Complex behavior in solution of homodimeric SecA

SecA, a homodimeric protein involved in protein export in Escherichia coli, exists in the cell both associated with the membrane translocation apparatus and free in the cytosol. SecA is a multifunctional protein involved in protein localization and regulation of its own expression. To carry out thes...

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Bibliographic Details
Published in:Protein science 2002-04, Vol.11 (4), p.875-882
Main Authors: Woodbury, Ronald L., Hardy, Simon J.S., Randall, Linda L.
Format: Article
Language:English
Subjects:
Adenosine Triphosphatases - chemistry
Adenosine Triphosphatases - isolation & purification
Adenosine Triphosphatases - metabolism
Adenosine Triphosphatases - physiology
Bacteria - metabolism
Bacterial Proteins
equilibrium constant
Escherichia coli Proteins - chemistry
Escherichia coli Proteins - isolation & purification
Escherichia coli Proteins - metabolism
homodimer
Light
light scatter
Membrane Transport Proteins - chemistry
Membrane Transport Proteins - isolation & purification
Membrane Transport Proteins - metabolism
Molecular Weight
Protein Binding
protein export
Protein Precursors - metabolism
Scattering, Radiation
SEC Translocation Channels
SecA
Solutions
Ultracentrifugation
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Summary:SecA, a homodimeric protein involved in protein export in Escherichia coli, exists in the cell both associated with the membrane translocation apparatus and free in the cytosol. SecA is a multifunctional protein involved in protein localization and regulation of its own expression. To carry out these functions, SecA interacts with a variety of proteins, phospholipids, nucleotides, and nucleic acid and shows two enzymic activities. It is an ATPase and a helicase. Its role during protein localization involves interaction with the precursor polypeptides to be exported, the cytosolic chaperone SecB, and the SecY subunit of the membrane‐associated translocase, as well as with acidic phospholipids. At the membrane, SecA undergoes a cycle of binding and hydrolysis of ATP coupled to conformational changes that result in translocation of precursors through the cytoplasmic membrane. The helicase activity of SecA and its affinity for its mRNA are involved in regulation of its own expression. SecA has been reported to exist in at least two conformational states during its functional cycle. Here we have used analytical centrifugation, as well as column chromatography coupled with multiangle light scatter, to show that in solution SecA undergoes at least two monomer‐dimer equilibrium reactions that are sensitive to temperature and to concentration of salt.
ISSN:0961-8368
1469-896X
DOI:10.1110/ps.4090102