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    Training manual

    Refresher Course on Nucleic Acids

    Nov 08, 2025






    Program overview
    Bioinformatics is a driving breakthrough in healthcare—from understanding diseases to discovering new drugs and advancing precision medicine. By combining complex biological data, scientists can uncover hidden patterns, predict disease risks, and create highly targeted treatments, making medicine more accurate and effective than ever before.
    When you study Bioinformatics, you'll dive into Artificial Intelligence (AI) and Machine Learning (ML)—two game-changing tools for handling biological data. You'll learn how to build predictive models, automate complex analyses, and make exciting discoveries in biotech, pharmaceutical research, and healthcare.
     You'll also get the chance to work on live cases with leading research and biotechnology centres.




    Purpose & Training Objectives

    In this program, you'll gain hands-on experience with different types of biological data—like genomics, proteomics, and more—to build detailed models of how living systems work. By uncovering hidden connections between molecular events and real-world traits, you'll develop highly sought-after skills. With job prospects rapidly growing, this course gets you career-ready for roles in science, research, healthcare, and industry consulting
    Training objective 1
     

    Drug Development, and Genetic Research
    Training objective 2
     

             Role in Advancing Health Care
    Training objective 3
     

    BioMedical Innovation




    Target audience
    This training manual is designed for new hires, experienced employees learning new machines, technology, or Pursue Professional career advancement.




    Prerequisites

    Minimum Entry Requirements (Domestic students)

    Qualifications

    An Indian  bachelor degree (or equivalent) in a cognate discipline* with at least a High percentage  of 65%.
    Cognate disciplines include: science, biomedical science, engineering or information technology

    English requirements

    Applicants must also meet the English Language Requirements.

    University entrance requirements
    Minimum requirements for admission to Indian  Universities,  NewDelhi.

     

     
     
     
     
     
     
     
     
     
     
     
     
    (You can edit or remove this text)

Available courses

Introduction to Nucleic Acids and Structure of DNA

Each person’s DNA is unique, and it is possible to detect differences among individuals within a species on the basis of these unique features. DNA analysis has many practical applications, including identifying criminals (forensics), determining paternity, tracing genealogy, identifying pathogens, researching archeological finds, tracing disease outbreaks, and studying human migration patterns. In the medical field, DNA is used in diagnostics, new vaccine development, and cancer therapy. It is often possible to determine predisposition to diseases by sequencing genes.

Sometimes an innocent person is erroneously convicted of a crime and sent to jail. Between 2000 and 2015, evidence from DNA was used to exonerate over 250 innocent people. Twenty of those people were on death row after being convicted of a murder they didn’t commit.

This refresher course makes you learn the basic of Nucleic Acids and indepth nuances of DNA and its structure.

Structure of RNA and Function of Nucleic Acids

 

​RNA and Functions of Nucleic Acids

 A related type of nucleic acid, called ribonucleic acid (RNA), comes in different molecular forms that play multiple cellular roles, including protein synthesis. 

What does RNA do?

RNA, in one form or another, touches nearly everything in a cell. RNA carries out a broad range of functions, from translating genetic information into the molecular machines and structures of the cell to regulating the activity of genes during development, cellular differentiation, and changing environments.

RNA is a unique polymer. Like DNA, it can bind with great specificity to either DNA or another RNA through complementary base pairing. It can also bind specific proteins or small molecules, and, remarkably, RNA can catalyze chemical reactions, including joining amino acids to make Proteins

All the RNA in cells are themselves copies of DNA sequences contained in the genes of a cell's chromosomes. Genes that are copied—"transcribed"—into the instructions for making individual proteins are often referred to as "coding genes." The genes that produce RNAs used for other purposes are therefore called "noncoding RNA" genes.

In this module we learn the importance of RNA and how  RNA molecules assemble proteins and modify other RNAs as well as how  RNA molecules regulate gene expression.





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