Literature DB >> 23489289

Structural characterization of 2,6-dichloro-p-hydroquinone 1,2-dioxygenase (PcpA) from Sphingobium chlorophenolicum, a new type of aromatic ring-cleavage enzyme.

Robert P Hayes1, Abigail R Green, Mark S Nissen, Kevin M Lewis, Luying Xun, Chulhee Kang.   

Abstract

PcpA (2,6-dichloro-p-hydroquinone 1,2-dioxygenase) from Sphingobium chlorophenolicum, a non-haem Fe(II) dioxygenase capable of cleaving the aromatic ring of p-hydroquinone and its substituted variants, is a member of the recently discovered p-hydroquinone 1,2-dioxygenases. Here we report the 2.6 Å structure of PcpA, which consists of four βαβββ motifs, a hallmark of the vicinal oxygen chelate superfamily. The secondary co-ordination sphere of the Fe(II) centre forms an extensive hydrogen-bonding network with three solvent exposed residues, linking the catalytic Fe(II) to solvent. A tight hydrophobic pocket provides p-hydroquinones access to the Fe(II) centre. The p-hydroxyl group is essential for the substrate-binding, thus phenols and catechols, lacking a p-hydroxyl group, do not bind to PcpA. Site-directed mutagenesis and kinetic analysis confirm the critical catalytic role played by the highly conserved His10, Thr13, His226 and Arg259. Based on these results, we propose a general reaction mechanism for p-hydroquinone 1,2-dioxygenases.
© 2013 Blackwell Publishing Ltd.

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Year:  2013        PMID: 23489289      PMCID: PMC4211620          DOI: 10.1111/mmi.12204

Source DB:  PubMed          Journal:  Mol Microbiol        ISSN: 0950-382X            Impact factor:   3.501


  39 in total

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Authors:  L Xun; C S Orser
Journal:  J Bacteriol       Date:  1991-07       Impact factor: 3.490

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Authors:  Kevin D Koehntop; Joseph P Emerson; Lawrence Que
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Authors:  Wenjing Shen; Weidong Liu; Jing Zhang; Jian Tao; Haihua Deng; Hui Cao; Zhongli Cui
Journal:  Bioresour Technol       Date:  2010-05-13       Impact factor: 9.642

4.  PcpA, which is involved in the degradation of pentachlorophenol in Sphingomonas chlorophenolica ATCC39723, is a novel type of ring-cleavage dioxygenase.

Authors:  Y Ohtsubo; K Miyauchi; K Kanda; T Hatta; H Kiyohara; T Senda; Y Nagata; Y Mitsui; M Takagi
Journal:  FEBS Lett       Date:  1999-10-15       Impact factor: 4.124

5.  Organization and regulation of pentachlorophenol-degrading genes in Sphingobium chlorophenolicum ATCC 39723.

Authors:  Mian Cai; Luying Xun
Journal:  J Bacteriol       Date:  2002-09       Impact factor: 3.490

6.  Crystal structures of the reaction intermediate and its homologue of an extradiol-cleaving catecholic dioxygenase.

Authors:  Nobuyuki Sato; Yoshitaka Uragami; Tomoko Nishizaki; Yoshito Takahashi; Gen Sazaki; Keisuke Sugimoto; Takamasa Nonaka; Eiji Masai; Masao Fukuda; Toshiya Senda
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7.  Features and development of Coot.

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8.  Characterization of chlorophenol 4-monooxygenase (TftD) and NADH:FAD oxidoreductase (TftC) of Burkholderia cepacia AC1100.

Authors:  Brian N Webb; Jordan W Ballinger; Eunjung Kim; Sara M Belchik; Ka-Sum Lam; Buhyun Youn; Mark S Nissen; Luying Xun; Chulhee Kang
Journal:  J Biol Chem       Date:  2009-11-13       Impact factor: 5.157

9.  Phylogenetic evidence for transfer of pentachlorophenol-mineralizing Rhodococcus chlorophenolicus PCP-I(T) to the genus Mycobacterium.

Authors:  M Briglia; R I Eggen; D J Van Elsas; W M De Vos
Journal:  Int J Syst Bacteriol       Date:  1994-07

10.  Sphingobium chlorophenolicum dichlorohydroquinone dioxygenase (PcpA) is alkaline resistant and thermally stable.

Authors:  Wanpeng Sun; Ramaswami Sammynaiken; Lifeng Chen; Jason Maley; Gabriele Schatte; Yijiang Zhou; Jian Yang
Journal:  Int J Biol Sci       Date:  2011-10-25       Impact factor: 6.580
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  9 in total

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Authors:  Yifan Wang; Inchul Shin; Yizhi Fu; Keri L Colabroy; Aimin Liu
Journal:  Biochemistry       Date:  2019-06-25       Impact factor: 3.162

Review 2.  A two-electron-shell game: intermediates of the extradiol-cleaving catechol dioxygenases.

Authors:  Andrew J Fielding; John D Lipscomb; Lawrence Que
Journal:  J Biol Inorg Chem       Date:  2014-03-11       Impact factor: 3.358

3.  Expression, purification, characterization and in silico analysis of newly isolated hydrocarbon degrading bleomycin resistance dioxygenase.

Authors:  Vinay Sharma; Rajender Kumar; Vishal Kumar Sharma; Ashok Kumar Yadav; Marja Tiirola; Pushpender Kumar Sharma
Journal:  Mol Biol Rep       Date:  2019-11-13       Impact factor: 2.316

4.  The role of halogen substituents and substrate pKa in defining the substrate specificity of 2,6-dichlorohydroquinone 1,2-dioxygenase (PcpA).

Authors:  Julia E Burrows; Monica Q Paulson; Emma R Altman; Ivana Vukovic; Timothy E Machonkin
Journal:  J Biol Inorg Chem       Date:  2019-05-14       Impact factor: 3.358

5.  Characterizations of Two Bacterial Persulfide Dioxygenases of the Metallo-β-lactamase Superfamily.

Authors:  Steven A Sattler; Xia Wang; Kevin M Lewis; Preston J DeHan; Chung-Min Park; Yufeng Xin; Honglei Liu; Ming Xian; Luying Xun; ChulHee Kang
Journal:  J Biol Chem       Date:  2015-06-16       Impact factor: 5.157

6.  Crystal structure of PnpCD, a two-subunit hydroquinone 1,2-dioxygenase, reveals a novel structural class of Fe2+-dependent dioxygenases.

Authors:  Shiheng Liu; Tiantian Su; Cong Zhang; Wen-Mao Zhang; Deyu Zhu; Jing Su; Tiandi Wei; Kang Wang; Yan Huang; Liming Guo; Sujuan Xu; Ning-Yi Zhou; Lichuan Gu
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7.  Structures of the inducer-binding domain of pentachlorophenol-degrading gene regulator PcpR from Sphingobium chlorophenolicum.

Authors:  Robert P Hayes; Timothy W Moural; Kevin M Lewis; David Onofrei; Luying Xun; ChulHee Kang
Journal:  Int J Mol Sci       Date:  2014-11-12       Impact factor: 5.923

Review 8.  Hydroquinone: environmental pollution, toxicity, and microbial answers.

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9.  Complete genome sequence of Planococcus sp. PAMC21323 isolated from Antarctica and its metabolic potential to detoxify pollutants.

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  9 in total

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