Photosystem II light-harvesting protein
Photosystem II light-harvesting proteins are the intrinsic transmembrane proteins CP43 (PsbC) and CP47 (PsbB) occurring in the reaction centre of photosystem II. These polypeptides bind to chlorophyll a and beta-carotene and pass the excitation energy on to the reaction centre.[1][2] This family also includes the iron-stress induced chlorophyll-binding protein CP43' (IsiA,CP43'), which evolved in cyanobacteria from a PSII protein to cope with light limitations and stress conditions.
Photosystem II light-harvesting protein | |||||||||
---|---|---|---|---|---|---|---|---|---|
Identifiers | |||||||||
Symbol | PSII | ||||||||
Pfam | PF00421 | ||||||||
InterPro | IPR000932 | ||||||||
TCDB | 3.E.2 | ||||||||
OPM superfamily | 2 | ||||||||
OPM protein | 2bhw | ||||||||
Membranome | 536 | ||||||||
|
Under iron-deficient growth conditions, CP43' associates with photosystem I to form a complex that consists of a ring of 18 or more CP43' molecules around a PSI trimer, which significantly increases the light-harvesting system of PSI. IsiA can also provide photoprotection for PSII.[3]
Plants, algae and some bacteria use two photosystems, PSI with P700 and PSII with P680. Using light energy, PSII acts first to channel an electron through a series of acceptors that drive a proton pump to generate ATP, before passing the electron on to PSI. Once the electron reaches PSI it has used most of its energy in producing ATP, but a second photon of light captured by P700 provides the required energy to channel the electron to ferredoxin, generating reducing power in the form of NADPH. The ATP and NADPH produced by PSII and PSI, respectively, are used in the light-independent reactions for the formation of organic compounds. This process is non-cyclic, because the electron from PSII is lost and is only replenished through the oxidation of water. Hence, there is a constant flow of electrons and associated hydrogens from water for the formation of organic compounds. It is this stripping of hydrogens from water that produces the oxygen we breathe.[4]
IsiA has an inverse relationship with the Iron stress repressed RNA (IsrR). IsrR is an antisense RNA that acts as a reversible switch that responds to changes in environmental conditions to modulate the expression of IsiA.
Subfamilies
See also
References
- Barber J (August 2002). "Photosystem II: a multisubunit membrane protein that oxidises water". Current Opinion in Structural Biology. 12 (4): 523–30. doi:10.1016/S0959-440X(02)00357-3. PMID 12163077.
- Standfuss J, Terwisscha van Scheltinga AC, Lamborghini M, Kühlbrandt W (March 2005). "Mechanisms of photoprotection and nonphotochemical quenching in pea light-harvesting complex at 2.5 A resolution". The EMBO Journal. 24 (5): 919–28. doi:10.1038/sj.emboj.7600585. PMC 554132. PMID 15719016.
- Yeremenko N, Kouril R, Ihalainen JA, D'Haene S, van Oosterwijk N, Andrizhiyevskaya EG, Keegstra W, Dekker HL, Hagemann M, Boekema EJ, Matthijs HC, Dekker JP (August 2004). "Supramolecular organization and dual function of the IsiA chlorophyll-binding protein in cyanobacteria". Biochemistry. 43 (32): 10308–13. CiteSeerX 10.1.1.516.3974. doi:10.1021/bi048772l. PMID 15301529.
- "Photosystem II By Jennifer McDowall". www.ebi.ac.uk.