Structure of an Atypical Orphan Response Regulator Protein Supports a New Phosphorylation-independent Regulatory Mechanism

Hong, Eunmi; Lee, Hyang Mi; Ko, Hyunsook; Kim, Donguk; Jeon, Byoung-Young; Jung, Jinwon; Shin, Joon; Lee, Sung-Ah; Kim, Yangmee; Jeon, Young Ho; Cheong, Chaejoon; Cho, Hyun Soo; Lee, Weontae

doi:10.1074/jbc.m609104200

Cited by 53 publications

(94 citation statements)

References 47 publications

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“…The signature "switch" residues involved in rearrangements associated with phosphorylation are Ser 75 and Tyr 94 in HP-RR, located in the β4-α4 loop and β5 region, respectively. In the HP-RR structure, Ser 75 is oriented toward the active site and Tyr 94 adopts an inward position forming a hydrogen bond with the main chain nitrogen atom of Thr 79 located at the β4-α4 loop (Hong et al, 2007). According to the model-free result, the site of rearrangements associated with phosphorylation of HP-RR r showed the great conformational exchanges (Ser 75 : R ex = 3.382, Ile 95 : R ex = 5.228).…”

Section: Discussionmentioning

confidence: 99%

“…Protein expression, isotopic enrichment, and purification DNA fragments of HP-RR r (residues 1-119) and HP-RR e (residues 120-223) were previously cloned into pET-21b3-2 and pET-21a(+) vectors (GE Healthcare, Sweden) containing an IPTG inducible promoter and resistance to ampicillin (Hong et al, 2007). These vectors were used to transform the E. coli strain BL21 (DE3) (Invitrogen, USA) for fusion protein expression.…”

Section: Methodsmentioning

confidence: 99%

“…In most RRs, phosphorylation induces conformational changes of the conserved region including the β4-α4 loop and the α4 helix. The signature "switch" residues involved in rearrangements associated with phosphorylation are Ser 75 and Tyr 94 , located in the β4-α4 loop and β5 region, respectively (Hong et al, 2007). Therefore, this may be the reason why Asp 93 and Ile 95 , residues located in the vicinity of Tyr 94 , are associated with a low hNOE value and a high R 2 value with conformational exchange, re- spectively.…”

Section: Solution Nmr Experiments Of Hp-rr Rmentioning

confidence: 99%

“…The β-hairpin wing between two β-sheets (β11/β12) of the C-terminus shown in Fig. 7A with pink arrows involves the minor groove DNA recognition (Hong et al, 2007). According to the chemical exchange data from the model free analysis, the centers of loop regions known as the transcription loop (Glu 175 : R ex = 6.501) and the residues at the Ala 156 and Phe 214 at the core hydrophobic packing region showed large conformational exchange, too (Fig.…”

Section: Nmr-derived Dynamics Parameters Of Hp-rr Ementioning

confidence: 99%

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Backbone Dynamics of an Atypical Orphan Response Regulator Protein, Helicobacter pylori 1043

Jeong

Lee

et al. 2013

Molecules and Cells

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An atypical orphan response regulator protein, HP1043 (HP-RR) in Helicobacter pylori, is proven to be essential for cell growth and does not require the well known phosphorelay scheme. HP-RR was identified as a symmetric dimer with two functional domains, an N-terminal regulatory domain (HP-RR r ) and a C-terminal effector domain (HP-RR e ). HP-RR is a new class of response regulator, as a phosphorylation-independent regulator. Previously, we have presented a detailed three-dimensional structure of HP-RR using NMR spectroscopy and X-ray crystallography. In this study, in order to understand the functional importance of flexibilities in HP-RR r and HP-RR e , T 1 , T 2 , heteronuclear NOE experiments have been performed and backbone dynamics of HP-RR r and HP-RR e were investigated. HP-RR r is a symmetric dimer and the interface region, α4-β5-α5 of dimer, showed high rigidity (high S 2 values). Site of rearrangements associated with phosphorylation of HP-RR r (Ser 75 : R ex = 3.382, Ile 95 : R ex = 5.228) showed slow chemical exchanges. HP-RR e is composed of three α-helices flanked on two sides by anti-parallel β-sheets. Low order parameters as well as conformational exchanges in the centers of loop regions known as the DNA binding site and transcription site of HP-RR e suggested that flexibility of HP-RR e is essential for interaction with DNA. In conclusion, backbone dynamics information for HP-RR implies that structural flexibilities in HP-RR r are necessary for the phosphorylation site and the dynamic nature of HP-RR e is essential for the regulation of interaction between protein and DNA.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Solution Nmr Experiments Of Hp-rr Rmentioning

confidence: 99%

Section: Nmr-derived Dynamics Parameters Of Hp-rr Ementioning

confidence: 99%

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Backbone Dynamics of an Atypical Orphan Response Regulator Protein, Helicobacter pylori 1043

Jeong

Lee

et al. 2013

Molecules and Cells

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“…Despite this fundamental difference from OmpR/PhoB response regulators, we hypothesize that the DNA-binding effector domain of ChxR (ChxR Eff ) is in a structural conformation similar to those of other OmpR/PhoB response regulators. This is supported by structural analysis of other atypical response regulators (Hong et al, 2007). In addition to demonstrating overall structural similarity, determination of the three-dimensional structure of ChxR Eff is expected to reveal the residues within and the orientation of the functional regions ( 6-7 DNA minor-groove binding wing, 3 DNA major-groove binding helix and 2-3 transactivation loop).…”

Section: Introductionmentioning

confidence: 85%

Expression, purification, crystallization and preliminary X-ray analysis of the DNA-binding domain of aChlamydia trachomatisOmpR/PhoB-subfamily response regulator homolog, ChxR

Hickey

Hefty

Lamb

2009

Acta Crystallogr F Struct Biol Cryst Commun

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Two-component signal transduction systems in bacteria are a primary mechanism for responding to environmental stimuli and adjusting gene expression accordingly. Generally in these systems a sensor kinase phosphorylates a response regulator that regulates transcription. Response regulators contain two domains: a receiver domain and an effector domain. The receiver domain is typically phosphorylated and as a result facilitates the DNA-binding and transcriptional activity of the effector domain. The OmpR/PhoB subfamily is the largest of the response-regulator subfamilies and is primarily defined by the winged helix-turn-helix DNA-binding motif within the effector domain. The overall structure of effector domains is highly conserved and contains three defined elements that are critical for transcriptional regulation: a DNA majorgroove binding helix, a DNA minor-groove binding wing and a transcriptional activation loop. These functional elements are often diverse in sequence and conformation and reflect the functional differences observed between individual subfamily members. ChxR from Chlamydia trachomatis is an atypical OmpR/ PhoB response regulator homolog that has transcriptional activity in the absence of phosphorylation. To facilitate the precise identification of the functional elements of the ChxR effector domain, this protein was cloned, expressed, purified and crystallized. Crystals were obtained from two separate mother liquors, producing two morphologically distinct crystals. The space group of both crystals was P4 3 2 1 2 (or its enantiomorph P4 1 2 1 2) with isomorphous unit-cell parameters; the crystals diffracted to 2.2-2.5 Å resolution.

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NMR: Proteins

Gronenborn

2008

Wiley Encyclopedia of Chemical Biology

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Solution NMR methods for determining three‐dimensional, atomic resolution structures and dynamic properties of biologic macromolecules are well established. Currently, an ever‐increasing number of experimentally solved protein NMR structures is available and contributes to our understanding of biology. The development of novel NMR approaches, labeling techniques, and calculational algorithms allows the study of larger and more complex systems. Here I summarize the basic NMR approaches, discuss labeling and assignment strategies, and provide examples for their uses.

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Structure of an Atypical Orphan Response Regulator Protein Supports a New Phosphorylation-independent Regulatory Mechanism

Cited by 53 publications

References 47 publications

Backbone Dynamics of an Atypical Orphan Response Regulator Protein, Helicobacter pylori 1043

Backbone Dynamics of an Atypical Orphan Response Regulator Protein, Helicobacter pylori 1043

Expression, purification, crystallization and preliminary X-ray analysis of the DNA-binding domain of aChlamydia trachomatisOmpR/PhoB-subfamily response regulator homolog, ChxR

NMR: Proteins

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