Bioinformatic method which can be very helpful in diagnosing and curing cancers. Thus, bioinformatic tools could be a shortcut for achieving the main pathway for this significant and also, eliminating errors and and trials in practical experiments and clinical tests. One of the main purpose of our team is making bioinformatical algorithms with the aim of predicting the best approaches and submitting to the medical science world.
WE ARE RESEARCHING AND FOCUS ON SYSTEM BIOLOGY FOR: Biological Components Building a model of the system Extracting the unifying organizational Explain the function of living organisms
BIOTECHNOLOGY IS THE USE OF LIVING SYSTEMS AND ORGANISMS TO DEVELOP OR MAKE PRODUCTS, OR "ANY TECHNOLOGICAL APPLICATION THAT USES BIOLOGICAL SYSTEMS, LIVING ORGANISMS, OR DERIVATIVES THEREOF, TO MAKE OR MODIFY PRODUCTS OR PROCESSES FOR SPECIFIC USE") DEPENDING ON THE TOOLS AND APPLICATIONS, IT OFTEN OVERLAPS WITH THE (RELATED) FIELDS OF BIOENGINEERING, BIOMEDICAL ENGINEERING, BIOMANUFACTURING, MOLECULAR ENGINEERING, ETC. FOR THOUSANDS OF YEARS, HUMANKIND HAS USED BIOTECHNOLOGY IN AGRICULTURE, FOOD PRODUCTION, AND MEDICINE. ULTIMATELY, IT HAS EXPANDED TO INCLUDE NEW AND DIVERSE SCIENCES SUCH AS GENOMICS, RECOMBINANT GENE TECHNIQUES, APPLIED IMMUNOLOGY, AND DEVELOPMENT OF PHARMACEUTICAL THERAPIES AND DIAGNOSTIC TESTS.
GENETIC ENGINEERING IS THE ALTERATION OF GENETIC MATERIAL BY DIRECT INTERVENTION IN GENETIC PROCESSES WITH THE PURPOSE OF PRODUCING NEW SUBSTANCES OR IMPROVING FUNCTIONS OF EXISTING ORGANISMS. IT IS A VERY YOUNG, EXCITING, AND CONTROVERSIAL BRANCH OF THE BIOLOGICAL SCIENCES. THEREFORE, IT OFFERS THE POSSIBILITY OF CURES FOR DISEASES AND COUNTLESS MATERIAL IMPROVEMENTS TO DAILY LIFE. HOPES FOR THE BENEFITS OF GENETIC ENGINEERING ARE SYMBOLIZED BY THE HUMAN GENOME PROJECT, A VAST INTERNATIONAL EFFORT TO CATEGORIZE ALL THE GENES IN THE HUMAN SPECIES.
BIODRUGS IS AN ESSENTIAL RESOURCE FOR R&D PROFESSIONALS AND CLINICIANS WITH AN INTEREST IN BIOLOGIC THERAPIES. BIODRUGS COVERS THE DEVELOPMENT AND THERAPEUTIC APPLICATION OF BIOTECHNOLOGY-BASED PHARMACEUTICALS AND DIAGNOSTIC PRODUCTS FOR THE TREATMENT OF HUMAN DISEASE. THIS INCLUDES INNOVATIVE THERAPEUTIC AND DIAGNOSTIC PRODUCTS; NOVEL DRUG DELIVERY SYSTEMS; PROTEIN/PEPTIDE THERAPEUTICS; MONOCLONAL ANTIBODIES AND ANTIBODY FRAGMENTS; CYTOKINES AND CYTOKINE RECEPTORS; RECOMBINANT DNA AND GENE REGULATION TECHNOLOGY; GENE THERAPY; NUCLEIC ACID THERAPEUTICS AND DIAGNOSTICS; STEM CELL THERAPIES; DRUG TARGET VALIDATION; GLYCOLATED AND PEGYLATED THERAPEUTICS; AND PIONEERING TECHNOLOGIES IN DRUG DESIGN AND DEVELOPMEN.
What is a stem cell in the first place? Stem cells are the body’s own repair kit. When you receive an injury, your body’s stem cells rush to the injured area and start the healing process. Sometimes your own stem cells cannot get through to the injured area due to the amount of damage from the injury or surgery. In these cases, stem cells are then harvested from your own body, concentrating them by placing them in a centrifuge, and then injecting them back into the injured part of the body. It is important not to confuse these types of stem cells with embryonic stem cells. Where do stem cells come from? Modern stem cell therapy techniques harvest stem cells directly from the patient’s own body. This is a quick and safe process that only involves the gathering of fat cells — also known as adipose tissue — from a patient, which are loaded with stem cells. Once the adipose tissue has been gathered, the stem cells are separated by spinning them in a centrifuge. They are then ready to be reintroduced to the patient’s body. What does stem cell therapy do? Stem cell therapy is the process of using the aforementioned cells to help patients’ bodies repair damaged tissue. It can either accelerate an otherwise slow healing process or allow the body to heal tissue that would have otherwise remained damaged permanently. The medical advancements in stem cell therapy have been remarkable for the advancement of non-invasive medical treatments. Instead of opting for surgery, which is usually the only option many doctors present, patients now have safe, natural and effective alternatives for joint disorders and beyond. It is also possible to combine PRP (Platelet Rich Plasma) Therapy with Stem Cell Therapy, in certain situations, to provide an additional element that helps in the healing process.
DNA computing, the performing of computations using biological molecules, rather than traditional silicon chips. The idea that individual molecules (or even atoms) could be used for computation dates to 1959, when American physicist Richard Feynman presented his ideas on nanotechnology. The main enzyme involved in DNA replication is DNA polymerase. It is the enzyme that makes a complementary copy of each of the two DNA strands in a DNA double helix. As a result, a single DNA double helix is turned into two genetically identical DNA double helices by DNA polymerase However, DNA computing was not physically realized until 1994, when American computer scientist Leonard Adleman showed how molecules could be used to solve a computational problem.
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