force which was discovered by Isaac Newton works in the tiny quantum world.
Even Einstein was baffled by quantum gravity and, in his theory of general relativity, said there is no realistic experiment which could show a quantum version of gravity.
We can’t tell much about their nature, but now we know early lifeforms included different types of organisms.
“The timing of our study couldn’t be more critical, and its implications are profound,” said Dr. Yaguang Wei.
What impact can severe air pollution have on the health of senior citizens? This is what a recent study published in BMJ hopes to address as a team of researchers led by Harvard University investigated how over-exposure to fine particulate matter (PM2.5) for senior citizens could lead to hospitalizations for seven major cardiovascular disease (CVD) subtypes, including heart failure, ischemic heart disease, arrhythmia, cerebrovascular disease, cardiomyopathy, abdominal aortic aneurysms, and thoracic aortic aneurysms. This study holds the potential to help scientists, medical professionals, and the public better understand the long-term health risks for severe air pollution, especially with climate change effects continuing to increase worldwide.
For the study, the researchers analyzed 59,761,494 Medicare fee-for-service recipients 65 years of age and older between 2000 and 2016 and compared them to air pollution data during that same period. Each of the recipients were tracked every year until their first hospitalization for one of the seven major CVD subtypes, and the researchers produced a map based on the recipients’ ZIP codes. In the end, the researchers discovered the average exposure time from air pollution to a recipients’ first hospitalization was three years, in addition to determining their exposure to PM2.5 was above the acceptable threshold outlined by the World Health Organization (WHO).
What is universal in natural languages? To answer that, deep connections need to be made between universal grammar, written codes, statistical patterns and Universal Turing machines.
Human language is a prime example of a complex system characterized by multiple scales of description. Understanding its origins and distinctiveness has sparked investigations with very different approaches, ranging from the Universal Grammar to statistical analyses of word usage, all of which highlight, from different angles, the potential existence of universal patterns shared by all languages. Yet, a cohesive perspective remains elusive. In this paper we address this challenge. First, we provide a basic structure of universality, and define recursion as a special case thereof. We cast generative grammars of formal languages, the Universal Grammar and the Greenberg Universals in our basic structure of universality, and compare their mathematical properties. We then define universality for writing systems and show that only those using the rebus principle are universal.
