Rachael L. Jack scite author profile

SUMMARY The PII family of signal transduction proteins are among the most widely distributed signal proteins in the bacterial world. First identified in 1969 as a component of the glutamine synthetase regulatory apparatus, PII proteins have since been recognized as playing a pivotal role in control of prokaryotic nitrogen metabolism. More recently, members of the family have been found in higher plants, where they also potentially play a role in nitrogen control. The PII proteins can function in the regulation of both gene transcription, by modulating the activity of regulatory proteins, and the catalytic activity of enzymes involved in nitrogen metabolism. There is also emerging evidence that they may regulate the activity of proteins required for transport of nitrogen compounds into the cell. In this review we discuss the history of the PII proteins, their structures and biochemistry, and their distribution and functions in prokaryotes. We survey data emerging from bacterial genome sequences and consider other likely or potential targets for control by PII proteins.

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Coordinating assembly and export of complex bacterial proteins

Jack

Buchanan

Dubini

et al. 2004

EMBO J

185

222

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The Escherichia coli twin‐arginine protein transport (Tat) system is a molecular machine dedicated to the translocation of fully folded substrate proteins across the energy‐transducing inner membrane. Complex cofactor‐containing Tat substrates, such as the model (NiFe) hydrogenase‐2 and trimethylamine N‐oxide reductase (TorA) systems, acquire their redox cofactors prior to export from the cell and require to be correctly assembled before transport can proceed. It is likely, therefore, that cellular mechanisms exist to prevent premature export of immature substrates. Using a combination of genetic and biochemical approaches including gene knockouts, signal peptide swapping, complementation, and site‐directed mutagenesis, we highlight here this crucial ‘proofreading’ or ‘quality control’ activity in operation during assembly of complex endogenous Tat substrates. Our experiments successfully uncouple the Tat transport and cofactor‐insertion activities of the TorA‐specific chaperone TorD and demonstrate unequivocally that TorD recognises the TorA twin‐arginine signal peptide. It is proposed that some Tat signal peptides operate in tandem with cognate binding chaperones to orchestrate the assembly and transport of complex enzymes.

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Constitutive Expression of Escherichia coli tat Genes Indicates an Important Role for the Twin-Arginine Translocase during Aerobic and Anaerobic Growth

et al. 2001

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Rachael L. Jack

P_IISignal Transduction Proteins, Pivotal Players in Microbial Nitrogen Control

Coordinating assembly and export of complex bacterial proteins

Constitutive Expression of Escherichia coli tat Genes Indicates an Important Role for the Twin-Arginine Translocase during Aerobic and Anaerobic Growth

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Rachael L. Jack

PIISignal Transduction Proteins, Pivotal Players in Microbial Nitrogen Control

Coordinating assembly and export of complex bacterial proteins

Constitutive Expression of Escherichia coli tat Genes Indicates an Important Role for the Twin-Arginine Translocase during Aerobic and Anaerobic Growth

Contact Info

Product

Resources

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P_IISignal Transduction Proteins, Pivotal Players in Microbial Nitrogen Control