In this article, we will discuss the potentials of gene therapy and their applications. We will also explore the challenges associated with this innovative treatment. It is worth mentioning that gene therapy has already demonstrated its efficacy in treating an eye disease, marking a significant milestone in the field.
In this article, we will discuss in detail the various mutations in DNA that can result in disabilities and impairments in the proper functioning of genetic material. These mutations can have a significant impact on the overall genetic makeup and can lead to various genetic disorders and conditions.
In this article, we will discuss about the molecular basis of sickle cell anemia. It is a disease in which shape of the red blood cells due to a mutation in which valine replace the glutamic acid. We will discuss the several genetic and epigenetic factors that cause the disease. It is hereditary blood genetic disorder, that is due to mutation in beta chain of hemoglobin.
In this article, we will discuss about the models for the arrangement of DNA in chromosomes. This article explores the various models that elucidate the intricate arrangement of DNA within chromosomes. Throughout this piece, we will delve into the fascinating mechanisms and structures that facilitate the highly condensed nature of genetic material in chromosomes.
In this article, we will discuss in depth the molecular basis of cancer, which refers to the abnormal division and growth of cells in the body. Cancer is a complex disease that involves a multitude of genetic and environmental factors. Cancer can arise from various types of cells in the body, such as epithelial cells, connective tissue cells, blood cells, and others.