RNA, or ribonucleic acid, is a vital molecule in the field of molecular biology. It plays a crucial role in the flow of genetic information within cells, serving as a messenger that carries instructions from DNA to guide the synthesis of proteins. Unlike DNA, RNA is typically single-stranded and contains the nucleotide uracil instead of thymine.
There are several types of RNA, each with specific functions. Messenger RNA (mRNA) carries genetic information from the DNA in the cell nucleus to the ribosomes, where protein synthesis occurs. Transfer RNA (tRNA) delivers amino acids to the ribosomes, ensuring that the correct sequence of amino acids is assembled during protein synthesis. Ribosomal RNA (rRNA) is a structural component of ribosomes, which are the cellular machinery responsible for protein synthesis.
RNA is involved in various cellular processes beyond protein synthesis, such as gene regulation and the catalysis of biochemical reactions. Additionally, emerging research continues to unveil the diverse roles of RNA in cellular functions and disease mechanisms. The study of RNA has significant implications in understanding the fundamental processes of life and in the development of therapeutic interventions.
2. What is RNA:RNA, or Ribonucleic Acid, is a molecule essential to life and plays
a central role in the flow of genetic information within cells.
3. RNA STRUCTURE
Single-Stranded Structure: RNA is typically a single-stranded molecule.
However, some regions of RNA can form secondary structures through base-pairing
interactions within the same molecule
Ribose Sugar: RNA contains ribose sugar, which has an extra oxygen atom compared
to deoxyribose sugar in DNA. This oxygen makes RNA less stable than DNA, which
is one reason RNA is typically single-stranded.
Nitrogenous Bases: RNA uses the same nitrogenous bases as DNA with one exception:
uracil (U) replaces thymine (T). The four bases in RNA are adenine (A), cytosine
(C), guanine (G), and uracil (U). Base pairing rules are A-U (Adenine to Uracil)
and C-G (Cytosine to Guanine).
4. TYPES OF RNA:
Cells contains three major types of RNA:
1.Messenger RNA(mRNA)
2.Transfer RNA (tRNA)
3.Ribosomal RNA (rRNA)
All of these are involved in the process of protein
biosynthesis.
Each differs from the others by size and function.
5. mRNA:
Structure of mRNA :
▪The mRNA comprises only about 5-10% of total cellular RNA.
▪mRNA is synthesized in the nucleus as heterogenous RNA (hnRNA), which are
processed into functional mRNA.
▪The mRNA carries the genetic information in the form of codons.
Function of mRNA
• mRNAs serve as template for protein biosynthesis and transfer genetic
information from DNA to protein synthesizing machinery.
• If the mRNA codes for only one peptide, the mRNA is monocistronic. If it
codes for two or more different polypeptides, the mRNA is polycistronic.
• In eukaryotes most mRNA are monocistronic
6. tRNA:
• tRNA molecules vary in length from 74 to 95 nucleotides.
• In eukaryotic cells, 10-20% of the nucleotides of tRNA may be modified and
known as unusual nucleotides
e.g.
1. Dihydrouridine (D):in which one of the double bonds of the base is reduced.
2. Ribothymidine (T):in which methyl group is added to uracil to form thymine.
3. Pseudo uridine (y):in which uracil is attached to ribose by a carbon-carbon
bond rather than a nitrogen bond.
7. STRUCTURE OF tRNA:
• All single stranded transfer RNA molecules get folded into a structure that appears like a
clover leaf.
• All t-RNAs contain four main arms:
1.The acceptor arm
2.The D arm(Dihydrouridine arm)
3.The anticodon arm
4.The PSU arm(Pseudouridine arm)
8. Function of tRNA
- tRNA carries amino acids in an activated form to the ribosome for the protein
synthesis.
9. rRNA:
• The RNA of the ribosomes is called the rRNA
• Most abundant RNA (around 80%).
• A ribosome is a cytoplasmic nucleoprotein that acts as a
machinery for the synthesis of proteins.
• The ribosome is a spheroidal particle and is composed of a
large and a small subunit.
10. Functions of ribosomal RNA
• Necessary to maintain ribosomal structure and also participate in
protein synthesis by binding of mRNA to ribosome.
• Recent studies suggest that ribosomal RNAs may also provide some of the
catalytic activities and thus is an enzyme "ribozyme".
Other Nuclear and Cytoplasmic RNAs: Besides mRNA, tRNA and rRNA, eukaryotes have
some other RNAs.
These are:
1. Small Nuclear RNA (snRNA): snRNA is involved in the splicing of pre-mRNA
molecules during post-transcriptional processing.
2. MicroRNA (miRNA): miRNA is a type of small RNA that regulates gene expression.
3. Small Interfering RNA (siRNA): siRNA is another type of small RNA that plays a
role in gene regulation.
4. Small Nucleolar RNA (snoRNA): snoRNA is involved in the processing and chemical
modification of ribosomal RNA (rRNA).
5. Small Cytoplasmic RNA (scRNA): scRNAs are small RNAs found in the cytoplasm, and
they can be involved in various cellular processes, including RNA interference
and gene regulation.