• Each ribosome consists of one larger and one smaller subunit.
• The smaller subunit fits over larger one and requires Mg2+ for binding.
• They are found in all living cells except RBCs.
• They occur in cytoplasm of the cell and in organelles like mitochondria
and chloroplast. The cytoplasmic ribosomes may remain free in
cytoplasm or attached to ER.
• They are the sites of protein synthesis and are known as protein
factories.
• Chemically ribosome is made of two parts: proteins and rRNA.
• It has 4 sites for specific attachments: mRNA binding site, A or aminoacyl
binding site, P or peptidyl site and E or exit site.• The size of ribosome is measured by sedimentation coefficient in the centrifuge and is measured as Svedberg unit called S.
Two subunits of 80S ribosome are 60S and 40S while 70S ribosome has 50S and 30S subunits.
Subunit
30SSubunit
40S 21 proteins33 proteins40 proteins 34 proteinsFig.: Components of 80S and 70S ribosomes.18S RNA 16S RNA28S RNA 23S RNA5S RNA 5S RNA5.8S RNA
80S 70SSubunit
50SSubunit
60S300 – 340A° 200 – 290A°Functions
• Protein factories: Ribosomes are sites for polypeptide or protein synthesis and therefore act as protein factories.
• Free ribosomes synthesise structural and enzymatic proteins for use inside the cell. The attached ribosomes synthesise
proteins for transport.
• Ribosomes provide enzymes (e.g., peptidyl transferase) and factors for condensation of amino acids to form polypeptide.
• Ribosome contains rRNAs for providing attaching points to mRNA and tRNAs. Ribosome also has a tunnel for mRNA so
that it can be translated properly.
• It also provides protection to newly synthesised polypeptide by enclosing it in groove of larger subunit of ribosome.