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Featured researches published by qing Chang.


Bioresource Technology | 2013

Characterization of a novel cyfluthrin-degrading bacterial strain Brevibacterium aureum and its biochemical degradation pathway

Shaohua Chen; Yi Hu Dong; Changqing Chang; Yinyue Deng; Xi Fen Zhang; Guohua Zhong; Haiwei Song; Meiying Hu; Lian-Hui Zhang

Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the mineral medium. Response surface methodology using central composite rotatable design of cultural conditions was successfully employed for optimization resulting in 88.6% degradation of cyfluthrin (50mgL(-1)) within 5days. The bacterium degraded cyfluthrin by cleavage of both the carboxylester linkage and diaryl bond to form 2,2,3,3-tetramethyl-cyclopropanemethanol, 4-fluoro-3-phenexy-benzoic acid, 3,5-dimethoxy phenol, and phenol, and subsequently transformed these compounds with a maximum specific degradation rate, half-saturation constant and inhibition constant of 1.0384day(-1), 20.4967mgL(-1), and 141.9013mgL(-1), respectively. A novel degradation pathway for cyfluthrin was proposed based on analysis of these metabolites. In addition, this strain was found capable of degrading a wide range of synthetic pyrethroid insecticides. Our results suggest that B. aureum DG-12 may be an ideal microorganism for bioremediation of the pyrethroid-contaminated environments.


Journal of Agricultural and Food Chemistry | 2014

Fenpropathrin Biodegradation Pathway in Bacillus sp. DG-02 and Its Potential for Bioremediation of Pyrethroid-Contaminated Soils

Shaohua Chen; Changqing Chang; Yinyue Deng; Shuwen An; Yi Hu Dong; Jianuan Zhou; Meiying Hu; Guohua Zhong; Lian-Hui Zhang

The widely used insecticide fenpropathrin in agriculture has become a public concern because of its heavy environmental contamination and toxic effects on mammals, yet little is known about the kinetic and metabolic behaviors of this pesticide. This study reports the degradation kinetics and metabolic pathway of fenpropathrin in Bacillus sp. DG-02, previously isolated from the pyrethroid-manufacturing wastewater treatment system. Up to 93.3% of 50 mg L(-1) fenpropathrin was degraded by Bacillus sp. DG-02 within 72 h, and the degradation rate parameters qmax, Ks, and Ki were determined to be 0.05 h(-1), 9.0 mg L(-1), and 694.8 mg L(-1), respectively. Analysis of the degradation products by gas chromatography-mass spectrometry led to identification of seven metabolites of fenpropathrin, which suggest that fenpropathrin could be degraded first by cleavage of its carboxylester linkage and diaryl bond, followed by degradation of the aromatic ring and subsequent metabolism. In addition to degradation of fenpropathrin, this strain was also found to be capable of degrading a wide range of synthetic pyrethroids including deltamethrin, λ-cyhalothrin, β-cypermethrin, β-cyfluthrin, bifenthrin, and permethrin, which are also widely used insecticides with environmental contamination problems with the degradation process following the first-order kinetic model. Bioaugmentation of fenpropathrin-contaminated soils with strain DG-02 significantly enhanced the disappearance rate of fenpropathrin, and its half-life was sharply reduced in the soils. Taken together, these results depict the biodegradation mechanisms of fenpropathrin and also highlight the promising potentials of Bacillus sp. DG-02 in bioremediation of pyrethroid-contaminated soils.


Molecular Plant-microbe Interactions | 2013

A Nonribosomal Peptide Synthase Containing a Stand-Alone Condensation Domain Is Essential for Phytotoxin Zeamine Biosynthesis

Yingying Cheng; Xiaoling Liu; Shuwen An; Changqing Chang; Yuanqiang Zou; Luhao Huang; Jin Zhong; Qiongguang Liu; Zide Jiang; Jianuan Zhou; Lian-Hui Zhang

Dickeya zeae is the causal agent of rice foot rot and maize stalk rot diseases, which could cause severe economic losses. The pathogen is known to produce two phytotoxins known as zeamine and zeamine II which are also potent antibiotics against both gram-positive and gram-negative bacteria pathogens. Zeamine II is a long-chain aminated polyketide and zeamine shares the same polyketide structure as zeamine II, with an extra valine derivative moiety conjugated to the primary amino group of zeamine II. In this study, we have identified a gene designated as zmsK encoding a putative nonribosomal peptide synthase (NRPS) by screening of the transposon mutants defective in zeamine production. Different from most known NRPS enzymes, which are commonly multidomain proteins, ZmsK contains only a condensation domain. High-performance liquid chromatography and mass spectrometry analyses showed that the ZmsK deletion mutant produced only zeamine II but not zeamine, suggesting that ZmsK catalyzes the amide bond formation by using zeamine II as a substrate to generate zeamine. We also present evidence that a partially conserved catalytic motif within the condensation domain is critical for zeamine production. Furthermore, we show that deletion of zmsK substantially decreased the total antimicrobial activity and virulence of D. zeae. Our findings provide a new insight into the biosynthesis pathway of zeamines and the virulence mechanisms of the bacterial pathogen D. zeae.


Fungal Genetics and Biology | 2016

The mating-type locus b of the sugarcane smut Sporisorium scitamineum is essential for mating, filamentous growth and pathogenicity.

Meixin Yan; Guining Zhu; Shanyu Lin; Xiaoyong Xian; Changqing Chang; Pinggen Xi; Wankuan Shen; Weihua Huang; Enping Cai; Zide Jiang; Yi Zhen Deng; Lian-Hui Zhang

Sporisorium scitamineum is the causal agent of sugarcane smut, which is one of the most serious constraints to global sugarcane production. S. scitamineum and Ustilago maydis are two closely related smut fungi, that are predicted to harbor similar sexual mating processes/system. To elucidate the molecular basis of sexual mating in S. scitamineum, we identified and deleted the ortholog of mating-specific U. maydis locus b, in S. scitamineum. The resultant b-deletion mutant was defective in mating and pathogenicity in S. scitamineum. Furthermore, a functional b locus heterodimer could trigger filamentous growth without mating in S. scitamineum, and functionally replace the b locus in U. maydis in terms of triggering aerial filament production and forming solopathogenic strains, which do not require sexual mating prior to pathogenicity on the host plants.


PLOS ONE | 2013

Monooxygenase, a novel beta-cypermethrin degrading enzyme from Streptomyces sp.

Shaohua Chen; Qingsheng Lin; Ying Xiao; Yinyue Deng; Changqing Chang; Guohua Zhong; Meiying Hu; Lian-Hui Zhang

The widely used insecticide beta-cypermethrin has become a public concern because of its environmental contamination and toxic effects on mammals. In this study, a novel beta-cypermethrin degrading enzyme designated as CMO was purified to apparent homogeneity from a Streptomyces sp. isolate capable of utilizing beta-cypermethrin as a growth substrate. The native enzyme showed a monomeric structure with a molecular mass of 41 kDa and pI of 5.4. The enzyme exhibited the maximal activity at pH 7.5 and 30°C. It was fairly stable in the pH range from 6.5–8.5 and at temperatures below 10°C. The enzyme activity was significantly stimulated by Fe2+, but strongly inhibited by Ag+, Al3+, and Cu2+. The enzyme catalyzed the degradation of beta-cypermethrin to form five products via hydroxylation and diaryl cleavage. A novel beta-cypermethrin detoxification pathway was proposed based on analysis of these products. The purified enzyme was identified as a monooxygenase by matrix-assisted laser desorption/ionization time-of-flight/time-of-flight mass spectrometry analysis (MALDI-TOF-MS) and N-terminal protein sequencing. Given that all the characterized pyrethroid-degrading enzymes are the members of hydrolase family, CMO represents the first pyrethroid-degrading monooxygenase identified from environmental microorganisms. Taken together, our findings depict a novel pyrethroid degradation mechanism and indicate that the purified enzyme may be a promising candidate for detoxification of beta-cypermethrin and environmental protection.


BMC Genomics | 2016

Transcriptome analysis of Sporisorium scitamineum reveals critical environmental signals for fungal sexual mating and filamentous growth.

Meixin Yan; Weijun Dai; Enping Cai; Yi Zhen Deng; Changqing Chang; Zide Jiang; Lian-Hui Zhang

BackgroundSporisorium scitamineum causes the sugarcane smut disease, one of the most serious constraints to global sugarcane production. S. scitamineum possesses a sexual mating system composed of two mating-type loci, a and b locus. We previously identified and deleted the b locus in S. scitamineum, and found that the resultant SsΔMAT-1b mutant was defective in mating and pathogenicity.ResultsTo further understand the function of b-mating locus, we carried out transcriptome analysis by comparing the transcripts of the mutant strain SsΔMAT-1b, from which the SsbE1 and SsbW1 homeodomain transcription factors have previously been deleted, with those from the wild-type MAT-1 strain. Also the transcripts from SsΔMAT-1b X MAT-2 were compared with those from wild-type MAT-1 X MAT-2 mating. A total of 209 genes were up-regulated (p < 0.05) in the SsΔMAT-1b mutant, compared to the wild-type MAT-1 strain, while 148 genes down-regulated (p < 0.05). In the mixture, 120 genes were up-regulated (p < 0.05) in SsΔMAT-1b X MAT-2, which failed to mate, compared to the wild-type MAT-1 X MAT-2 mating, and 271 genes down-regulated (p < 0.05). By comparing the up- and down-regulated genes in these two sets, it was found that 15 up-regulated and 37 down-regulated genes were common in non-mating haploid and mating mixture, which indeed could be genes regulated by b-locus. Furthermore, GO and KEGG enrichment analysis suggested that carbon metabolism pathway and stress response mediated by Hog1 MAPK signaling pathway were altered in the non-mating sets.ConclusionsExperimental validation results indicate that the bE/bW heterodimeric transcriptional factor, encoded by the b-locus, could regulate S. scitamineum sexual mating and/or filamentous growth via modulating glucose metabolism and Hog1-mediating oxidative response.


Plant Disease | 2016

A Dual-Color Imaging System for Sugarcane Smut Fungus Sporisorium scitamineum

Meixin Yan; Enping Cai; Jianuan Zhou; Changqing Chang; Pinggen Xi; Wankuan Shen; Lingyu Li; Zide Jiang; Yi Zhen Deng; Lian-Hui Zhang

The life cycle of the sugarcane smut fungus Sporisorium scitamineum is a multistep process. Haploid sporidia of compatible (MAT-1 versus MAT-2) mating types fuse to generate pathogenic dikaryotic hyphae to infect the host. Within the host tissues, diploid teliospores are formed and induce a characteristic sorus that looks like a black whip. The diploid teliospores germinate to form haploid sporidia by meiosis. In order to monitor fungal development throughout the whole life cycle, we expressed the green fluorescent protein (GFP) and red fluorescent protein (RFP) in S. scitamineum MAT-1 and MAT-2 sporidia, respectively. Observation by epifluorescence microscope showed that conjugation tube formation and sporidia fusion occurred at 4 to 8 h, and formation of dikaryotic filaments was detected at 12 h after mating. The resultant teliospores, with diffused GFP and RFP, underwent meiosis as demonstrated by septated hypha with single fluorescent signal. We demonstrated that GFP- and RFP-tagged strains can be used to study the life cycle development of the fungal pathogen S. scitamineum, including the sexual mating and meiosis events. This dual-color imaging system would be a valuable tool for investigation of biotic and abiotic factors that might affect the fungal life cycle development and pathogenesis.


Frontiers in Microbiology | 2018

The MAP Kinase SsKpp2 Is Required for Mating/Filamentation in Sporisorium scitamineum

Yi Zhen Deng; Bin Zhang; Changqing Chang; Yixu Wang; Shan Lu; Shuquan Sun; Xiaomeng Zhang; Baoshan Chen; Zide Jiang

In the phytopathogenic fungus Sporisorium scitamineum, sexual mating between two compatible haploid cells and the subsequent formation of dikaryotic hyphae is essential for infection. This process was shown to be commonly regulated by a mitogen-activated protein kinase (MAPK) and a cAMP/PKA signaling pathway in the corn smut fungus Ustilago maydis but remains largely unknown in S. scitamineum. In this study, we identified a conserved putative MAP kinase Kpp2 in S. scitamineum and named it as SsKpp2. The sskpp2Δ mutant displayed significant reduction in mating/filamentation, which could be partially restored by addition of cAMP or tryptophol, a quorum-sensing molecule identified in budding yeast. Transcriptional profiling showed that genes governing S. scitamineum mating or tryptophol biosynthesis were significantly differentially regulated in the sskpp2Δ mutant compared to the WT, under mating condition. Our results demonstrate that the MAP kinase SsKpp2 is required for S. scitamineum mating/filamentation likely through regulating the conserved pheromone signal transduction pathway and tryptophol production.


European Journal of Plant Pathology | 2016

A Sfp-type phosphopantetheinyl transferase ZmsO is essential for zeamines production and the virulence of Dickeya zeae

Yingying Cheng; Lisheng Liao; Changqing Chang; Jianuan Zhou; Yinyue Deng; Lian-Hui Zhang

Zeamines are family of potent antibiotics and virulence determinants produced by the rice foot rot bacterial pathogen Dickeya zeae. So zeamines are important for the pathogenesis of D. zeae and development of new strategies against this devastating disease. In this study, we show that production of zeamines is positively modulated by ZmsO, which is a conserved Sfp-type phosphopantetheinyl thransferase (PPTase) associated with post-translational activation of fatty acid synthases and polyketide synthases. Deletion of zmsO significantly abolished zeamines production and attenuated the virulence of D. zeae without affect the growth rate. The zmsO gene is located at the upstream of zmsA and zmsK in the same gene cluster. Consistent with its role in post-translational modification, deletion of zmsO did not affect the transcriptional expression of zmsA and zmsK. In trans expression of the pcpS gene from Pseudomonas aeruginosa, which encodes a Sfp-type PPTase, in the zmsO deletion mutant could also fully restore the zeamines production and bacterial virulence, establishing the important role of Sfp-type PPTase in the zeamines biosynthesis and pathogenicity of D. zeae.


Molecular Plant Pathology | 2016

SlyA regulates phytotoxin production and virulence in Dickeya zeae EC1.

Jianuan Zhou; Hai-Bao Zhang; Mingfa Lv; Yufan Chen; Lisheng Liao; Yingying Cheng; Shiyin Liu; Shaohua Chen; Fei He; Zining Cui; Zide Jiang; Changqing Chang; Lian-Hui Zhang

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Lian-Hui Zhang

South China Agricultural University

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Jianuan Zhou

South China Agricultural University

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Zide Jiang

South China Agricultural University

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Shaohua Chen

South China Agricultural University

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Yi Zhen Deng

South China Agricultural University

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Enping Cai

South China Agricultural University

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Guohua Zhong

South China Agricultural University

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Meixin Yan

South China Agricultural University

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Meiying Hu

South China Agricultural University

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Yingying Cheng

South China Agricultural University

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