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IPR004307 is a TspO/MBR-related protein.
<p>Members of this group are involved in transmembrane signalling. In both prokaryotes and mitochondria they are localized to the outer membrane, and have been shown to bind and transport dicarboxylic tetrapyrrole intermediates of the haem biosynthetic pathway [[cite:PUB00015672], [cite:PUB00007483]]. They are associated with the major outer membrane porins (in prokaryotes) and with the voltage-dependent anion channel (in mitochondria) [[cite:PUB00015778]].</p> <p>Rhodobacter sphaeroides TspO (previously CrtK) is involved in signal transduction, functioning as a negative regulator of the expression of some photosynthesis genes (PpsR/AppA repressor/antirepressor regulon). This down-regulation is believed to be in response to oxygen levels. TspO works through (or modulates) the PpsR/AppA system and acts upstream of the site of action of these regulatory proteins [[cite:PUB00015782]]. It has been suggested that the TspO regulatory pathway works by regulating the efflux of certain tetrapyrrole intermediates of the haem/bacteriochlorophyll biosynthetic pathways in response to the availability of molecular oxygen, thereby causing the accumulation of a biosynthetic intermediate that serves as a corepressor for the regulated genes [[cite:PUB00015711]]. A homologue of the TspO protein in Rhizobium meliloti (Sinorhizobium meliloti) is involved in regulating expression of the ndi locus in response to stress conditions [[cite:PUB00015861]]. There is evidence that the S. meliloti TspO acts through, or in addition to, the FixL regulatory system.</p> <p>In animals, translocator protein (TSPO), previously known as peripheral-type benzodiazepine receptor (PBR, MBR) is a mitochondrial protein (located in the outer mitochondrial membrane) where it forms a complex with several proteins of the mitochondrial permeability transition pore (MPTP). TSPO is involved in multiple processes, including regulation of cell death, cholesterol transport and steroid biosynthesis, mitochondrial respiration and oxidation and mitochondrial protein import [[cite:PUB00071816], [cite:PUB00071817]].</p> <p>These observations suggest that fundamental aspects of this receptor and the downstream signal transduction pathway are conserved in bacteria and higher eukaryotic mitochondria. The alpha-3 subdivision of the purple bacteria is considered to be a likely source of the endosymbiont that ultimately gave rise to the mitochondrion. Therefore, it is possible that the mammalian PBR remains both evolutionarily and functionally related to the TspO of R. sphaeroides.</p>
This description is obtained from EB-eye REST.
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Cellular component | Integral component of membrane | The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane. |
Transcript | Name | Description | Predicted domains | Domain count |
---|---|---|---|---|
– | Translocator-like protein; TAIR: AT2G47770.1 TSPO(outer membrane tryptophan-rich sensory protein)-like protein; Swiss-Prot: sp|O82245|TSPO_ARATH Translocator protein homolog; TrEMBL-Plants: tr|I1L102|I1L102_SOYBN Uncharacterized protein; Found in the gene: LotjaGi6g1v0249600 | 12 |
A list of co-occurring predicted domains within the L. japonicus gene space:
Predicted domain | Source | Observations | Saturation (%) |
---|---|---|---|
cd15904 | CDD | 1 | 100.00 |