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Thus, the γ-turn has two forms, a classical form with (φ, ψ) dihedral angles of roughly (75°, −65°) and an inverse form with dihedral angles (−75°, 65°). At least eight forms of the beta turn occur, varying in whether a cis isomer of a peptide bond is involved and on the dihedral angles of the central two residues.
The four types of beta turn are distinguished by the φ, ψ angles of residues i+1 and i+2 as shown in the table below giving the typical average values. Glycines are especially common as amino acids with positive φ angles; for prolines such a conformation is sterically impossible but they occur frequently at amino acid positions where φ is ...
The structure contains a number of chain reversals. The first is not well defined and is either a type II β-turn (Lys3-Asn6) or a y-turn centered on Arg5. Chain reversal II is a y turn centered on Gly9. Chain reversal III is not well defined, being either a type I β-turn (Asnn-Cys14) or an inverse y-turn centered on Asn11.
The standard hydrogen-bond definition for secondary structure is that of DSSP, which is a purely electrostatic model. It assigns charges of ±q 1 ≈ 0.42e to the carbonyl carbon and oxygen, respectively, and charges of ±q 2 ≈ 0.20e to the amide hydrogen and nitrogen, respectively. The electrostatic energy is
An alpha-helix with hydrogen bonds (yellow dots) The α-helix is the most abundant type of secondary structure in proteins. The α-helix has 3.6 amino acids per turn with an H-bond formed between every fourth residue; the average length is 10 amino acids (3 turns) or 10 Å but varies from 5 to 40 (1.5 to 11 turns).
The biochemical systems equation is a compact equation of nonlinear differential equations for describing a kinetic model for any network of coupled biochemical reactions and transport processes. [1] [2] The equation is expressed in the following form: = ((),)
An Asx turn with an aspartate at residue i. One of the sidechain oxygens of the aspartate forms a hydrogen bond (dotted line) with the mainchain NH group of residue i+2. Colors: red, oxygen; grey, carbon; blue, nitrogen. Hydrogen atoms are omitted. Four types of Asx turn can be distinguished: [8] types I, I’, II and II’.
Flow processes may also be important. This more complex behavior implies that a model with several parameters is required to describe the data; models with only either a single diffusion constant D or a single off rate constant, k off, are inadequate. There are models with both diffusion and reaction. [2]