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PDBsum entry 2ewh
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References listed in PDB file
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Key reference
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Title
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Structural analysis of csos1a and the protein shell of the halothiobacillus neapolitanus carboxysome.
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Authors
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Y.Tsai,
M.R.Sawaya,
G.C.Cannon,
F.Cai,
E.B.Williams,
S.Heinhorst,
C.A.Kerfeld,
T.O.Yeates.
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Ref.
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Plos Biol, 2007,
5,
e144.
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PubMed id
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Abstract
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The carboxysome is a bacterial organelle that functions to enhance the
efficiency of CO2 fixation by encapsulating the enzymes ribulose bisphosphate
carboxylase/oxygenase (RuBisCO) and carbonic anhydrase. The outer shell of the
carboxysome is reminiscent of a viral capsid, being constructed from many copies
of a few small proteins. Here we describe the structure of the shell protein
CsoS1A from the chemoautotrophic bacterium Halothiobacillus neapolitanus. The
CsoS1A protein forms hexameric units that pack tightly together to form a
molecular layer, which is perforated by narrow pores. Sulfate ions, soaked into
crystals of CsoS1A, are observed in the pores of the molecular layer, supporting
the idea that the pores could be the conduit for negatively charged metabolites
such as bicarbonate, which must cross the shell. The problem of diffusion across
a semiporous protein shell is discussed, with the conclusion that the shell is
sufficiently porous to allow adequate transport of small molecules. The
molecular layer formed by CsoS1A is similar to the recently observed layers
formed by cyanobacterial carboxysome shell proteins. This similarity supports
the argument that the layers observed represent the natural structure of the
facets of the carboxysome shell. Insights into carboxysome function are provided
by comparisons of the carboxysome shell to viral capsids, and a comparison of
its pores to the pores of transmembrane protein channels.
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