Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
FhlA is a Formate Binding Protein
View through CrossRef
Abstract
Escherichia coli
uses glycolysis and mixed acid fermentation and produces formate as by product. One system
E. coli
uses for formate oxidation is formate hydrogen lyase complex (FHL). The expression of the FHL complex is dependent on formate and regulated by the transcriptional regulator FhlA. The structure of FhlA is composed of three domains. The N-terminal domain is putatively responsible for formate binding and FhlA oligomerization as a tetramer, the central portion of FhlA contains a AAA+ domain that hydrolyzes ATP, and the C-terminal domain binds DNA. Formate enhances FhlA-mediated expression of FHL; however, FhlA direct interaction with formate has never been demonstrated. Formate-protein interactions are challenging to assess, due to the small and ubiquitous nature of the molecule. Here, we have developed three techniques to assess formate-protein interaction. We use these techniques to confirm that FhlA binds formate in the N-terminal domain
in vitro
, and that this interaction is partially dependent on residues E183 and E363, consistent with previous reports. This study is a proof of concept that these techniques can be used to assess other formate-protein interactions.
Title: FhlA is a Formate Binding Protein
Description:
Abstract
Escherichia coli
uses glycolysis and mixed acid fermentation and produces formate as by product.
One system
E.
coli
uses for formate oxidation is formate hydrogen lyase complex (FHL).
The expression of the FHL complex is dependent on formate and regulated by the transcriptional regulator FhlA.
The structure of FhlA is composed of three domains.
The N-terminal domain is putatively responsible for formate binding and FhlA oligomerization as a tetramer, the central portion of FhlA contains a AAA+ domain that hydrolyzes ATP, and the C-terminal domain binds DNA.
Formate enhances FhlA-mediated expression of FHL; however, FhlA direct interaction with formate has never been demonstrated.
Formate-protein interactions are challenging to assess, due to the small and ubiquitous nature of the molecule.
Here, we have developed three techniques to assess formate-protein interaction.
We use these techniques to confirm that FhlA binds formate in the N-terminal domain
in vitro
, and that this interaction is partially dependent on residues E183 and E363, consistent with previous reports.
This study is a proof of concept that these techniques can be used to assess other formate-protein interactions.
Related Results
Formate metabolism in the folate‐deficient rat
Formate metabolism in the folate‐deficient rat
Formate may arise from amino acid metabolism (serine, glycine, histidine, tryptophan, and methionine), from demethylation reactions, and methanol catabolism. Plasma [formate] is ap...
An apple a day: pectin is an important source of formate in the rat.
An apple a day: pectin is an important source of formate in the rat.
Since formate plays an important role in one‐carbon metabolism we examined the potential role of pectin as a source of formate. Rats were fed purified, AIN 93‐based diets in which ...
Formate oxidation as a measure of hydrogen peroxide production: effect of pH and involvement of superoxide anion.
Formate oxidation as a measure of hydrogen peroxide production: effect of pH and involvement of superoxide anion.
Abstract
The NADPH-dependent generation of hydrogen peroxide was investigated using 2 model systems: glucose-glucose oxidase as a source of H2O2 alone and xanthine-x...
Expression and characterization of rat kallikrein-binding protein in Escherichia coli
Expression and characterization of rat kallikrein-binding protein in Escherichia coli
Rat kallikrein-binding protein is a novel serine-proteinase inhibitor that forms a covalent complex with tissue kallikrein. We have purified rat kallikrein-binding protein and clon...
Endothelial Protein C Receptor
Endothelial Protein C Receptor
IntroductionThe protein C anticoagulant pathway plays a critical role in the negative regulation of the blood clotting response. The pathway is triggered by thrombin, which allows ...
L-alanine production from the recombinant harboring alanine dehydrogenase and formate dehydrogenase genes and identification of a novel formate dehydrogenase
L-alanine production from the recombinant harboring alanine dehydrogenase and formate dehydrogenase genes and identification of a novel formate dehydrogenase
In this research, improvement of Escherichia coli host cell for high production of L-alanine and screening of a novel formate dehydrogenase (FDH) were performed. For improvement of...
Effects of oxygen on pyruvate formate-lyase in situ and sugar metabolism of Streptococcus mutans and Streptococcus sanguis
Effects of oxygen on pyruvate formate-lyase in situ and sugar metabolism of Streptococcus mutans and Streptococcus sanguis
The strictly anaerobic metabolism of sugar in strains of Streptococcus mutans and Streptococcus sanguis was studied because deep layers of dental plaque are strictly anaerobic. Gal...
Residues Neighboring an SH3-Binding Motif Participate in the Interaction
In Vivo
Residues Neighboring an SH3-Binding Motif Participate in the Interaction
In Vivo
Abstract
In signaling networks, protein-protein interactions are often mediated by modular domains that bind short linear motifs. The motifs’ seq...