In this article, we will discuss about the genetic resources on the surface of earth. These resources are the genetic materials that obtained from plants, animals and other organisms, which is of potential values. These are using as the resources for the present and future generation for the purpose of research and development of life. We will discuss here about the different types of these resources and the methods of their conservation.
In this article, we will discuss about the genetically modified microorganisms. In the field of biotechnology, genetically modified microorganisms (GMMs) are a cutting-edge technique with enormous promise for a variety of applications. From environmental cleanup to pharmaceutical manufacturing, GMMs provide a diverse platform for altering biological systems to accomplish desired results. In this article, we look at the origins, methods, and many uses of genetically engineered microbes.
In this article, we will discuss about the CRISPR method of molecular biology and forensic sciences. CRISPR-Cas9 (Clustered Regularly Interspaced Short Palindromic Repeats and CRISPR-associated protein 9) is a game-changing genetic engineering tool. It provides a precise and fast method for editing the genomes of many creatures, including humans. Understanding the principles and mechanisms behind CRISPR is critical for comprehending its potential and ramifications.
In this article, we will discuss about the fascinating roles of microbes in biotechnology. Microbial biotechnology explore the role of microbes in several aspects of life. In the modern era, microbes are involved in our food, health, medicines, and several others aspects. Microorganisms have been utilized for thousands of years to produce bread, beer, and wine. During World War I, classical microbial biotechnology underwent a second phase, leading to the creation of acetone-butanol and glycerol fermentation. This is followed by mechanisms that produce citric acid, vitamins, and antibiotics. In the 1970s, combining industrial microbiology with molecular biology resulted in over 40 biopharmaceutical drugs, including erythropoietin, human growth hormone, and interferon. Microbiology plays a significant role in worldwide sectors such as pharmaceuticals, food, and chemicals.
In this article, we will discuss about the molecular and genetic basis of respiratory diseases. Respiratory diseases are a broad category of disorders affecting the airways, lungs, and respiratory system. From chronic conditions like asthma and chronic obstructive pulmonary disease (COPD) to infectious diseases such as pneumonia and tuberculosis, understanding the molecular and genetic underpinnings of these ailments is crucial for developing effective treatments and preventive measures.
In this article, we will discuss about the molecular and genetic basis of cardiovascular diseases. A variety of disorders affecting the heart and blood arteries are together referred to as cardiovascular diseases (CVDs). These illnesses provide serious public health issues since they are among the world’s top causes of morbidity and death. It is essential to comprehend the many forms of CVDs in order to effectively prevent, diagnose, and treat them.
In this article, we will discuss about the the gastric diseases. These are the diseases related to the stomach and intestines. There are several causes of these diseases like over-eating, smoking, alcohol drinking, etc. We will discuss here about the causes, symptoms, effects and treatments of the diseases related to stomach and intestines.
In this article, we will discuss about the fascinating types of kidney diseases. Millions of individuals worldwide suffer from kidney illnesses, which have a large impact on morbidity and death. These illnesses can have a range of causes and manifest in different bodily manifestations. The origins and consequences of kidney illnesses will be discussed in this article, along with the significance of early detection and treatment.
In this article, we will discuss about the sexually transmitted diseases. Sexually transmitted infections (STIs), sometimes referred to as sexually transmitted diseases (STDs), are a major global health concern that impact millions of individuals annually. All forms of sexual intercourse, including oral, anal, and vaginal sex, can transmit these illnesses. While there are STDs that are easily treatable and curable, there are others that, if neglected, can have serious negative effects on health.
In this article, we will discuss about the fascinating molecular and genetic basis of menstrual cycle malfunctioning. A complex physiological process, the menstrual cycle governed by the subtle interactions of hormones, molecular signals, and hereditary variables. Menstrual dysfunctions and abnormalities might result from a disturbance in this delicate balance. We explore the molecular and genetic foundations of menstrual cycle dysfunction in this article, providing insight into the mechanisms underlying common conditions such endometriosis, polycystic ovary syndrome (PCOS), and primary ovarian insufficiency (POI).