Your search keyword '"Jeong-Il Oh"' showing total 16 results

1. The RsfSR two-component system regulates SigF function by monitoring the state of the respiratory electron transport chain in Mycobacterium smegmatis.

Author

Yuna Oh and Jeong-Il Oh

Subjects

*MYCOBACTERIUM smegmatis, *ELECTRON transport, *ELECTRON donors, *VENTILATION monitoring, *CYTOCHROME oxidase, *SIGMA receptors, *PHOSPHOPROTEIN phosphatases, *CYTOCHROME c

Abstract

In Mycobacterium smegmatis, the transcriptional activity of the alternative sigma factor SigF is posttranslationally regulated by the partner switching system consisting of SigF, the anti-SigF RsbW1, and three anti-SigF antagonists (RsfA, RsfB, and RsbW3). We previously demonstrated that expression of the SigF regulon is strongly induced in the Δaa3 mutant of M. smegmatis lacking the aa3 cytochrome c oxidase, the major terminal oxidase in the respiratory electron transport chain. Here, we identified and characterized the RsfSR twocomponent system involved in regulating the phosphorylation state of the major anti-SigF antagonist RsfB. RsfS (MSMEG_6130) is a histidine kinase with the cyclase/histidine kinase-associated sensing extracellular 3 domain at its N terminus, and RsfR (MSMEG_6131) is a receiver domain-containing protein phosphatase 2C-type phosphatase that can dephosphorylate phosphorylated RsfB. We demonstrated that phosphorylation of RsfR on Asp74 by RsfS reduces the phosphatase activity of RsfR toward phosphorylated RsfB and that the cellular abundance of the active unphosphorylated RsfB is increased in the Δaa3 mutant relative to the WT strain. We also demonstrated that the RsfSR two-component system is required for induction of the SigF regulon under respirationinhibitory conditions such as inactivation of the cytochrome bcc1 complex and aa3 cytochrome c oxidase, as well as hypoxia, electron donor-limiting, high ionic strength, and low pH conditions. Collectively, our results reveal a key regulatory element involved in regulating the SigF signaling system by monitoring the state of the respiratory electron transport chain. [ABSTRACT FROM AUTHOR]

Published

2024

2. Digging deeper: uncovering genetic loci which modulate photosynthesis gene expression in Rhodobacter sphaeroides 2.4.1.

Author

Jeong-Il Oh, In-Jeong Ko, and Kaplan, Samuel

Subjects

*DIMETHYL sulfoxide, *GENETICS

Abstract

A new genetic locus was identified in Rhodobacter sphaeroides which is required for optimal synthesis of the light-harvesting spectral complexes as well as for optimal growth under anaerobic conditions with dimethyl sulfoxide (DMSO) as a terminal electron acceptor. The primary structure of the deduced osp gene product shows significant homology to the receiver domain of known response regulators common to bacterial two-component systems. However, site-directed mutagenesis revealed that the Osp protein appears not to be involved in a phospho-relay signal transduction pathway. Paradoxically, the effect of the Osp protein upon spectral complex levels is exerted at the transcriptional level of photosynthesis gene expression. The absence of the Osp protein does not appear to have a general effect on house-keeping metabolism. In cells lacking Osp, the levels of DMSO reductase appear to be normal. The quaternary structure of the Osp protein was determined to be a homodimer and it was directly demonstrated that Osp does not bind to the promoter region of photosynthesis genes as judged by mobility-shift experiments and primary structure analysis. [ABSTRACT FROM AUTHOR]

Published

2003

3. The Default State of the Membrane-Localized Histidine Kinase PrrB of Rhodobacter sphaeroides...

Author

Jeong-Il Oh, In-Jeong Ko, and Kaplan, Samuel

Subjects

*PROTEIN kinases, *PROKARYOTES, *PHOTOSYNTHESIS, *CELLULAR signal transduction, *GENE expression

Abstract

Studies the default state of the membrane-localized PrrB histidine kinase of prokaryote Rhodobacter sphaeroides. Genes involved in the positive regulation of photosynthesis; Proposed mechanism of the signal transduction pathway; Formation of spectral complex in PrrB mutants; Effect of negative gene autoregulation on gene expression.

Published

2001

4. Interacting regulatory circuits involved in orderly control of photosynthesis gene expression in....

Author

Jeong-Il Oh and Eraso, Jesus M.

Subjects

*PHOTOSYNTHETIC bacteria, *GENETIC transcription regulation, *GENETIC repressors

Abstract

Investigates the role of the AppA-PpsR antirepressor system, FnrL for the transcriptional regulation of the photosynthesis (PS) genes in Rhodobacter sphaeroides 2.4.1. Non-mediation of FnrL in the transmission of the inhibitory signal from the cbb3 oxidase; Role of Fnrl in PS gene expression; Similarity of FnrL and PrrBA activation system function.

Published

2000

5. Identification of trans- and cis-Control Elements Involved in Regulation of the Carbon Monoxide Dehydrogenase Genes in Mycobacterium sp. Strain JC1 DSM 3803.

Author

Jeong-Il Oh, Su-Jeong Park, Sun-Joo Shin, In-Jeong Ko, Han, Seung J., Park, Sae W., Taeksun Song, and Kim, Young M.

Subjects

*CARBON monoxide, *DEHYDROGENASES, *MYCOBACTERIUM, *AMINO acids, *OPERONS, *GENETIC transcription

Abstract

The cutR gene was identified 314 bp upstream of the divergently oriented cutB1C1A1 operon encoding carbon monoxide (CO) dehydrogenase in Mycobacterium sp. strain JC1. Its deduced product was composed of 320 amino acid residues with a calculated molecular mass of 34.1 kDa and exhibits a basal sequence similarity to the regulatory proteins belonging to the LysR family. Using a cutR deletion mutant, it was demonstrated that CutR is required for the efficient utilization of CO by Mycobacterium sp. strain JC1 growing with CO as the sole source of carbon and energy. CutR served as a transcriptional activator for expression of the duplicated cutBCA operons (cutB1C1A1 and cutB2C2A2) and was involved in the induction of the cutBCA operons by CO. The cutBCA operons were also subjected to catabolite repression. An inverted repeat sequence (TGTGA-N6-TCACA) with a perfect match with the binding motif of cyclic AMP receptor protein was identified immediately upstream of and overlapping with the translational start codons of cutB1 and cutB2. This palindrome sequence was shown to be involved in catabolite repression of the cutBCA operons. The transcription start point of cutR was determined to be the nucleotide G located 36 bp upstream of the start codon of cutR. Expression of cutR was higher in Mycobacterium sp. strain JC1 grown with glucose than that grown with CO. [ABSTRACT FROM AUTHOR]

Published

2010

6. Upper critical field of the molecular organic superconductor (DMET)2I3.

Author

Dhakal, Pashupati, Yoshino, Harukazu, Jeong Il Oh, Kikuchi, Koichi, and Naughton, Michael J.

Subjects

*ORGANIC superconductors, *MAGNETIC fields, *PAULI exclusion principle, *SUPERCONDUCTIVITY, *LOW temperatures

Abstract

We report the temperature dependence of the upper critical magnetic field in the quasi-one-dimensional molecular organic superconductor (DMET)2I3, for magnetic field applied along the intrachain, interchain, and interplane directions. The upper critical field tends to saturation at low temperature for field in all directions and does not exceed the Pauli paramagnetic limit. Superconductivity in (DMET)2I3 thus appears to be conventional spin singlet, in contrast to the status of the isostructural Bechgaard salts. We also discuss a magnetic field-induced dimensional crossover effect in the normal metallic state which had previously appeared to be associated with superconductivity. [ABSTRACT FROM AUTHOR]

Published

2011

7. Interacting specificity of a histidine kinase and its cognate response regulator: the PrrBA system of Rhodobacter sphaeroides.

Author

Jin-sook Seok, Samuel Kaplan, and Jeong-il Oh

Subjects

*MICROBIOLOGICAL assay, *IMMUNOSPECIFICITY, *BIOLOGICAL assay, *MICROBIOLOGY, *BIOLOGY

Abstract

The article focuses on the interacting specificity of a histidine kinase and its cognate response regulator. It was demonstrated that Rhodobacter sphaeroides PrrB histidine kinase both functions as the primary determinant of the interaction specificity and the interaction site for the regulatory domain of its cognate response regulator PrrA, using a yeast two-hybrid assay system.

Published

2006

8. Dual control of RegX3 transcriptional activity by SenX3 and PknB.

Author

Eun-Jin Park, Yu-Mi Kwon, Jin-Won Lee, Ho-Young Kang, and Jeong-Il Oh

Subjects

*MYCOBACTERIUM smegmatis, *MYCOBACTERIUM tuberculosis, *HISTIDINE, *MASS spectrometry, *GENE expression, *PHOSPHORYLATION

Abstract

The mycobacterial SenX3–RegX3 two-component system consists of the SenX3 sensor histidine kinase and its cognate RegX3 responseregulator. This system is a phosphorelay-based regulatory system involved in sensing environmental Pi levels and induction of genes required for Pi acquisition under Pi-limiting conditions. Here we demonstrate that over expression of the kinase domain of Mycobacterium tuberculosis PknB (PknB-KDMtb) inhibits the transcriptional activity of RegX3 of both M. tuberculosis and Mycobacterium smegmatis (RegX3Mtb and RegX3Ms, respectively). Mass spectrometry results, along with those of in vitro phosphorylation and complementation analyses, revealed that PknB kinase activity inhibits the transcriptional activity of RegX3Mtb through phosphorylation events at Thr-100, Thr-191, and Thr-217. Electrophoretic mobility shift assays disclosed that phosphorylation of Thr-191 and Thr-217 abolishes the DNA-binding ability of RegX3Mtb and that Thr-100 phosphorylation likely prevents RegX3Mtb from being activated through conformational changes induced by SenX3-mediated phosphorylation. We propose that the convergence of the PknB and SenX3-RegX3 signaling pathways might enable mycobacteria to integrate environmental Pi signals with the cellular replication state to adjust gene expression in response to Pi availability. [ABSTRACT FROM AUTHOR]

Published

2019

9. Different Roles of DosS and DosT in the Hypoxic Adaptation of Mycobacteria.

Author

Min-Ju Kim, Kwang-Jin Park, In-Jeong Ko, Young Min Kim, and Jeong-Il Oh

Subjects

*HISTIDINE, *MYCOBACTERIUM tuberculosis, *AMINO acids, *PHYLOGENY, *MUTAGENESIS

Abstract

The DosS (DevS) and DosT histidine kinases form a two-component system together with the DosR (DevR) response regulator in Mycobacterium tuberculosis. DosS and DosT, which have high sequence similarity to each other over the length of their amino acid sequences, contain two GAF domains (GAF-A and GAF-B) in their N-terminal sensory domains. Complementation tests in conjunction with phylogenetic analysis showed that DevS of Mycobacterium smegmatis is more closely related to DosT than DosS. We also demonstrated in vivo that DosS and DosT of M. tuberculosis play a differential role in hypoxic adaptation. DosT responds to a decrease in oxygen tension more sensitively and strongly than DosS, which might be attributable to their different autooxidation rates. The different responsiveness of DosS and DosT to hypoxia is due to the difference in their GAF-A domains accommodating the hemes. Multiple alignment analysis of the GAF-A domains of mycobacterial DosS (DosT) homologs and subsequent site-directed mutagenesis revealed that just one substitution of E87, D90, H97, L118, or T169 of DosS with the corresponding residue of DosT is sufficient to convert DosS to DosT with regard to the responsiveness to changes in oxygen tension. [ABSTRACT FROM AUTHOR]

Published

2010

10. Cloning and expression analysis of the duplicated genes for carbon monoxide dehydrogenase of Mycobacterium sp. strain JC1 DSM 3803.

Author

Taeksun Song, Sae Woong Park, Su-Jeong Park, Ji Hyang Kim, Ji Young Yu, Jeong-Il Oh, and Young M. Kim

Subjects

*DEHYDROGENASES, *CARBON monoxide, *MYCOBACTERIUM, *CLONING, *GENES, *DNA

Abstract

The article presents a study which examines the features of carbon monoxide dehydrogenase (CO-DH) genes of Myobacterium species JC1 DSM 3803. It performs cloning of CO-DH through partial digestion of genomic DNA from JC1 and ligated with lambda EMBL3 DNA, in which subclones of chosen lambda were created. Moreover, isolation of RNA from cells was conducted using TRIzol agent (Invitrogen). Results of the study show a successful duplication and functional ability of CO-DH genes in the bacterium.

Published

2010

11. Structural Insight into the Heme-based Redox Sensing by DosS from Mycobacterium tuberculosis.

Author

Ha Yeon Cho, Hyo Je Cho, Young Min Kim, Jeong Il Oh, and Beom Sik Kang

Subjects

*MYCOBACTERIUM tuberculosis, *NITRIC acid, *MYCOBACTERIUM, *HEME oxygenase, *OXIDATION-reduction reaction, *FLAVINS, *NUCLEOTIDES

Abstract

Mycobacterium tuberculosis is thought to undergo transformation into its non-replicating persistence state under the influence of hypoxia or nitric oxide (NO). This transformation is thought to be mediated via two sensor histidine kinases, DosS and DosT, each of which contains two GAP domains that are responsible for detecting oxygen tension. In this study we determined the crystal structures of the first GAF domain (GAP-A) of DosS, which shows an interaction with a heme. A b-type heme was embedded in a hydrophobic cavity of the GAP-A domain and was roughly perpendicular to the β-sheet of the GAF domain. The heme iron was liganded by His-149 at the proximal heme axial position. The iron, in the oxidized form, was six-coordinated with a water molecule at the distal position. Upon reduction, the iron, in ferrous form, was five-coordinated, and when the GAF domain was exposed to atmospheric O2, the ferrous form was oxidized to generate the Met form rather than a ferrous O2-bound form. Because the heme is isolated inside the GAF domain, its accessibility is restricted. However, a defined hydrogen bond network found at the heme site could accelerate the electron transferability and would explain why DosS was unable to bind O2. Flavin nucleotides were shown to reduce the heme iron of DosS while NADH was unable to do so. These results suggest that DosS is a redox sensor and detects hypoxic conditions by its reduction. [ABSTRACT FROM AUTHOR]

Published

2009

12. O2-and NO-Sensing Mechanism through the DevSR Two-Component System in Mycobacterium smegmatis.

Author

Jin-Mok Lee, Ha Yeon Cho, Hyo Je Cho, In-Jeong Ko, Sae Woong Park, Hyung-Suk Baik, Jee-Hyun Oh, Chi-Yong Eom, Young Min Kim, Beom Sik Kang, and Jeong-Il Oh

Subjects

*PROTEIN kinases, *MYCOBACTERIUM, *OXIDATION, *HEME, *HEMOGLOBINS, *MYCOBACTERIAL diseases, *BIOCHEMICAL mechanism of action, *CYCLIC nucleotides

Abstract

The DevS histidine kinase of Mycobacterium smegmatis contains tandem GAF domains (GAF-A and GAF-B) in its N-terminal sensory domain. The heme iron of DevS is in the ferrous state when purified and is resistant to autooxidation from a ferrous to a ferric state in the presence of O2. The redox property of the heme and the results of sequence comparison analysis indicate that DevS of M. smegmatis is more closely related to DosT of Mycobacterium tuberculosis than DevS of M. tuberculosis. The binding of O2 to the deoxyferrous heme led to a decrease in the autokinase activity of DevS, whereas NO binding did not. The regulation of DevS autokinase activity in response to O2 and NO was not observed in the DevS derivatives lacking its heme, indicating that the ligand-binding state of the heme plays an important role in the regulation of DevS kinase activity. The redox state of the quinone/quinol pool of the respiratory electron transport chain appears not to be implicated in the regulation of DevS activity. Neither cyclic GMP (cGMP) nor cAMP affected DevS autokinase activity, excluding the possibility that the cyclic nucleotides serve as the effector molecules to modulate DevS kinase activity. The three-dimensional structure of the putative GAF-B domain revealed that it has a GAF folding structure without cyclic nucleotide binding capacity. [ABSTRACT FROM AUTHOR]

Published

2008

13. Regulation of the icl1 Gene Encoding the Major Isocitrate Lyase in Mycobacterium smegmatis.

Author

Eon-Min Ko, Ju-Yeon Kim, Sujin Lee, Suhkmann Kim, Jihwan Hwang, and Jeong-Il Oh

Abstract

Mycobacterium smegmatis has two isocitrate lyase (ICL) isozymes (MSMEG_0911 and MSMEG_3706). We demonstrated that ICL1 (MSMEG_0911) is the predominantly expressed ICL in M. smegmatis and plays a major role in growth on acetate or fatty acid as the sole carbon and energy source. Expression of the icl1 gene in M. smegmatis was demonstrated to be strongly upregulated during growth on acetate relative to that in M. smegmatis grown on glucose. Expression of icl1 was shown to be positively regulated by the RamB activator, and three RamB-binding sites (RamBS1, RamBS2, and RamBS3) were identified in the upstream region of icl1 using DNase I footprinting analysis. Succinyl coenzyme A (succinyl-CoA) was shown to increase the affinity of binding of RamB to its binding sites and enable RamB to bind to RamBS2, which is the most important site for RamB-mediated induction of icl1 expression. These results suggest that succinyl-CoA serves as a coinducer molecule for RamB. Our study also showed that cAMP receptor protein (Crp1; MSMEG_6189) represses icl1 expression in M. smegmatis grown in the presence of glucose. Therefore, the strong induction of icl1 expression during growth on acetate as the sole carbon source relative to the weak expression of icl1 during growth on glucose is likely to result from combined effects of RamB-mediated induction of icl1 in the presence of acetate and Crp-mediated repression of icl1 in the presence of glucose. [ABSTRACT FROM AUTHOR]

Published

2021

14. Tripartite Regulation of the glpFKD Operon Involved in Glycerol Catabolism by GylR, Crp, and SigF in Mycobacterium smegmatis.

Author

Hyun-Ju Bong, Eon-Min Ko, Su-Yeon Song, In-Jeong Ko, and Jeong-Il Oh

Abstract

The glpD (MSMEG_6761) gene encoding glycerol-3-phosphate dehydrogenase was shown to be crucial for M. smegmatis to utilize glycerol as the sole carbon source. The glpD gene likely forms the glpFKD operon together with glpF and glpK, encoding a glycerol facilitator and glycerol kinase, respectively. The gylR (MSMEG_6757) gene, whose product belongs to the IclR family of transcriptional regulators, was identified 182bp upstream of glpF. It was demonstrated that GylR serves as a transcriptional activator and is involved in the induction of glpFKD expression in the presence of glycerol. Three GylR-binding sites with the consensus sequence (GKTCGRC-N3-GYCGAMC) were identified in the upstream region of glpF by DNase I footprinting analysis. The presence of glycerol-3-phosphate was shown to decrease the binding affinity of GylR to the glpF upstream region with changes in the quaternary structure of GylR from tetramer to dimer. Besides GylR, cAMP receptor protein (Crp) and an alternative sigma factor, SigF, are also implicated in the regulation of glpFKD expression. Crp functions as a repressor, while SigF induces expression of glpFKD under energy-limiting conditions. In conclusion, we suggest here that the glpFKD operon is under the tripartite control of GylR, SigF, and Crp, which enables M. smegmatis to integrate the availability of glycerol, cellular energy state, and cellular levels of cAMP to exquisitely control expression of the glpFKD operon involved in glycerol metabolism. [ABSTRACT FROM AUTHOR]

Published

2019

15. Roles of Alanine Dehydrogenase and Induction of Its Gene in Mycobacterium smegmatis under Respiration-Inhibitory Conditions.

Author

Ji-A Jeong, Sae Woong Park, Dahae Yoon, Kim, Suhkmann, Ho-Young Kang, and Jeong-Il Oh

Abstract

Here we demonstrated that the inhibition of electron flux through the respiratory electron transport chain (ETC) by either the disruption of the gene for the major terminal oxidase (aa3 cytochrome c oxidase) or treatment with KCN resulted in the induction of ald encoding alanine dehydrogenase in Mycobacterium smegmatis. A decrease in functionality of the ETC shifts the redox state of the NADH/NAD+ pool toward a more reduced state, which in turn leads to an increase in cellular levels of alanine by Ald catalyzing the conversion of pyruvate to alanine with the concomitant oxidation of NADH to NAD+. The induction of ald expression under respiration-inhibitory conditions in M. smegmatis is mediated by the alanine-responsive AldR transcriptional regulator. The growth defect of M. smegmatis by respiration inhibition was exacerbated by inactivation of the ald gene, suggesting that Ald is beneficial to M. smegmatis in its adaptation and survival under respiration-inhibitory conditions by maintaining NADH/NAD+ homeostasis. The low susceptibility of M. smegmatis to bcc1 complex inhibitors appears to be, at least in part, attributable to the high expression level of the bd quinol oxidase in M. smegmatis when the bcc1-aa3 branch of the ETC is inactivated. [ABSTRACT FROM AUTHOR]

Published

2018

16. Dominant Role of the cbb3 Oxidase in Regulation of Photosynthesis Gene Expression through the PrrBA System in Rhodobacter sphaeroides 2.4.1.

Author

Yong-Jin Kim, In-Jeong Ko, Jin-Mok Lee, Ho-Young Kang, Young Min Kim, Kaplan, Samuel, and Jeong-Il Oh

Subjects

*OXIDASES, *OPERONS, *PHOSPHATASES, *GENETIC regulation, *GENETIC transcription, *ESTERASES

Abstract

In this study, the H303A mutant form of the cbb3 oxidase (H303A oxidase), which has the H303A mutation in its catalytic subunit (CcoN), was purified from Rhodobacter sphaeroides. The H303A oxidase showed the same catalytic activity as did the wild-type form of the oxidase (WT oxidase). The heme contents of the mutant and WT forms of the cbb3 oxidase were also comparable. However, the puf and puc operons, which are under the control of the PrrBA two-component system, were shown to be derepressed aerobically in the R. sphaeroides strain expressing the H303A oxidase. Since the strain harboring the H303A oxidase exhibited the same cytochrome c oxidase activity as the stain harboring the WT oxidase did, the aerobic derepression of photosynthesis gene expression observed in the H303A mutant appears to be the result of a defective signaling function of the H303A oxidase rather than reflecting any redox changes in the ubiquinone/ubiquinol pool. It was also demonstrated that ubiquinone inhibits not only the autokinase activity of full-length PrrB but also that of the truncated form of PrrB lacking its transmembrane domain, including the proposed quinone binding sequence. These results imply that the suggested ubiquinone binding site within the PrrB transmembrane domain is not necessary for the inhibition of PrrB kinase activity by ubiquinone. Instead, it is probable that signaling through H303 of the CcoN subunit of the cbb3 oxidase is part of the pathway through which the cbb3 oxidase affects the relative kinase/phosphatase activity of the membrane-bound PrrB. [ABSTRACT FROM AUTHOR]

Published

2007