Your search keyword '"SERRATIA marcescens"' showing total 13,522 results

1. A comprehensive analysis of the defense responses of Odontotermes formosanus (Shiraki) provides insights into the changes during Serratia marcescens infection.

Author

Wang, Zhiqiang, Wang, Mingyu, Zhou, Yujingyun, Feng, Kai, and Tang, Fang

Subjects

*SUCCINATE dehydrogenase, *SERRATIA marcescens, *ANTIMICROBIAL peptides, *BIOLOGICAL pest control, *ISOCITRATE dehydrogenase

Abstract

Background: Odontotermes formosanus (Shiraki) is a highly damaging agroforestry pest. Serratia marcescens is a broad-spectrum insecticidal pathogen and is highly lethal to O. formosanus. However, little is known about the mechanism between them. To improve the biological control of pests, a more in-depth analysis of the interactions between the pests and the pathogens is essential. Results: We used RNA-seq, enzyme activity assays and real-time fluorescent quantitative PCR (qPCR) to explore the defense responses of O. formosanus against SM1. RNA-seq results showed that 1,160, 2,531 and 4,536 genes were differentially expressed at 3, 6 and 12 h after SM1 infection, and Kyoto Encyclopedia of Genes and Genomes (KEGG) results indicated that immune response and energy metabolism were involved in the defense of O. formosanus against SM1. Reactive oxygen species (ROS) levels and ROS synthesis genes were significantly elevated, and the antioxidant system were induced in O. formosanus after SM1 infection. In addition, the cellular immune genes were affected, and the Toll, immune deficiency (Imd), Janus kinase/signal transducer and activator of transcription (JAK/STAT), c-Jun N-terminal Kinase (JNK) and melanization pathways were activated. In vitro, Oftermicin, an antimicrobial peptide, had a significantly inhibitory effect on SM1. Furthermore, the expression levels and enzyme activities of phosphofructokinase (PFK), lactate dehydrogenase (LDH), succinate dehydrogenase (SDH) and isocitrate dehydrogenase (IDH) in glycolysis and tricarboxylic acid (TCA) cycles were increased. Conclusions: Our results clearly demonstrated that O. formosanus defended against SM1 by activating the antioxidant system, innate immunity and energy metabolism. This study would provide useful information for the development of biological controls of O. formosanus. [ABSTRACT FROM AUTHOR]

Published

2024

2. Microbial Dynamics and Pathogen Control During Fermentation of Distiller Grains: Effects of Fermentation Time on Feed Safety.

Author

Zhu, Mingming, Xu, Duhan, Liao, Chaosheng, Zhang, Tiantian, Zhou, Bijun, Wang, Kaigong, Li, Ping, Cheng, Zhentao, and Chen, Chao

Subjects

*FERMENTATION of feeds, *UNSATURATED fatty acids, *LACTOBACILLUS reuteri, *CITROBACTER freundii, *SERRATIA marcescens, *BIOGENIC amines

Abstract

Determining the effects of fermentation duration on the microbial ecosystem, potential pathogenic risks, and metabolite generation during the fermentation of distilled grains is essential for safeguarding the safety and enhancing the nutritional profile of animal feed. This study investigates the effect of varying fermentation times (9, 30, and 60 days) on microbial diversity, pathogenic risk, and metabolite profiles in distiller grains using 16S rDNA sequencing and LC–MS-based metabolomics. The results showed that early fermentation (9–30 days) enhanced the abundance of beneficial bacteria, such as Lactobacillus reuteri and Lactobacillus pontis (p < 0.05), while pathogenic bacteria, like Serratia marcescens and Citrobacter freundii, were significantly reduced (p < 0.05). Metabolomic analysis revealed an increase in unsaturated fatty acids and the degradation of biogenic amines during early fermentation. However, prolonged fermentation (60 days) led to a resurgence of pathogenic bacteria and reduced the synthesis of essential metabolites. These findings suggest that fermentation duration must be optimized to balance microbial safety and nutrient quality, with 30 days being the optimal period to reduce pathogenic risks and enhance feed quality. [ABSTRACT FROM AUTHOR]

Published

2024

3. Bidirectional extracellular electron transfers in Serratia marcescens and Stenotrophomonas sp. correlate to EPS and Cr(VI) removal in single‐chamber bioelectrochemical systems.

Author

Yan, Yiying, Wang, Qiang, Huang, Liping, Xing, Xin, Shi, Yong, Wang, Miao, and Puma, Gianluca Li

Subjects

SERRATIA marcescens, ELECTRON sources, CHARGE exchange, ELECTROPHILES, HEAVY metals

Abstract

BACKGROUND: Electrochemically active bacteria (EAB) capable of bidirectional extracellular electron transfer (EET), either outward or inward EET, largely control the efficiency of interactions and electrical communication between biofilm and electrode and, thus, control the performance of bioelectrochemical systems (BESs) for heavy metals removal. However, the behavior of such metallurgical EAB capable of bidirectional EET has yet to be investigated, and the role of extracellular polymeric substances (EPS) in these switchable EAB with bidirectional EET and in the presence of heavy metals remains unexplored in the single‐chamber BESs treating heavy metal‐based wastewaters that are limited by carbon/electron sources or electron acceptors. RESULTS: The biofilms of the Cr(VI)‐tolerant EAB Stenotrophomonas sp. YS1 and Serratia marcescens Q1 exhibited bidirectional EET metabolizing either organic (acetate) or inorganic (HCO3−) species with simultaneous removal of Cr(VI) in single‐chamber BESs. Q1 inward EET uptake of electrons was more efficient than that of YS1 (165 μA vs. 118 μA); meanwhile, YS1 outward EET was more efficient than Q1 (8.0 μA vs. 4.7–5.2 μA). The adaptive electrochemically‐tunable EPS in both biofilm strains was regulated by the direction of the EET (inward or outward) in the presence of Cr(VI) and circuital current. CONCLUSION: This study demonstrates the switching properties of EAB, such as Stenotrophomonas sp. or S. marcescens, that are capable of bidirectional EET to or from the electrodes, and it displays the regulation of such responses with the amount and compositional diversity of the biofilms' EPS, giving a comprehensive appreciation of tunable EPS for Cr(VI)‐wastewater treatment in single‐chamber BESs. © 2024 Society of Chemical Industry (SCI). [ABSTRACT FROM AUTHOR]

Published

2024

4. Standardization of Process Parameters for Enhanced Prodigiosin Production from Wheat Bran Using Taguchi Methodology.

Author

Maurya, Kamlesh Kumar, Tripathi, Abhishek Dutt, Kumar, Deepak, Panesar, Parmjit S., Paul, Veena, and Agarwal, Aparna

Abstract

Prodigiosin finds tremendous application in the food industry owing to its physicochemical and non-toxic attributes. In the present investigation, microbial production of food color (prodigiosin) was done by Serratia marcescens NCIM 5246 under solid-state fermentation (SSF). For economical prodigiosin yield, initial substrate screening was conducted using agro-waste such as rice bran, wheat bran, orange peel powder, green gram husk and cane molasses. A maximum pigment yield of 1059.67 ± 1.53 µg/L was observed on wheat bran media. Further, Taguchi Design of the experiment (DOE) using Qualitek-4 software with bigger is better as quality attributes was done for process optimization. The Taguchi (DOE) comprised five independent variables, i.e., pH, temperature, substrate concentration, trace metal concentration, and inoculum size at two levels. The software deduced independent variables' individual and interactive effects on product yield by performing an L8 orthogonal array (OA). The output variable (prodigiosin yield) was improved based on the S/N ratio. Under optimized cultural conditions maximum prodigiosin yield of 1320.2 ± 20 µg/L was obtained. The expected prodigiosin yield of 1386.60 µg/L showed a 95% resemblance with the actual yield, showed model validation, and 24.57% improvement in overall yield. The extracted pigment was purified by TLC and was characterized as prodigiosin by absorption spectroscopy and FTIR. [ABSTRACT FROM AUTHOR]

Published

2024

5. 源 于 传 统 酿 造 郫 县 豆 瓣 Serratia marcescens GH-2 代 谢 产 红 色 素 结构鉴定及其抑菌活性研究

Author

贺紫涵, 邹玉婷, 许碧涛, 商艳玲, and 张庆

Subjects

SERRATIA marcescens, NUCLEAR magnetic resonance, IR spectrometers, PRODIGIOSIN, SILICA gel

Abstract

Copyright of Food & Fermentation Industries is the property of Food & Fermentation Industries and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

6. Successful Repeated Use of a Pathogen Adsorbing Biomimetic Device for the Adjunct Treatment of a SARS-CoV-2 Reinfection and Subsequent Infections with Different Multiresistant Bacteria.

Author

Okioma, Reuben, Soki, Khalida, Hay, Alexander, and Kielstein, Jan T.

Subjects

*ACINETOBACTER baumannii, *BLACK men, *SERRATIA marcescens, *BACTERIAL diseases, *LUNG infections

Abstract

Introduction: The Seraph® 100 Microbind® Affinity Filter is a biomimetic adsorbent device that can remove pathogens from the blood. Case Presentation: Here, we report the successful use of the Seraph® 100 to treat both a SARS-CoV-2 reinfection leading to severe COVID-19 pneumonia as well as subsequent secondary lung infections including Acinetobacter baumannii, Serratia marcescens, and Pseudomonas aeruginosa multidrug-resistant bacteria. To our knowledge, this 46-year-old black male is the first patient in which four treatments with this pathogen adsorber, one for a viral and three for different bacterial infections, have been successfully used. Conclusion: The Seraph® 100 can be easily and successfully used in conjunction with standard (anti-infective) treatment. [ABSTRACT FROM AUTHOR]

Published

2024

7. Metatranscriptomic insights into the dengue patient blood microbiome: Enhanced microbial diversity and metabolic activity in severe patients.

Author

Yadav, Aanchal, Devi, Priti, Kumari, Pallawi, Shamim, Uzma, Tarai, Bansidhar, Budhiraja, Sandeep, and Pandey, Rajesh

Subjects

*TROPICAL medicine, *DENGUE viruses, *LEUKOCYTE count, *BURKHOLDERIA pseudomallei, *SERRATIA marcescens, *DENGUE hemorrhagic fever

Abstract

Background: Dengue is the most re-emergent infection, with approximately 100 million new cases reported annually, yet no effective treatment or vaccine exists. Here, we aim to define the microbial community structure and their functional profiles in the dengue positive patients with varying disease severity. Methodology/Principal findings: Hospital admitted 112 dengue-positive patients blood samples were analyzed by dual RNA-sequencing to simultaneously identify the transcriptionally active microbes (TAMs), their expressed genes and associated pathways. Results highlight that patients with severe dengue exhibited increased microbial diversity and presence of opportunistic species (unique and core) which includes Bacillus cereus, Burkholderia pseudomallei, Streptococcus suis, and Serratia marcescens. The functional profile analysis revealed enriched metabolic pathways such as protein degradation, nucleotide biosynthesis, ion transport, cell shape integrity, and ATP formation in severe cases, indicating the high energy demands and adaptability of these microbes. Conclusion: Our metatranscriptomic approach provides a species-level characterization of blood microbiome composition and reveals a heightened diversity of TAMs in patients with severe dengue, underscoring the need for further research into the role of blood microbiota in disease progression. Comparing the microbial signatures across the severity classes early in the disease offers unique potential for convenient and early diagnosis of dengue infection. Author summary: Dengue poses a significant public health challenge in tropical and subtropical regions. The lack of a specific treatment or broadly effective vaccine highlights the critical need for novel approaches. In this study, we investigated the transcriptionally active microbial species (TAMs) in 112 dengue-positive patients from MAX Hospital in Delhi, India, to identify their correlations with disease severity. RNA-seq analysis revealed an increased abundance of opportunistic TAMs in severe dengue patients, with some species showing significant associations with platelet counts and total leukocyte count (TLC). Our findings underscore the underappreciated importance of the blood microbiome in dengue, particularly the heightened metabolic activity of these opportunistic species in severe cases. This study offers valuable insights for early infection diagnosis for dengue management. The species-level data identified here could pave the way for systematic exploration of microbial involvement in dengue virus (DENV) infections, potentially serving as an indicator for new adjuvant treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2024

8. Enhanced Diffusion and Non-Gaussian Displacements of Colloids in Quasi-2D Suspensions of Motile Bacteria.

Author

Chen, Xiao and Yan, Yaner

Subjects

*PASSIVITY (Psychology), *SERRATIA marcescens, *DISPLACEMENT (Psychology), *SWIMMERS, *BACTERIA

Abstract

In the real world, active agents interact with surrounding passive objects, thus introducing additional degrees of complexity. The relative contributions of far-field hydrodynamic and near-field contact interactions to the anomalous diffusion of passive particles in suspensions of active swimmers remain a subject of ongoing debate. We constructed a quasi-two-dimensional microswimmer–colloid mixed system by taking advantage of Serratia marcescens' tendency to become trapped at the air–water interface to investigate the origins of the enhanced diffusion and non-Gaussianity of the displacement distributions of passive colloidal tracers. Our findings reveal that the diffusion behavior of colloidal particles exhibits a strong dependence on bacterial density. At moderate densities, the collective dynamics of bacteria dominate the diffusion of tracer particles. In dilute bacterial suspensions, although there are multiple dynamic types present, near-field contact interactions such as collisions play a major role in the enhancement of colloidal transport and the emergence of non-Gaussian displacement distributions characterized by heavy exponential tails in short times. Despite the distinct types of microorganisms and their diverse self-propulsion mechanisms, a generality in the diffusion behavior of passive colloids and their underlying dynamics is observed. [ABSTRACT FROM AUTHOR]

Published

2024

9. Trade-off between photosymbiosis and innate immunity influences cnidarian's response to pathogenic bacteria.

Author

Emery, Madison A., Beavers, Kelsey M., Van Buren, Emily W., Batiste, Renee, Dimos, Bradford, Pellegrino, Mark W., and Mydlarz, Laura D.

Subjects

*CORAL diseases, *SERRATIA marcescens, *PATHOGENIC bacteria, *NATURAL immunity, *IMMUNOSUPPRESSION, *SYMBIODINIUM

Abstract

Mutualistic relationships with photosynthetic organisms are common in cnidarians, which form an intracellular symbiosis with dinoflagellates in the family Symbiodiniaceae. The establishment and maintenance of these symbionts are associated with the suppression of key host immune factors. Because of this, there are potential trade-offs between the nutrition that cnidarian hosts gain from their symbionts and their ability to successfully defend themselves from pathogens. To investigate these potential trade-offs, we utilized the facultatively symbiotic polyps of the upside-down jellyfish Cassiopea xamachana and exposed aposymbiotic and symbiotic polyps to the pathogen Serratia marcescens. Symbiotic polyps had a lower probability of survival following S. marcescens exposure. Gene expression analyses 24 hours following pathogen exposure indicate that symbiotic animals mounted a more damaging immune response, with higher levels of inflammation and oxidative stress likely resulting in more severe disruptions to cellular homeostasis. Underlying this more damaging immune response may be differences in constitutive and pathogen-induced expression of immune transcription factors between aposymbiotic and symbiotic polyps rather than broadscale immune suppression during symbiosis. Our findings indicate that in facultatively symbiotic polyps, hosting symbionts limits C. xamachana's ability to survive pathogen exposure, indicating a trade-off between symbiosis and immunity that has potential implications for coral disease research. [ABSTRACT FROM AUTHOR]

Published

2024

10. Modeling seasonal immune dynamics of honey bee (Apis mellifera L.) response to injection of heat-killed Serratia marcescens.

Author

Hurychová, Jana, Dostál, Jakub, Kunc, Martin, Šreibr, Sara, Dostálková, Silvie, Petřivalský, Marek, Hyršl, Pavel, Titěra, Dalibor, Danihlík, Jiří, and Dobeš, Pavel

Subjects

*HONEYBEES, *SERRATIA marcescens, *TEMPERATE climate, *IMMUNE response, *LIFE spans

Abstract

The honey bee, Apis mellifera L., is one of the main pollinators worldwide. In a temperate climate, seasonality affects the life span, behavior, physiology, and immunity of honey bees. In consequence, it impacts their interaction with pathogens and parasites. In this study, we used Bayesian statistics and modeling to examine the immune response dynamics of summer and winter honey bee workers after injection with the heat-killed bacteria Serratia marcescens, an opportunistic honey bee pathogen. We investigated the humoral and cellular immune response at the transcriptional and functional levels using qPCR of selected immune genes, antimicrobial activity assay, and flow cytometric analysis of hemocyte concentration. Our data demonstrate increased antimicrobial activity at transcriptional and functional levels in summer and winter workers after injection, with a stronger immune response in winter bees. On the other hand, an increase in hemocyte concentration was observed only in the summer bee population. Our results indicate that the summer population mounts a cellular response when challenged with heat-killed S. marcescens, while winter honey bees predominantly rely on humoral immune reactions. We created a model describing the honey bee immune response dynamics to bacteria-derived components by applying Bayesian statistics to our data. This model can be employed in further research and facilitate the investigating of the honey bee immune system and its response to pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

11. Microbes Causing Spinal Epidural Infection in Patients Who Use Drugs.

Author

Pralea, Alexander, Has, Phinnara, Auld, Dianne, and Mermel, Leonard A

Subjects

*DRUG abuse, *GRAM-negative bacterial diseases, *EPIDURAL abscess, *METHICILLIN-resistant staphylococcus aureus, *SERRATIA marcescens, *SPINAL surgery

Abstract

Background The incidence of spine infections has increased due to the surge in injection drug use driven by the opioid epidemic. Few recent studies have evaluated the microbiology of spinal epidural infections among people who inject drugs compared to the microbiology of such infections among the general population. Methods We performed a retrospective chart review to identify patients with a spinal epidural abscess or phlegmon unrelated to recent spine surgery between 2015 and 2023. Results Of 346 initial records, 277 met inclusion criteria for demographic analyses. Of the 229 patients with microbiologic results, details regarding possible drug use were available in 227 patients. Patients with no documented history of drug use were categorized as non-PWUD, while patients who use drugs (PWUD) were separated based on whether drug use was active or not. Patients with prior histories of injection or noninjection drug use were categorized as nonactive PWUD, while those with injection or snorting drug use reported in the past 3 months were categorized as active PWUD. Thirty-nine percent of patients with spinal epidural infection had substance use disorder. Most patients with monomicrobial cultures were infected with gram-positive, aerobic bacteria (86%). Active PWUD were more likely to have methicillin-resistant Staphylococcus aureus compared to non-PWUD (36% vs 13%, respectively, P =.002). Nonactive PWUD were more likely to have non– Escherichia coli gram-negative bacterial infections than non-PWUD (18% and 4.4%, respectively, P =.01). Conclusions More than 1 in 3 patients with a spinal epidural infection unrelated to recent surgery had substance use disorder. These patients are more likely to have infections due to MRSA and gram-negative bacteria other than E coli such as Serratia marcescens. [ABSTRACT FROM AUTHOR]

Published

2024

12. Evaluation of the Therapeutic Effects of Serratiopeptidase in Chicks.

Author

Naser, Ahmed S. and Albadrany, Yasser M.

Subjects

*SERRATIA marcescens, *TREATMENT effectiveness, *CHICKS, *FEVER, *FORMALDEHYDE

Abstract

Serratiopeptidase is a zinc-containing metalloprotease primarily obtained from Serratia marcescens isolated from the silkworm guts. This study aimed to assess the antinociceptive, anti-inflammatory, and antipyretic effects of serratiopeptidase in hen chicks. It included 104 hen chicks weighing 70-90 g. The antinociception efficacy was assessed by electrical-stimulation and hot-water test. Anti-inflammatory efficacy was assessed by formalin test. Assessment of therapeutic and antipyretic efficacy was determined by Baker's yeast-induced pyrexia test. In the electrical-stimulation test, 20 and 40 mg/kg of serratiopeptidase induced an antinociceptive effect in 15% and 18%, respectively. In the hot-water test, this effect was observed in 31 and 82%, respectively. In the first phase of the formalin test, an antinociceptive effect was observed for both doses, whereas in the second stage, an anti-inflammatory effect was observed in 56% and 62%, respectively. Serratiopeptidase produced a novel antipyretic effect for both doses on the Baker's-yeast test, pre- and post-injection of the yeast. It was concluded that serratiopeptidase had good activity against pain and acute inflammation, and for the first time, it was demonstrated that serratiopeptidase ameliorated and prevented hyperthermia. [ABSTRACT FROM AUTHOR]

Published

2024

13. Characterization and biological activity of selenium nanoparticles biosynthesized by Yarrowia lipolytica.

Author

Lashani, Elham, Moghimi, Hamid, Turner, Raymond J., and Amoozegar, Mohammad Ali

Subjects

*KLEBSIELLA pneumoniae, *NANOPARTICLE size, *SERRATIA marcescens, *FOURIER transform infrared spectroscopy, *ZETA potential

Abstract

In this research, biogenic selenium nanoparticles were produced by the fungi Yarrowia lipolytica, and the biological activity of its nanoparticles was studied for the first time. The electron microscopy analyses showed the production of nanoparticles were intracellular and the resulting particles were extracted and characterized by XRD, zeta potential, FESEM, EDX, FTIR spectroscopy and DLS. These analyses showed amorphous spherical nanoparticles with an average size of 110 nm and a Zeta potential of −34.51 ± 2.41 mV. Signatures of lipids and proteins were present in the capping layer of biogenic selenium nanoparticles based on FTIR spectra. The antimicrobial properties of test strains showed that Serratia marcescens, Klebsiella pneumonia, Escherichia coli, Pseudomonas aeruginosa and Bacillus subtilis were inhibited at concentrations between 160 and 640 μg/mL, while the growth of Candida albicans was hindered by 80 μg/mL of biogenic selenium nanoparticles. At concentrations between 0.5 and 1.5 mg/mL of biogenic selenium nanoparticles inhibited up to 50% of biofilm formation of Klebsiella pneumonia, Acinetobacter baumannii, Staphylococcus aureus and Pseudomonas aeruginosa. Additionally, the concentration of 20–640 μg/mL of these bioSeNPs showed antioxidant activity. Evaluating the cytotoxicity of these nanoparticles on the HUVEC and HepG2 cell lines did not show any significant toxicity within MIC concentrations of SeNPs. This defines that Y. lipolytica synthesized SeNPs have strong potential to be exploited as antimicrobial agents against pathogens of WHO concern. [ABSTRACT FROM AUTHOR]

Published

2024

14. Transcriptomic analyses of bacterial growth on fungal necromass reveal different microbial community niches during degradation.

Author

Novak, Jessica K., Kennedy, Peter G., and Gardner, Jeffrey G.

Subjects

*SERRATIA marcescens, *BIOCHEMICAL substrates, *MICROBIAL growth, *NUTRIENT cycles, *BIOMASS, *SOIL microbiology, *BACTERIAL diversity

Abstract

Bacteria are major drivers of organic matter decomposition and play crucial roles in global nutrient cycling. Although the degradation of dead fungal biomass (necromass) is increasingly recognized as an important contributor to soil carbon (C) and nitrogen (N) cycling, the genes and metabolic pathways involved in necromass degradation are less characterized. In particular, how bacteria degrade necromass containing different quantities of melanin, which largely control rates of necromass decomposition in situ, is largely unknown. To address this gap, we conducted a multitimepoint transcriptomic analysis using three Gram-negative, bacterial species grown on low or high melanin necromass of Hyaloscypha bicolor. The bacterial species, Cellvibrio japonicus, Chitinophaga pinensis, and Serratia marcescens, belong to genera known to degrade necromass in situ. We found that while bacterial growth was consistently higher on low than high melanin necromass, the CAZyme-encoding gene expression response of the three species was similar between the two necromass types. Interestingly, this trend was not shared for genes encoding nitrogen utilization, which varied in C. pinensis and S. marcescens during growth on high vs low melanin necromass. Additionally, this study tested the metabolic capabilities of these bacterial species to grow on a diversity of C and N sources and found that the three bacteria have substantially different utilization patterns. Collectively, our data suggest that as necromass changes chemically over the course of degradation, certain bacterial species are favored based on their different ial metabolic capacities. IMPORTANCE Fungal necromass is a major component of the carbon (C) in soils as well as an important source of nitrogen (N) for plant and microbial growth. Bacteria associated with necromass represent a distinct subset of the soil microbiome and characterizing their functional capacities is the critical next step toward understanding how they influence necromass turnover. This is particularly important for necromass varying in melanin content, which has been observed to control the rate of necromass decomposition across a variety of ecosystems. Here we assessed the gene expression of three necromass-degrading bacteria grown on low or high melanin necromass and characterized their metabolic capacities to grow on different C and N substrates. These transcriptomic and metabolic studies provide the first steps toward assessing the physiological relevance of up-regulated CAZyme-encoding genes in necromass decomposition and provide foundational data for generating a predictive model of the molecular mechanisms underpinning necromass decomposition by soil bacteria. [ABSTRACT FROM AUTHOR]

Published

2024

15. Urease-producing bacteria with plant growth-promoting ability that may tolerate and remove cadmium from aqueous solution.

Author

Yang, Qian, Liang, Xin-Ran, Wang, Lei, Yang, Ren-Yuan, He, Cheng-Zhong, Tu, Chun-Lin, Zhan, Fang-Dong, and He, Yong-Mei

Subjects

*ZINC mining, *SERRATIA marcescens, *PLANT biomass, *INDOLEACETIC acid, *BACILLUS thuringiensis

Abstract

Urease-producing bacteria (UPB) are widely present in soil and play an important role in soil ecosystems. In this study, 65 UPB strains were isolated from cadmium (Cd)-polluted soil around a lead-zinc mine in Yunnan Province, China. The Cd tolerance, removal of Cd from aqueous solution, production of indoleacetic acid (IAA) and plant growth-promoting effects of these materials were investigated. The results indicate that among the 65 UPB strains, four strains with IAA-producing ability were screened and identified as Bacillus thuringiensis W6-11, B. cereus C7-4, Serratia marcescens W11-10, and S. marcescens C5-6. Among the four strains, B. cereus C7-4 had the highest Cd tolerance, median effect concentration (EC50) of 59.94 mg/L. Under Cd 5 mg/L, S. marcescens C5-6 had the highest Cd removal from aqueous solution, up to 69.83%. Under Cd 25 mg/kg, inoculation with B. cereus C7-4 significantly promoted maize growth in a sand pot by increasing the root volume, root surface area, and number of root branches by 22%, 29%, and 20%, respectively, and plant height and biomass by 16% and 36%, respectively, and significantly increasing Cd uptake in the maize roots. Therefore, UPB is a potential resource for enhancing plant adaptability to Cd stress in plants with Cd-polluted habitats. STATEMENT OF NOVELTY: This study utilized urease-producing bacteria screened from the soil of lead zinc mining areas in Yunnan, China as the research object, enriching the microbial resources in Yunnan. In addition, this article verified the IAA production ability and cadmium removal ability of urease-producing bacteria, and screened out bifunctional urease-producing bacteria that have potential in cadmium pollution control and plant growth promotion. [ABSTRACT FROM AUTHOR]

Published

2024

16. Application of indigenous zinc-solubilizing bacteria in biofertilizers to enhance zinc nutrition of rice grains in inceptisols paddy fields.

Author

Pratiwi, E., Lestari, P., Nugraha, Y., Hartatik, W., Susanti, Z., Subiksa, I. G. M., Kasno, A., Adriany, T. A., Fatma, Y. S., Nababan, A. F., and Rivaie, A. A.

Subjects

ZINC fertilizers, SYNTHETIC fertilizers, SERRATIA marcescens, PADDY fields, ZINC compounds, INCEPTISOLS, BIOFERTILIZERS

Abstract

BACKGROUND AND OBJECTIVES: Zinc deficiency is a significant global health concern, affecting around two billion people due to insufficient dietary intake. The extensive utilization of cereal-based meals with inadequate zinc content and limited bioavailability stands as the primary cause for this issue. Children who possess low levels of zinc experience stunted growth and developmental delays. They also have higher rates of morbidity from pneumonia, diarrhoea, and malaria. Inadequate zinc intake has been correlated with a heightened risk of mortality in children due to specific diseases. It is crucial to secure a satisfactory level of zinc in rice grains because of its indispensable function in various biochemical processes that are fundamental for the growth and advancement of plants. A deficiency in zinc can lead to reduced grain yield and nutritional value in rice. Recently, the utilization of registered biofertilizers and microbial technology is widely recognized in contemporary intensive farming practices. Some indigenous zinc-solubilizing bacterial strains discovered can increase rice yield and zinc content in grains. The objective of this study was to impact of a biofertilizer formula consisting of native zinc solubilizer strains on the growth, productivity, and zinc concentration in the grains of three rice varieties, namely Inpari IR Nutrizinc, Inpari 48, and Inpago 13 Fortiz. The study was conducted in a paddy field located in the Inceptisol of Subang Regency, West Java, during the year 2023. METHODS: The field trial was conducted to study the impact of a biofertilizer comprising a group of non-pathogenic zinc-solubilizing bacteria, including Enterobacter cloacae, Klebsiella pneumoniae, Serratia marcescens, Bacillus thuringiensis, and Enterobacter bugandensis on rice growth, yield, zinc levels, and uptake in grains. The rhizosphere soils were the origin of these bacteria, which were obtained using agar media containing zinc oxide as insoluble zinc compounds. Prior to this, the bacterial strains were evaluated for their capacity to dissolve zinc and generate the plant hormone indole-3-acetic acid. To gauge their zinc-solubilizing prowess, Pikovskaya agar media, supplemented with insoluble zinc oxide and calcium phosphate, respectively, were utilized. The presence of distinct clear areas surrounding the colonies demonstrated the effectiveness of the microbes in converting insoluble zinc and phosphorus into soluble forms. The concentration of the plant hormone indole-3-acetic acid was measured using the Salkowski reagent. The field trial was organized using a split-plot design with three replications. The application of the biofertilizer mixture as a seed treatment was carried out before the transplantation of the rice nursery. The seedlings were prepared individually for each rice variety, with a comparison made between those treated with the biofertilizer and those that were not. FINDINGS: The study found that the consortium of indigenous non-pathogenic zinc-solubilizing bacteria significantly increased the yield of rice varieties by about 5.6 percent and zinc content in grains by 16.3 percent. However, the application of zinc containing fertilizer treatments did not enhance the rice yield and zinc content in grains in this Inceptisol paddy soil. In terms of zinc content in grains, the rice variety Inpago 13 Fortiz exhibited a notable increase compared to the Inpari IR Nutrizinc variety, with levels of 40.3 milligrams per kilogram as opposed to 34.1 milligrams per kilogram. CONCLUSION: the utilization of a native combination of carefully chosen zinc-solubilizing bacterial strains could augment the productivity, zinc concentration, and absorption in rice grains of various varieties in a paddy field with Inceptisols soil type, characterized by a moderate to high overall zinc content and limited zinc accessibility. The addition of zinc containing fertilizer treatments did not enhance rice yield compared to the addition of other tratments or control. This is probably because of the medium-high level of the total zinc content of the soil, suggesting that the addition of Biofertizinc will reduce or delete the crop requirement for zinc fertilizer in Inceptisol paddy fields. This implies that the biofertilizer is ecologically sustainable as it eliminates the use of harmful chemicals, reduces the reliance on synthetic fertilizers, and lowers costs. [ABSTRACT FROM AUTHOR]

Published

2024

17. Response of Plant Endophyte Communities to Heavy Metal Stress and Plant Growth Promotion by the Endophyte Serratia marcescens (Strain JG1).

Author

Liu, Jiayi, Liu, Chao, Zheng, Jiaxin, Zhang, Xiaoxia, Zheng, Kang, and Zhuang, Jiayao

Subjects

HEAVY metal toxicology, HEAVY metals, METAL tailings, SERRATIA marcescens, PLANT metabolism, ENDOPHYTES

Abstract

Effects of heavy metals on soil microbial communities have been extensively studied due to their persistence in the environment and imposed threats to living organisms; however, there is a lack of in-depth studies of the impacts of heavy metals on plant endophyte communities. Therefore, the responses of plant endophyte communities to different concentrations of heavy metals were investigated in this study. The endophyte communities of plants existing in severely (W1, Pb, 110.49 mg/kg, Cd, 1.11 mg/kg), moderately (W2, Pb, 55.06 mg/kg, Cd, 0.48 mg/kg), and mildly (W3, Pb, 39.06 mg/kg, Cd, 0.20 mg/kg) contaminated soils were analyzed by 16s rRNA high-throughput Illumina sequencing. Furthermore, networks were constructed to illustrate the relationships between microorganisms and environmental factors. High-quality sequences were clustered at a 97% similarity level. Results revealed that the diversity of the community and relative abundance of Cyanobacteria phylum increased with decreasing levels of pollution. Cyanobacteria and Proteobacteria were found to be the dominant phylum, while Methylobacterium and Sphingomonas were observed as the dominant genus. Tukey's HSD test showed that the relative abundances of Cyanobacteria and Proteobacteria phyla and Methylobacterium and Sphingomonas genera differed significantly (p < 0.01) among the plants of the three sample sites. Environmental factor analysis revealed a significant negative correlation (p < 0.01) of Cyanobacteria and a significant positive correlation (p < 0.01) of Methylobacterium with the heavy metal content in the environment. These findings suggest that Cyanobacteria and Methylobacterium may be phylum and genus indicators, respectively, of heavy metal toxicity. Tax4Fun analysis showed the effect of heavy metal toxicity on the abundance of genes involved in plant metabolism. In addition, culturable endophytic strains were isolated to study their resistance to heavy metal stress and their ability to promote plant growth. The potting tests showed that the JG1 strain was tolerant to heavy metals, and it could significantly promote the growth of the host plant under stress caused by multiple heavy metals. Compared to the control, the JG1-treated plants showed a 23.14% increase in height and a 12.84% increase in biomass. Moreover, AP, AK, and HN contents in JG1-treated plants were 20.87%, 12.55%, and 9.03% higher, respectively, under heavy metal stress. The results of this study provide a scientific basis for the construction of an efficient plant endophyte restoration system. [ABSTRACT FROM AUTHOR]

Published

2024

18. Effectiveness of Essential Oil Component Cocrystals Against Food Spoilage Bacteria.

Author

Montisci, Fabio, Menicucci, Felicia, Carraro, Claudia, Prencipe, Michele, Pelagatti, Paolo, Ienco, Andrea, Palagano, Eleonora, Raio, Aida, Michelozzi, Marco, Mazzeo, Paolo P., and Bacchi, Alessia

Subjects

FOOD spoilage, FOOD preservation, MELTING points, SERRATIA marcescens, PSEUDOMONAS fluorescens, ENTEROBACTER cloacae

Abstract

Improving food preservation technologies is a key aspect in the struggle to reduce global food waste, and natural antimicrobial substances, such as essential oil (EO) components represent very promising food preserving agent. However, their intrinsic chemico‐physical properties, such as the low melting point, low water solubility and high volatility, pose some practical difficulties in exploiting them for practical applications. Cocrystallization is used to stabilize liquid or volatile EO components providing them whit a crystalline environment, thus improving their potential application as antibacterial agents. Five EO active ingredients (THY = thymol, CAR = carvacrol, EUG = eugenol, CAD = trans‐cinnamaldehyde, and VAN = o‐vanillin) and two coformers (INA = Isonicotinamide, and HBA = 4‐hydroxybenzoic acid) have been combined and the corresponding cocrystals have been studied for their potential inhibiting effect against four food spoilage bacteria (Bacillus thuringiensis, Enterobacter cloacae, Pseudomonas fluorescens, and Serratia marcescens). The structures of the five cocrystals have been used to derive structure‐activity relationships in terms of release energy of the active ingredients form the crystalline environment, and a correlation has been derived with the Intermolecular Interaction Energies of the EO molecules. [ABSTRACT FROM AUTHOR]

Published

2024

19. Antibiotic Treatment of Infections Caused by AmpC-Producing Enterobacterales.

Author

Tebano, Gianpiero, Zaghi, Irene, Cricca, Monica, and Cristini, Francesco

Subjects

CITROBACTER freundii, THIRD generation cephalosporins, ENTEROBACTER cloacae, SERRATIA marcescens, GRAM-negative bacteria

Abstract

AmpC enzymes are a class of beta-lactamases produced by Gram-negative bacteria, including several Enterobacterales. When produced in sufficient amounts, AmpCs can hydrolyze third-generation cephalosporins (3GCs) and piperacillin/tazobactam, causing resistance. In Enterobacterales, the AmpC gene can be chromosomal- or plasmid-encoded. Some species, particularly Enterobacter cloacae complex, Klebsiella aerogenes, and Citrobacter freundii, harbor an inducible chromosomal AmpC gene. The expression of this gene can be derepressed during treatment with a beta-lactam, leading to AmpC overproduction and the consequent emergence of resistance to 3GCs and piperacillin/tazobactam during treatment. Because of this phenomenon, the use of carbapenems or cefepime is considered a safer option when treating these pathogens. However, many areas of uncertainty persist, including the risk of derepression related to each beta-lactam; the role of piperacillin/tazobactam compared to cefepime; the best option for severe or difficult-to-treat cases, such as high-inoculum infections (e.g., ventilator-associated pneumonia and undrainable abscesses); the role of de-escalation once clinical stability is obtained; and the best treatment for species with a lower risk of derepression during treatment (e.g., Serratia marcescens and Morganella morganii). The aim of this review is to collate the most relevant information about the microbiological properties of and therapeutic approach to AmpC-producing Enterobacterales in order to inform daily clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

20. Optimization, purification and characterization of extracellular lipase produced by Serratia marcescens EGHK-19.

Author

Issa, Heba Kamal, Abou Dobara, Mohamed I., El-Sayed, Ahmed K. A., and El-Bana, Magdy I.

Subjects

HYDROLASES, SERRATIA marcescens, TRITON X-100, COLUMN chromatography, POLLUTANTS, LIPASES

Abstract

Lipases are hydrolytic enzymes which have significant potential for commercial applications, particularly in the breakdown of oil contaminants. Serratia marcescens EGHK-19 isolate exhibited considerable lipase activity. This study investigates the optimization, purification, and characterization of lipase from the Serratia marcescens EGHK-19 isolate. The optimized culture conditions revealed that maximal lipase activity was achieved after 24 hours at 30°C and pH 7, with continuous shaking at 150 rpm. Utilizing a 2% inoculum percentage with 1% diesel and 0.3% tryptone in the presence of Fe2+, Ca2+, Mg2+ salts, and Tween 80 resulted in the highest activity at 17.278 U/ml/min. The purification process involved acetone precipitation and DEAE-Sephadex column chromatography, revealing a molecular weight of approximately 60 kDa on SDS-PAGE. This method exhibited a 0.985-fold purification, and the final yield was limited to 2.097% due to lipase aggregates. Characterization of the purified lipase indicated optimal activity (8.765 U/mL/min) at 40°C a nd p H 7. T he K m a nd V max values w ere c alculated a s 6 .89 m M a nd 6 5.79 µmol/min, respectively. The presence of SDS, Tween 80, and Triton X-100 surfactants resulted in the inhibition of lipase activity. Despite these insuggestss, the biochemical characteristics of the purified lipase suggest its potential as an excellent candidate for various industrial applications. [ABSTRACT FROM AUTHOR]

Published

2024

21. Bioconjugation of Serratiopeptidase with Titanium Oxide Nanoparticles: Improving Stability and Antibacterial Properties.

Author

Melchor-Moncada, Jhon Jairo, Vasquez-Giraldo, Santiago, Zuluaga-Vélez, Augusto, Orozco, Lina Marcela, Veloza, Luz Angela, and Sepúlveda-Arias, Juan Carlos

Subjects

ESCHERICHIA coli, SERRATIA marcescens, IMMOBILIZED enzymes, TITANIUM oxides, SILKWORMS

Abstract

Antimicrobial resistance (AMR) poses a significant global health threat, necessitating the development of novel antibacterial strategies. Serratiopeptidase (SP), a metalloprotease produced by bacteria such as Serratia marcescens, has gained attention not only for its anti-inflammatory properties but also for its potential antibacterial activity. However, its protein nature makes it susceptible to pH changes and self-proteolysis, limiting its effectiveness. This study aimed to increase both the enzymatic stability and antibacterial activity of serratiopeptidase through immobilization on titanium oxide nanoparticles (TiO2-NPs), leveraging the biocompatibility and stability of these nanomaterials. Commercial TiO2-NPs were characterized using TGA/DTG, FT-IR, UV–Vis, and XRD analyses, and their biocompatibility was assessed through cytotoxicity studies. Serratiopeptidase was produced via fermentation using the C8 isolate of Serratia marcescens obtained from the intestine of Bombyx mori L., purified chromatographically, and immobilized on carboxylated nanoparticles via EDC/NHS coupling at various pH conditions. The optimal enzymatic activity was achieved by using pH 5.1 for nanoparticle activation and pH 5.5 for enzyme coupling. The resulting bioconjugate demonstrated stable proteolytic activity at 25 °C for 48 h. Immobilization was confirmed by FT-IR spectroscopy, and the Michaelis–Menten kinetics were determined. Notably, the bioconjugate exhibited two-fold greater antibacterial activity against E. coli than the free enzyme or TiO2-NPs at 1000 µg/mL. This study successfully developed a serratiopeptidase–TiO2 bioconjugate with enhanced enzymatic stability and antibacterial properties. The improved antibacterial activity of the immobilized enzyme presents a promising approach for developing new tools to combat antimicrobial resistance, with potential applications in healthcare, food safety, and environmental protection. [ABSTRACT FROM AUTHOR]

Published

2024

22. Anti-infective potential of the endophytic fungus Aspergillus sp. associated with Aptenia cordifolia root supported by metabolomics analysis and docking studies.

Author

Yousef, Miram Magdy, Abdelhafez, Omnia Hesham, Alsenani, Faisl, Al Mouslem, Abdulaziz K., Hisham, Mohamed, El Zawily, Amr, P. Glaeser, Stefanie, Kämpfer, Peter, Abdelmohsen, Usama Ramadan, and El-Katatnye, Mo'men Hamed

Subjects

MOLECULAR docking, ASPERGILLUS flavus, ASPERGILLUS niger, SERRATIA marcescens, BACILLUS cereus, ENDOPHYTIC fungi

Abstract

Endophytic fungi are known to be a rich source for anti-infective drugs. In this study, Aptenia cordifolia associated endophytic fungi were explored for the first time. Seven isolates were identified morphologically followed by screening of these fungi by plug diffusion assay which revealed their potential activity against Staphylococcus aureus (ATCC 9144), Bacillus cereus (ATCC 14579), Serratia marcescens (ATCC 14756), Fusarium oxysporum (ATCC 48112), and Aspergillus flavus (ATCC 22546). Additionally, the crude ethyl acetate extract of the most potent three isolates in plug diffusion assay showed that Aspergillus sp. ACEFR2 was the most potent as anti-infective in disc diffusion assay; Accordingly, Aspergillus sp. ACEFR2 was investigated using phylogenetic analysis and LC-HR-ESI-MS. The phylogenetic analysis placed the strain into the Aspergillus section Niger close related to few species including A. niger. Whereas the metabolomic profiling revealed the presence of diverse pool of metabolites. Furthermore, in silico molecular docking study was carried out to predict which compounds most likely responsible for the anti-infective activity. [ABSTRACT FROM AUTHOR]

Published

2024

23. A Hybrid Nanocomposite of Silver Nanoparticles Embedded with End-of-Life Battery-Derived Sheets-Like Nitrogen and Sulfur-Doped Reduced-Graphene Oxide for Water Treatment and Antimicrobial Applications.

Author

Abdel-Rahim, Rabeea D., Al-Ansari, Sherkawi H., Ali, Gomaa A. M., Hassane, Abdallah M. A., Kamoun, Elbadawy A., Gomaa, Hassanien, and Nagiub, Adham M.

Subjects

METHYLENE blue, WATER purification, SERRATIA marcescens, GRAM-negative bacteria, ENVIRONMENTAL remediation

Abstract

The study successfully produced a hybrid nanocomposite of silver nanoparticles embedded with end-of-life battery-derived sheets-like nitrogen and sulfur-doped reduced-graphene oxide (AgNPs@NSG), which was utilized to remove methylene blue (MB) and paracetamol (PC) from aqueous solutions. The AgNPs@NSG nanocomposite was analyzed using various techniques. Several conditions, including pH value, adsorbent dose, initial concentration, and contact time, were studied to improve the removal efficiency of MB and PC. The pseudo-second-order model was the best fit for both MB and PC adsorption kinetics. The Langmuir model effectively described the experimental data for the adsorption isotherm, with maximum adsorption capacities of 61.72 and 52.6 mg/g for MB and PC, respectively, at room temperature. Additionally, the AgNPs@NSG nanocomposite demonstrated promising antibacterial activity against Gram-positive and Gram-negative bacteria. The nanocomposite showed inhibition zone diameters of 12.00 mm for Bacillus subtilis, 10.33 mm for Staphylococcus aureus, 9.67 mm for Streptococcus mutans, 10.00 mm for Escherichia coli, 11.33 mm for Proteus vulgaris, 9.67 mm for Serratia marcescens, and 10.67 mm for Vibrio parahaemolyticus. These results indicate the potential of AgNPs@NSG for reducing microorganism infections, especially in wastewater treatment. Overall, this study presents a simple and cost-effective process for producing an efficient material to remove harmful pollutants from wastewater. It also demonstrates its additional antimicrobial properties, highlighting its potential for versatile applications in environmental cleanup and infection control. [ABSTRACT FROM AUTHOR]

Published

2024

24. Late Subcutaneous Infection Caused by Serratia marcescens Following Hyaluronic Acid Injection: A Case Report and Systemic Review.

Author

Zhang, Yihan, Lyu, Yansi, Lin, Tingyin, Chen, Luotai, Liu, Zhuolin, Ou, Yanting, Xu, Xiangwen, Wu, Mengfan, Luo, Lin, Feng, Jun, and Liu, Dandan

Subjects

*SERRATIA marcescens, *HYALURONIC acid, *SKIN infections, *SYMPTOMS, *DATA extraction

Abstract

ABSTRACT Background Aims Patients/Methods Results Conclusions The field of cosmetic filler injection has experienced rapid development over the past two decades, especially in facial augmentation utilizing hyaluronic acid (HA) fillers. Gram‐negative bacteria are found to be the main pathogens of infective nodules after HA injection. The occurrence of cutaneous infections attributed to Serratia marcescens is exceedingly rare and predominantly noted in patients with compromised immune systems.To summarize the clinical features, diagnosis, and treatment of subcutaneous infection caused by Serratia marcescens following hyaluronic acid injection.A rare case of cutaneous Serratia marcescens infection following hyaluronic acid injection was presented. A comprehensive review of the published literature describing the management of skin infection caused by S. marcescens in immunocompetent patients was then conducted, which encompassed three case series and eight case reports published between 1999 and 2017. Data extraction included information on authors, gender, age, signs and symptoms, previous treatment, corresponding management strategies, and follow‐up duration.Serratia marcescens were isolated in abscesses (n = 6, 35.29%), painful nodules (n = 2, 11.76%), ulcers (n = 6, 35.29%), and others (n = 3, 17.65%). In cases providing salvage plans (n = 11), quinolones were shown to be the most effective antibiotics for salvage, with eight full recoveries (72.73%), and trimethoprim‐sulfamethoxazole was the second most useful antibiotic (18.18%).With the help of pathogen examination and drug‐sensitive tests, sensitive aminoglycosides, quinolone (especially moxifloxacin), or TMP‐SMX for at least 2 weeks can be considered as the first‐line treatment of late subcutaneous infection caused by Serratia marcescens following hyaluronic acid injection. [ABSTRACT FROM AUTHOR]

Published

2024

25. Unveiling the Neem (Azadirachta indica) Effects on Biofilm Formation of Food-Borne Bacteria and the Potential Mechanism Using a Molecular Docking Approach.

Author

Mahmoud, Ghada Abd-Elmonsef, Rashed, Nahed M., El-Ganainy, Sherif M., and Salem, Shimaa H.

Subjects

DNA topoisomerase II, SERRATIA marcescens, MOLECULAR docking, KLEBSIELLA pneumoniae, MICROSCOPES

Abstract

Biofilms currently represent the most prevalent bacterial lifestyle, enabling them to resist environmental stress and antibacterial drugs. Natural antibacterial agents could be a safe solution for controlling bacterial biofilms in food industries without affecting human health and environmental safety. A methanolic extract of Azadirachta indica (neem) leaves was prepared and analyzed using gas chromatography–mass spectrometry for the identification of its phytochemical constituents. Four food-borne bacterial pathogens (Bacillus cereus, Novosphingobium aromaticivorans, Klebsiella pneumoniae, and Serratia marcescens) were tested for biofilm formation qualitatively and quantitatively. The antibacterial and antibiofilm properties of the extract were estimated using liquid cultures and a microtiter plate assay. The biofilm inhibition mechanisms were investigated using a light microscope and molecular docking technique. The methanolic extract contained 45 identified compounds, including fatty acids, ester, phenols, flavonoids, terpenes, steroids, and antioxidants with antimicrobial, anticancer, and anti-inflammatory properties. Substantial antibacterial activity in relation to the extract was recorded, especially at 100 μg/mL against K. pneumoniae and S. marcescens. The extract inhibited biofilm formation at 100 μg/mL by 83.83% (S. marcescens), 73.12% (K. pneumoniae), and 54.4% (N. aromaticivorans). The results indicate efficient biofilm formation by the Gram-negative bacteria S. marcescens, K. pneumoniae, and N. aromaticivorans, giving 0.74, 0.292, and 0.219 OD at 595 nm, respectively, while B. cereus was found to have a low biofilm formation potential, i.e., 0.14 OD at 595 nm. The light microscope technique shows the antibiofilm activities with the biofilm almost disappearing at 75 μg/mL and 100 μg/mL concentrations. This antibiofilm property was attributed to DNA gyrase inhibition as illustrated by the molecular docking approach. [ABSTRACT FROM AUTHOR]

Published

2024

26. Detection of pathogenic bacteria in retailed shrimp from Bangladesh.

Author

Khan, Murshida, Rahman, Md. Mahbubur, Paul, Sulav Indra, and Lively, Julie Anderson

Subjects

*PENAEUS monodon, *ESCHERICHIA coli, *MACROBRACHIUM rosenbergii, *CITROBACTER freundii, *SERRATIA marcescens

Abstract

The presence of pathogenic bacteria is a problem that might be present in farmed shrimp due to exposure in the environment or post‐harvest handling. Retail farmed shrimp in Bangladesh (Penaeus monodon and Macrobrachium rosenbergii) were tested for common pathogenic bacteria namely Salmonella, L. monocytogenes, Vibrio spp., and E. coli. None of these bacteria were found and instead Enterobacter cloacae, Escherichia fergusonii, Proteus penneri, Klebsiella aerogenes, Enterococcus faecalis, Serratia marcescens, Citrobacter freundii, and Aeromonas dhakensis were detected. Pathogenic bacteria found in Bangladeshi shrimp may be due to the farm environment, poor handling during harvest or post‐harvest, or unhygienic market conditions. The results indicate that retail shrimp from Bangladesh have food safety concerns. Proper laws and policies need to be enforced and implemented to ensure food safety related to fish and shrimp. [ABSTRACT FROM AUTHOR]

Published

2024

27. Antibacterial Activities and Chemical Composition of Essential Oils from Sweet Orange (Citrus sinensis), Lemon Grass (Cymbopogon citratus), and Lime (Citrus aurantifolia) Peels.

Author

Omoboye, Olumide, Sotala, Toyosi, Balogun, Olaoye, Bamigbade, Ololade, Oluwole, Olusola, Odeyemi, Adebowale, and Oluduro, Anthonia

Subjects

*LEMONGRASS, *CYMBOPOGON, *GEOBACILLUS stearothermophilus, *GAS chromatography/Mass spectrometry (GC-MS), *SERRATIA marcescens

Abstract

This study investigated the chemical composition and antibacterial activities of lime Citrus aurantifolia (Cc) and lemon grass Cymbopogon citratus (Ca) essential oils (EOs). Standard methods were used to determine their minimum inhibitory concentrations (MIC) and minimum bactericidal concentrations (MBC), and gas chromatography-mass spectrometry was used to determine their composition. Each EO and their combination showed promising results in treating test bacterial infections. Cc EO showed the largest inhibition zone diameter (43 mm) against Staphylococcus aureus and Serratia marcescens, and Ca EO showed the largest (30 mm) and smallest (12 mm) inhibition zone diameters against Bacillus stearothermophilus and S. marcescens, respectively. The combination of Cc EO and Ca EO (1:1) resulted in the largest (45 mm) and smallest (8 mm) inhibition zone diameters against Klebsiella pneumoniae and Salmonella typhimurium, respectively. The MIC of Cc EO ranged from 0.78% to 6.25%, and its MBC ranged from 3.13% to 12.50%. The MIC and MBC of combined Cc EO and Ca EO ranged from 0.78% to 6.25% and from 1.56% to 12.5%, respectively. The major components of Cc EO and Ca EO were neral (44.98%) and D-limonene (56.02%). Overall, the combination of lime and lemon grass EOs performed well compared to streptomycin, making them suitable for treating test bacterial infections. [ABSTRACT FROM AUTHOR]

Published

2024

28. Enhanced bioremediation of soils contaminated with nicosulfuron using the bacterial complex A12.

Author

Wang, Siya, Dong, Meiqi, Xiao, Yufeng, Yang, Bingbing, Zhang, Hao, and Wu, Xian

Subjects

*SERRATIA marcescens, *CROPS, *SOIL remediation, *BACILLUS cereus, *RESPONSE surfaces (Statistics)

Abstract

Aims To construct an efficient bacterial complex to degrade nicosulfuron and clarify its degradative characteristics, promote the growth of maize (Zea mays), and provide a theoretical foundation for the efficient remediation of soil contaminated with nicosulfuron. Methods and results Biocompatibility was determined by the filter paper sheet method by mixing Serratia marcescens A1 and Bacillus cereus A2 in a 1:1 ratio, yielding A12. The optimum culture conditions for the bacterial composite were obtained based on a three-factor, three-level analysis using response surface methodology, with 29.25 g l−1 for maltodextrin, 10.04 g l−1 for yeast extract, and 19.93 g l−1 for NaCl, which resulted in 92.42% degradation at 4 d. The degradation characteristics of A12 were clarified as follows: temperature 30°C, pH 7, initial concentration of nicosulfuron 20 mg l−1, and 4% inoculum. The ability to promote growth was determined by measuring the ratio of the lysosphere diameter (D) to the colony diameter (d), and the ability of the complex A12 to promote growth was higher than that of the two single strains. Conclusions Nicosulfuron degradation in sterilized and unsterilized soils reached 85.4% and 91.2% within 28 d, respectively. The ability of the strains to colonize the soil was determined by extraction of total soil DNA, primer design, and gel electrophoresis. The bioremediation effect of A12 was confirmed by the maximum recovery of fresh weight (124.35%) of nicosulfuron-sensitive crop plants and the significant recovery of soil enzyme activities, as measured by the physiological indices in the sensitive plants. [ABSTRACT FROM AUTHOR]

Published

2024

29. The Effect of Trichomonas vaginalis and some Urogenital Bacteria on Male Fertility in Maysan Province, Iraq.

Author

Jabr, U. A., Alsaady, H. A. M., and Aziz, Z. S.

Subjects

*ENTEROBACTER aerogenes, *BURKHOLDERIA cepacia, *TRICHOMONAS vaginalis, *SERRATIA marcescens, *PSEUDOMONAS putida, *SEMEN

Abstract

Trichomonas vaginalis and associated bacteria are important urogenital pathogens. This study aimed to investigate the effect of T. vaginalis and its associated bacteria on semen and sperm parameters related to male fertility. Urine and semen samples were collected from 97 males, whose ages between 18-50 years. Semen and sperm parameters, such as semen volume, sperm count, sperm concentration, sperm motility, leucocytes/pus cells, and erythrocytes, were evaluated according to the WHO instructions. Conventional-PCR and real-time quantitative PCR were used to detect T. vaginalis infection. Amie's-transport, blood-agar, MacConkey-agar, Chocolate-agar, Thayer-Martin-agar, and Mannitol-salt-agar were used to culture bacteria in urine, and the Vitek2 system was used to differentiate bacteria. Samples that showed positive microscopic examination for bacteria but were not culturable were diagnosed using PCR. T. vaginalis and bacterial infection rates were 31.8% and 17.5%, respectively. T. vaginalis, bacteria, and both together caused a decrease in some qualitative and quantitative parameters of semen and sperm such as a decline in sperm total count by 46.5, 63.46, and 65.67% respectively, sperm concentration by 6.27, 15.37, and 44.27% respectively, sperm motility by 67.63, 66.18 and 66.75% respectively, semen volume by 42.2, 36.4 and 63.86% respectively. They caused increases of 100.92, 16.89, and 84.56%, respectively, and sperm death by 36.58, 80.0%, 93%, and 60.77%, respectively. In addition, they caused an increase in WBCs/pus cells and RBCs in the semen and urine. Four bacteria species, Pantoea spp., Sphingomonas paucimobilis, Staphylococcus aureus, Methylobacterium spp. were detected in urine, and 10 species, Enterobacter aerogenes, Serratia marcescens, Pseudomonas putida, Sphingomonas paucimobilis, Aeromonas sobria, Burkholderia cepacia, Staphylococcus aureus, Aerococcus viridans, Pseudomonas androgens and Staphylococcus epidermidis were detected in semen. In addition, PCR identified three unculturable species: one in urine (Holomonas spp.), and two in semen (Lactobacillus jensenii and Holomonas spp.), S. aureus had the highest frequency in urine and semen of (32%). [ABSTRACT FROM AUTHOR]

Published

2024

30. In-vitro Isolation of Serratia marcescens and Computational Analysis of Lipase-Chitinase as a Hybrid Enzyme for the Degradation of Fungicides to Sustain the Ecosystem.

Author

Naveed, Muhammad, Iqbal, Fatima, Aziz, Tariq, Waseem, Muhammad, Hassan, Zainab, Arooj, Rabia, Abid, Amina, Alasmari, Abdullah F., and Alshammari, Abdulrahman

Subjects

*AGRICULTURAL pests, *SERRATIA marcescens, *FUNGICIDES, *DISEASE outbreaks, *ENVIRONMENTAL risk

Abstract

The application of fungicides for commercial purposes has grown in response to increased food demand and shifting disease patterns. However, there is a scarcity of studies demonstrating their proper degradation. Due to the expanding global population, there is a heightened need for more agriculture to fulfill the growing demand for food, and this necessitates safeguarding crops from pests and diseases. Disease outbreaks in crops can result in the loss of food and the depletion of valuable resources. According to the European Union, organic fungicides constitute 60% of all fungicide sales, while synthetic fungicides make up the remaining 40% of pesticide sales. Fungicide usage is indispensable but needs to be considered within the context of potential environmental risks. Nonetheless, there is a pressing need to break down fungicides to preserve the natural environment. Our research is centered on hybrid enzymes derived from S. marcescens, which exhibit the capability to degrade fungicides. We employed computational techniques to assess the enzymes' effectiveness in breaking down fungicides. S. marcescens was isolated from soil and identified through 16s rRNA analysis. Chitanase and lipase, enzymes identified in S. marcescens, can individually break down fungicides, as confirmed by auto-dock vina docking simulations. Notably, the combined action of these two enzymes surpasses the performance of individual docking, a result also corroborated by auto-dock vina. To further establish the efficacy and degradability of this approach, computational techniques were employed. In the future, it may be possible to create an in vitro antifungal agent, which could be categorized as a bioactive agent. Hybrid enzymes derived from Serratia marcescens demonstrate superior fungicide degradation compared to individual enzymes. Computational simulations reveal enhanced effectiveness of combined lipase and chitinase enzymes. This study supports the potential development of in vitro antifungal bioactive agents. [ABSTRACT FROM AUTHOR]

Published

2024

31. Probing the interaction between the metallo‐β‐lactamase SMB‐1 and ampicillin by multispectral approaches combined with molecular dynamics.

Author

Li, Jiachen, Dong, Xiaoting, and Zhang, Yeli

Subjects

*MOLECULAR spectroscopy, *CIRCULAR dichroism, *MOLECULAR spectra, *MOLECULAR dynamics, *SERRATIA marcescens

Abstract

Metallo‐β‐lactamases (MβLs) hydrolyze and inactivate β‐lactam antibiotics, are a pivotal mechanism conferring resistance against bacterial infections. SMB‐1, a novel B3 subclass of MβLs from Serratia marcescens could deactivate almost all β‐lactam antibiotics including ampicillin (AMP), which has posed a serious threat to public health. To illuminate the mechanism of recognition and interaction between SMB‐1 and AMP, various fluorescence spectroscopy techniques and molecular dynamics simulation were employed. The results of quenching spectroscopy unraveled that AMP could make SMB‐1 fluorescence quenching that mechanism was the static quenching; the synchronous and three‐dimensional fluorescence spectra validated that the microenvironment and conformation of SMB‐1 were altered after interaction with AMP. The molecular dynamics results demonstrated that the whole AMP enters the binding pocket of SMB‐1, even though with a relatively bulky R1 side chain. Loop1 and loop2 in SMB‐1 undergo significant fluctuations, and α2 (71–73) and local α5 (186–188) were turned into random coils, promoting zinc ion exposure consistent with circular dichroism spectroscopy results. The binding between them was driven by a combination of enthalpy and entropy changes, which was dominated by electrostatic force in agreement with the fluorescence observations. The present study brings structural insights and solid foundations for the design of new substrates for β‐lactamases and the development of effective antibiotics that are resistant to superbugs. [ABSTRACT FROM AUTHOR]

Published

2024

32. Hospital water environment and antibiotic use: key factors in a nosocomial outbreak of carbapenemase-producing Serratia marcescens.

Author

Kim, U.J., Choi, S-M., Kim, M.J., Kim, S., Shin, S.U., Oh, S-R., Park, J-W., Shin, H.Y., Kim, Y.J., Lee, U.H., Choi, O-J., Park, H-Y., Shin, J-H., Kim, S.E., Kang, S-J., Jung, S.I., and Park, K-H.

Abstract

The healthcare water environment is a potential reservoir of carbapenem-resistant organisms (CROs). To report the role of the water environment as a reservoir and the infection control measures applied to suppress a prolonged outbreak of Klebsiella pneumoniae carbapenemase-producing Serratia marcescens (KPC-SM) in two intensive care units (ICUs). The outbreak occurred in the ICUs of a tertiary hospital from October 2020 to July 2021. Comprehensive patient contact tracing and environmental assessments were conducted, and a case–control study was performed to identify factors associated with the acquisition of KPC-SM. Associations among isolates were assessed via pulsed-field gel electrophoresis (PFGE). Antibiotic usage was analysed. The outbreak consisted of two waves involving a total of 30 patients with KPC-SM. Multiple environmental cultures identified KPC-SM in a sink, a dirty utility room, and a communal bathroom shared by the ICUs, together with the waste bucket of a continuous renal replacement therapy (CRRT) system. The genetic similarity of the KPC-SM isolates from patients and the environment was confirmed by PFGE. A retrospective review of 30 cases identified that the use of CRRT and antibiotics was associated with acquisition of KPC-SM (P < 0.05). There was a continuous increase in the use of carbapenems; notably, the use of colistin has increased since 2019. Our study demonstrates that CRRT systems, along with other hospital water environments, are significant potential sources of resistant micro-organisms, underscoring the necessity of enhancing infection control practices in these areas. [ABSTRACT FROM AUTHOR]

Published

2024

33. Harnessing piperine for enhanced antimicrobial activity of carbon dot-modified cellulose fibers.

Author

Ravindran, Sreeshna, Khan, Danyah, Khodja, Abdelhamid, Terro, Tala, Radha, Remya, Diab, Rasha, Ialyshev, Vadim, and Al-Sayah, Mohammad H.

Abstract

Microbial infections are a global health challenge often treated with antibiotics, but their overuse can lead to antibiotic resistance. To address this, there is a need for more efficient personal protective equipment (PPE) with novel antimicrobial techniques. One such technique involves using carbon dots (CDs) to create self-disinfecting fabrics. This study focused on synthesizing phenylboronic-acid-functionalized piperine-based carbon dots (PBA-PPCDs) and boronic acid carbon dots (BACDs) as potential antimicrobial agents. The materials were successfully synthesized using a hydrothermal method and characterized using various techniques to confirm the size, charge, fluorescence properties, and inner morphology of the CDs. The CDs showed bactericidal activity against gram-positive and gram-negative bacteria, with potent inhibition in growth especially in the presence of simulated sunlight. The antibacterial properties of the CDs were tested on cellulose discs, demonstrating strong adherence and significant inhibition of bacterial cells. The cytotoxicity studies showed that these CDs, at concentrations up to 0.1 mg/mL, and the CD-modified fibers are benign to mammalian cells, emphasizing their safety for human use. Overall, the study concluded that PBA-PPCDs and BACDs are promising candidates for modifying fibers and inducing antimicrobial activity in fabrics made of cellulose fibers.Article highlights: New self-disinfecting fabrics kill bacteria with light-activated carbon dots, no harsh chemicals needed. Self-disinfecting fabrics fight bacteria, reduce antibiotic use, and slow superbug growth. Safe and effective: Carbon dot fabrics harmless to humans, promising for PPE. [ABSTRACT FROM AUTHOR]

Published

2024

34. Antimicrobial resistance of Serratia marcescens causing blood stream infections in a large University Hospital in Bulgaria, an 8-year analysis (2016–2023).

Author

Radeva, Stephanie, Niyazi, Denis, Bozhkova, Milena, and Stoeva, Temenuga

Subjects

SERRATIA marcescens, MICROBIAL sensitivity tests, DRUG resistance in microorganisms, UNIVERSITY hospitals, CEFEPIME, CARBAPENEMS, CEFTAZIDIME

Abstract

The aim of this study is to evaluate the antimicrobial susceptibility of invasive isolates of Serratia marcescens , associated with blood stream infections (BSIs) in patients hospitalized in Varna University Hospital, Bulgaria, as well as to identify the genetic mechanisms responsible for 3rd generation cephalosporin and carbapenem-resistance among these isolates. A total of 45 consecutive S. marcescens isolates, obtained from blood cultures of 45 patients with BSIs, hospitalized during an 8-year period (2016–2023) were included. Species identification and antimicrobial susceptibility testing were done by Phoenix (BD, USA) and Vitek 2 (BioMerieux, France) systems and the results were interpreted according to EUCAST guidelines. The genetic mechanisms of beta-lactam resistance were studied by PCR. During the study period, a total of 45 patients were diagnosed with S. marcescens -associated BSIs. All infections were defined as nosocomial, predominantly intensive care unit-acquired (42.2%) and 28.8% were central venous catheter-associated. The following antimicrobial resistance rates were found: ceftriaxone, piperacillin/tazobactam, 57.8%; ceftazidime, 55.6%; cefepime, trimethoprime/sulfamethoxazole, 53.3%; gentamicin, 48.8%; ciprofloxacin, 44.5%; amikacin, 15.6%; carbapenems, 2.2%. The bla CTX-M was identified in 88.9% of the tested 3rd generation cephalosporin resistant isolates. Among these, 50% were also bla TEM positive. The single carbapenem-resistant isolate harboured bla KPC, bla CTX-M1/9, bla CMY-2 and bla TEM. This study demonstrates S. marcescens as a problematic nosocomial pathogen and we report a KPC-producing S. marcescens clinical isolate from a BSI in Bulgaria. [ABSTRACT FROM AUTHOR]

Published

2024

35. 泡菜中产β-葡萄糖昔酶植物乳杆菌的益生和酶学特性.

Author

檀茜倩, 程笑笑, 崔方超, 王当丰, 吕欣然, 俞张富, 沈荣虎, and 励建荣

Subjects

LACTIC acid bacteria, LACTOBACILLUS plantarum, SERRATIA marcescens, HYDROXYL group, ETHYL acetate

Abstract

Copyright of Journal of Chinese Institute of Food Science & Technology / Zhongguo Shipin Xuebao is the property of Journal of Chinese Institute of Food Science & Technology Periodical Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

36. In the Depths of Wash Water: Isolation of Opportunistic Bacteria from Fresh-Cut Processing Plants.

Author

Kanarek, Piotr, Breza-Boruta, Barbara, and Bogiel, Tomasz

Subjects

AEROBIC bacteria, MICROBIAL sensitivity tests, KLEBSIELLA oxytoca, WATER consumption, SERRATIA marcescens

Abstract

The fruit and vegetable industry in post-harvest processing plants is characterized by a substantial consumption of water resources. Wash waters may serve as an environment for the periodic or permanent habitation of microorganisms, particularly if biofilm forms on the inner walls of tanks and flushing channels. Despite the implementation of integrated food safety monitoring systems in numerous countries, foodborne pathogens remain a global public health and food safety concern, particularly for minimally processed food products such as vegetables and fruits. This necessitates the importance of studies that will explore wash water quality to safeguard minimally processed food against foodborne pathogen contamination. Therefore, the current study aimed to isolate and identify bacteria contaminating the wash waters of four fresh-cut processing plants (Poland) and to evaluate the phenotypic antibiotic resistance profiles in selected species. Bacteria were isolated using membrane filtration and identified through mass spectrometry, followed by antibiotic susceptibility testing according to EUCAST guidelines. The results revealed that the level of contamination with total aerobic bacteria in the water ranged from 1.30 × 106 cfu/mL to 2.54 × 108 cfu/mL. Among the isolates, opportunistic pathogens including Enterococcus faecalis, Pseudomonas aeruginosa, Klebsiella oxytoca, Klebsiella pneumoniae, Serratia marcescens, and Proteus vulgaris strains were identified. An especially noteworthy result was the identification of cefepime-resistant K. oxytoca isolates. These findings highlight the importance of monitoring the microbial microflora in minimally processed foods and the need for appropriate sanitary control procedures to minimize the risk of pathogen contamination, ensuring that products remain safe and of high quality throughout the supply chain. [ABSTRACT FROM AUTHOR]

Published

2024

37. A comprehensive analysis of the defense responses of Odontotermes formosanus (Shiraki) provides insights into the changes during Serratia marcescens infection

Author

Zhiqiang Wang, Mingyu Wang, Yujingyun Zhou, Kai Feng, and Fang Tang

Subjects

Odontotermes formosanus (Shiraki), Serratia marcescens, Transcriptome, Oxidative stress, Innate immunity, Energy metabolism, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Odontotermes formosanus (Shiraki) is a highly damaging agroforestry pest. Serratia marcescens is a broad-spectrum insecticidal pathogen and is highly lethal to O. formosanus. However, little is known about the mechanism between them. To improve the biological control of pests, a more in-depth analysis of the interactions between the pests and the pathogens is essential. Results We used RNA-seq, enzyme activity assays and real-time fluorescent quantitative PCR (qPCR) to explore the defense responses of O. formosanus against SM1. RNA-seq results showed that 1,160, 2,531 and 4,536 genes were differentially expressed at 3, 6 and 12 h after SM1 infection, and Kyoto Encyclopedia of Genes and Genomes (KEGG) results indicated that immune response and energy metabolism were involved in the defense of O. formosanus against SM1. Reactive oxygen species (ROS) levels and ROS synthesis genes were significantly elevated, and the antioxidant system were induced in O. formosanus after SM1 infection. In addition, the cellular immune genes were affected, and the Toll, immune deficiency (Imd), Janus kinase/signal transducer and activator of transcription (JAK/STAT), c-Jun N-terminal Kinase (JNK) and melanization pathways were activated. In vitro, Oftermicin, an antimicrobial peptide, had a significantly inhibitory effect on SM1. Furthermore, the expression levels and enzyme activities of phosphofructokinase (PFK), lactate dehydrogenase (LDH), succinate dehydrogenase (SDH) and isocitrate dehydrogenase (IDH) in glycolysis and tricarboxylic acid (TCA) cycles were increased. Conclusions Our results clearly demonstrated that O. formosanus defended against SM1 by activating the antioxidant system, innate immunity and energy metabolism. This study would provide useful information for the development of biological controls of O. formosanus.

Published

2024

38. Discovery of β‐nitrostyrene derivatives as potential quorum sensing inhibitors for biofilm inhibition and antivirulence factor therapeutics against Serratia marcescens

Author

Jiang Wang, Jingyi Yang, Pradeepraj Durairaj, Wei Wang, Dongyan Wei, Shi Tang, Haiqing Liu, Dayong Wang, and Ai‐Qun Jia

Subjects

biofilms, quorum sensing, Serratia marcescens, virulence factors, (E)‐1‐methyl‐4‐(2‐nitrovinyl)benzene, Microbiology, QR1-502

Abstract

Abstract Quorum sensing (QS) inhibition has emerged as a promising target for directed drug design, providing an appealing strategy for developing antimicrobials, particularly against infections caused by drug‐resistant pathogens. In this study, we designed and synthesized a total of 33 β‐nitrostyrene derivatives using 1‐nitro‐2‐phenylethane (NPe) as the lead compound, to target the facultative anaerobic bacterial pathogen Serratia marcescens. The QS‐inhibitory effects of these compounds were evaluated using S. marcescens NJ01 and the reporter strain Chromobacterium violaceum CV026. Among the 33 new β‐nitrostyrene derivatives, (E)‐1‐methyl‐4‐(2‐nitrovinyl)benzene (m‐NPe, compound 28) was proven to be a potent inhibitor that reduced biofilm formation of S. marcescens NJ01 by 79%. Scanning electron microscopy (SEM) and confocal laser scanning microscopy (CLSM) results revealed that treatment with m‐NPe (50 μg/ml) not only enhanced the susceptibility of the formed biofilms but also disrupted the architecture of biofilms by 84%. m‐NPe (50 μg/ml) decreased virulence factors in S. marcescens NJ01, reducing the activity of protease, prodigiosin, and extracellular polysaccharide (EPS) by 36%, 72%, and 52%, respectively. In S. marcescens 4547, the activities of hemolysin and EPS were reduced by 28% and 40%, respectively, outperforming the positive control, vanillic acid (VAN). The study also found that the expression levels of QS‐ and biofilm‐related genes (flhD, fimA, fimC, sodB, bsmB, pigA, pigC, and shlA) were downregulated by 1.21‐ to 2.32‐fold. Molecular dynamics analysis showed that m‐NPe could bind stably to SmaR, RhlI, RhlR, LasR, and CviR proteins in a 0.1 M sodium chloride solution. Importantly, a microscale thermophoresis (MST) test revealed that SmaR could be a target protein for the screening of a quorum sensing inhibitor (QSI) against S. marcescens. Overall, this study highlights the efficacy of m‐NPe in suppressing the virulence factors of S. marcescens, identifying it as a new potential QSI and antibiofilm agent capable of restoring or improving antimicrobial drug sensitivity.

Published

2024

39. Hosts manipulate lifestyle switch and pathogenicity heterogeneity of opportunistic pathogens in the single cell resolution.

Author

Ziguang Wang, Shuai Li, Sheng Zhang, Tianyu Zhang, Yujie Wu, Anqi Liu, Kui Wang, Xiaowen Ji, Haiqun Cao, Yinglao Zhang, Eng King Tan, Yongcheng Wang, Yirong Wang, and Wei Liu

Subjects

*HETEROGENEITY, *SERRATIA marcescens, *PATHOGENIC microorganisms, *BACTERIAL cells, *DROSOPHILA

Abstract

Host-microbe interactions are virtually bidirectional, but how the host affects their microbiome is poorly understood. Here, we report that the host is a critical modulator to regulate the lifestyle switch and pathogenicity heterogeneity of the opportunistic pathogens Serratia marcescens utilizing the Drosophila and bacterium model system. First, we find that Drosophila larvae efficiently outcompete S. marcescens and typically drive a bacterial switch from pathogenicity to commensalism toward the fly. Furthermore, Drosophila larvae reshape the transcriptomic and metabolic profiles of S. marcescens characterized by a lifestyle switch. More importantly, the host alters pathogenicity and heterogeneity of S. marcescens in the single-cell resolution. Finally, we find that larvae-derived AMPs are required to recapitulate the response of S. marcescens to larvae. Altogether, our findings provide an insight into the pivotal roles of the host in harnessing the life history and heterogeneity of symbiotic bacterial cells, advancing knowledge of the reciprocal relationships between the host and pathogen. [ABSTRACT FROM AUTHOR]

Published

2024

40. Fitness factor genes conserved within the multi-species core genome of Gram-negative Enterobacterales species contribute to bacteremia pathogenesis.

Author

Mobley, Harry L. T., Anderson, Mark T., Moricz, Bridget S., Severin, Geoffrey B., Holmes, Caitlyn L., Ottosen, Elizabeth N., Eichler, Tad, Gupta, Surbhi, Paudel, Santosh, Sinha, Ritam, Mason, Sophia, Himpsl, Stephanie D., Brown, Aric N., Gaca, Margaret, Kiser, Christina M., Clarke, Thomas H., Fouts, Derrick E., DiRita, Victor J., and Bachman, Michael A.

Subjects

*ESCHERICHIA coli, *GRAM-negative bacteria, *GENETIC testing, *CITROBACTER freundii, *SERRATIA marcescens, *BACTEREMIA

Abstract

There is a critical gap in knowledge about how Gram-negative bacterial pathogens, using survival strategies developed for other niches, cause lethal bacteremia. Facultative anaerobic species of the Enterobacterales order are the most common cause of Gram-negative bacteremia, including Escherichia coli, Klebsiella pneumoniae, Serratia marcescens, Citrobacter freundii, and Enterobacter hormaechei. Bacteremia often leads to sepsis, a life-threatening organ dysfunction resulting from unregulated immune responses to infection. Despite a lack of specialization for this host environment, Gram-negative pathogens cause nearly half of bacteremia cases annually. Based on our existing Tn-Seq fitness factor data from a murine model of bacteremia combined with comparative genomics of the five Enterobacterales species above, we prioritized 18 conserved fitness genes or operons for further characterization. Mutants were constructed for all genes in all five species. Each mutant was used to cochallenge C57BL/6 mice via tail vein injection along with each respective wild-type strain to determine competitive indices for each fitness gene. Five fitness factor genes, when mutated, attenuated mutants in four or five species in the spleen and liver (tatC, ruvA, gmhB, wzxE, arcA). Five additional fitness factor genes or operons were validated as outcompeted by wild-type in three, four, or five bacterial species in the spleen (xerC, prc, apaGH, atpG, aroC). Overall, 17 of 18 fitness factor mutants were attenuated in at least one species in the spleen or liver. Together, these findings allow for the development of a model of bacteremia pathogenesis that may include future targets of therapy against bloodstream infections. Author summary: Frequent cases of bacteremia plague our ICUs, bone marrow transplant units, and inpatient facilities. Nearly half of these infections are caused by Gram-negative bacteria. The Enterobacterales order including E. coli, K. pneumoniae, S. marcescens, C. freundii, and E. hormaechei are leading causes of bacteremia. An alarming proportion of these are due to antibiotic-resistant isolates, which are four times more likely to kill than antibiotic-susceptible isolates. Clearly, we need new therapeutic targets to treat cases of bacteremia and sepsis. Previously, it has been unclear what genes contribute to their ability to survive in this hostile host environment. We have previously undertaken unbiased genetic screens to identify genes shared by all five bacterial genera that are required for maintaining bacterial burden in the blood and blood-filtering organs. These include genes that encode proteins that maintain proton motive force, resist antimicrobial peptides and complement, mediate genome maintenance, transport key metabolites and proteins, avoid oxidative stress, acquire iron, and regulate key pathways. Mutants, constructed in these shared genes in the five species, were validated for a high proportion of genes as critical for infection in the mouse model of bacteremia. [ABSTRACT FROM AUTHOR]

Published

2024

41. Metabolomic Analyses Reveal That IAA from Serratia marcescens Lkbn100 Promotes Plant Defense during Infection of Fusarium graminearum in Sorghum.

Author

Yan, Jichen, Qi, Nawei, Xu, Jing, Hu, Lan, Jiang, Yu, and Bai, Yuanjun

Subjects

FUSARIOSIS, SERRATIA marcescens, PLANT defenses, MYCOSES, BILE acids, ROOT rots

Abstract

Global sorghum production has been significantly reduced due to the occurrence of sorghum root rot caused by the fungus Fusarium graminearum. The utilization of biocontrol microorganisms has emerged as an effective strategy. However, the underlying mechanisms remain unclear. Therefore, the aim of this study was to investigate the effectiveness of biocontrol bacteria in inducing sorghum resistance against sorghum root rot and explore the potential induced resistance mechanisms through metabolomics analysis. The results revealed that the biocontrol bacteria Lnkb100, identified as Serratia marcescens (GenBank: PP152264), significantly enhanced the resistance of sorghum against sorghum root rot and promoted its growth, leading to increased seed weight. Targeted metabolomics analysis demonstrated that the highest concentration of the hormone IAA (indole-3-acetic acid) was detected in the metabolites of Lnkb100. Treatment with IAA enhanced the activity of disease-related enzymes such as SOD, CAT, POD and PPO in sorghum, thereby improving its resistance against sorghum root rot. Further untargeted metabolomic analysis revealed that IAA treatment resulted in higher concentrations of metabolites involved in the resistance against F. graminearum, such as geniposidic acid, 5-L-Glutamyl-taurine, formononetin 7-O-glucoside-6″-O-malonate, as well as higher concentrations of the defense-related molecules volicitin and JA. Additionally, "secondary bile acid biosynthesis" and "glycerophospholipid metabolism" pathways were found to play significant roles in the defense response of sorghum against fungal infection. These findings provide a reliable theoretical basis for utilizing biocontrol microorganisms to control sorghum root rot. [ABSTRACT FROM AUTHOR]

Published

2024

42. High sugar diets can increase susceptibility to bacterial infection in Drosophila melanogaster.

Author

Darby, Andrea M., Okoro, Destiny O., Aredas, Sophia, Frank, Ashley M., Pearson, William H., Dionne, Marc S., and Lazzaro, Brian P.

Subjects

*ANTIMICROBIAL peptides, *DROSOPHILA melanogaster, *SERRATIA marcescens, *REDUCING diets, *GENETIC transcription

Abstract

Overnutrition with dietary sugar can worsen infection outcomes in diverse organisms including insects and humans, through generally unknown mechanisms. In the present study, we show that adult Drosophila melanogaster fed high-sugar diets became more susceptible to infection by the Gram-negative bacteria Providencia rettgeri and Serratia marcescens. We found that P. rettgeri and S. marcescens proliferate more rapidly in D. melanogaster fed a high-sugar diet, resulting in increased probability of host death. D. melanogaster become hyperglycemic on the high-sugar diet, and we find evidence that the extra carbon availability may promote S. marcescens growth within the host. However, we found no evidence that increased carbon availability directly supports greater P. rettgeri growth. D. melanogaster on both diets fully induce transcription of antimicrobial peptide (AMP) genes in response to infection, but D. melanogaster provided with high-sugar diets show reduced production of AMP protein. Thus, overnutrition with dietary sugar may impair host immunity at the level of AMP translation. Our results demonstrate that dietary sugar can shape infection dynamics by impacting both host and pathogen, depending on the nutritional requirements of the pathogen and by altering the physiological capacity of the host to sustain an immune response. Author summary: Diet has a critical impact on the quality of immune defense and high-sugar diets increase susceptibility to bacterial infection in many animals. Yet it is unknown which aspects of host and pathogen physiology are impacted by diet to influence infection dynamics. Here we show that high-sugar diets increase susceptibility to some bacterial infections in Drosophila. We find that feeding on high-sugar diet impairs the host immune response by reducing the level of antimicrobial peptides produced. The expression of genes encoding these peptides is not affected, so we infer that protein translation is impaired. We further show that flies on high-sugar diets are hyperglycemic, and that some pathogens may use the excess sugar in the host to promote growth during the infection. Thus, our study demonstrates that dietary impacts on infection outcome arise through physiological effects on both the host and pathogen. [ABSTRACT FROM AUTHOR]

Published

2024

43. Synergistic effect of Metarhizium flavoviride and Serratia marcescens on western flower thrips, Frankliniella occidentalis Pergande (Thysanoptera: Thripidae).

Author

Koç, Muhammed, Bekircan Eski, Duygu, Güllü, Mustafa, Demir, İsmail, and Eski, Ardahan

Subjects

*FRANKLINIELLA occidentalis, *PLANT life cycles, *SERRATIA marcescens, *HOST plants, *THRIPS, *BIOPESTICIDES, *BEAUVERIA bassiana

Abstract

Background: The western flower thrips (WFT), Frankliniella occidentalis Pergande (Thysanoptera: Thripidae), is an important polyphagous pest in both greenhouses and fields. Due to its wide range of host plants and short life cycle, the pest causes overwhelming damage and has led to the destruction of many crops. The combined use of entomopathogenic microorganisms could be an important option to overcome the difficulties in controlling WFT. The virulence of thirty local entomopathogen isolates was tested on WFT, and possibilities of combined application for WFT control were investigated. Results: All isolates were virulent for both the second larval stage and the adult stage of WFT. Serratia marcescens Se9 was the most virulent bacterial isolate with a mortality of 54 and 69.6% against the second larval and the adult stages of WFT, respectively. The LC50 values of the Se9 isolate were determined to be 4 × 106 cfu/ml for the second larval stage and 6.3 × 106 cfu/ml for the adult stage. Among the fungal isolates, Metarhizium flavoviride As18 showed a mortality rate of 92.1 and 74.5% against the second larval and the adult stages of WFT, respectively. The LC50 value was determined to be 1.6 × 104 and 7.1 × 104 conidia/ml for the second larval and adult stages of WFT, respectively. The combined application of S. marcescens Se9 and M. flavoviride As18 at different concentrations generally performed better than single treatments, indicating an additive or synergistic interaction. While the single treatment with S. marcescens and M. flavoviride caused a mortality of 20.4 and 49.5%, respectively, the combined application (S. marcescens LC25; M. flavoviride 100 × LC25) resulted in a mortality of 95.7% of the second larval stage. Similarly, the combined application caused 96% mortality in the adult stage, while the single treatments with S. marcescens and M. flavoviride caused 11.3 and 61.3% mortality, respectively. Conclusion: The study showed that the combined application of S. marcescens (LC25) and M. flavoviride (LC25 × 100) resulted in synergism against both second larval and adult stages of WFT. This is the first study to show that the combination of S. marcescens and M. flavoviride had synergistic potential to suppress the WFT population. In future studies, these microorganisms should be formulated together as biopesticides and tested under greenhouse or field conditions. [ABSTRACT FROM AUTHOR]

Published

2024

44. Ceftolozane/Tazobactam for the Treatment of Adults With Cystic Fibrosis: Results From a French Prospective Cohort Study.

Author

Burgel, Pierre-Régis, Bourge, Xavier, Mackosso, Carole, and Parquin, Francois

Subjects

*MULTIDRUG resistance in bacteria, *CYSTIC fibrosis, *SERRATIA marcescens, *GRAM-negative bacteria, *LUNG transplantation

Abstract

Background People with cystic fibrosis (pwCF) are particularly susceptible to respiratory infections, including those caused by multidrug-resistant (MDR) pathogens. Ceftolozane/tazobactam (C/T) is an antibacterial agent combination active against MDR gram-negative bacteria that has shown promising results in isolates from pwCF. This subanalysis is the first extensive observation of real-world C/T use in pwCF. Methods The multicenter observational CONDUCT study included consecutive patients, some with cystic fibrosis, who received ≥1 dose of C/T at 28 centers throughout France. Patients were treated according to hospital standards and followed up until the end of C/T treatment (EOT). Results Among 260 patients who had received ≥1 dose of C/T, 63 were pwCF, including 12 with previous lung transplant. The median age was 34 years and 55.6% of patients were female. Pseudomonas aeruginosa was the most frequently isolated pathogen (n = 40/41 [97.6%]). Most tested P aeruginosa strains (n = 65/73 [91.5%]) and all other isolated strains (Escherichia coli , Citrobacter koseri , Proteus mirabilis , and Serratia marcescens) were susceptible to C/T. Most patients completed the treatment duration, including those with historical β-lactam hypersensitivity. Reasons for stopping treatment were planned EOT and improvement in condition; overall, 88.9% of patients (n = 56/63) experienced improvement in condition. No new safety signals were identified. Mean forced expiratory volume in 1 second improved from 1.33 L to 1.47 L before and after C/T treatment, respectively (n = 52; P =.057). Conclusions C/T treatment was well tolerated and effective in pwCF, including those with previous β-lactam hypersensitivity. [ABSTRACT FROM AUTHOR]

Published

2024

45. Occurrence of blaNDM-1, blaNDM-5, blaNDM-7, and blaKPC-2 genes in clinical isolates of enterobacterales with high genetic variability, from colonization and infection in patients with or without COVID-19, from a hospital in Brazil

Author

Martins, Lamartine Rodrigues, Pimentel, Maria Izabely Silva, de Oliveira, Érica Maria, Jucá, Moacir Batista, Beltrão, Elizabeth Maria Bispo, and Lopes, Ana Catarina de Souza

Subjects

*COVID-19, *GENETIC variation, *SERRATIA marcescens, *KLEBSIELLA pneumoniae, *DRUG resistance in microorganisms

Abstract

Aims This study aimed to investigate the presence of beta-lactams resistance genes and the clonal relationship of clinical isolates of Enterobacterales obtained from patients with and without COVID-19, in a hospital in northeastern Brazil. Methods and results The study analyzed 45 carbapenem-resistant clinical isolates using enterobacterial repetitive intergenic consensus (ERIC-PCR), PCR, and amplicon sequencing to detect resistance genes (bla KPC, bla GES, bla NDM, bla VIM, and bla IMP). The main species were Klebsiella pneumoniae, Serratia marcescens , and Proteus mirabilis. Detected genes included bla NDM (46.66%), bla KPC (35.55%), and both (17.79%). ERIC-PCR showed multiclonal dissemination and high genetic variability. The main resistance gene was bla NDM, including bla NDM-5 and bla NDM-7. Conclusions The presence of Enterobacterales carrying bla KPC and bla NDM in this study, particularly K. pneumoniae , in infections and colonizations of patients with COVID-19 and non-COVID-19, highlights genetic variability and resistance to carbapenems observed in multiple species of this order. [ABSTRACT FROM AUTHOR]

Published

2024

46. Making a Pathogen? Evaluating the Impact of Protist Predation on the Evolution of Virulence in Serratia marcescens.

Author

Hopkins, Heather A, Lopezguerra, Christian, Lau, Meng-Jia, and Raymann, Kasie

Subjects

*WHOLE genome sequencing, *BACTERIAL evolution, *SERRATIA marcescens, *SHOTGUN sequencing, *BIOLOGICAL fitness

Abstract

Opportunistic pathogens are environmental microbes that are generally harmless and only occasionally cause disease. Unlike obligate pathogens, the growth and survival of opportunistic pathogens do not rely on host infection or transmission. Their versatile lifestyles make it challenging to decipher how and why virulence has evolved in opportunistic pathogens. The coincidental evolution hypothesis postulates that virulence results from exaptation or pleiotropy, i.e. traits evolved for adaptation to living in one environment that have a different function in another. In particular, adaptation to avoid or survive protist predation has been suggested to contribute to the evolution of bacterial virulence (the training ground hypothesis). Here, we used experimental evolution to determine how the selective pressure imposed by a protist predator impacts the virulence and fitness of a ubiquitous environmental opportunistic bacterial pathogen that has acquired multidrug resistance: Serratia marcescens. To this aim, we evolved S. marcescens in the presence or absence of generalist protist predator, Tetrahymena thermophila. After 60 d of evolution, we evaluated genotypic and phenotypic changes by comparing evolved S. marcescens with the ancestral strain. Whole-genome shotgun sequencing of the entire evolved populations and individual isolates revealed numerous cases of parallel evolution, many more than statistically expected by chance, in genes associated with virulence. Our phenotypic assays suggested that evolution in the presence of a predator maintained virulence, whereas evolution in the absence of a predator resulted in attenuated virulence. We also found a significant correlation between virulence, biofilm formation, growth, and grazing resistance. Overall, our results provide evidence that bacterial virulence and virulence-related traits are maintained by selective pressures imposed by protist predation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Copper(II) and Zinc(II) Complexes with Bacterial Prodigiosin Are Targeting Site III of Bovine Serum Albumin and Acting as DNA Minor Groove Binders.

Author

Pantelic, Lena, Skaro Bogojevic, Sanja, Andrejević, Tina P., Pantović, Bojana V., Marković, Violeta R., Ašanin, Darko P., Milanović, Žiko, Ilic-Tomic, Tatjana, Nikodinovic-Runic, Jasmina, Glišić, Biljana Đ., and Lazic, Jelena

Subjects

*MOLECULAR spectroscopy, *FOOD waste, *SERRATIA marcescens, *COPPER, *PROTEIN-protein interactions

Abstract

The negative environmental and social impacts of food waste accumulation can be mitigated by utilizing bio-refineries' approach where food waste is revalorized into high-value products, such as prodigiosin (PG), using microbial bioprocesses. The diverse biological activities of PG position it as a promising compound, but its high production cost and promiscuous bioactivity hinder its wide application. Metal ions can modulate the electronic properties of organic molecules, leading to novel mechanisms of action and increased target potency, while metal complex formation can improve the stability, solubility and bioavailability of the parent compound. The objectives of this study were optimizing PG production through bacterial fermentation using food waste, allowing good quantities of the pure natural product for further synthesizing and evaluating copper(II) and zinc(II) complexes with it. Their antimicrobial and anticancer activities were assessed, and their binding affinity toward biologically important molecules, bovine serum albumin (BSA) and DNA was investigated by fluorescence emission spectroscopy and molecular docking. The yield of 83.1 mg/L of pure PG was obtained when processed meat waste at 18 g/L was utilized as the sole fermentation substrate. The obtained complexes CuPG and ZnPG showed high binding affinity towards target site III of BSA, and molecular docking simulations highlighted the affinity of the compounds for DNA minor grooves. [ABSTRACT FROM AUTHOR]

Published

2024

48. Implications of ad-hoc molecular typing for infection control measures in a multi-cluster, multi-phenotypic Serratia marcescens outbreak in a neonatal intensive care unit.

Author

Toorop, M.M.A., Hoogendijk, I.V., Dogterom-Ballering, H.C.M., Boers, S.A., Kraakman, M.E.M., van Prehn, J., Wessels, E., Bekker, V., and Veldkamp, K.E.

Abstract

Serratia marcescens is known to cause outbreaks in neonatal intensive care units (NICUs). Traditionally epidemiological data, antimicrobial resistance patterns and epidemiological typing have been used to guide infection prevention methods. Whole-genome sequencing (WGS) applications such as core-genome multi-locus sequence typing (cgMLST) applied during an outbreak would potentially yield more information. To use cgMLST to acquire detailed information on the source and spread of bacteria, enabling more efficient control measures during an S. marcescens outbreak at a NICU. Neonates admitted to the NICU of the Leiden University Medical Center (LUMC) during an outbreak between September 2023 and January 2024, with S. marcescens being cultured, were included. Environmental samples were taken to search for a common source, antibiotic susceptibility testing was performed, and antimicrobial resistance genes were analysed. S. marcescens strains from 17 of the 20 positive patients were available for molecular typing. The cgMLST scheme revealed five different complex types consisting of four separate clusters. Multiple clusters made an unidentified persistent environmental source as cause of the outbreak less likely, leading to a quick downscaling of infection prevention measures. Differences were shown in aminoglycoside resistance patterns of isolates within the same complex types and patients. The use of ad-hoc cgMLST provided timely data for rational decision-making during an S. marcescens outbreak at the NICU. Antibiotic phenotyping alone was found not to be suitable for studying clonal spread during this outbreak with S. marcescens. [ABSTRACT FROM AUTHOR]

Published

2024

49. Investigating the Antimicrobial Potential of 560 Compounds from the Pandemic Response Box and COVID Box against Resistant Gram-Negative Bacteria.

Author

Cerqueira Melo, Rita de Cássia, Martins, Aline Andrade, Melo, Andressa Leite Ferraz, Vicente, Jean Carlos Pael, Sturaro, Mariana Carvalho, Arantes, Julia Pimentel, Rossato, Luana, de Souza, Gleyce Hellen de Almeida, and Simionatto, Simone

Subjects

DRUG resistance in bacteria, COVID-19 pandemic, GRAM-negative bacteria, KLEBSIELLA pneumoniae, SERRATIA marcescens

Abstract

Antimicrobial resistance (AMR) has emerged as a significant threat to public health, particularly in infections caused by critically important Gram-negative bacteria. The development of novel antibiotics has its limitations, and therefore it is crucial to explore alternative strategies to effectively combat infections with resistant pathogens. In this context, the present study investigated the antibacterial potency of 560 compounds against the multidrug-resistant (MDR) strains of Klebsiella pneumoniae and Serratia marcescens. The evaluated compounds were selected from the Pandemic Response Box (PRB) and COVID Box (CB) and subjected to assays to determine the inhibitory concentration (IC), minimum bactericidal concentration (MBC), and biofilm formation. Further, the effects of these compounds on membrane integrity were assessed through protein quantification. Several of the evaluated compounds, including fusidic acid, MMV1580853, and MMV1634399, exhibited a significant reduction in biofilm formation and growth in K. pneumoniae. Trimethoprim exhibited potential against S. marcescens. The IC values of the compounds indicated significant microbial growth inhibition at various concentrations. These findings underscore the potency of the existing antibiotics and novel compounds in combating the MDR strains of bacteria. The importance of reconsidering the known antibiotics and utilizing drug repositioning strategies to address the increasing risk of AMR is highlighted. [ABSTRACT FROM AUTHOR]

Published

2024

50. Serratia marcescens ATCC 274 increases production of the red pigment prodigiosin in response to Chi phage infection.

Author

Esteves, Nathaniel C. and Scharf, Birgit E.

Subjects

*GENETIC transcription, *SERRATIA marcescens, *GENE expression, *PRODIGIOSIN, *CELL death

Abstract

Serratia marcescens is an opportunistic human pathogen that produces a vibrant red pigment called prodigiosin. Prodigiosin has implications in virulence of S. marcescens and promising clinical applications. We discovered that addition of the virulent flagellotropic bacteriophage χ (Chi) to a culture of S. marcescens stimulates a greater than fivefold overproduction of prodigiosin. Active phage infection is required for the effect, as a χ-resistant strain lacking flagella does not respond to phage presence. Via a reporter fusion assay, we have determined that the addition of a χ-induced S. marcescens cell lysate to an uninfected culture causes a threefold increase in transcription of the pig operon, containing genes essential for pigment biosynthesis. Replacement of the pig promoter with a constitutive promoter abolished the pigmentation increase, indicating that regulatory elements present in the pig promoter likely mediate the phenomenon. We hypothesize that S. marcescens detects the threat of phage-mediated cell death and reacts by producing prodigiosin as a stress response. Our findings are of clinical significance for two main reasons: (i) elucidating complex phage-host interactions is crucial for development of therapeutic phage treatments, and (ii) overproduction of prodigiosin in response to phage could be exploited for its biosynthesis and use as a pharmaceutical. [ABSTRACT FROM AUTHOR]

Published

2024