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Biochemistry is the science-branch, which explores the chemical processes within and related to living organisms. It is a science that is based in laboratory and brings together biology and chemistry. This is a very important part of a hospital. By using chemical knowledge and techniques, biochemists can easily understand and solve biological problems.

Biochemists of Prasidh Hospital, Hyderabad, focus on processes happening at a very small level, called the molecular level. It focuses on what is happening inside our body cells, studying components like proteins, lipids, and organelles. Cells are a very small part of our body. It also looks at how cells connected and communicate with each other, such as during growth or fighting illness. Biochemists have to understand how the structure of a molecule relates to its function, allowing them to predict how molecules will interact.

It covers a range of scientific disciplines, including genetics, microbiology, forensics, plant science, and medicine. Because of its breadth only, it is very vital and advances in this field of science over the past 100 years. 

Their main works are as follows:

  1. They provide new ideas and experiments to understand how life works
  2. They support our understanding of health and disease
  3. They contribute innovative information to the technology revolution
  4. They work alongside chemists, physicists, healthcare professionals, policymakers, engineers, and many more professionals



At Prasidh Hospital, they study the chemical processes that take place in living organisms. The main principle of biochemistry, which could be applied to ecotoxicology is the modern concept of enzyme regulation by molecular intermediates of tissue metabolism in cells of the body. Many xenobiotics (this is a foreign chemical unusual in nature) may interfere with the finely balanced biochemical reactions of living cells by perturbation of the web of molecular interactions necessary for life.

When you come to our hospital, it becomes our responsibility to take care of you on a priority basis. All the doctors, surgeons, biochemists, and pathologists are very experienced. Additional problems are due to the molecular damage to DNA or deoxyribonucleic acid and its related RNA (ribonucleic acid) along with cellular membranes (phospholipids that are readily destroyed by reactive oxygen species (ROS), which are generated by reactions of these chemicals with atmospheric molecular-oxygen). The ecotoxicity of ROS may be ameliorated by antioxidants in the environment (and by dietary antioxidants such as vitamins C, E, A, and D as well as phytoestrogens in the diet).


The word biochemistry is synonymous with two somewhat older terms: 

  1. physiological chemistry and 
  2. biological chemistry. 

Those aspects of biochemistry that deal with the chemistry and function of very big molecules (like proteins and nucleic acids) are often grouped under the term molecular biology. On the other hand, biochemistry is a young science, having been known under that term only since appx 1900. Its origins could be traced much further back; its early history is part of the early history of both physiology and chemistry.

Why Chose Us

There are many reasons to choose our Prasidh Hospital in Hyderabad. We are providing the best facilities. We have all the top-notch facilities at our hospital, such as-


  1. Accomplished, Committed biochemist
  2. Collaborative Research Opportunities- Partner with faculty who have broad research interests.
  3. Dedicated doctors
  4. Open Research Matrix
  5. Practical, Hands-on Experience
  6. Advanced Research Techniques
  7. Strategic Initiatives


At Prasidh hospital, Hyderabad, biochemists play an important role in the treatment of disease. It incorporates elements of pharmacology, pathology, cell biology, and physiology to explain both the basis and proposed therapeutic options for the treatment of disease. Many examples may be drawn upon to show how biochemistry is used to inform the development and monitoring of disease therapies.

Biochemistry is very important in determining the role of key cytokines produced by the inflammatory mediator cells of the immune system, such as T cells. This critical interleukin involved in the pathology of several neurological, dermatological, and rheumatic diseases is interleukin 17 (IL-17). IL-17 is a pro-inflammatory cytokine, which is produced by T helper 17 (Th17) cells and has been widely indicated in the pathogenesis of chronic inflammatory and autoimmune diseases.

Biochemistry in the Treatment of Cancer

This is used in the treatment of cancer as well and our all doctors are very well trained. It plays an important role in uncovering important proteins that are implicated in the development of cancer and have paved the way for new therapies against it.

The biochemical basis underlying the origin and spread of cancer has helped a lot develop novel strategies for targeted therapy and tailored cancer management. It’s one example is the use of transcription activator-like effector nucleases, CRISPR/CAS9 system, and zinc finger proteins (ZNFs) in the treatment of cancer. All of these technologies may be used to repair damaged genomes, particularly breaks in the DNA. This allows researchers to do targeted manipulation in any gene in the genome either in vitro or in vivo.

Recently, researchers at the University of Central Florida and New York university searched a protein modification while studying neurofibromatosis type-2, which is characterized by the development of tumors of the nervous system. The hallmark of tumor cell behavior is uncontrolled growth, with an energy demand required to produce building blocks for replication.

When schwannoma cells were analyzed, researchers found that they produce a nitrating agent called, which is called peroxynitrite (an oxidant). This can modify tyrosine in proteins. When tyrosine is nitrated, reprogramming of tumor cell metabolism occurs, and later on this promotes tumor cell proliferation.

This illustrates that, when proteins undergo specific modifications, they may acquire new functions that are implicated in the control of tumors. As such this opens up the possibility of targeting peroxynitrite production exclusively in tumor cells and then prevents a new therapeutic strategy for the treatment of tumors of the nervous system in general.

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