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Collagen helix

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Collagen triple helix
Model of a collagen helix.[1]
Identifiers
SymbolCollagen
PfamPF01391
InterProIPR008160
SCOP21a9a / SCOPe / SUPFAM
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
PDB1q7d​, 1rj7​, 1rj8
TEM image of collagen fibres.

In molecular biology, the collagen triple helix or type-2 helix is the main secondary structure of various types of fibrous collagen, including type I collagen. In 1954, Ramachandran & Kartha (13, 14) advanced a structure for the collagen triple helix on the basis of fiber diffraction data. It consists of a triple helix made of the repetitious amino acid sequence glycine-X-Y, where X and Y are frequently proline or hydroxyproline.[2][3] Collagen folded into a triple helix is known as tropocollagen. Collagen triple helices are often bundled into fibrils which themselves form larger fibres, as in tendons.

Structure

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Glycine, proline, and hydroxyproline must be in their designated positions with the correct configuration. For example, hydroxyproline in the Y position increases the thermal stability of the triple helix, but not when it is located in the X position.[4] The thermal stabilization is also hindered when the hydroxyl group has the wrong configuration. Due to the high abundance of glycine and proline contents, collagen fails to form a regular α-helix and β-sheet structure. Three left-handed helical strands twist to form a right-handed triple helix.[5] A collagen triple helix has 3.3 residues per turn.[6]

Each of the three chains is stabilized by the steric repulsion due to the pyrrolidine rings of proline and hydroxyproline residues. The pyrrolidine rings keep out of each other's way when the polypeptide chain assumes this extended helical form, which is much more open than the tightly coiled form of the alpha helix. The three chains are hydrogen bonded to each other. The hydrogen bond donors are the peptide NH groups of glycine residues. The hydrogen bond acceptors are the CO groups of residues on the other chains. The OH group of hydroxyproline does not participate in hydrogen bonding but stabilises the trans isomer of proline by stereoelectronic effects, therefore stabilizing the entire triple helix.

The rise of the collagen helix (superhelix) is 2.9 Å (0.29 nm) per residue. The center of the collagen triple helix is very small and hydrophobic, and every third residue of the helix must have contact with the center.[7] Due to the very tiny and tight space at the center, only the small hydrogen of the glycine side chain is capable of interacting with the center.[7] This contact is impossible even when a slightly bigger amino acid residue is present other than glycine.

References

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  1. ^ Berisio R, Vitagliano L, Mazzarella L, Zagari A (February 2002). "Crystal structure of the collagen triple helix model [(Pro-Pro-Gly)(10)](3)". Protein Sci. 11 (2): 262–70. doi:10.1110/ps.32602. PMC 2373432. PMID 11790836.
  2. ^ Bhattacharjee A, Bansal M (March 2005). "Collagen structure: the Madras triple helix and the current scenario". IUBMB Life. 57 (3): 161–72. doi:10.1080/15216540500090710. PMID 16036578. S2CID 7211864.
  3. ^ Saad, Mohamed (Oct 1994). Low resolution structure and packing investigations of collagen crystalline domains in tendon using Synchrotron Radiation X-rays, Structure factors determination, evaluation of Isomorphous Replacement methods and other modeling. PhD Thesis, Université Joseph Fourier Grenoble I. pp. 1–221. doi:10.13140/2.1.4776.7844.
  4. ^ Berisio, Rita; Vitagliano, Luigi; Mazzarella, Lelio; Zagari, Adriana (2002). "Crystal structure of the collagen triple helix model [(Pro-Pro-Gly)(10)](3)". Protein Science. 11 (2): 262–270. doi:10.1110/ps.32602. ISSN 0961-8368. PMC 2373432. PMID 11790836.
  5. ^ Bella, Jordi (2016-04-15). "Collagen structure: new tricks from a very old dog". Biochemical Journal. 473 (8): 1001–1025. doi:10.1042/BJ20151169. ISSN 0264-6021. PMID 27060106.
  6. ^ Harpers Illustrated Biochemistry (30th ed.).
  7. ^ a b Brodsky, Barbara; Thiagarajan, Geetha; Madhan, Balaraman; Kar, Karunakar (2008). "Triple-helical peptides: An approach to collagen conformation, stability, and self-association". Biopolymers. 89 (5): 345–353. doi:10.1002/bip.20958. ISSN 0006-3525. PMID 18275087.