Researchers have identified the gene mutation responsible for a form of night blindness in dogs. Strategies to treat this condition, which affects a layer of neurons just below the primary photoreceptor cells, could also inform treatment of other diseases that rely on targeting this cell type.
Read moreResearchers have discovered how the enzyme DNA polymerase delta works to duplicate the genome that cells hand down from one generation to the next.
Read moreResearchers offer new insights on how subunits of the influenza virus polymerase co-evolve to ensure efficient viral RNA replication.
Read moreFor the first time, researchers have learned at the molecular level how the P2X7 protein receptor – which is associated with inflammation, coronary artery disease, cancer, multiple sclerosis and more – works. The findings could one day inspire new drugs to treat numerous medical conditions.
Read moreCurrent biology research relies on the ability to purify cell types using antibodies or transgenic constructs. However, antibody availability is often limited, and genetic manipulation is labor intensive or sometimes impossible. To date, no universal method exists to enrich for cell types without a priori knowledge of cell type markers. Here, we propose GateID, a computational method that combines single-cell transcriptomics with FACS index sorting to purify cell types using only native cellular properties.
Read moreTwo very different mutations have been identified as unexpected partners in crime for causing the blood cancer acute myeloid leukemia (AML). Expert analysis from CSHL helped reveal how this deadly duo is far more common in AML than thought.
Read moreDeoxyribonucleic acid (DNA), is the macromolecule that holds all hereditary and genetic information. Continuously under assault, alterations and damage to DNA can lead to many different health issues, including cancer. DNA is highly regulated within cells, where multiple mechanisms are at play to repair and protect its integrity. Scientists are still investigating these mechanisms to fully comprehend how these DNA repair processes are managed. Researchers recently identified a new mechanism that controls DNA repair.
Read moreResearchers have developed a new and improved viral vector — a virus-based vehicle that delivers therapeutic genes — for use in gene therapy for sickle cell disease. In advanced lab tests using animal models, the new vector was up to 10 times more efficient at incorporating corrective genes into bone marrow stem cells than the conventional vectors currently used, and it had a carrying capacity of up to six times higher, the researchers report.
Read moreNuclear abnormalities such as nuclear blebs and micronuclei have devastating consequences for the genetic material and are associated with cancer or ageing. Scientists now revealed that the epigenetic enzyme MOF is crucial for the morphological integrity of the mammalian nucleus. Moreover, the study characterized the epigenetic landscape of nuclear abnormalities and discovered a formerly unknown epigenetic mechanism that seems to protect cells from additional damage.
Read moreEngineers have shown that the length of collagen fibers has a roll to play in the ability of normal cells to become invasive.
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