The Escherichia coli signal transducers PII (GlnB) and GlnK form heterotrimers in vivo: Fine tuning the nitrogen signal cascade

Wally C. Van Heeswijk; Daying Wen; Paula Clancy; Rene Jaggi; David L. Ollis; Hans V. Westerhoff; Subhash G. Vasudevan

doi:10.1073/pnas.97.8.3942

The Escherichia coli signal transducers PII (GlnB) and GlnK form heterotrimers in vivo: Fine tuning the nitrogen signal cascade

Wally C. Van Heeswijk, Daying Wen, Paula Clancy, Rene Jaggi, David L. Ollis, Hans V. Westerhoff, Subhash G. Vasudevan^*

^*Corresponding author for this work

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Abstract

The PII protein is Escherichia coli's cognate transducer of the nitrogen signal to the NRII (NtrB)/NRI (NtrC) two-component system and to adenylyltransferase. Through these two routes, PII regulates both amount and activity of glutamine synthetase. GInK is the recently discovered paralogue of PII, with a similar trimeric x-ray structure. Here we show that PII and GlnK form heterotrimers, in E. coli grown in nitrogen-poor medium. In vitro, fully uridylylated heterotrimers of the two proteins stimulated the deadenylylation activity of adenylyltransferase, albeit to a lower extent than homotrimeric PII-UMP. Fully uridylylated GlnK did not stimulate, or hardly stimulated, the deadenylylation activity. We propose that uridylylated Pll/GlnK heterotrimers fine-regulate the activation of glutamine synthetase. The Pll/GlnK couple is a first example of prokaryotic signal transducer that can form heterotrimers. Advantages of hetero-oligomer formation as molecular mechanism for fine-regulation of signal transduction are discussed.

Original language	English
Pages (from-to)	3942-3947
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	97
Issue number	8
DOIs	https://doi.org/10.1073/pnas.97.8.3942
Publication status	Published - 11 Apr 2000

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Van Heeswijk, W. C., Wen, D., Clancy, P., Jaggi, R., Ollis, D. L., Westerhoff, H. V., & Vasudevan, S. G. (2000). The Escherichia coli signal transducers PII (GlnB) and GlnK form heterotrimers in vivo: Fine tuning the nitrogen signal cascade. Proceedings of the National Academy of Sciences of the United States of America, 97(8), 3942-3947. https://doi.org/10.1073/pnas.97.8.3942

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title = "The Escherichia coli signal transducers PII (GlnB) and GlnK form heterotrimers in vivo: Fine tuning the nitrogen signal cascade",

abstract = "The PII protein is Escherichia coli's cognate transducer of the nitrogen signal to the NRII (NtrB)/NRI (NtrC) two-component system and to adenylyltransferase. Through these two routes, PII regulates both amount and activity of glutamine synthetase. GInK is the recently discovered paralogue of PII, with a similar trimeric x-ray structure. Here we show that PII and GlnK form heterotrimers, in E. coli grown in nitrogen-poor medium. In vitro, fully uridylylated heterotrimers of the two proteins stimulated the deadenylylation activity of adenylyltransferase, albeit to a lower extent than homotrimeric PII-UMP. Fully uridylylated GlnK did not stimulate, or hardly stimulated, the deadenylylation activity. We propose that uridylylated Pll/GlnK heterotrimers fine-regulate the activation of glutamine synthetase. The Pll/GlnK couple is a first example of prokaryotic signal transducer that can form heterotrimers. Advantages of hetero-oligomer formation as molecular mechanism for fine-regulation of signal transduction are discussed.",

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Van Heeswijk, WC, Wen, D, Clancy, P, Jaggi, R, Ollis, DL, Westerhoff, HV & Vasudevan, SG 2000, 'The Escherichia coli signal transducers PII (GlnB) and GlnK form heterotrimers in vivo: Fine tuning the nitrogen signal cascade', Proceedings of the National Academy of Sciences of the United States of America, vol. 97, no. 8, pp. 3942-3947. https://doi.org/10.1073/pnas.97.8.3942

The Escherichia coli signal transducers PII (GlnB) and GlnK form heterotrimers in vivo: Fine tuning the nitrogen signal cascade. / Van Heeswijk, Wally C.; Wen, Daying; Clancy, Paula et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 97, No. 8, 11.04.2000, p. 3942-3947.

Research output: Contribution to journal › Article › peer-review

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AU - Van Heeswijk, Wally C.

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AU - Jaggi, Rene

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AU - Westerhoff, Hans V.

AU - Vasudevan, Subhash G.

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N2 - The PII protein is Escherichia coli's cognate transducer of the nitrogen signal to the NRII (NtrB)/NRI (NtrC) two-component system and to adenylyltransferase. Through these two routes, PII regulates both amount and activity of glutamine synthetase. GInK is the recently discovered paralogue of PII, with a similar trimeric x-ray structure. Here we show that PII and GlnK form heterotrimers, in E. coli grown in nitrogen-poor medium. In vitro, fully uridylylated heterotrimers of the two proteins stimulated the deadenylylation activity of adenylyltransferase, albeit to a lower extent than homotrimeric PII-UMP. Fully uridylylated GlnK did not stimulate, or hardly stimulated, the deadenylylation activity. We propose that uridylylated Pll/GlnK heterotrimers fine-regulate the activation of glutamine synthetase. The Pll/GlnK couple is a first example of prokaryotic signal transducer that can form heterotrimers. Advantages of hetero-oligomer formation as molecular mechanism for fine-regulation of signal transduction are discussed.

AB - The PII protein is Escherichia coli's cognate transducer of the nitrogen signal to the NRII (NtrB)/NRI (NtrC) two-component system and to adenylyltransferase. Through these two routes, PII regulates both amount and activity of glutamine synthetase. GInK is the recently discovered paralogue of PII, with a similar trimeric x-ray structure. Here we show that PII and GlnK form heterotrimers, in E. coli grown in nitrogen-poor medium. In vitro, fully uridylylated heterotrimers of the two proteins stimulated the deadenylylation activity of adenylyltransferase, albeit to a lower extent than homotrimeric PII-UMP. Fully uridylylated GlnK did not stimulate, or hardly stimulated, the deadenylylation activity. We propose that uridylylated Pll/GlnK heterotrimers fine-regulate the activation of glutamine synthetase. The Pll/GlnK couple is a first example of prokaryotic signal transducer that can form heterotrimers. Advantages of hetero-oligomer formation as molecular mechanism for fine-regulation of signal transduction are discussed.

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

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The Escherichia coli signal transducers PII (GlnB) and GlnK form heterotrimers in vivo: Fine tuning the nitrogen signal cascade

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