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glycine betaine ABC transporter substrate-binding protein
Part of a high affinity multicomponent binding-protein-dependent transport system involved in bacterial osmoregulation. This domain is often fused to the permease component of the transporter complex. Family members are often integral membrane proteins or predicted to be attached to the membrane by a lipid anchor. Glycine betaine is involved in protection from high osmolarity environments for example in Bacillus subtilis [1]. The family member OpuBC is closely related, and involved in choline transport. Choline is necessary for the biosynthesis of glycine betaine [2]. L-carnitine is important for osmoregulation in Listeria monocytogenes. Family also contains proteins binding l-proline (ProX), histidine (HisX) and taurine (TauA). [1]. 7622480. OpuA, an osmotically regulated binding protein-dependent transport system for the osmoprotectant glycine betaine in Bacillus subtilis. Kempf B, Bremer E;. J Biol Chem 1995;270:16701-16713. [2]. 10216873. Two evolutionarily closely related ABC transporters mediate the uptake of choline for synthesis of the osmoprotectant glycine betaine in Bacillus subtilis. Kappes RM, Kempf B, Kneip S, Boch J, Gade J, Meier-Wagner J, Bremer E;. Mol Microbiol 1999;32:203-216. [3]. 11055912. Identification and characterization of an ATP binding cassette L-carnitine transporter in Listeria monocytogenes. Fraser KR, Harvie D, Coote PJ, O'Byrne CP;. Appl Environ Microbiol 2000;66:4696-4704. (from Pfam)
choline ABC transporter substrate-binding protein
choline ABC transporter substrate-binding protein functions as the initial receptor in the ABC transport of choline
Partial phylogenetic profiling (PMID:16930487) vs. the genome property of glycine betaine biosynthesis from choline consistently reveals a member of this ABC transporter periplasmic binding protein as the best match, save for the betaine biosynthesis enzymes themselves. Genomes often carry several paralogs, one encoded together with the permease and ATP-binding components and another encoded next to a choline-sulfatase gene, suggesting that different members of this protein family interact with shared components and give some flexibility in substrate. Of two members from Sinorhizobium meliloti 1021, one designated ChoX has been shown experimentally to bind choline (though not various related compounds such as betaine) and to be required for about 60 % of choline uptake. Members of this protein have an invariant Cys residue near the N-terminus and likely are lipoproteins.
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