Companies and institutes are currently working on biotechnological processes for the production of 'dairy products' without the use of cows: In so-called precision fermentation, egg and milk proteins are produced with the help of bacteria, yeasts or other fungi. This results in foods such as milk or cheese with a familiar flavor and texture. Supporters
A nasal COVID-19 vaccine blocks transmission of the virus, according to an animal study. The findings suggest that vaccines delivered directly to the nose or mouth could play a critical role in containing the spread of respiratory infections. The lightning-fast development of COVID-19 vaccines just months after the virus appeared was a triumph of modern
Companies and institutes are currently working on biotechnological processes for the production of 'dairy products' without the use of cows: In so-called precision fermentation, egg and milk proteins are produced with the help of bacteria, yeasts or other fungi. This results in foods such as milk or cheese with a familiar flavor and texture. Supporters
Companies and institutes are currently working on biotechnological processes for the production of 'dairy products' without the use of cows: In so-called precision fermentation, egg and milk proteins are produced with the help of bacteria, yeasts or other fungi. This results in foods such as milk or cheese with a familiar flavor and texture. Supporters
Humans and baker's yeast have more in common than meets the eye, including an important mechanism that helps ensure DNA is copied correctly, reports a pair of studies. The findings visualize for the first time a molecular complex -- called CTF18-RFC in humans and Ctf18-RFC in yeast -- that loads a 'clamp' onto DNA to
A nasal COVID-19 vaccine blocks transmission of the virus, according to an animal study. The findings suggest that vaccines delivered directly to the nose or mouth could play a critical role in containing the spread of respiratory infections. The lightning-fast development of COVID-19 vaccines just months after the virus appeared was a triumph of modern
University lab offers a non-invasive and highly efficient solution for treating drug-resistant depression and other psychiatric or neurological disorders. This groundbreaking technology has the potential to significantly improve the lives of patients who have not responded to traditional treatments, offering hope for a new era in neurostimulation therapy. With its small size and innovative power transfer technology, this brain stimulator represents a major leap forward in the field of medical devices. Its development marks a pivotal moment in the treatment of neurological and psychiatric conditions, promising to reshape the landscape of patient care
With stressful conditions. This breakthrough research sheds light on the adaptive strategies of cells under duress and provides valuable insights into potential therapeutic targets for various diseases. The findings of this study offer a unique perspective on cellular mechanisms and open up new avenues for further exploration in the field of cell biology
And his team have utilized advanced microscopy and imaging technology to capture the dynamic movements of proteins with unprecedented clarity and detail. This breakthrough offers a revolutionary tool for studying the intricate workings of proteins, enabling scientists to gain deeper insights into their functions and potential therapeutic applications. The high-speed imaging capabilities of this technique pave the way for new discoveries in the field of structural biology and hold great promise for advancing our understanding of fundamental biological processes. With its unparalleled ability to capture real-time protein dynamics, this innovative method has the potential to drive significant advancements in biomedical research and drug development
Zhao, Ph.D., utilized cutting-edge technology to map the lineage of cells in the developing cerebral cortex. Their findings shed light on the complex process of cell migration and differentiation, providing crucial information for understanding brain development and potential implications for neurological disorders. This groundbreaking research has the potential to pave the way for new strategies in studying and treating brain-related conditions
Coughs, despite the presence of a bacterial infection, according to a large study in U.S. primary and urgent care settings. This research highlights the limited effectiveness of antibiotics in treating lower-respiratory tract infections and raises questions about their widespread use for this purpose. This study provides valuable insights into the pivotal features and distinct qualities of antibiotic treatment for coughs, emphasizing the need for alternative approaches to managing these common ailments
Critical component of the cytoskeleton, and understanding its regulation is crucial for various cellular processes. By revealing the intricate mechanisms of formin binding and actin filament growth, this study offers valuable insights into the fundamental principles of cell biology and potential targets for therapeutic interventions
In our study is that the memory of the rats that consumed high fat, high sugar diets was impaired after just one week," said the study's lead author, Professor Scott Kanoski. This groundbreaking research sheds light on the detrimental effects of junk food on cognitive function and highlights the importance of a healthy diet for brain health. The study also emphasizes the need for further research on the long-term effects of a poor diet on memory and cognitive function. Overall, this study serves as a wake-up call about the potential consequences of consuming junk food and the importance of maintaining a balanced and nutritious diet for overall well-being
Novel materials for various applications. With its potential to revolutionize material science and surface engineering, this study showcases the power and versatility of machine learning in predicting and understanding surface properties, opening doors for new discoveries and innovations in the field
Potentially beneficial in improving cardiovascular function and reducing complications associated with sickle cell disease. The study's findings suggest that riociguat could offer a promising new treatment option for patients with this challenging condition. Its ability to address both hypertension and end-organ damage sets it apart as a potentially game-changing therapy for sickle cell disease
And enhance healing at the site of an injury. These synthetic platelets have shown promising results in animal models, offering potential advantages in medical treatments. However, clinical trials in humans are still pending. This innovation holds the potential to revolutionize the field of hemostasis and wound healing, providing a safer and more effective alternative to traditional treatments
Force. This innovative technology has the potential to significantly impact drug delivery and tissue regeneration, offering a precise and controlled method for releasing therapeutic compounds. The device's ability to manipulate molecular forces opens up new possibilities for targeted and effective treatment strategies. Additionally, the unique molecular design sets it apart as a game-changing tool for advancing the fields of medicine and materials science
Has revealed that targeting specific proteins involved in the development of treatment resistance could potentially prevent relapses in patients with this form of leukemia. This breakthrough offers hope for improved outcomes and survival rates for those affected by the disease. By understanding the underlying mechanisms of treatment resistance, clinicians and researchers can now work towards developing more effective and targeted therapies for this type of leukemia. This discovery marks a significant advancement in the field of cancer research and brings new possibilities for personalized treatment approaches