André Sobczyk scite author profile

SummaryThe Azotobacter vinelandii NIFL regulatory flavoprotein responds to the redox, energy and nitrogen status of the cell to inhibit transcriptional activation by the s N -dependent enhancer binding protein, NIFA, via the formation of a NIFL±NIFA protein complex. The NIFA protein contains three domains: an Nterminal domain of unknown function; a central catalytic domain required to couple nucleotide hydrolysis to activation of the s N -RNA polymerase holoenzyme; and a C-terminal DNA-binding domain. We report that truncated NIFA proteins that either lack the amino-terminal domain or contain only the isolated central domain remain responsive to inhibition by NIFL but, in contrast to native NIFA, continue to hydrolyse nucleotides when NIFL is present. We also report that NIFL is competent to inhibit the DNAbinding function of NIFA. Taken together, these results suggest that NIFL inhibits NIFA via a concerted mechanism in which DNA binding, catalytic activity and, potentially, interaction with the polymerase are controlled by NIFL in order to prevent transcriptional activation under detrimental environmental conditions.

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Transduction of the light signal during complementary chromatic adaptation in the cyanobacterium Calothrix sp. PCC 7601: DNA-binding proteins and modulation by phosphorylation.

Sobczyk

Schyns

Marsac

et al. 1993

The EMBO Journal

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The cyanobacterium Calothrix sp. PCC 7601 can adapt its pigment content in response to changes in the incident light wavelength. It synthesizes, as major light‐harvesting pigments, either phycocyanin 2 (PC2, encoded by the cpc2 operon) under red light or phycoerythrin (PE, encoded by the cpeBA operon) under green light conditions. The last step of the signal transduction pathway is characterized by a transcriptional control of the expression of these operons. Partially purified protein extracts were used in gel retardation assays and DNase I footprinting experiments to identify the factors that interact with the promoter region of the cpeBA operon. We found that two proteins, RcaA and RcaB, only detected in extracts of cells grown under green light, behave as positive transcriptional factors for the expression of the cpeBA operon. Treatment of the fractions containing RcaA and RcaB with alkaline phosphatase prevents the binding of RcaA but not of RcaB to the cpeBA promoter region. A post‐translational modification of RcaA thus modulates its affinity for DNA.

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Imaging pathological activities of human brain tissue in organotypic culture

Duigou

Savary

Morin‐Brureau

et al. 2018

Journal of Neuroscience Methods

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André Sobczyk

Concerted inhibition of the transcriptional activation functions of the enhancer‐binding protein NIFA by the anti‐activator NIFL

Transduction of the light signal during complementary chromatic adaptation in the cyanobacterium Calothrix sp. PCC 7601: DNA-binding proteins and modulation by phosphorylation.

Imaging pathological activities of human brain tissue in organotypic culture

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