Medical Science: The Functions of DNA, RNA, and Proteins, and the Effects of RNA Interference (RNAi)
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- Category: Haute This Issue
- Published on Friday, 10 October 2025 15:04
- Written by Medical Science Contributing Editor
DNA, RNA, and proteins are fundamental molecules in all living organisms. Each plays a unique role in the storage, transmission, and execution of genetic information. This article will help to understand key biomolecules and their roles in health and disease.
In recent years, the discovery of RNA interference (RNAi) has revolutionized our understanding of gene regulation and provided new insights into disease mechanisms and potential therapies.
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Functions of DNA
Deoxyribonucleic acid (DNA) is the hereditary material in almost all living organisms. Its primary functions include:
- Genetic Information Storage: DNA contains the instructions needed for an organism's growth, development, functioning, and reproduction. These instructions are encoded in sequences of four chemical bases (adenine, thymine, cytosine, and guanine).
- Replication: DNA can make exact copies of itself, allowing genetic information to be passed from cell to cell during growth and from generation to generation during reproduction.
- Template for RNA Synthesis: DNA serves as a template for the synthesis of RNA during the process called transcription.
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Functions of RNA
Ribonucleic acid (RNA) is a versatile molecule that plays several critical roles:
- Messenger RNA (mRNA): Carries genetic information from DNA in the nucleus to ribosomes in the cytoplasm, where proteins are synthesized.
- Transfer RNA (tRNA): Brings amino acids to the ribosome during protein synthesis, matching the correct amino acid to the corresponding mRNA codon.
- Ribosomal RNA (rRNA): Forms the core structural and functional components of ribosomes, which are the cellular machines that assemble proteins.
- Regulatory and Catalytic Functions: Some RNA molecules regulate gene expression or act as enzymes (ribozymes).
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Functions of Proteins
Proteins are large, complex molecules made of amino acids. They perform a vast range of functions in the body, including:
- Enzymatic Activity: Many proteins are enzymes that speed up chemical reactions.
- Structural Support: Proteins like collagen and keratin provide structure to cells and tissues.
- Transport: Hemoglobin is a protein that transports oxygen in the blood.
- Immune Response: Antibodies are proteins that help defend against pathogens.
- Signaling: Hormones and receptors, often proteins, coordinate communication between cells.
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RNA Interference (RNAi): Effects on the Body and Diseases
RNA interference (RNAi) is a natural cellular process that regulates gene expression by silencing specific messenger RNA (mRNA) molecules, preventing them from producing proteins. This mechanism involves small RNA molecules, such as small interfering RNAs (siRNAs) and microRNAs (miRNAs), which bind to target mRNAs and trigger their degradation or block their translation.
Effects on the Body:
- Gene Regulation: RNAi helps control which genes are active in a cell, ensuring that proteins are produced at the right times and in the correct amounts.
- Development and Differentiation: By fine-tuning gene expression, RNAi is essential for normal development and the specialization of cells.
- Defense Against Viruses: RNAi can target viral RNA, serving as a defense mechanism against some viral infections in plants and animals.
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Implications for Diseases:
- Disease Prevention: Malfunctions in RNAi pathways can lead to inappropriate gene activation or silencing, contributing to diseases such as cancer, neurological disorders, and viral infections.
- Therapeutic Potential: Scientists are developing RNAi-based therapies to silence disease-causing genes. For example, RNAi drugs are being explored for treating genetic disorders, viral infections (like hepatitis), and certain cancers by specifically targeting and silencing harmful mRNAs.
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Conclusion
DNA, RNA, and proteins are essential for the storage, transmission, and expression of genetic information. RNA interference (RNAi) adds another layer of regulation, allowing cells to silence specific genes and defend against viruses. Understanding these molecules and mechanisms is crucial for unraveling the complexities of biology and developing innovative treatments for various diseases.
