清华大学：《生物化学》课程PPT教学课件（英文版）Chapter 6 The Three-dimensional Structure of Proteins

The peptide bond is rigid and planar carboxyl C 1.24 terminus 153A 146A 132 Amino Inus b)The conformation corresponding to =1800, v=1800 goel when the peptide is in its fully extended conformation The conformation corresponding to o =0, y=0, which is disallowed by the steric overlap between H and o atoms of adjacent peptide planes. (c)

The peptide bond is rigid and planar c) The conformation corresponding to =00 , =00 , which is disallowed by the steric overlap between H and O atoms of adjacent peptide planes. b) The conformation corresponding to =1800 , =1800 , when the peptide is in its fully extended conformation

+180 120 60 0 60 120 -180 180 0 +180 φ( degrees Ramachandran plot for L-Ala residues. Dark blue area reflect conformations that involve no steric overlap and thus are fully allowed; medium blue indicates conformations allowed at the extreme limits for unfavorable atomic contacts; the lightest blue area reflects conformations that are permissible if a little flexibility is allowed in the bond angles

Ramachandran plot for L-Ala residues. Dark blue area reflect conformations that involve no steric overlap and thus are fully allowed; medium blue indicates conformations allowed at the extreme limits for unfavorable atomic contacts; the lightest blue area reflects conformations that are permissible if a little flexibility is allowed in the bond angles

1.3 Protein structures have conventionally been understood at four different levels 1.3.1 The primary structure is the amino acid sequence(including the locations of disulfide bonds). 1.3.2 The secondary structure refers to the regular recurring arrangements of adjacent residues resulting mainly from hydrogen bonding between backbone groups, with a-helices and b-pleated sheets as the two most common ones 1.3.3 The tertiary structure refers to the spatial relationship among all amino acid residues in a polypeptide chain, that is, the complete three dimensional structure 1.3.4 The quaternary structure refers to the spatial arrangements of each subunit in a multisubunit protein, including nature of their contact

1.3 Protein structures have conventionally been understood at four different levels. 1.3.1 The primary structure is the amino acid sequence (including the locations of disulfide bonds). 1.3.2 The secondary structure refers to the regular, recurring arrangements of adjacent residues resulting mainly from hydrogen bonding between backbone groups, with a-helices and b-pleated sheets as the two most common ones. 1.3.3 The tertiary structure refers to the spatial relationship among all amino acid residues in a polypeptide chain, that is, the complete three￾dimensional structure. 1.3.4 The quaternary structure refers to the spatial arrangements of each subunit in a multisubunit protein, including nature of their contact

Primary Secondary Tertiary Quaternary strueture strueture structure strueture Gly Leu Amino acid residues a helix Polypeptide chain Assembled subunits

2. Protein Secondary Structure 2.1 The likely regular conformations of protein molecules were proposed before they were actually observed This was accomplished by building precise molecular models 2.1.1 Experimental data(from X-ray studies)were closely adhered, interpreted 2.1.2 Single bonds other than the peptide bond in the backbone chain are free to rotate

2. Protein Secondary Structure 2.1 The likely regular conformations of protein molecules were proposed before they were actually observed! This was accomplished by building precise molecular models. 2.1.1 Experimental data (from X-ray studies) were closely adhered, interpreted. 2.1.2 Single bonds other than the peptide bond in the backbone chain are free to rotate