Pasi Paananen scite author profile

The flavodiiron proteins (FDPs) Flv1 and Flv3 in cyanobacteria function in photoreduction of O2 to H2O, without concomitant formation of reactive oxygen species, known as the Mehler-like reaction. Both Flv1 and Flv3 are essential for growth under fluctuating light (FL) intensities, providing protection for PSI. Here we compared the global transcript profiles of the wild type (WT), Δflv1 and Δflv1/Δflv3 grown under constant light (GL) and FL. In the WT, FL induced the largest down-regulation in transcripts involved in carbon-concentrating mechanisms (CCMs), while those of the nitrogen assimilation pathways increased as compared with GL. Already under GL the Δflv1/Δflv3 double mutant demonstrated a partial down-regulation of transcripts for CCM and nitrogen metabolism, while in FL conditions the transcripts for nitrogen assimilation were strongly down-regulated. Many alterations were specific only for Δflv1/Δflv3, and not detected in Δflv1, suggesting that certain transcripts are affected primarily because of the lack of flv3. By constructing the strains overproducing solely either Flv1 or Flv3, we demonstrate that the homo-oligomers of these proteins also function in acclimation of cells to FL, by catalyzing reactions with as yet unidentified components, while the presence of both Flv1 and Flv3 is a prerequisite for the Mehler-like reaction and thus the electron transfer to O2. Considering the low expression of flv1, it is unlikely that the Flv1 homo-oligomer is present in the WT.

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Structure-Based Engineering of Angucyclinone 6-Ketoreductases

Patrikainen

Niiranen

Thapa

et al. 2014

Chemistry & Biology

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Angucyclines are tetracyclic polyketides produced by Streptomyces bacteria that exhibit notable biological activities. The great diversity of angucyclinones is generated in tailoring reactions, which modify the common benz[a]anthraquinone carbon skeleton. In particular, the opposite stereochemistry of landomycins and urdamycins/gaudimycins at C-6 is generated by the short-chain alcohol dehydrogenases/reductases LanV and UrdMred/CabV, respectively. Here we present crystal structures of LanV and UrdMred in complex with NADP(+) and the product analog rabelomycin, which enabled us to identify four regions associated with the functional differentiation. The structural analysis was confirmed in chimeragenesis experiments focusing on these regions adjacent to the active site cavity, which led to reversal of the activities of LanV and CabV. The results surprisingly indicated that the conformation of the substrate and the stereochemical outcome of 6-ketoreduction appear to be intimately linked.

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Structural and Functional Analysis of Angucycline C-6 Ketoreductase LanV Involved in Landomycin Biosynthesis

et al. 2013

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Angucyclines are biologically active natural products constructed around a common benz[a]anthraquinone carbon frame. One key branching point in the biosynthesis of angucyclines is the ketoreduction at C-6, which results in the opposite stereochemistry of landomycins and urdamycins/gaudimycins. Here we present the 1.65 Å resolution crystal structure of LanV from Streptomyces cyanogenus S136 that is responsible for the 6R stereochemistry of landomycins. The enzyme displays the common architectural fold of short-chain alcohol dehydrogenases/reductases and contains bound nicotinamide adenine dinucleotide phosphate. Determination of the structure of LanV in complex with 11-deoxylandomycinone at 2.0 Å resolution indicated that substrate binding does not induce large conformational changes and that substrate recognition occurs mainly through hydrophobic interactions. Analysis of the electron density map of the ternary complex revealed that the catalytic reaction had most likely proceeded backward in the crystal, because the data could be best fit with a compound harboring a carbonyl group at C-6. A coordinated water molecule was atypically identified between the ligand and the conserved Tyr160 residue, which was confirmed to be critical for the catalytic activity by site-directed mutagenesis. A catalytic triad of Ser147, Tyr160, and Lys164 could be recognized on the basis of the crystal structure, and stereoselective labeling studies demonstrated that the transfer of hydride from reduced nicotinamide adenine dinucleotide phosphate to the substrate occurs from the 4-pro-S side of the cosubstrate. Importantly, Ser192 was identified as being involved in controlling the stereochemistry of the reaction, as assays with single mutant Ser192Ile led to accumulation of gaudimycin C with 6S stereochemistry as a minor product.

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The crystal structure of landomycin C-6 ketoreductase LanV with bound NADP and rabelomycin

Paananen¹,

Niiranen²,

Patrikainen³

et al. 2014

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The crystal structure of angucycline C-6 ketoreductase LanV with bound NADP and 11-deoxy-6-oxylandomycinone

Paananen¹,

Patrikainen²,

Mäntsälä³

et al. 2013

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Pasi Paananen

The Flavodiiron Protein Flv3 Functions as a Homo-Oligomer During Stress Acclimation and is Distinct from the Flv1/Flv3 Hetero-Oligomer Specific to the O₂Photoreduction Pathway

Structure-Based Engineering of Angucyclinone 6-Ketoreductases

Structural and Functional Analysis of Angucycline C-6 Ketoreductase LanV Involved in Landomycin Biosynthesis

The crystal structure of landomycin C-6 ketoreductase LanV with bound NADP and rabelomycin

The crystal structure of angucycline C-6 ketoreductase LanV with bound NADP and 11-deoxy-6-oxylandomycinone

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Pasi Paananen

The Flavodiiron Protein Flv3 Functions as a Homo-Oligomer During Stress Acclimation and is Distinct from the Flv1/Flv3 Hetero-Oligomer Specific to the O2Photoreduction Pathway

Structure-Based Engineering of Angucyclinone 6-Ketoreductases

Structural and Functional Analysis of Angucycline C-6 Ketoreductase LanV Involved in Landomycin Biosynthesis

The crystal structure of landomycin C-6 ketoreductase LanV with bound NADP and rabelomycin

The crystal structure of angucycline C-6 ketoreductase LanV with bound NADP and 11-deoxy-6-oxylandomycinone

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Product

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The Flavodiiron Protein Flv3 Functions as a Homo-Oligomer During Stress Acclimation and is Distinct from the Flv1/Flv3 Hetero-Oligomer Specific to the O₂Photoreduction Pathway