- Crystal structure of Streptomyces coelicolor RraAS2, an unusual member of the RNase E inhibitor RraA protein family
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Nohra Park , Jihune Heo , Saemee Song , Inseong Jo , Kangseok Lee , Nam-Chul Ha
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J. Microbiol. 2017;55(5):388-395. Published online April 29, 2017
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DOI: https://doi.org/10.1007/s12275-017-7053-8
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 Abstract
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Bacterial ribonuclease E (RNase E) plays a crucial role in the processing and decay of RNAs. A small protein named RraA negatively regulates the activity of RNase E via protein-protein interaction in various bacteria. Recently, RraAS1 and RraAS2, which are functional homologs of RraA from Escherichia coli, were identified in the Gram-positive species Streptomyces coelicolor. RraAS1 and RraAS2 inhibit RNase ES ribonuclease activity in S. coelicolor. RraAS1 and RraAS2 have a C-termi-nal extension region unlike typical bacterial RraA proteins. In this study, we present the crystal structure of RraAS2, ex-hibiting a hexamer arranged in a dimer of trimers, consistent with size exclusion chromatographic results. Importantly, the C-terminal extension region formed a long α-helix at the junction of the neighboring subunit, which is similar to the trimeric RraA orthologs from Saccharomyces cerevisiae. Trun-cation of the C-terminal extension region resulted in loss of RNase ES inhibition, demonstrating its crucial role. Our find-ings present the first bacterial RraA that has a hexameric assembly with a C-terminal extension α-helical region, which plays an essential role in the regulation of RNase ES activity in S. coelicolor.
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Citations
Citations to this article as recorded by  - Relaxed Cleavage Specificity of Hyperactive Variants of Escherichia coli RNase E on RNA I
Dayeong Bae, Hana Hyeon, Eunkyoung Shin, Ji-Hyun Yeom, Kangseok Lee
Journal of Microbiology.2023; 61(2): 211. CrossRef - An oxidative metabolic pathway of 4-deoxy-L-erythro-5-hexoseulose uronic acid (DEHU) from alginate in an alginate-assimilating bacterium
Ryuji Nishiyama, Takao Ojima, Yuki Ohnishi, Yasuhiro Kumaki, Tomoyasu Aizawa, Akira Inoue
Communications Biology.2021;[Epub] CrossRef - The coordinated action of RNase III and RNase G controls enolase expression in response to oxygen availability in Escherichia coli
Minho Lee, Minju Joo, Minji Sim, Se-Hoon Sim, Hyun-Lee Kim, Jaejin Lee, Minkyung Ryu, Ji-Hyun Yeom, Yoonsoo Hahn, Nam-Chul Ha, Jang-Cheon Cho, Kangseok Lee
Scientific Reports.2019;[Epub] CrossRef - RNase G controls tpiA mRNA abundance in response to oxygen availability in Escherichia coli
Jaejin Lee, Dong-Ho Lee, Che Ok Jeon, Kangseok Lee
Journal of Microbiology.2019; 57(10): 910. CrossRef - Functional implications of hexameric assembly of RraA proteins from Vibrio vulnificus
Saemee Song, Seokho Hong, Jinyang Jang, Ji-Hyun Yeom, Nohra Park, Jaejin Lee, Yeri Lim, Jun-Yeong Jeon, Hyung-Kyoon Choi, Minho Lee, Nam-Chul Ha, Kangseok Lee, Eric Cascales
PLOS ONE.2017; 12(12): e0190064. CrossRef
- RraAS2 requires both scaffold domains of RNase ES for high-affinity binding and inhibitory action on the ribonucleolytic activity
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Jihune Heo , Daeyoung Kim , Minju Joo , Boeun Lee , Sojin Seo , Jaejin Lee , Saemee Song , Ji-Hyun Yeom , Nam-Chul Ha , Kangseok Lee
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J. Microbiol. 2016;54(10):660-666. Published online September 30, 2016
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DOI: https://doi.org/10.1007/s12275-016-6417-9
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73
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Abstract
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RraA is a protein inhibitor of RNase E (Rne), which catalyzes
the endoribonucleolytic cleavage of a large proportion
of RNAs in Escherichia coli. The antibiotic‐producing bacterium
Streptomyces coelicolor also contains homologs of
RNase E and RraA, designated as RNase ES (Rns), RraAS1,
and RraAS2, respectively. Here, we report that RraAS2 requires
both scaffold domains of RNase ES for high-affinity
binding and inhibitory action on the ribonucleolytic activity.
Analyses of the steady-state level of RNase E substrates indicated
that coexpression of RraAS2 in E. coli cells overproducing
Rns effectively inhibits the ribonucleolytic activity of
full-length RNase ES, but its inhibitory effects were moderate
or undetectable on other truncated forms of Rns, in which the
N- or/and C-terminal scaffold domain was deleted. In addition,
RraAS2 more efficiently inhibited the in vitro ribonucleolytic
activity of RNase ES than that of a truncated form
containing the catalytic domain only. Coimmunoprecipitation
and in vivo cross-linking experiments further showed
necessity of both scaffold domains of RNase ES for high-affinity
binding of RraAS2 to the enzyme, resulting in decreased
RNA-binding capacity of RNase ES. Our results indicate that
RraAS2 is a protein inhibitor of RNase ES and provide clues
to how this inhibitor affects the ribonucleolytic activity of
RNase ES.
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Citations
Citations to this article as recorded by -
Identification of the global regulatory roles of RraA via the integrative transcriptome and proteome in
Vibrio alginolyticus
Huizhen Chen, Qian Gao, Bing Liu, Ying Zhang, Jianxiang Fang, Songbiao Wang, Youqi Chen, Chang Chen, Nicolas E. Buchler
mSphere.2024;[Epub] CrossRef - Streptomyces RNases – Function and impact on antibiotic synthesis
George H. Jones
Frontiers in Microbiology.2023;[Epub] CrossRef - Regulator of RNase E activity modulates the pathogenicity of Salmonella Typhimurium
Jaejin Lee, Eunkyoung Shin, Ji-Hyun Yeom, Jaeyoung Park, Sunwoo Kim, Minho Lee, Kangseok Lee
Microbial Pathogenesis.2022; 165: 105460. CrossRef - Regulator of ribonuclease activity modulates the pathogenicity of Vibrio vulnificus
Jaejin Lee, Eunkyoung Shin, Jaeyeong Park, Minho Lee, Kangseok Lee
Journal of Microbiology.2021; 59(12): 1133. CrossRef - Divergent rRNAs as regulators of gene expression at the ribosome level
Wooseok Song, Minju Joo, Ji-Hyun Yeom, Eunkyoung Shin, Minho Lee, Hyung-Kyoon Choi, Jihwan Hwang, Yong-In Kim, Ramin Seo, J. Eugene Lee, Christopher J. Moore, Yong-Hak Kim, Seong-il Eyun, Yoonsoo Hahn, Jeehyeon Bae, Kangseok Lee
Nature Microbiology.2019; 4(3): 515. CrossRef - RraAS1 inhibits the ribonucleolytic activity of RNase ES by interacting with its catalytic domain in Streptomyces coelicolor
Sojin Seo, Daeyoung Kim, Wooseok Song, Jihune Heo, Minju Joo, Yeri Lim, Ji-Hyun Yeom, Kangseok Lee
Journal of Microbiology.2017; 55(1): 37. CrossRef - Bdm-Mediated Regulation of Flagellar Biogenesis in Escherichia coli and Salmonella enterica Serovar Typhimurium
Jaejin Lee, Dae-Jun Kim, Ji-Hyun Yeom, Kangseok Lee
Current Microbiology.2017; 74(9): 1015. CrossRef - Functional implications of hexameric assembly of RraA proteins from Vibrio vulnificus
Saemee Song, Seokho Hong, Jinyang Jang, Ji-Hyun Yeom, Nohra Park, Jaejin Lee, Yeri Lim, Jun-Yeong Jeon, Hyung-Kyoon Choi, Minho Lee, Nam-Chul Ha, Kangseok Lee, Eric Cascales
PLOS ONE.2017; 12(12): e0190064. CrossRef - Crystal structure of Streptomyces coelicolor RraAS2, an unusual member of the RNase E inhibitor RraA protein family
Nohra Park, Jihune Heo, Saemee Song, Inseong Jo, Kangseok Lee, Nam-Chul Ha
Journal of Microbiology.2017; 55(5): 388. CrossRef
- MINIREVIEW] Molecular architecture of the bacterial tripartite multidrug efflux pump focusing on the adaptor bridging model
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Saemee Song , Jin-Sik Kim , Kangseok Lee , Nam-Chul Ha
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J. Microbiol. 2015;53(6):355-364. Published online May 30, 2015
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DOI: https://doi.org/10.1007/s12275-015-5248-4
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67
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9
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Abstract
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Gram-negative bacteria expel a wide range of toxic substances
through tripartite drug efflux pumps consisting of an inner
membrane transporter, an outer membrane channel protein,
and a periplasmic adaptor protein. These pumps form tripartite
assemblies which can span the entire cell envelope,
including the inner and outer membranes. There have been
controversial findings regarding the assembly of the individual
components in tripartite drug efflux pumps. Recent
structural and functional studies have advanced our understanding
of the assembly and working mechanisms of the
pumps. Here, we re-evaluate the assembly models based on
recent structural and functional studies. In particular, this
study focuses on the ‘adaptor bridging model’, highlighting
the intermeshing cogwheel-like interactions between the tip
regions of the outer membrane channel protein and the periplasmic
adaptor protein in the hexameric assembly.
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Citations
Citations to this article as recorded by - Structural Features and Energetics of the Periplasmic Entrance Opening of the Outer Membrane Channel TolC Revealed by Molecular Dynamics Simulation and Markov State Model Analysis
Jingwei Weng, Wenning Wang
Journal of Chemical Information and Modeling.2019; 59(5): 2359. CrossRef - Recent paradigm shift in the assembly of bacterial tripartite efflux pumps and the type I secretion system
Inseong Jo, Jin-Sik Kim, Yongbin Xu, Jaekyung Hyun, Kangseok Lee, Nam-Chul Ha
Journal of Microbiology.2019; 57(3): 185. CrossRef - Antibiotic Hybrids: the Next Generation of Agents and Adjuvants against Gram-Negative Pathogens?
Ronald Domalaon, Temilolu Idowu, George G. Zhanel, Frank Schweizer
Clinical Microbiology Reviews.2018;[Epub] CrossRef - Genetic identification of factors for extracellular cellulose accumulation in the thermophilic cyanobacterium Thermosynechococcus vulcanus: proposal of a novel tripartite secretion system
Kaisei Maeda, Jyunya Tamura, Yukiko Okuda, Rei Narikawa, Takafumi Midorikawa, Masahiko Ikeuchi
Molecular Microbiology.2018; 109(1): 121. CrossRef - Switch Loop Flexibility Affects Substrate Transport of the AcrB Efflux Pump
Reinke T. Müller, Timothy Travers, Hi-jea Cha, Joshua L. Phillips, S. Gnanakaran, Klaas M. Pos
Journal of Molecular Biology.2017; 429(24): 3863. CrossRef - Molecular Rationale behind the Differential Substrate Specificity of Bacterial RND Multi-Drug Transporters
Venkata Krishnan Ramaswamy, Attilio V. Vargiu, Giuliano Malloci, Jürg Dreier, Paolo Ruggerone
Scientific Reports.2017;[Epub] CrossRef - Structure of the MacAB–TolC ABC-type tripartite multidrug efflux pump
Anthony W. P. Fitzpatrick, Salomé Llabrés, Arthur Neuberger, James N. Blaza, Xiao-Chen Bai, Ui Okada, Satoshi Murakami, Hendrik W. van Veen, Ulrich Zachariae, Sjors H. W. Scheres, Ben F. Luisi, Dijun Du
Nature Microbiology.2017;[Epub] CrossRef - Structural Basis for the Serratia marcescens Lipase Secretion System: Crystal Structures of the Membrane Fusion Protein and Nucleotide-Binding Domain
Daichi Murata, Hiroyuki Okano, Clement Angkawidjaja, Masato Akutsu, Shun-ichi Tanaka, Kenyu Kitahara, Takuya Yoshizawa, Hiroyoshi Matsumura, Yuji Kado, Eiichi Mizohata, Tsuyoshi Inoue, Satoshi Sano, Yuichi Koga, Shigenori Kanaya, Kazufumi Takano
Biochemistry.2017; 56(47): 6281. CrossRef - The Crystal Structure of the YknZ Extracellular Domain of ABC Transporter YknWXYZ from Bacillus amyloliquefaciens
Yongbin Xu, Jianyun Guo, Lulu Wang, Rui Jiang, Xiaoling Jin, Jing Liu, Shengdi Fan, Chun-Shan Quan, Nam-Chul Ha, Bostjan Kobe
PLOS ONE.2016; 11(5): e0155846. CrossRef
- Interaction between the α-Barrel Tip of Vibrio vulnificus TolC Homologs and AcrA Implies the Adapter Bridging Model
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Seunghwa Lee , Saemee Song , Minho Lee , Soonhye Hwang , Ji-Sun Kim , Nam-Chul Ha , Kangseok Lee
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J. Microbiol. 2014;52(2):148-153. Published online February 1, 2014
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DOI: https://doi.org/10.1007/s12275-014-3578-2
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68
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10
Crossref
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Abstract
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The AcrAB-TolC multidrug efflux pump confers resistance to Escherichia coli against many antibiotics and toxic compounds. The TolC protein is an outer membrane factor that participates in the formation of type I secretion systems. The genome of Vibrio vulnificus encodes two proteins homologous to the E. coli TolC, designated TolCV1 and TolCV2. Here, we show that both TolCV1 and TolCV2 partially complement the E. coli TolC function and physically interact with the membrane fusion protein AcrA, a component of the E. coli AcrAB-TolC efflux pump. Using site-directed mutational analyses and an in vivo cross-linking assay, we demonstrated that the α-barrel tip region of TolC homologs plays a critical role in the formation of functional AcrAB-TolC efflux pumps. Our findings suggest the adapter bridging model as a general assembly mechanism for tripartite drug efflux pumps in Gram-negative bacteria.
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Citations
Citations to this article as recorded by - Progress of Antimicrobial Mechanisms of Stilbenoids
Xiancai Li, Yongqing Li, Binghong Xiong, Shengxiang Qiu
Pharmaceutics.2024; 16(5): 663. CrossRef - Membrane Efflux Pumps of Pathogenic Vibrio Species: Role in Antimicrobial Resistance and Virulence
Jerusha Stephen, Manjusha Lekshmi, Parvathi Ammini, Sanath H. Kumar, Manuel F. Varela
Microorganisms.2022; 10(2): 382. CrossRef - TolCV1 Has Multifaceted Roles During Vibrio vulnificus Infection
Yue Gong, Rui Hong Guo, Joon Haeng Rhee, Young Ran Kim
Frontiers in Cellular and Infection Microbiology.2021;[Epub] CrossRef - Recent paradigm shift in the assembly of bacterial tripartite efflux pumps and the type I secretion system
Inseong Jo, Jin-Sik Kim, Yongbin Xu, Jaekyung Hyun, Kangseok Lee, Nam-Chul Ha
Journal of Microbiology.2019; 57(3): 185. CrossRef - NaCl promotes antibiotic resistance by reducing redox states in Vibrio alginolyticus
Jun Yang, Zao‐Hai Zeng, Man‐Jun Yang, Zhi‐Xue Cheng, Xuan‐Xian Peng, Hui Li
Environmental Microbiology.2018; 20(11): 4022. CrossRef - ATP-Binding Cassette Transporter VcaM from Vibrio cholerae is Dependent on the Outer Membrane Factor Family for Its Function
Wen-Jung Lu, Hsuan-Ju Lin, Thamarai Janganan, Cheng-Yi Li, Wei-Chiang Chin, Vassiliy Bavro, Hong-Ting Lin
International Journal of Molecular Sciences.2018; 19(4): 1000. CrossRef - Functional analysis of Vibrio vulnificus RND efflux pumps homologous to Vibrio cholerae VexAB and VexCD, and to Escherichia coli AcrAB
Seunghwa Lee, Ji-Hyun Yeom, Sojin Seo, Minho Lee, Sarang Kim, Jeehyeon Bae, Kangseok Lee, Jihwan Hwang
Journal of Microbiology.2015; 53(4): 256. CrossRef - Molecular architecture of the bacterial tripartite multidrug efflux pump focusing on the adaptor bridging model
Saemee Song, Jin-Sik Kim, Kangseok Lee, Nam-Chul Ha
Journal of Microbiology.2015; 53(6): 355. CrossRef - Interaction Mediated by the Putative Tip Regions of MdsA and MdsC in the Formation of a Salmonella-Specific Tripartite Efflux Pump
Saemee Song, Soonhye Hwang, Seunghwa Lee, Nam-Chul Ha, Kangseok Lee, Eric Cascales
PLoS ONE.2014; 9(6): e100881. CrossRef - Functional Analysis of TolC Homologs in Vibrio vulnificus
Seunghwa Lee, Saemee Song, Kangseok Lee
Current Microbiology.2014; 68(6): 729. CrossRef
- The α-Barrel Tip Region of Escherichia coli TolC Homologs of Vibrio vulnificus Interacts with the MacA Protein to Form the Functional Macrolide-Specific Efflux Pump MacAB-TolC
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Minho Lee , Hyun-Lee Kim , Saemee Song , Minju Joo , Seunghwa Lee , Daeyoung Kim , Yoonsoo Hahn , Nam-Chul Ha , Kangseok Lee
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J. Microbiol. 2013;51(2):154-159. Published online April 27, 2013
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DOI: https://doi.org/10.1007/s12275-013-2699-3
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56
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Scopus
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Abstract
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TolC and its homologous family of proteins are outer membrane factors that are essential for exporting small molecules and toxins across the outer membrane in Gram-negative bacteria. Two open reading frames in the Vibrio vulnificus genome that encode proteins homologous to Escherichia coli TolC, designated TolCV1 and TolCV2, have 51.3% and 29.6% amino acid identity to TolC, respectively. In this study, we show that TolCV1 and TolCV2 functionally and physically interacted with the membrane fusion protein, MacA, a component of the macrolide-specific MacAB-TolC pump of E. coli. We further show that the conserved residues located at the aperture tip region of the α-hairpin of TolCV1 and TolCV2 played an essential role in the formation of the functional MacAB-TolC pump using site-directed mutational analyses. Our findings suggest that these outer membrane factors have
conserved tip-to-tip interaction with the MacA membrane fusion protein for action of the drug efflux pump in Gramnegative bacteria.
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