STRUCTURAL ORGANIZATION OF PROTEINS
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Apr 05, 2019
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About This Presentation
Primary structure of protein
Secondary structure of protein
Tertiary structure of protein
Quaternary structure of protein
Methods to determine protein structure
Conclusion
References
METHODS TO DETERMINE PROTEIN STRUCTURE
Each protein has a unique sequence of amino acids.
The amino acids are held to...
Slide Content
Shylesh Murthy I A Follow for More Biological Slides ( LIFE-Sciences) STRUCTURAL ORGANIZATION OF PROTEIN
CONTENTS Introduction Primary structure of protein Secondary structure of protein Tertiary structure of protein Quaternary structure of protein Methods to determine protein structure Conclusion References
INTRODUCTION Proteins (Greek: Proteios ‘Holding the first place ’) are the most abundant organic molecules of the living system. They constitute about 50% of the cellular dry weight. They are the polymers of L α -amino acids. The structures of proteins can be divided into 4 levels of organization: Primary structure Secondary structure Tertiary structure Quaternary structure
PRIMARY STRUCTURE OF PROTEIN Each protein has a unique sequence of amino acids. The amino acids are held together in a protein by covalent peptide bonds or linkages. A peptide bond are formed when amino group of an amino acid combines with the carboxyl group of another .
SECONDARY STRUCTURE OF PROTEIN The conformation of polypeptide chain by twisting or folding is referred to as secondary structure. Two types of secondary structures α -helix and β -sheet are mainly identified. α-Helical structure was proposed by Pauling and Corey in 1951 . It occurs when the sequence of amino acids are linked by hydrogen bonds. Each turn of α -helix contains 3.6 amino acids. β -pleated sheets are composed of two or more segments of fully extended peptide chains. β -Sheets may be arranged either in parallel or anti-parallel direction. Many globular proteins contain combinations of α -helix and β -pleated sheet secondary structure, these patterns are called supersecondary structures also called motifs.
SECONDARY STRUCTURE OF PROTEINS. Fig: Secondary structures of proteins Fig: Parallel and anti-parallel strands
TERTIARY STRUCTURE OF PROTEIN The three dimensional arrangement of protein structure is referred to as tertiary structure. It is a compact structure with hydrophobic side chains held interior while the hydrophilic groups are on the surface. This type of arrangement provide stability of the molecule. Besides the H-bongs, disulfide bonds, ionic interactions, hydrophobic interactions also contribute to the tertiary structure.
Fig: Tertiary structure of protein showing bonds Fig: 3D structure of protein
QUATERNARY STRUCTURE OF PROTEIN Proteins consisting of two or more polypeptides which may be identical or unrelated, such proteins are termed as oligomers and possess quaternary structure. The individual polypeptide chains are known as monomers. The monomeric subunits are held together by H-bonds, hydrophobic interactions and ionic bonds. These proteins play a significant role in the regulation of metabolism and cellular functions. E.g., Hemoglobin.
Fig: Quaternary structure of protein Fig: Levels of protein organization
METHODS TO DETERMINE PROTEIN STRUCTURE The first protein structure was determined by protein crystallography was of Myoglobin by Max Perutz and John Kendrew in 1962. Currently used techniques including X-ray crystallography, NMR spectroscopy and Electron microscopy . Fig: X-Ray Crystallography
Fig: NMR Spectroscopy Fig: Electron microscopy
CONCLUSION Proteins are the most abundant organic molecules of life, performing structural and dynamic functions in the living cells. The dynamic functions of proteins are highly diversified such as enzymes, hormones, clotting factors, immunoglobulins, etc.
REFERENCES M.C. Michael, L.N. David; Principles of Biochemistry; 5 th edi; P:92-138; W.H. Freeman and Company. U. Satyanarayan, U. Chakrapani; Biochemistry; 3 rd edi; P:43-68; Books and allied (P) Ltd. K. Pranav, M. Usha ; Life Sciences; 5 th edi; P:12-20; Pathfinder Publication .
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