The name of this superfamily has been modified since the most recent official CATH+ release (v4_3_0). At the point of the last release, this superfamily was named:
"photosynthetic oxygen evolving center domain
".
FunFam 1: Oxygen-evolving enhancer protein 1, chloroplastic
Please note: GO annotations are assigned to the full protein sequence rather than individual protein domains. Since a given protein can contain multiple domains, it is possible that some of the annotations below come from additional domains that occur in the same protein, but have been classified elsewhere in CATH.
There are 4 GO terms relating to "molecular function"
The search results have been sorted with the annotations that are found most frequently at the top of the
list. The results can be filtered by typing text into the search box at the top of the table.
GO Term | Annotations | Evidence |
---|---|---|
Protein binding GO:0005515
Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).
|
3 | P23321 (/IPI) P23321 (/IPI) Q9S841 (/IPI) |
Poly(U) RNA binding GO:0008266
Interacting selectively and non-covalently with a sequence of uracil residues in an RNA molecule.
|
3 | P23321 (/IDA) P23321 (/IDA) Q9S841 (/IDA) |
Oxygen evolving activity GO:0010242
Catalysis of the reaction: 2 H2O = O2 + 4 H+ + 4 e-. The evolution of oxygen from oxidizing water is carried out by the oxygen evolving complex in photosystem II of plants. P680+, the photochemically oxidized reaction-center chlorophyll of PSII, is a strong biological oxidant. The reduction potential of P680+ is more positive than that of water, and thus it can oxidize water to give O2 and H+ ions. The oxygen escapes as a gas while the H+ ions remain in solution inside the thylakoid vesicle.
|
2 | P23321 (/IDA) P23321 (/IDA) |
Oxygen evolving activity GO:0010242
Catalysis of the reaction: 2 H2O = O2 + 4 H+ + 4 e-. The evolution of oxygen from oxidizing water is carried out by the oxygen evolving complex in photosystem II of plants. P680+, the photochemically oxidized reaction-center chlorophyll of PSII, is a strong biological oxidant. The reduction potential of P680+ is more positive than that of water, and thus it can oxidize water to give O2 and H+ ions. The oxygen escapes as a gas while the H+ ions remain in solution inside the thylakoid vesicle.
|
1 | P12359 (/IMP) |
There are 9 GO terms relating to "biological process"
The search results have been sorted with the annotations that are found most frequently at the top of the
list. The results can be filtered by typing text into the search box at the top of the table.
GO Term | Annotations | Evidence |
---|---|---|
Photosystem II assembly GO:0010207
The aggregation, arrangement and bonding together of a set of components to form a photosystem II complex on the thylakoid membrane. The photosystem II complex consists of at least 20 polypeptides and around 80 cofactors in most organisms.
|
4 | P12359 (/IMP) P23321 (/IMP) P23321 (/IMP) Q9S841 (/IMP) |
Photoinhibition GO:0010205
The mechanism by which high light intensity inhibits photosynthesis through inactivation of the D1 protein of photosystem II.
|
3 | P23321 (/IMP) P23321 (/IMP) Q9S841 (/IMP) |
Regulation of protein dephosphorylation GO:0035304
Any process that modulates the frequency, rate or extent of removal of phosphate groups from a protein.
|
3 | P23321 (/IMP) P23321 (/IMP) Q9S841 (/IMP) |
Photosystem II stabilization GO:0042549
The stabilization of the photosystem II protein complex, resulting from the phosphorylation of its structural protein subunits, in a cell actively involved in photosynthesis.
|
3 | P23321 (/IMP) P23321 (/IMP) Q9S841 (/IMP) |
Photosynthesis, light reaction GO:0019684
The light reactions of photosynthesis, which take place in photosystems II and I. Light energy is harvested and used to power the transfer of electrons among a series of electron donors and acceptors. The final electron acceptor is NADP+, which is reduced to NADPH. NADPH generated from light reactions is used in sugar synthesis in dark reactions. Light reactions also generate a proton motive force across the thylakoid membrane, and the proton gradient is used to synthesize ATP. There are two chemical reactions involved in the light reactions: water oxidation in photosystem II, and NADP reduction in photosystem I.
|
2 | P23321 (/IDA) P23321 (/IDA) |
Defense response to bacterium GO:0042742
Reactions triggered in response to the presence of a bacterium that act to protect the cell or organism.
|
2 | P23321 (/IEP) P23321 (/IEP) |
Photosynthesis, light reaction GO:0019684
The light reactions of photosynthesis, which take place in photosystems II and I. Light energy is harvested and used to power the transfer of electrons among a series of electron donors and acceptors. The final electron acceptor is NADP+, which is reduced to NADPH. NADPH generated from light reactions is used in sugar synthesis in dark reactions. Light reactions also generate a proton motive force across the thylakoid membrane, and the proton gradient is used to synthesize ATP. There are two chemical reactions involved in the light reactions: water oxidation in photosystem II, and NADP reduction in photosystem I.
|
1 | P12359 (/IMP) |
Photosynthesis, light reaction GO:0019684
The light reactions of photosynthesis, which take place in photosystems II and I. Light energy is harvested and used to power the transfer of electrons among a series of electron donors and acceptors. The final electron acceptor is NADP+, which is reduced to NADPH. NADPH generated from light reactions is used in sugar synthesis in dark reactions. Light reactions also generate a proton motive force across the thylakoid membrane, and the proton gradient is used to synthesize ATP. There are two chemical reactions involved in the light reactions: water oxidation in photosystem II, and NADP reduction in photosystem I.
|
1 | Q9S841 (/ISS) |
Oxidation-reduction process GO:0055114
A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons.
|
1 | P12359 (/IMP) |
There are 14 GO terms relating to "cellular component"
The search results have been sorted with the annotations that are found most frequently at the top of the
list. The results can be filtered by typing text into the search box at the top of the table.
GO Term | Annotations | Evidence |
---|---|---|
Chloroplast GO:0009507
A chlorophyll-containing plastid with thylakoids organized into grana and frets, or stroma thylakoids, and embedded in a stroma.
|
3 | P23321 (/IDA) P23321 (/IDA) Q9S841 (/IDA) |
Chloroplast thylakoid GO:0009534
Sac-like membranous structures (cisternae) in a chloroplast combined into stacks (grana) and present singly in the stroma (stroma thylakoids or frets) as interconnections between grana. An example of this component is found in Arabidopsis thaliana.
|
3 | P23321 (/IDA) P23321 (/IDA) Q9S841 (/IDA) |
Chloroplast thylakoid membrane GO:0009535
The pigmented membrane of a chloroplast thylakoid. An example of this component is found in Arabidopsis thaliana.
|
3 | P23321 (/IDA) P23321 (/IDA) Q9S841 (/IDA) |
Chloroplast stroma GO:0009570
The space enclosed by the double membrane of a chloroplast but excluding the thylakoid space. It contains DNA, ribosomes and some temporary products of photosynthesis.
|
3 | P23321 (/IDA) P23321 (/IDA) Q9S841 (/IDA) |
Thylakoid GO:0009579
A membranous cellular structure that bears the photosynthetic pigments in plants, algae, and cyanobacteria. In cyanobacteria thylakoids are of various shapes and are attached to, or continuous with, the plasma membrane. In eukaryotes they are flattened, membrane-bounded disk-like structures located in the chloroplasts; in the chloroplasts of higher plants the thylakoids form dense stacks called grana. Isolated thylakoid preparations can carry out photosynthetic electron transport and the associated phosphorylation.
|
3 | P23321 (/IDA) P23321 (/IDA) Q9S841 (/IDA) |
Plastoglobule GO:0010287
A lipoprotein particle present in chloroplasts. They are rich in non-polar lipids (triglycerides, esters) as well as in prenylquinones, plastoquinone and tocopherols. Plastoglobules are often associated with thylakoid membranes, suggesting an exchange of lipids with thylakoids.
|
3 | P23321 (/IDA) P23321 (/IDA) Q9S841 (/IDA) |
Thylakoid lumen GO:0031977
The volume enclosed by a thylakoid membrane.
|
3 | P23321 (/IDA) P23321 (/IDA) Q9S841 (/IDA) |
Chloroplast thylakoid lumen GO:0009543
The cavity enclosed within the chloroplast thylakoid membrane. An example of this component is found in Arabidopsis thaliana.
|
2 | P23321 (/IDA) P23321 (/IDA) |
Photosystem II oxygen evolving complex GO:0009654
A complex, composed of a cluster of manganese, calcium and chloride ions bound to extrinsic proteins, that catalyzes the splitting of water to O2 and 4 H+. In cyanobacteria there are five extrinsic proteins in OEC (PsbO, PsbP-like, PsbQ-like, PsbU and PsbV), while in plants there are only three (PsbO, PsbP and PsbQ).
|
2 | P23321 (/ISS) P23321 (/ISS) |
Plasma membrane-derived thylakoid photosystem II GO:0030096
A protein complex, located in the membrane-derived thylakoid, containing the P680 reaction center. In the light, PSII functions as a water-plastoquinone oxidoreductase, transferring electrons from water to plastoquinone.
|
2 | P10549 (/IDA) P10549 (/IDA) |
Apoplast GO:0048046
The cell membranes and intracellular regions in a plant are connected through plasmodesmata, and plants may be described as having two major compartments: the living symplast and the non-living apoplast. The apoplast is external to the plasma membrane and includes cell walls, intercellular spaces and the lumen of dead structures such as xylem vessels. Water and solutes pass freely through it.
|
2 | P23321 (/IDA) P23321 (/IDA) |
Plastid thylakoid membrane GO:0055035
The lipid bilayer membrane of any thylakoid within a plastid.
|
2 | P23321 (/IDA) P23321 (/IDA) |
Photosystem II oxygen evolving complex GO:0009654
A complex, composed of a cluster of manganese, calcium and chloride ions bound to extrinsic proteins, that catalyzes the splitting of water to O2 and 4 H+. In cyanobacteria there are five extrinsic proteins in OEC (PsbO, PsbP-like, PsbQ-like, PsbU and PsbV), while in plants there are only three (PsbO, PsbP and PsbQ).
|
1 | P12359 (/IMP) |
Chloroplast photosystem II GO:0030095
An integral chloroplast membrane complex containing the P680 reaction center. In the light, PSII functions as a water-plastoquinone oxidoreductase, transferring electrons from water to plastoquinone.
|
1 | P12359 (/IDA) |