Jiani Peng scite author profile

Jiani Peng

3Publications

31Citation Statements Received

87Citation Statements Given

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114

Affiliations

Kunming University of Science and Technology

Publications

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TSPphg Lysin from the Extremophilic Thermus Bacteriophage TSP4 as a Potential Antimicrobial Agent against Both Gram-Negative and Gram-Positive Pathogenic Bacteria

et al. 2020

Viruses

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New strategies against antibiotic-resistant bacterial pathogens are urgently needed but are not within reach. Here, we present in vitro and in vivo antimicrobial activity of TSPphg, a novel phage lysin identified from extremophilic Thermus phage TSP4 by sequencing its whole genome. By breaking down the bacterial cells, TSPphg is able to cause bacteria destruction and has shown bactericidal activity against both Gram-negative and Gram-positive pathogenic bacteria, especially antibiotic-resistant strains of Klebsiella pneumoniae, in which the complete elimination and highest reduction in bacterial counts by greater than 6 logs were observed upon 50 µg/mL TSPphg treatment at 37 • C for 1 h. A murine skin infection model further confirmed the in vivo efficacy of TSPphg in removing a highly dangerous and multidrug-resistant Staphylococcus aureus from skin damage and in accelerating wound closure. Together, our findings may offer a therapeutic alternative to help fight bacterial infections in the current age of mounting antibiotic resistance, and to shed light on bacteriophage-based strategies to develop novel anti-infectives.

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High cell-density fermentation, expression and purification of bacteriophage lysin TSPphg, a thermostable antimicrobial protein from extremophilic Thermus bacteriophage TSP4

Zhang

Peng

et al. 2020

Protein Expression and Purification

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Integrating transcriptome and proteome analysis to determine the lignin synthesis pathway involved in Panax notoginseng in fungal stress

Yang

Xiao

et al. 2021

Preprint

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Background Plants are constantly threatened by various pathogens in a challenging environment. Altemaria panax Whetzel is a destructive pathogen that affects many plants, including Panax notoginseng, and significantly reduces the yield and product quality of Panax notoginseng. It is not clear how Panax notoginseng responds to pathogen infection.Methods Using the advanced advantages of transcriptome and proteomics technology, we studied the response of Panax notoginseng to Altemaria panax stress.Results Compared with the control, fungal infection caused significant changes in the Panax notoginseng transcriptome and proteome. Specifically, a total of 136,100 transcripts and 4,468 proteins were identified. The integration of transcriptome and proteome profiles revealed many candidate transcripts/proteins, which may be involved in lignin synthesis during the activation of defense responses by Panax notoginseng. Many genes and proteins are induced or inhibited by fungi. Among them, the expression levels of genes PAL, 4CL, COMT, CAD and POX in the lignin synthesis pathway are significantly increased, which indicates that the fungus activates the defense response of Panax notoginseng.Conclusions As far as we know, this is the first time that transcriptome and proteome analysis have been combined to study the response of Panax notoginseng to disease. This study provides a wide range of new information about the transcriptome, proteome and their correlation of Panax notoginseng in response to fungal stress. The analysis of this resource allows us to examine the mechanisms of transcription and protein diversification, which expands the knowledge of the complexities of the transcriptome and proteome in traditional Chinese medicines.

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Jiani Peng

TSPphg Lysin from the Extremophilic Thermus Bacteriophage TSP4 as a Potential Antimicrobial Agent against Both Gram-Negative and Gram-Positive Pathogenic Bacteria

High cell-density fermentation, expression and purification of bacteriophage lysin TSPphg, a thermostable antimicrobial protein from extremophilic Thermus bacteriophage TSP4

Integrating transcriptome and proteome analysis to determine the lignin synthesis pathway involved in Panax notoginseng in fungal stress

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