Secondary structure of proteins
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Mar 23, 2021
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This is my second presentation upload on secondary structures of Proteins. Hope this is helpful! This is very informative ,colourful & crisp presentation!
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Secondary Structure of Proteins Presented By : Poulani Roy. Roll no: 19MB0001. Course:BSc. Microbiology Honours. Institution: Siliguri College. 2021 .
CONTENT INTRODUCTION. SECONDARY STRUCTURE OF PROTEIN. ALPHA HELIX. BETA PLEATED SHEET. RAMACHANDRAN PLOT.
INTRODUCTION Proteins are an important class of biological macromolecules which are the polymers of amino acids. • Biochemists have distinguished several levels of structural organization of proteins. They are: – Primary structure – Secondary structure – Tertiary structure – Quaternary structure Secondary configuration : Protein molecules of sec. structure are spirally coiled. In addition to peptide bond, amino acids are linked by hydrogen bonds between oxygen of one amide group and hydrogen of another amide group. This structure is of two types - (i) Alpha–Helix (ii) Beta- Helix or pleated sheath structure
SECONDARY STRUCTURE OF PROTEIN Localized arrangement of adjacent amino acids formed as the polypeptide chain folds. • It consists of • Linus Pauling proposed some essential features of peptide units and polypeptide backbone. They are: – The amide group is rigid and planar as a result of resonance. So rotation about C-N bond is not feasible. – Rotation can take place only about N- Cα and Cα – C bonds. – Trans configuration is more stable than cis for R grps at Cα • From these conclusions Pauling postulated 2 ordered structures α helix and β sheet α-helix β-pleated sheet β-bends Non repetitive structures Super secondary structures
α -Helix : Structure
α-Helix Right handed rotation of spirally coiled chain with approximately 3.5 amino acids in each turn. This structure has intramolecular hydrogen bonding i. e. between two amino acids of same chain. Side chain extend outwards. Stabilized by H bonding that are arranged such that the peptide Carbonyl oxygen (nth residue) and amide hydrogen(n+4 th residue). Amino acids per turn – 3.6 , Pitch is 5.4 A° Alpha helical segments are found in many globular proteins like myoglobin,troponin C. Length ~12 residues and ~3 helical turns. phi = -60 degrees, psi = -45 degrees , falls within the fully allowed regions of the Ramachandran diagram. E.g. Keratin ,Myosin, Tropomyosin.
Certain amino acids (particularly PROLINE) disrupts the α helix. The larger number of acidic (Asp, Glu) or Basic (Lys, Arg and His) amino acids also interfere with α helix structure. In general, an α helix consists of 5 to more than 40 amino acidsAmino acids promote the formation of α helix are Ala, Glu, Leu, Met.Amino acids are bad trainers Pro, Gly, Tyr, Ser. Α helices can be hydrophilic, amphipathic or hydrophobic.It depends on the amino acid composition of the propeller. Indeed, the amino acid radicals are turning out the axis of the helix, standard terms their response to their environment. Thus, if the α helix contains only hydrophobic amino acids, so it is put in contact with hydrophobic surfaces, such as the lipid bilayer. If the hydrophobic residues are positioned on one side and hydrophilic residues on the other side, the α helix is amphipathic (or amphiphilic ). That is to say, we will find the interface of the hydrophilic and hydrophobic regions. This is the alpha-helix structure of the protein.
β -Pleated Sheet: Structure
β -Pleated Sheet Protein molecule has zig - zag structure. Two or more protein molecules are held together by intermolecular hydrogen bonding. e.g. Fibroin (silk). Proteins of sec. structure are insoluble in water and fibrous in appearance. Keratin is a fibrous , tough, resistant to digestion, scleroprotein . Hardness of keratin is due to abundance of cysteine amino acid in its structure. The connection between two antiparallel strands may be just a small loop but the link between tandem parallel strands must be a crossover connection that is out of the plane of the β sheet. The β-pleated sheet structure (beta-sheet structure) proposed by Pauling and Corey. The β-pleated sheet structure has two Polypeptide chains. It consists of the juxtaposition of β strands, chain conformation very stretched. Chains are presented in “ Pleated sheet “(to take the first topographical sense- a succession of “roofs”).
B PLEATED SHEET Involved in the peptide bonds that cross-linking and there are many bends.Fewer hydrogen bonds between the strands,The beta-pleated sheet structure can be divided into two types based on the orientation of peptide chains. in a sheet, maybe parallel or antiparallel. In Parallel sheet structure , the orientation of the two polypeptide chains is in the same direction. The Amino groups (-NH2) in the two polypeptide chains are in the same direction. Eg: β-Keratin In Antiparallel sheet structure , the orientation of the two polypeptide chains is in the opposite direction. The Amino groups (-NH2) in the two polypeptide chains are in the opposite direction. Eg: Silk Fibroin
RAMACHANDRAN PLOT This is made to visualize the backbone of amino acid residues. The amino acids with larger side chains will show less number of allowed region within the ramachandran plot. A Ramachandran plot is a way to visualize backbone dihedral angles ψ against φ of amino acid residues in protein structure. It can be used to show which values, or conformations, of the ψ and φ angles are possible for an amino- acid residue in a protein and to show the empirical distribution of data points observed in a single structure. The darkest areas correspond to the "core" regions representing the most favorable combinations of phi-psi values.
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