Tag: Stem Cells

Studying the movement of tiny cells is no small task. For chromatin, the group of DNA, RNA, and protein macromolecules packed within our genome, motion is an integral part of its active role as a regulator of how our genes get expressed or repressed. “Understanding macromolecular motion is critical, but scientists know very little about

St. Jude Children’s Research Hospital scientists have cracked the mystery surrounding the most common genetic cause of amyotrophic lateral sclerosis (ALS), or Lou Gehrig’s disease. The research suggests possible new approaches to diagnosis and treatment of the lethal disorder. The findings appear online today in the journal Molecular Cell. About 35 percent of ALS cases

Skin cells taken from patients with a rare genetic disorder are up to ten times more sensitive to damage from ultraviolet A (AVA) radiation in laboratory tests, than those from a healthy population, according to new research from the University of Bath. It is hoped that the work, which has involved designing a brand new

Specialized lung cells appear in the developing fetus much earlier than scientists previously thought. A new animal study reports how cells that become alveoli, the tiny compartments in which gas exchange occurs in the lung, begin their specialized roles very early in prenatal life. The researchers say that investigating the fetal signaling pathways active in

When a person takes a puff on a cigarette, nicotine floods into the brain, latching onto receptors on the surface of neurons and producing feelings of happiness. But nicotine does not simply stay on the surface of cells — the drug actually permeates into neural cells and alters them from the inside out. Now, a

NASA hopes to send humans to Mars by 2030 on a round-trip mission that could take up to three years — far longer than any human has ever traveled in space. Such long-term spaceflights could adversely affect certain cells in the immune systems of astronauts, according to a new study led by University of Arizona

Scientists at the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA have discovered that squamous cell skin cancers do not require increased glucose to power their development and growth, contrary to a long-held belief about cancer metabolism. The findings could bring about a better understanding of many cancers’ metabolic

Researchers at Sahlgrenska Academy at the University of Gothenburg, Sweden, in collaboration with research groups in Finland, Canada, and Slovenia, have discovered a novel and unexpected function of nestin, the best known marker of neural stem cells. In the developing brain, the 3 main cell types, specifically neurons, astrocytes and oligodendrocytes, are generated from neural

Min Dong, PhD, and his lab are world experts in toxins and how to combat them. They’ve figured out how Clostridium difficile‘s most potent toxin gets into cells and zeroed in on the first new botulinum toxin identified since 1969. Now, setting their sights on Shiga and ricin toxins, they’ve not only identified new potential

Distinct HIV-1 strains may differ in the nature of the CCR5 molecules to which they bind, affecting which cells they can infect and their ability to enter cells, according to a study published December 6 in the open-access journal PLOS Pathogens by Bernard Lagane of the Institut Pasteur and INSERM, and colleagues. As noted by

When a cell divides — a process known as mitosis — its chromosomes need to be separated and evenly distributed into the newly created daughter cells. Although this is known to be extremely complicated and to feature a range of cellular components, many of its details remain unclear, which has hampered efforts to develop treatments

Researchers at The University of Texas at Arlington have found a potential new pathway to regulate immune response and potentially control inflammatory diseases of the central nervous system such as meningitis and sepsis. “We need to know what turns on inflammatory response to bacterial infection to be able to modulate the process,” said Subhrangsu Mandal,

Researchers have discovered a novel consequence of loss of the tumour protein p53 that promotes cancer development, according to new findings in eLife. The study in mouse and human cells, from the Netherlands Cancer Institute, suggests that multiplication of cancer cells in the absence of appropriate growth stimuli is supported by the additional loss of

With today’s technology, we can 3-D-print sculptures, mechanical parts, prosthetics, even guns and food. But a team of University of Utah biomedical engineers have developed a method to 3-D-print cells to produce human tissue such as ligaments and tendons, a process that will greatly improve a patient’s recovery. A person with a badly damaged ligament,

There are more than 200 bones in the human body. Bone is formed during embryonic and postnatal skeletogenesis by two distinct, well-organized processes, intramembranous and endochondral ossification. Mesenchymal stem cells differentiate into chondrocytes to form a cartilaginous template, which, for long bones, induces bone formation through endochondral ossification. Extracellular signal-regulated kinase 5 (Erk5), which is

Zombie cells are the ones that can’t die but are equally unable to perform the functions of a normal cell. These zombie, or senescent, cells are implicated in a number of age-related diseases. And with a new letter in Nature, Mayo Clinic researchers have expanded that list. In a mouse model of brain disease, scientists

“Lego block” artificial cells that can kill bacteria have been created by researchers at the University of California, Davis Department of Biomedical Engineering. The work is reported Aug. 29 in the journal ACS Applied Materials and Interfaces. “We engineered artificial cells from the bottom-up — like Lego blocks — to destroy bacteria,” said Assistant Professor

Insights into how harmful white blood cells form during tuberculosis infection point to novel targets for pharmacological interventions, according to a study published in the open-access journal PLOS Pathogens by Valentina Guerrini and Maria Laura Gennaro of Rutgers New Jersey Medical School, and colleagues. Foam cells are a type of white blood cell, known as

Invented over 50 years ago, flow cytometry-based cell sorting has become a widely used tool in biology labs for physically isolating cells based on their global surface marker expression profiles. But on August 27 in the journal Cell, an international, multi-institutional team of researchers unveil the next evolution in this critical process, “Image-Activated Cell Sorting,”

Healthy muscle cells rely on the protein dysferlin to properly repair the sarcolemmal membrane, a thin specialized membrane that serves a vital role in ensuring that muscle fibers are strong enough and have the necessary resources to contract. Mutations in the DYSF gene that produces this essential protein causes limb girdle muscular dystrophy type 2B