Jump to content

Haem peroxidase

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Dcirovic (talk | contribs) at 08:49, 31 December 2015 (added link to portal). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Peroxidase
Identifiers
Symbolperoxidase
PfamPF00141
InterProIPR002016
PROSITEPDOC00394
SCOP21hsr / SCOPe / SUPFAM
CDDcd00314
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
PDB1qgjB:46-293 1schA:40-280 1qo4A:48-297

1pa2A:48-297 1fhfB:44-293 1h5iA:48-299 1atjB:48-299 4atjB:48-299 1gwtA:48-299 1gwoA:48-299 1gx2B:48-299 1h5cA:48-299 1h5aA:48-299 1h58A:48-299 3atjA:48-299 7atjA:48-299 1h5eA:48-299 1gw2A:48-299 1h55A:48-299 1h57A:48-299 1w4yA:48-299 1h5fA:48-299 1kzmA:48-299 2atjB:48-299 1hchA:48-299 1h5dA:48-299 1w4wA:48-299 6atjA:48-299 1h5mA:48-299 1h5lA:48-299 1gwuA:48-299 1h5hA:48-299 1h5jA:48-299 1h5kA:48-299 1h5gA:48-299 1bgp :1-118 1iynA:15-243 1apxB:19-227 1oagA:19-227 1v0hX:19-227 1oafA:19-227 1cpf :89-321 1s6vC:89-321 2pccA:89-321 1z53A:89-321 1u74A:89-321 1cmt :89-321 2cep :89-321 2b0zA:89-321 1beq :89-321 1ccj :89-321 2b10C:89-321 1aef :89-321 1ccg :89-321 1cca :89-321 3ccp :89-321 1aem :89-321 1aeg :89-321 1dj5A:89-321 7ccp :89-321 6ccp :89-321 1cmu :89-321 1u75C:89-321 1cmp :89-321 4ccx :89-321 1aej :89-321 1aet :89-321 1dj1A:89-321 1s73A:89-321 1aeq :89-321 1bem :89-321 2b12A:89-321 1bep :89-321 1bej :89-321 1kokA:89-321 2b11C:89-321 1a2g :89-321 2pcbC:89-321 1ac8 :89-321 1ac4 :89-321 1ccp :89-321 1stqA:89-321 1ml2A:89-321 1mkrA:89-321 1cpg :89-321 1mkqA:89-321 1jdrA:89-321 1kxmA:89-321 1kxnA:89-321 1cpd :89-321 1a2f :89-321 1cmq :89-321 1dcc :89-321 5ccp :89-321 1ccb :89-321 1bj9 :89-321 1aa4 :89-321 1dsgA:89-321 1zbzA:89-321 1aes :89-321 4ccp :89-321 1aen :89-321 1cpe :89-321 1aed :89-321 1mk8A:89-321 1bes :89-321 1dspA:89-321 1aee :89-321 2cyp :89-321 1ebeA:89-321 2ccp :89-321 1jciA:89-321 1ccl :89-321 1zbyA:89-321 1ds4A:89-321 1cce :89-321 1krjA:89-321 1sbmA:89-321 1aeu :89-321 1aeb :89-321 1aek :89-321 3ccx :89-321 1ccc :89-321 1sogA:89-321 1aeo :89-321 1bvaA:89-321 1cck :89-321 1dsoA:89-321 1dseA:89-321 1cci :89-321 1ryc :89-321 1cyf :89-321 1bek :89-321 1aeh :89-321 1aev :89-321 1ub2A:62-394 2ccdA:76-400 2ccaA:76-400 1sfzA:76-400 1sj2A:76-400 1mwvB:80-408 1x7uB:80-408 1itkB:64-391 1lgaA:48-285 1llp :48-285 1b80A:48-285 1b82B:48-285 1b85B:48-285 1qpaB:49-286 2boqA:50-280 1a20 :50-280 1qjrA:51-287 1bqw :51-287 1ary :49-285 1arp :49-285 1arv :49-285 1aru :49-285 1arx :49-285 1arw :49-285 1gza :49-285 1ck6A:49-285 1hsr :49-285 1gzb :49-285 1c8iA:49-285 1lycA:48-284 1ly9A:48-284 1lykA:48-284 1ly8B:48-284 1h3jA:48-284 1yzpA:41-282 1yzrA:41-282 1mn2 :41-282 1mnp :41-282 1yydA:41-282 1mn1 :41-282 1yygA:41-282 1u2jA:422-726

1u2lB:422-726 1u2kA:422-726

Haem peroxidases (or heme peroxidases) are haem-containing enzymes that use hydrogen peroxide as the electron acceptor to catalyse a number of oxidative reactions. Most haem peroxidases follow the reaction scheme:

Fe3+ + H2O2 [Fe4+=O]R' (Compound I) + H2O
[Fe4+O]R' + substrate --> [Fe4+=O]R (Compound II) + oxidised substrate
[Fe4+O]R + substrate --> Fe3+ + H2O + oxidised substrate

In this mechanism, the enzyme reacts with one equivalent of H2O2 to give [Fe4+=O]R' (compound I). This is a two-electron oxidation/reduction reaction where H2O2 is reduced to water and the enzyme is oxidised. One oxidising equivalent resides on iron, giving the oxyferryl[1] intermediate, while in many peroxidases the porphyrin (R) is oxidised to the porphyrin pi-cation radical (R'). Compound I then oxidises an organic substrate to give a substrate radical.[2]

Haem peroxidases include two superfamilies: one found in bacteria, fungi, plants and the second found in animals. The first one can be viewed as consisting of 3 major classes.[3] Class I, the intracellular peroxidases, includes: yeast cytochrome c peroxidase (CCP), a soluble protein found in the mitochondrial electron transport chain, where it probably protects against toxic peroxides; ascorbate peroxidase (AP), the main enzyme responsible for hydrogen peroxide removal in chloroplasts and cytosol of higher plants;[4] and bacterial catalase- peroxidases, exhibiting both peroxidase and catalase activities. It is thought that catalase-peroxidase provides protection to cells under oxidative stress.[5]

Class II consists of secretory fungal peroxidases: ligninases, or lignin peroxidases (LiPs), and manganese-dependent peroxidases (MnPs). These are monomeric glycoproteins involved in the degradation of lignin. In MnP, Mn2+ serves as the reducing substrate.[6] Class II proteins contain four conserved disulphide bridges and two conserved calcium-binding sites.

Class III consists of the secretory plant peroxidases, which have multiple tissue-specific functions: e.g., removal of hydrogen peroxide from chloroplasts and cytosol; oxidation of toxic compounds; biosynthesis of the cell wall; defence responses towards wounding; indole-3-acetic acid (IAA) catabolism; ethylene biosynthesis; and so on.[7] Class III proteins are also monomeric glycoproteins, containing four conserved disulphide bridges and two calcium ions, although the placement of the disulphides differs from class II enzymes.

The crystal structures of a number of these proteins show that they share the same architecture - two all-alpha domains between which the haem group is embedded.

Another family of haem peroxidases is the DyP-type peroxidase family.[8]

References

  1. ^ Nelson RE, Fessler LI, Takagi Y, Blumberg B, Keene DR, Olson PF, Parker CG, Fessler JH (1994). "Peroxidasin: a novel enzyme-matrix protein of Drosophila development". EMBO J. 13 (15): 3438–3447. PMC 395246. PMID 8062820.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  2. ^ Poulos TL, Li H (1994). "Structural variation in heme enzymes: a comparative analysis of peroxidase and P450 crystal structures". Structure. 2 (6): 461–464. doi:10.1016/S0969-2126(00)00046-0. PMID 7922023.
  3. ^ Welinder KG (1992). "Superfamily of plant, fungal and bacterial peroxidases". Curr. Opin. Struct. Biol. 2 (3): 388–393. doi:10.1016/0959-440X(92)90230-5.
  4. ^ Dalton DA (1991). "Ascorbate peroxidase". 2: 139–153. {{cite journal}}: Cite journal requires |journal= (help)
  5. ^ Welinder KG (1991). "Bacterial catalase-peroxidases are gene duplicated members of the plant peroxidase superfamily". Biochim. Biophys. Acta. 1080 (3): 215–220. doi:10.1016/0167-4838(91)90004-j. PMID 1954228.
  6. ^ Reddy CA, D Souza TM (1994). "Physiology and molecular biology of the lignin peroxidases of Phanerochaete chrysosporium". FEMS Microbiol. Rev. 13 (2): 137–152. doi:10.1111/j.1574-6976.1994.tb00040.x. PMID 8167033.
  7. ^ Campa A (1991). "Biological roles of plant peroxidases: known and potential function". 2: 25–50. {{cite journal}}: Cite journal requires |journal= (help)
  8. ^ Zubieta C, Krishna SS, Kapoor M, Kozbial P, McMullan D, Axelrod HL, Miller MD, Abdubek P, Ambing E, Astakhova T, Carlton D, Chiu HJ, Clayton T, Deller MC, Duan L, Elsliger MA, Feuerhelm J, Grzechnik SK, Hale J, Hampton E, Han GW, Jaroszewski L, Jin KK, Klock HE, Knuth MW, Kumar A, Marciano D, Morse AT, Nigoghossian E, Okach L, Oommachen S, Reyes R, Rife CL, Schimmel P, van den Bedem H, Weekes D, White A, Xu Q, Hodgson KO, Wooley J, Deacon AM, Godzik A, Lesley SA, Wilson IA (November 2007). "Crystal structures of two novel dye-decolorizing peroxidases reveal a beta-barrel fold with a conserved heme-binding motif". Proteins. 69 (2): 223–33. doi:10.1002/prot.21550. PMID 17654545.{{cite journal}}: CS1 maint: multiple names: authors list (link)
This article incorporates text from the public domain Pfam and InterPro: IPR002016