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Journal of Biotechnology and Microbiology Case Reports

Journal of Biotechnology and Microbiology Case Reports welcomes the submission of case study, image articles in biotechnology and medical microbiology research. Biotechnology journal aims to publish research and development in the laboratory using bioinformatics for breeding programs that employ artificial selection and hybridization. Its also includes genetic engineering, as well as cell and tissue culture technologies, which allows scientists to modify the genetic makeup of organisms to achieve desired outcomes. Microbiology journal accepts case study and clinical image artcles related to microorganisms, those are unicellular, multicellular or acellular. It includes virology, bacteriology, protistology, mycology, immunology and parasitology.

Journal provides refreshed or updated information on points, for example, Disease Diagnosis, Genetic Information of Microbes, Microbial Pathogens Viruses, Fungus, and Parasites, Infectious Diseases, Epidemiology, including Bacteria, Immune System: Defense Mechanisms, Immune Responses to Infectious Agents, and Causes and Transmission of Diseases, Microbial Cultures, Pathogenicity, and Pathogen Interactions.

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Journal accepting Biotechnology case reports submission for publication by using Online Manuscript Submission Portal:

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Bacteriology is the study of morphology, ecology, genetics and biochemistry of bacteria. Bacteria are single-celled microorganisms that lack a nuclear membrane, are metabolically energetic and division by double fission. Medically they are the main source of disease. Rapidly, bacteria appear to be relatively simple forms of life; in fact, they are cultured and highly adjustable. Many bacteria multiply at rapid rates, and different species can utilize an enormous variety of hydrocarbon substrates, including phenol, rubber, and petroleum. These organisms occur widely in both parasitic and free-living forms. Because they are universal and have an extraordinary capacity to adjust to changing environments by assortment of impulsive mutants, the importance of bacteria in every field of medicine cannot be excessive.


Viruses can be classified permitting to the host cell they infect animal viruses, plant viruses, fungal viruses, and bacteriophages. Another association uses the geometrical form of their capsid or the virus's structure. Virus’s variety in size from about 30 nm to about 450 nm, which means that most of them cannot be seen with light microscopes. Epidemiologic studies show that viral infections in developed countries are the most common cause of acute disease that does not require hospitalization.

Infectious Diseases

Infectious diseases are conditions caused by organisms such as bacteria, viruses, fungi or parasites. Many organisms live in and on our bodies. They're normally harmless or even supportive, but under convinced environments, some organisms may cause disease. Some infectious diseases can be passed from person to person. Some are transmitted by bites from insects or animals and others are acquired by consuming contaminated food or water or being unprotected to organisms in the environment. The record of human sorrow and death caused by smallpox, cholera, typhus, dysentery, malaria, etc. establishes the reputation of infectious diseases. Despite the outstanding successes in control afforded by improved hygiene, immunization, and antimicrobial therapy, infectious diseases continue to be a common and significant problem of modern medicine.


In accumulation, some fungi have economic importance as plant and animal pathogens. Fungal diseases of healthy humans tend to be relatively benign, but the few life-threatening fungal diseases are particularly important. Fungal diseases are an increasing problem due to the use of antibacterial and immunosuppressive agents. Individuals with different bacterial flora or cooperated defense mechanisms (e.g., AIDS patients) are more likely than healthy people to grow opportunistic fungal infections such as candidiasis. Accordingly, opportunistic fungal pathogens are progressively important in medical microbiology.

Medical Microbiology

Medical microbiology is a branch of medical science concerned with the prevention, diagnosis and treatment of infectious diseases. The microbes and the branch of microbiology are the most studied due to their great importance to medicine. Medical microbiology studies growth and development of infectious disease in a patient and in human population (epidemiology). It is associated with the study of disease pathology and immunology.


We all know that vaccine is a biological preparation and it helps us to improve our immune system. The field of biotechnology has also played a vital role in developing vaccines against severe diseases. Of the many promises of the biotechnological revolution, one is development of vaccines through recombinant DNA technology.


The strategies for the development of new and more efficient drugs for the evaluation of the effects of chemicals on cell and tissue at a lower cost are considerably changing. This is made possible by areas of science, specially biotechnology. The recent and more sophisticated technologies have largely influenced the areas of pharmacology.
Production of genetically engineered human insulin, Human Growth Hormone, Human Blood Clotting Factor, and Monoclonal Antibodies are examples of how biotechnology has contributed to the field of pharmacology.

Gene Therapy

Gene is responsible for all the physical & mental characteristics which carry out from one generation to another. Gene therapy is a technique for the correction of defective genes, it involves inserting one or more corrective genes that have been designed in the laboratory, into the genetic material of a patient's cells to overcome a genetic disorder.

Stem Cells

Stem cell research having a contribution as a central role in regenerative medicine, which also spans the disciplines of tissue engineering, cellular therapeutics, gene therapy, developmental cell biology, biomaterials, chemical biology and nanotechnology. Stem cells have remarkable potentials to develop into different types of cells in the body during early life and growth. In many tissues stem cell act as a sort of internal repair system, dividing essentially without limit to replenish other cells as long as the person or animal is still alive.

Biomedical Engineering

Biomedical engineering is the application of the principles techniques of engineering to biology and medicine. Biomedical engineering focuses on the advances that improve human health and health care at all levels. It includes including the design and development of active and passive medical devices, orthopedic implants, medical imaging, biomedical signal processing, tissue and stem cell engineering, and clinical engineering, just to name a few.

Medical Devices

Biotechnology offers advanced and modern medical devices for diagnostics and preventive purposes. In today time, human health is an issue of great concern and can’t be ignored. Here, biotechnology plays a major role by providing flexibility to improve human health by promising techniques.


Different individuals react differently to the same drug or treatment, so the vision of pharmacogenomics is to be able to design and produce drugs that are adapted to each person’s genetic factor. The purpose of pharmacogenomic testing is to figure out if a medication is right for an individual human. A small blood or saliva sample can help to determine whether a medication may be an effective treatment for a human, what is the best dose of a medication for a patient, whether a human could have serious side effects from a medication or not.


In modern medicine industry biopharmaceutical, technique poses one third of the manufacturing process. In this process the drugs are produced by following the biotechnological method like genetic engineering, Recombinant DNA technology gene transfer& antibody production method. Biopharmaceutical Drug is a protein molecule derived from a living organism cell. Biopharmaceutical drugs are used to fight cancer, diabetes, hepatitis, viral infections, etc.

Molecular Medicine

Molecular medicine is a branch of medicine that develops the ways to diagnose and treat disease by understanding the way genes, proteins and other cellular molecules work. It is based on research that shows how certain genes, molecules, and cellular functions may become abnormal in diseases such as cancer.

Journal of Biotechnology and Microbiology Case Reports