The Signal Transduction Protein PII Controls the Levels of the Cyanobacterial Protein PipX

Llop, Antonio; Tremiño, Lorena; Cantos, Raquel; Contreras, Asunción

doi:10.3390/microorganisms11102379

Cited by 3 publications

(6 citation statements)

References 66 publications

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“…Since L65 is outside the TLD/KOW domain providing the contacts with NtcA, the reason for the rather drastic effect of L65Q on interactions with NtcA in the BACTH system is unclear. However, L65Q was identified as a spontaneous mutation suppressing PipX toxicity and it has recently been shown to decrease PipX levels in S. elongatus [20,54], which suggests the reduced formation of in vivo complexes between PipX L65Q and PII. Thus, interaction or functional assays indicated that the L65Q mutation did have phenotypic consequences that differed for PipX-PII and PipX-NtcA complexes.…”

Section: Interactions Involving Pipx-pii and Pipx-ntcamentioning

confidence: 99%

“…Because PipX mutations impairing binding to PII also impair PipX levels in S. elongatus [23,54,61], it was relevant to know whether GlnB and/or GlnK proteins can perform the same chaperon role in E. coli; in which case, the mutations affecting binding to GlnB and/or GlnK and PipX self-interaction should also impair protein levels.…”

Section: Mutations Impairing Pipx Binding To Glnk or Glnb In E Coli A...mentioning

confidence: 99%

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Studies on the PII-PipX-NtcA Regulatory Axis of Cyanobacteria Provide Novel Insights into the Advantages and Limitations of Two-Hybrid Systems for Protein Interactions

Salinas,

Bibak,

Cantos

et al. 2024

IJMS

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Yeast two-hybrid approaches, which are based on fusion proteins that must co-localise to the nucleus to reconstitute the transcriptional activity of GAL4, have greatly contributed to our understanding of the nitrogen interaction network of cyanobacteria, the main hubs of which are the trimeric PII and the monomeric PipX regulators. The bacterial two-hybrid system, based on the reconstitution in the E. coli cytoplasm of the adenylate cyclase of Bordetella pertussis, should provide a relatively faster and presumably more physiological assay for cyanobacterial proteins than the yeast system. Here, we used the bacterial two-hybrid system to gain additional insights into the cyanobacterial PipX interaction network while simultaneously assessing the advantages and limitations of the two most popular two-hybrid systems. A comprehensive mutational analysis of PipX and bacterial two-hybrid assays were performed to compare the outcomes between yeast and bacterial systems. We detected interactions that were previously recorded in the yeast two-hybrid system as negative, as well as a “false positive”, the self-interaction of PipX, which is rather an indirect interaction that is dependent on PII homologues from the E. coli host, a result confirmed by Western blot analysis with relevant PipX variants. This is, to our knowledge, the first report of the molecular basis of a false positive in the bacterial two-hybrid system.

show abstract

Section: Interactions Involving Pipx-pii and Pipx-ntcamentioning

confidence: 99%

Section: Mutations Impairing Pipx Binding To Glnk or Glnb In E Coli A...mentioning

confidence: 99%

Studies on the PII-PipX-NtcA Regulatory Axis of Cyanobacteria Provide Novel Insights into the Advantages and Limitations of Two-Hybrid Systems for Protein Interactions

Salinas,

Bibak,

Cantos

et al. 2024

IJMS

View full text Add to dashboard Cite

show abstract

“…Since L65 is outside the TLD/KOW domain providing the contacts with NtcA, the reason for the rather drastic effect of L65Q on interactions with NtcA in the BACTH system is unclear. However, L65Q was identified as a spontaneous mutation suppressing PipX toxicity and has been recently shown to decrease PipX levels in S. elongatus [20,55], which suggests reduced formation of in vivo complexes between PipX L65Q and PII. Thus, interaction or functional assays indicated that the L65Q mutation did have phenotypic consequences that differed for PipX-PII and PipX-NtcA complexes.…”

Section: Strainmentioning

confidence: 99%

“…Because PipX mutations impairing binding to PII also impair PipX in levels S. elongatus [24,55], it was relevant to know whether GlnB and/or GlnK proteins can perform the same chaperon role in E. coli, in which case the mutations affecting binding to GlnB and/or GlnK and PipX self-interaction should also impair protein levels.…”

Section: Mutations Impairing Pipx Binding To Glnk or Glnb In E Coli A...mentioning

confidence: 99%

Studies on the PII-PipX-NtcA Regulatory Axis of Cyanobacteria Provide Novel Insights into the Advantages and Limitations of Two-Hybrid Systems for Protein Interactions

Salinas,

Bibak,

Cantos

et al. 2024

Preprint

View full text Add to dashboard Cite

Yeast two-hybrid approaches, which are based on fusion proteins that must co-localise to the nucleus to reconstitute the transcriptional activity of GAL4 have greatly contributed to understand the nitrogen interaction network of cyanobacteria, whose main hubs are the trimeric PII and the monomeric PipX regulators. The bacterial two-hybrid system, based on the reconstitution in the E. coli cytoplasm of the adenylate cyclase of Bordetella pertussis, should provide a relatively faster and presumably more physiological assay for cyanobacterial proteins than the yeast system. Here we use the bacterial two-hybrid system to gain additional insights into the cyanobacterial PipX interaction network while simultaneously assessing the advantages and limitations of the two most popular two-hybrid systems. Comprehensive mutational analysis of PipX and bacterial two-hybrid assays were performed to compare outcomes between yeast and bacterial systems. We detected interactions previously recorded in the yeast two-hybrid system as negative as well as a “false positive”, the self-interaction of PipX, which is rather an indirect interaction dependent on PII homologs from the E. coli host, a result confirmed by Western analysis with relevant PipX variants. This is, to our knowledge, the first report of the molecular basis of a false positive in the bacterial two-hybrid system.

show abstract

“…Since PipX levels in S. elongatus are impaired by mutations decreasing binding to PII or by environmental conditions disrupting PipX-PII complexes [22,25,48], the prediction is that in the absence of PII the levels of PipX would be significantly impaired. To test this idea while seeking evidence that our NanoBiT derivatives maintain regulatory features, we next asked whether the presence of either PII or PII-LgBiT have a positive effect on the levels of PipX-SmBiT.…”

Section: Pii-lgbit and Pipx-smbit Retain Regulatory Features In S Elo...mentioning

confidence: 99%

Analysing the Cyanobacterial PipX Interaction Network Using NanoBiT Complementation in <em>Synechococcus elongatus</em> PCC7942

Jerez,

Llop,

Salinas

et al. 2024

Preprint

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The conserved cyanobacterial protein PipX is part of a complex interaction network with regulators involved in essential processes that include metabolic homeostasis or ribosome assembly. Because PipX interactions depend on the relative levels of their different partners and of the effector molecules binding to them, in vivo studies are required to understand the physiological significance and contribution of environmental factors to regulation of PipX complexes. Here we have used the NanoBiT complementation system to analyse regulation of complex formation in Synechococcus elongatus between PipX and each of its two best characterized partners, PII and NtcA. Our results confirm previous in vitro analysis on regulation of PipX-PII and PipX-NtcA complexes by 2-oxoglutarate and on regulation of PipX-PII by the ATP/ADP ratio, showing the disruption of PipX-NtcA complexes by increased levels of ADP-bound PII in Synechococcus elongatus. The demonstration of a positive role of PII on PipX-NtcA complexes under the initial response to nitrogen starvation or the impact of a PipX point mutation on the activity of PipX-PII and PipX-NtcA reporters are further indications of the sensitivity of the system. This study reveals additional regulatory complexities in the PipX interaction network, opening the way to future research in cyanobacteria.

show abstract

The Signal Transduction Protein PII Controls the Levels of the Cyanobacterial Protein PipX

Cited by 3 publications

References 66 publications

Studies on the PII-PipX-NtcA Regulatory Axis of Cyanobacteria Provide Novel Insights into the Advantages and Limitations of Two-Hybrid Systems for Protein Interactions

Studies on the PII-PipX-NtcA Regulatory Axis of Cyanobacteria Provide Novel Insights into the Advantages and Limitations of Two-Hybrid Systems for Protein Interactions

Studies on the PII-PipX-NtcA Regulatory Axis of Cyanobacteria Provide Novel Insights into the Advantages and Limitations of Two-Hybrid Systems for Protein Interactions

Analysing the Cyanobacterial PipX Interaction Network Using NanoBiT Complementation in <em>Synechococcus elongatus</em> PCC7942

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