Your search keyword '"Huaisheng Chen"' showing total 4 results

1. Sequencing uracil in DNA at single-nucleotide resolution

Author

Liu T, Kui Chen, Yin J, Ma H, Yong Liu, Jiayin Guo, Chengchen Zhao, Maoxiang Qian, Yan Zhang, Rong S, Jiang L, Yiqing Chen, Tan Y, Bin Shen, Jinxuan Yang, Siyuan Gao, Huaisheng Chen, Fei-Long Meng, and Jinchuan Hu

Subjects

chemistry.chemical_classification, chemistry.chemical_compound, chemistry, Biochemistry, Deoxyribose, DNA Replication Timing, Deamination, Uracil, Nucleotide, Cytidine deaminase, DNA, Cytosine

Abstract

As an aberrant base in DNA, uracil is generated by dUMP misincorporation or cytosine deamination, and involved in multiple physiological and pathological processes. Current methods for whole-genome mapping of uracil all rely on uracil-DNA N-glycosylase (UNG) and are limited in resolution or specificity. Here, we present a UNG-independent Single-Nucleotide resolution Uracil Sequencing (SNU-seq) method utilizing the UdgX protein which specifically excises the uracil and forms a covalent bond with the resulting deoxyribose. SNU-seq was validated on synthetic DNA and applied to mammalian genomes. We found that the uracil content of pemetrexed-treated cells fluctuated along with DNA replication timing. We also accurately detected uracil introduced through cytosine deamination by the cytosine base editor (nCas9-APOBEC) and verified uracil occurrence in “WRC” motif within Activation-Induced Cytidine Deaminase (AID) hotspot regions in CSR-activated UNG−/− B cells.

Published

2021

2. Identification of a peroxidase inhibitor that enhances kanamycin activity

Author

Chunxia Hu, Xueyan Liu, Shumin Cheng, Yuemei Lu, Zhen Hui, Yutian Luo, Ruiqin Cui, Jinsong Wu, Shiyi Liu, Qiuyang Deng, Wei Huang, Biao Zhou, Huaisheng Chen, Min Zhang, and Lingyun Dai

Subjects

Kanamycin Resistance, biology, Chemistry, Klebsiella pneumoniae, Mutant, Kanamycin, biology.organism_classification, Acinetobacter baumannii, Microbiology, Minimum inhibitory concentration, biology.protein, medicine, Antibacterial activity, Peroxidase, medicine.drug

Abstract

BackgroundThe threat of antimicrobial resistance calls for more efforts in basic science, drug discovery, and clinical development, particularly gram-negative carbapenem-resistant pathogens.Objectives and methodsWhole-cell–based screening was performed to identify novel antibacterial agents against Acinetobacter baumannii ATCC19606. Spontaneously resistant mutant selection, whole-genome sequencing, and surface plasmon resonance were used for target identification and confirmation. Checkerboard titration assay was used for drug combination analysis.ResultsA small molecule named 6D1 with the chemical structure of 6-fluorobenzo[d]isothiazol-3(2H)-one was identified and exhibited activity against A. baumannii ATCC19606 strain (minimal inhibitory concentration, MIC = 1 mg/L). The mutation in the plasmid-derived ohrB gene that encodes a peroxidase was identified in spontaneously resistant mutants. Treatment of the bacteria with 6D1 resulted in increased sensitivity to peroxide such as tert-butyl hydroperoxide. The binding of 6D1 and OhrB was confirmed by surface plasmon resonance. Interestingly, the MIC of kanamycin against spontaneously resistant mutants decreased. Finally, we identified the effect of 6D1 on enhancing the antibacterial activity of kanamycin, including New Delhi metallo-β-lactamase (NDM-1)-producing carbapenem-resistant Klebsiella pneumoniae, but not in strains carrying kanamycin resistance genes.ConclusionsIn this study, we identified a peroxidase inhibitor that suppresses the growth of A. baumannii and enhances the antibacterial activity of kanamycin. We propose that peroxidase may be potentially used as a target for kanamycin adjuvant development.

Published

2020

3. A Novel Non-hypermucoviscous ST11 Hypervirulent Carbapenem-resistant Klebsiella pneumoniae Lacking Classical Virulence Factors

Author

Xi-Yao Yang, Ruiqin Cui, Wei Huang, Yuxin Zhong, Yutian Luo, Xiao-Qian Hu, Qiuyang Deng, Wenhui Zhang, Weiyuan Wu, Huaisheng Chen, Jingsong Wu, Chunxia Hu, Nan Wang, Xueyan Liu, Jinyong Zhang, Quanming Zou, Li-Qi Yang, Shuye Xu, Zhen Hui, Zhou Liu, Xianglin Wu, Min Zhang, Shiyi Liu, Jia Li, Lihua Xiao, and Yuemei Lu

Subjects

biology, Klebsiella pneumoniae, Carbapenem resistant Klebsiella pneumoniae, Proteome, Mutant, Virulence, Multilocus sequence typing, Genome-wide association study, biology.organism_classification, Genome, Microbiology

Abstract

BackgroundHypervirulent Klebsiella pneumoniae lacking classical virulence factors is uncommon, and the virulence mechanisms of this organism are not understood.MethodsFollowing a retrospective study of carbapenem-resistant K. pneumoniae based on core genome multilocus sequence typing (cgMLST), isolates that caused high mortality were investigated with a genome-wide association study (GWAS), proteome analysis and an animal model.ResultsThe sublineage of sequence type 11 (ST11) K. pneumoniae, which belongs to complex type 3176 (CT3176) and K-locus 47 (KL47), was highlighted due to the high mortality of infected patients. GWAS analysis showed that ampR was associated with the CT3176 isolates. In a mouse model, the mortality of ampR-carrying isolates was comparable to that of the typical hypervirulent isolate GM2. Even during the first 24 hours of infection, the bacterial load and pathological changes of the ampR-carrying isolates in the lungs were more severe than those of GM2. The ampR complement mutant was able to enhance the virulence of the KL47 isolate but not the virulence of KL1. Proteome analysis showed that the expression of WcaJ in the ampR+ isolates was significantly higher than that in the ampR− isolates, and this result was also confirmed by transcription tests and capsule staining. It is suggested that the enhancement of the initial stage of capsule synthesis may be the cause of the high virulence of these non-hypermucoviscous ST11 carbapenem-resistant K. pneumoniae isolates.ConclusionsNon-hypermucoviscous ST11 hypervirulent carbapenem-resistant K. pneumoniae warrants continued surveillance and investigation.

Published

2020

4. Lyb-2-4, a unique genomic region of hypervirulent carbapenem-resistant Acinetobacter baumannii

Author

Qiuyang Deng, Jinsong Wu, Hao Zeng, Weiyuan Wu, Yuxin Zhong, Chuchu Lin, Zheng Chao, Huaisheng Chen, Yuemei Lu, Jinyong Zhang, Quanming Zou, Xiyao Yang, Tianle Zhang, Wei Huang, Zhang Min, Yutian Luo, Xueyan Liu, Shiyi Liu, Zhou Liu, Yun Shi, Ruiqin Cui, and Yanji Xu

Subjects

Whole genome sequencing, Multiple drug resistance, Genetics, Open reading frame, biology, Multilocus sequence typing, Virulence, Human pathogen, biology.organism_classification, Genome, Acinetobacter baumannii

Abstract

Acinetobacter baumannii is an important human pathogen due to its multi-drug resistance, but is usually with low-grade virulence. Although a mouse model revealed different virulence grades of clinical carbapenem-resistant A. baumannii (CRAB) strains, the genetic basis remains unknown. We collected 61 CRAB isolates from intensive care unit of Shenzhen People’s Hospital (Shenzhen, China), and analyzed them used whole genome sequencing (WGS), multilocus sequence typing (MLST) and core genome MLST (cgMLST), transmission chain reconstruction and Comparative genomic tools. A mouse pneumonia model was used to confirm the hypervirulent phenotype. Eleven complex types (CT) were identified based on core genome multilocus sequence typing scheme. CT512 showed higher transmissibility and bloodstream infection rates than other CTs. A genomic region Lyb-2-4 was shared by CT512 and CT2092 but not CT2085. The mortality rates of patient infected with CRAB harboring Lyb-2-4 was significantly higher than those infected with CRAB isolates without Lyb-2-4 (77.8% vs 24.5%, p < 0.01). In the mouse model, the survival rates of strains containing the Lyb-2-4 region (LAC-4, 5122 and 2092) were significantly lower than for strains without Lyb-2-4 (7152, 71517, 20859 and ATCC17978). One open reading frame (ORF) was a marker for the presence of Lyb-2-4, and PCR of a segment of this ORF, designated as hvcT, served as a tag for hypervirulent CRAB. Our study should be very useful in advising the clinician to implement medical intervention earlier, and also making the worldwide surveillance of these hypervirulent CRAB strains easier.IMPORTANCEHypervirulent CRAB strains are expected to pose a threat to human health because infection of these strains is associated with high mortality and multidrug resistance. The rapid hypervirulent CRAB identification assay will facilitate prompt medical intervention. Our findings should provoke surveillance for hypervirulent CRAB strains harboring Lyb-2-4 in other countries. Further research should focus on the mechanism of hypervirulence, the acquisition of this genomic region and the development of control measures to prevent further dissemination.

Published

2019