Microorganisms

23 pages, 5418 KiB

Open AccessArticle

Probiotic Supplementation Improves Gut Microbiota in Chronic Metabolic and Cardio-Cerebrovascular Diseases Among Chinese Adults over 60: Study Using Cross-Sectional and Longitudinal Cohorts

by Xi Wang, Wanting Dong, Qiuying Liu, Xi Zeng, Yan Liu, Zheng Li, Yuanlong Pan, Qian Xiong, Na Lyu and Baoli Zhu

Microorganisms 2025, 13(7), 1507; https://doi.org/10.3390/microorganisms13071507 (registering DOI) - 27 Jun 2025

Abstract

Probiotics demonstrate the ability to maintain intestinal homeostasis and promote gut health. However, their effects on gut microbiota in adults over 60 years old with chronic metabolic disease (CMD) or cardio-cerebrovascular disease (CCD) remain poorly understood. This study analyzed 1586 stool samples from [...] Read more.

Probiotics demonstrate the ability to maintain intestinal homeostasis and promote gut health. However, their effects on gut microbiota in adults over 60 years old with chronic metabolic disease (CMD) or cardio-cerebrovascular disease (CCD) remain poorly understood. This study analyzed 1586 stool samples from 1377 adults (CMD, CCD, and healthy controls) using 16S rRNA sequencing. Cohort 1 (n = 1168) was used for cross-sectional analysis, while cohort 2 (n = 209) underwent longitudinal assessment over approximately 13 months. The results demonstrated that probiotics promoted significant gut microbiota alterations across both cohorts. Probiotic supplementation significantly increased lactobacilli in the CMD, CCD, and H groups. In both cohorts, probiotic supplementation enhanced Butyricicoccus, Clostridium sensu stricto 1, and Coprococcus in H groups, enhanced Anaerostipes and Fusicatenibacter in CMD groups, and reduced Haemophilus and Lachnospira in CCD groups. Notably, long-term supplementation not only elevated Dorea, Eubacterium hallii group, and Blautia in all groups but also suppressed Klebsiella and Bilophila in the CMD and CCD groups. Enterotype analysis revealed that probiotics increased the proportion of enterotype 1 and transition probabilities from enterotype 2 to 1 in the CMD and CCD groups, demonstrating that CCD/CMD gut microbiota exhibited greater responsiveness to probiotic modulation. Overall, this study suggests probiotics’ role in modulating adult gut microbiota and their potential benefits in chronic metabolic and cardio-cerebrovascular diseases. Full article

(This article belongs to the Section Gut Microbiota)

13 pages, 998 KiB

Open AccessArticle

Role of Saccharomyces cerevisiae Fcy Proteins and Their Homologs in the Catabolism of Modified Heterocyclic Pyrimidine Bases

by Jaunius Urbonavičius, Iglė Vepštaitė-Monstavičė, Juliana Lukša-Žebelovič, Elena Servienė and Daiva Tauraitė

Microorganisms 2025, 13(7), 1506; https://doi.org/10.3390/microorganisms13071506 (registering DOI) - 27 Jun 2025

Abstract

The synthesis of various heterocyclic base modifications of nucleic acids has been thoroughly investigated; however, much less is known about their catabolism. Also, little is known about the transport of such compounds across the microbial cell membranes. Using the Saccharomyces cerevisiae single-gene deletion [...] Read more.

The synthesis of various heterocyclic base modifications of nucleic acids has been thoroughly investigated; however, much less is known about their catabolism. Also, little is known about the transport of such compounds across the microbial cell membranes. Using the Saccharomyces cerevisiae single-gene deletion library, we performed genome-wide screening for genes affecting the growth of yeast in minimal media supplemented with N⁴-acetylcytosine as a source of uracil. We found that Fcy1, Fcy21, Bud16, Gnd1, and Fur4 proteins are required for efficient growth in the tested medium. Additionally, we used several heterocyclic pyrimidine bases and Fcy homolog mutants to test their growth in respective minimal media. We found that tested permeases differently affect the growth of yeast that is dependent on the heterocyclic pyrimidine bases used as a source of uracil. The most pronounced effect was observed for the ∆fur4 mutant, which was growing much slower than the corresponding wild-type strain in the media supplemented with N⁴-acetylcytosine, 4-methylthiouracil, N⁴-methylcytosine, N⁴,N⁴-dimethylcytosine, 2-thiouracil, or 4-thiouracil. We suggest that Fur4 protein is the major yeast transporter of modified heterocyclic pyrimidine bases. Our observations might be helpful when investigating the actions of various heterocyclic base-based antifungal, anticancer, and antiviral drugs. Full article

(This article belongs to the Collection Trends in Yeast Biochemistry and Biotechnology)

15 pages, 505 KiB

Open AccessArticle

Comparison of Microbiological Profiles of Primary Hip and Knee Peri-Prosthetic Joint Infections Treated at Specialist Centers Around the World

by Emin Suha Dedeogullari, Pablo Slullitel, Isabel Horton, Bulent Atilla, Saif Salih, Paul Monk, Ahmet Mazhar Tokgozoglu, Michael Goplen, Bonita Tsang, Martin Buljubasich, Hesham Abdelbary, Simon Garceau and George Grammatopoulos

Microorganisms 2025, 13(7), 1505; https://doi.org/10.3390/microorganisms13071505 (registering DOI) - 27 Jun 2025

Abstract

Periprosthetic joint infection (PJI) is a complex complication of total joint arthroplasty, with microbiological profiles varying across centers worldwide. However, most studies are limited to single-center or intra-country multicenter analyses, often including mixed cohorts of primary and revision PJI cases, with limited data [...] Read more.

Periprosthetic joint infection (PJI) is a complex complication of total joint arthroplasty, with microbiological profiles varying across centers worldwide. However, most studies are limited to single-center or intra-country multicenter analyses, often including mixed cohorts of primary and revision PJI cases, with limited data regarding global antibiotic resistance patterns. This study compared the microbiological characteristics, polymicrobial culture rates, prevalence of culture-negative infections, and antibiotic resistance patterns in PJI cases across five referral centers from five continents. A total of 717 patients with primary hip and knee PJI were included from centers in Argentina, Canada, Turkey, England, and New Zealand. Staphylococcus aureus and Staphylococcus epidermidis were the most common pathogens (48.5%, p < 0.01). Culture-negative infection rates varied significantly, ranging from 4.2% (England) to 24.6% (Turkey) (p < 0.01). Polymicrobial infections were the most frequent in Canada (8.9%) and the least frequent in England (1.1%) (p < 0.01). Gram-negative bacteria comprised 13.1% of culture-positive cases, with no significant intercountry difference. Multidrug resistance was observed in all centers, ranging from 23.7% (Argentina) to 43.1% (Turkey), with no statistical significance. Vancomycin resistance was detected in England (2.3%) and Canada (1.2%) but absent in Turkey, New Zealand, and Argentina. These findings underscore significant intercontinental variability, emphasizing the need for regional considerations in regards to empiric antibiotic selection and PJI management. Full article

(This article belongs to the Special Issue Clinical Microbial Infection and Antimicrobial Resistance)

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21 pages, 1587 KiB

Open AccessReview

Microbiota—A Rescuing Modulator in Children Struggling with Functional Constipation

by Nicoleta Ana Tomșa, Lorena Elena Meliț, Teodora Popescu, Karina Najjar, Anca Meda Văsieșiu, Adrian Vlad Pop and Reka Borka-Balas

Microorganisms 2025, 13(7), 1504; https://doi.org/10.3390/microorganisms13071504 (registering DOI) - 27 Jun 2025

Abstract

Constipation affects around 30% of children and in 95% of cases is functional (FC), a consequence of alterations in digestive tract peristalsis, modulated by the immune and nervous systems, bile acid metabolism, and the gut microbiota. The aim of this review was to [...] Read more.

Constipation affects around 30% of children and in 95% of cases is functional (FC), a consequence of alterations in digestive tract peristalsis, modulated by the immune and nervous systems, bile acid metabolism, and the gut microbiota. The aim of this review was to assess the role of gut microbiota and the use of probiotics in children with constipation. The current treatment involves education, toilet training, and oral laxatives, effective in only 50% of patients. In chronic FC, the composition of the microbiota is altered, with increased abundance of Bacteroidetes, Enterobacteriaceae, and Firmicutes and decreases in Prevotella, Bifidobacteria, Faecalibacterium prausnitzii, and Clostridium leptum. Probiotics replenish lacking beneficial resident bacteria, downregulate mucosal inflammation, or produce short-chain fatty acids (SCFAs). Probiotics like Bifidobacterium breve and Bifidobacterium longum increase the defecation frequency and decrease the episodes of both fecal incontinence and abdominal pain. Bifidobacterium animalis subsp. lactis XLTG11 improves the gut microbiota by upregulating SCFA genes and downregulating those related to methane metabolism. Lactobacilli produce organic acids that stimulate bowel peristalsis and augment fecal bolus moisture. The heterogeneity of the current studies involving pediatric subjects thus far hinders the use of probiotics as a standard in the management of children with constipation. Full article

(This article belongs to the Special Issue Microbiota and Gastrointestinal Diseases)

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14 pages, 1796 KiB

Open AccessArticle

In Vitro Efficacy of Thymbra capitata (L.) Cav. Essential Oil Against Olive Phytopathogenic Fungi

by Gabriele Simone, Margherita Campo, Silvia Urciuoli, Lorenzo Moncini, Maider Giorgini, Francesca Ieri and Pamela Vignolini

Microorganisms 2025, 13(7), 1503; https://doi.org/10.3390/microorganisms13071503 (registering DOI) - 27 Jun 2025

Abstract

In recent years, the excessive use of pesticides has raised environmental and health concerns, which has led to research into natural alternatives. Essential oils may represent a sustainable solution to this problem. In this study, essential oils from Thymbra capitata (L.) Cav., Eucalyptus [...] Read more.

In recent years, the excessive use of pesticides has raised environmental and health concerns, which has led to research into natural alternatives. Essential oils may represent a sustainable solution to this problem. In this study, essential oils from Thymbra capitata (L.) Cav., Eucalyptus globulus Labill, and Mentha piperita L. were analyzed by GC–MS and tested in vitro using the poisoned food technique against six olive pathogen fungi: Alternaria sp., Arthrinium marii, Colletotrichum acutatum, Fomitiporia mediterranea, Fusarium solani, and Verticillium dahliae. T. capitata essential oil (0.1 g/L) showed the highest antifungal activity when compared to E. globulus and M. piperita essential oils, which exhibited significantly lower efficacy against the tested olive phytopathogenic fungi. GC–MS analysis revealed that carvacrol is the main compound (76.1%) in T. capitata essential oil. A comparison of the inhibitory effect of T. capitata essential oil (0.1 g/L) and carvacrol (0.07 g/L) on selected fungal strains showed similar results, with carvacrol slightly more effective, although the differences were mostly statistically insignificant, except for C. acutatum. To the authors knowledge, this is the first study demonstrating the inhibitory effect of Thymbra capitata essential oil against A. marii and F. mediterranea. The results of this study represent a basis for the development of new biochemical biopesticides based on T. capitata essential oil as a useful tool for the contrast of some fungal olive tree diseases. Full article

(This article belongs to the Section Plant Microbe Interactions)

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20 pages, 1341 KiB

Open AccessArticle

Endophytic Diversity in Sicilian Olive Trees: Identifying Optimal Conditions for a Functional Microbial Collection

by Dalila Crucitti, Stefano Barone, Salvadora Navarro-Torre, Paola Quatrini, Francesco Carimi, Tiziano Caruso and Davide Pacifico

Microorganisms 2025, 13(7), 1502; https://doi.org/10.3390/microorganisms13071502 (registering DOI) - 27 Jun 2025

Abstract

This study aims to identify the optimal conditions—host, plant material, seasonality, and agricultural practices—for isolating and developing a collection of culturable endophytic microorganisms to support sustainable Olea europaea L. cultivation. Samples were collected from three Sicilian olive cultivars (‘Nocellara del Belice’, ‘Nocellara Etnea’, [...] Read more.

This study aims to identify the optimal conditions—host, plant material, seasonality, and agricultural practices—for isolating and developing a collection of culturable endophytic microorganisms to support sustainable Olea europaea L. cultivation. Samples were collected from three Sicilian olive cultivars (‘Nocellara del Belice’, ‘Nocellara Etnea’, and ‘Nocellara Messinese’) and six wild olive accessions across different phenological phases and under organic and conventional agronomic management. Endophytes were isolated from leaves and twigs using a culture-dependent approach, and their taxonomic diversity and plant-growth-promoting (PGP) traits were analyzed. A total of 133 endophytic isolates were identified, spanning bacterial (Proteobacteria, Firmicutes, and Actinobacteria) and fungal (Ascomycota and Basidiomycota) phyla. Wild olive trees contributed more than cultivated varieties to enriching the diversity and composition of culturable endophyte collection as well as twigs instead of leaves. Winter sampling allowed to implement the taxonomic genera of olive endophyte collection. Both farming systems favored an increase in the composition of microbial collection, though organic farming systems supported greater microbial richness. Functional analysis highlighted key PGP traits in a selection of bacterial isolates, including indole-3-acetic acid and siderophore production, nitrogen fixation, and antifungal activity. Bacillus spp. dominated enzymatic activities, such as amylase, protease, and lipase production, as well as antifungal activity against the olive fungal pathogen Neofusicoccum vitifusiforme. This research highlights the significant diversity and functional potential of Mediterranean olive endophytes. Our findings emphasize the role of native microbial communities as bio-inoculants, promoting plant growth, nutrient uptake, and disease resistance. These insights lay the groundwork for developing targeted olive-microbial consortia for biocontrol and stress tolerance applications. Full article

(This article belongs to the Special Issue Plant Growth-Promoting Bacteria)

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27 pages, 1648 KiB

Open AccessReview

Carbapenem Resistance in Acinetobacter baumannii: Mechanisms, Therapeutics, and Innovations

by Joyce de Souza, Helena Regina Salomé D’Espindula, Isabel de Farias Ribeiro, Geiziane Aparecida Gonçalves, Marcelo Pillonetto and Helisson Faoro

Microorganisms 2025, 13(7), 1501; https://doi.org/10.3390/microorganisms13071501 (registering DOI) - 27 Jun 2025

Abstract

The global rise of carbapenem-resistant Acinetobacter baumannii (CRAB) strains poses a critical challenge to healthcare systems due to limited therapeutic options and high mortality rates, especially in intensive care settings. This review explores the epidemiological landscape and molecular mechanisms driving carbapenem resistance, including [...] Read more.

The global rise of carbapenem-resistant Acinetobacter baumannii (CRAB) strains poses a critical challenge to healthcare systems due to limited therapeutic options and high mortality rates, especially in intensive care settings. This review explores the epidemiological landscape and molecular mechanisms driving carbapenem resistance, including the production of diverse beta-lactamases (particularly OXA-type enzymes), porin loss, efflux pump overexpression, and mutations in antibiotic targets. Emerging treatment strategies are discussed, such as the use of new beta-lactam–beta-lactamase inhibitor combinations (e.g., sulbactam–durlobactam), siderophore cephalosporins, next-generation polymyxins, as well as novel agents like zosurabalpin and rifabutin (BV100). Alternative approaches—including phage therapy, antimicrobial peptides, CRISPR-based gene editing, and nanoparticle-based delivery systems—are also evaluated for their potential to bypass traditional resistance mechanisms. Furthermore, advances in artificial intelligence and multi-omics integration are highlighted as tools for identifying novel drug targets and predicting resistance profiles. Together, these innovations represent a multifaceted strategy to overcome CRAB infections, yet their successful implementation requires further clinical validation and coordinated surveillance efforts. This analysis highlights the urgent need for continued investment in innovative treatments and effective resistance monitoring to limit the spread of CRAB and protect the effectiveness of last-line antibiotics. Full article

(This article belongs to the Special Issue Combating Antimicrobial Resistance: Innovations and Strategies)

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14 pages, 25551 KiB

Open AccessArticle

Development of a Broad-Spectrum Antigen-Capture ELISA Using Combined Anti-p26 Polyclonal and Monoclonal Antibodies for Detection of Equine Infectious Anemia Virus

by Haibing Liang, Bingqian Zhou, Zhe Hu, Xiaoyu Chu, Xuefeng Wang, Cheng Du and Xiaojun Wang

Microorganisms 2025, 13(7), 1500; https://doi.org/10.3390/microorganisms13071500 (registering DOI) - 27 Jun 2025

Abstract

Equine Infectious Anemia Virus (EIAV) poses significant diagnostic challenges due to its genetic variability and the limitations of conventional nucleic acid detection methods. This study developed an antigen-capture, enzyme-linked immunosorbent assay (AC-ELISA) for the detection and quantification of the EIAV capsid protein p26. [...] Read more.

Equine Infectious Anemia Virus (EIAV) poses significant diagnostic challenges due to its genetic variability and the limitations of conventional nucleic acid detection methods. This study developed an antigen-capture, enzyme-linked immunosorbent assay (AC-ELISA) for the detection and quantification of the EIAV capsid protein p26. The assay utilized a monoclonal antibody (1G11) specific to the p26 protein as the capture antibody and a polyclonal antibody as the detection antibody, forming a highly specific and sensitive detection system. Under optimized conditions, the detection limit of the AC-ELISA was 1.95 ng/mL, with a good linear relationship observed between 1.95 ng/mL and 60.5 ng/mL of p26 protein. Additionally, the AC-ELISA effectively distinguished EIAV from other equine viruses, including equine herpesvirus 1 (EHV-1), equine arteritis virus (EAV), and equine influenza virus (EIV), without cross-reactivity. Importantly, the AC-ELISA demonstrated the ability to detect multiple EIAV strains, including virulent strains, attenuated strains, and strains from other countries, highlighting its broad applicability across diverse EIAV isolates. Compared to western blot and reverse transcriptase assays, the AC-ELISA exhibited higher sensitivity and strong correlation in quantifying the EIAV p26 protein. The assay is simple, rapid, and cost-effective, making it suitable for both laboratory research and clinical applications. It provides a powerful tool for EIAV detection and quantification, supporting future vaccine development and clinical trials. Full article

(This article belongs to the Section Veterinary Microbiology)

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15 pages, 1374 KiB

Open AccessArticle

Differential Strain-Specific Responses of Trichoderma spp. in Mycoparasitism, Chitinase Activity, and Volatiles Production Against Moniliophthora spp.

by María F. Garcés-Moncayo, Christian A. Romero, Simón Pérez-Martínez, Carlos Noceda, Luís L. Galarza and Daynet Sosa del Castillo

Microorganisms 2025, 13(7), 1499; https://doi.org/10.3390/microorganisms13071499 (registering DOI) - 27 Jun 2025

Abstract

Moniliophthora roreri (MR, frosty pod rot) and M. perniciosa (MP, witches’ broom disease) pose critical threats to cacao production in Latin America. This study explores the biocontrol potential of Trichoderma spp. strains against these pathogens through exploratory analysis of mycoparasitism, chitinolytic activity, and [...] Read more.

Moniliophthora roreri (MR, frosty pod rot) and M. perniciosa (MP, witches’ broom disease) pose critical threats to cacao production in Latin America. This study explores the biocontrol potential of Trichoderma spp. strains against these pathogens through exploratory analysis of mycoparasitism, chitinolytic activity, and volatile organic compound (VOC) production. Dual-culture assays revealed species-specific antagonism, but C2A/C4B showed a dual-pathogen efficacy (>93% of Monioliopthora inhibition). Chitinase activity revealed C4A/C1 strains as exceptional producers (72 mg/mL NAGA vs. MR and 94 mg/mL vs. MP, respectively). GC-MS analysis identified pathogen-modulated VOC dynamics: hexadecanoic acid dominated in 80% Trichoderma solo-cultures (up to 26.65% peak area in C3B). MP showed 18.4-fold higher abundance of hexadecanoic acid than MR (0.23%). In 90% of dual-culture with MR and MP, HDA was detected as the most abundant. Functional specialization was evident. C4A and C1 prioritized chitinase production growing on MR and MP cell walls (respectively), whereas C9 excelled in antifungal hexadecanoic acid synthesis in confrontation with both pathogens. Complementary strengths among strains—enzymatic activity in C4A/C4B versus volatile-mediated inhibition in C9—suggest niche partitioning, supporting a consortium-based approach for robust biocontrol. This study provides preliminary evidence for the biocontrol potential of several Trichoderma strains, showing possible complementary modes of action. Full article

(This article belongs to the Special Issue Harnessing Beneficial Microbiota in Sustainable Agriculture)

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11 pages, 987 KiB

Open AccessArticle

Peculiarities of Diagnostic Reliability—Nested PCR Versus SAT in the Identification of Helicobacter pylori

by Barbora Šipková, Michaela Abrahamovská, Janka Klingová, Bianka Prokopová, Jana Krčmáriková, Iveta Cihová and Pavol Sulo

Microorganisms 2025, 13(7), 1498; https://doi.org/10.3390/microorganisms13071498 - 27 Jun 2025

Abstract

H. pylori detection via the stool antigen test (SAT) requires 100 times more cells than nested PCR (NPCR) for a 454 bp amplicon, but is significantly more sensitive in identifying positive stool samples. To understand this contradiction, we developed an NPCR assay to [...] Read more.

H. pylori detection via the stool antigen test (SAT) requires 100 times more cells than nested PCR (NPCR) for a 454 bp amplicon, but is significantly more sensitive in identifying positive stool samples. To understand this contradiction, we developed an NPCR assay to amplify a shorter 148 bp segment of the 16S rRNA gene. The assay was extremely sensitive and reliable when adhering to particular rules commonly used in forensic laboratories. The SAT and NPCR for long and short amplicons were compared using stool samples from 208 gastroenterological patients, of which 27.9% were identified as positive according to the SAT and only 6.25% according to the 454 bp NPCR amplicon, but 51.0% in the short 148 bp NPCR. Among 100 asymptomatic volunteers, the prevalence was 35% in the SAT assay and 22% in the long NPCR, but as much as 66.6% of positives were determined in the short 148 bp NPCR. The specificity of the PCR product was determined via DNA sequencing, which confirmed H. pylori’s origin in all NPCR-positive samples. Apparently, the stool contains mostly short fragments of H. pylori DNA, and the most plausible explanation for the SAT/NPCR paradox is the degradation of H. pylori DNA in the digestive system. Full article

(This article belongs to the Section Microbial Biotechnology)

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1 pages, 133 KiB

Open AccessCorrection

Correction: Scharf et al. Oxford Nanopore Technology-Based Identification of an Acanthamoeba castellanii Endosymbiosis in Microbial Keratitis. Microorganisms 2024, 12, 2292

by Sebastian Alexander Scharf, Lennart Friedrichs, Robert Bock, Maria Borrelli, Colin MacKenzie, Klaus Pfeffer and Birgit Henrich

Microorganisms 2025, 13(7), 1497; https://doi.org/10.3390/microorganisms13071497 - 27 Jun 2025

Abstract

There was an error in the original publication [...] Full article

(This article belongs to the Section Microbiomes)

13 pages, 442 KiB

Open AccessArticle

Group B Streptococcus (GBS) Carriage in Pregnant Women: Possible Emergence of Rare Serotypes and Antibiotic Resistance in Neonatal Disease

by Roberta Creti, Monica Imperi, Giovanni Gherardi, Giovanna Alfarone, Ilaria Marani, Caterina Vocale, Alberto Berardi, Serena Truocchio and Francesca Miselli

Microorganisms 2025, 13(7), 1496; https://doi.org/10.3390/microorganisms13071496 - 26 Jun 2025

Abstract

Maternal vaginal and rectal colonization by Streptococcus agalactiae (group B streptococcus, GBS) is the main risk factor for the development of newborn early-onset GBS disease (GBS-EOD). Much effort is in place for its prevention, including the development of vaccines. Currently, both a hexavalent [...] Read more.

Maternal vaginal and rectal colonization by Streptococcus agalactiae (group B streptococcus, GBS) is the main risk factor for the development of newborn early-onset GBS disease (GBS-EOD). Much effort is in place for its prevention, including the development of vaccines. Currently, both a hexavalent glycoconjugate GBS vaccine against the most prevalent serotypes and a protein subunit vaccine have completed phase two clinical trials. GBS surveillance in both maternal carriage and neonatal disease is therefore important in establishing the coverage of the potential vaccines and in setting up the basis for pre- and post-marketing surveillance. A single-site study was conducted in the years 2020–2021 on the characteristics of 325 GBS strains (serotype distribution; identification of the alpha-like protein family member; and resistance to macrolides, tetracycline, and high-level gentamicin) isolated from the vaginal/rectal site in women in late pregnancy as well as in seven cases of GBS-EOD and one case of GBS-related stillbirth occurring in the same location and time period. The study indicated that the coverage of the developing vaccines was excellent (97.2% for the hexavalent glycoconjugate vaccine and 98.7% for the alpha-like protein subunit vaccine). However, the detection of the serotypes VI, VII, and IX—not covered by current vaccine formulations—accounting for 3.0% of isolates, as well as of negative alpha-like GBS strains from maternal carriage (1.2%), should be closely monitored over time. The high rates of GBS resistance to erythromycin (33.5%) and to clindamycin (29.5% in maternal carriage and 57.1% in GBS-EOD) was mostly due to the ever-increasing spread of the multidrug-resistant ST-17 subclone of serotype III. This finding, along with the newly emerging high-level gentamicin resistance in carriers (4.0%), mainly in serotype IV strains, poses a threat for the continued effectiveness of antibiotic therapy in invasive disease. Full article

(This article belongs to the Section Antimicrobial Agents and Resistance)

18 pages, 3598 KiB

Open AccessArticle

Molecular and Genetic Characterization of Arcobacter Species Isolated from Chicken Feces and Chicken Giblets from Grenada, West Indies

by Jacqueline Paige Coughlin, Andy Alhassan, Alfred Chikweto, Rohini Roopnarine and Bhumika Sharma

Microorganisms 2025, 13(7), 1495; https://doi.org/10.3390/microorganisms13071495 - 26 Jun 2025

Abstract

This study aimed to isolate and genetically characterize Arcobacter species from broiler chickens sampled at three slaughterhouses in Grenada, West Indies. A total of 126 samples—including cloacal swabs, intestinal contents, and meat—from 42 birds were cultured using a chromogenic agar medium. Arcobacter spp. [...] Read more.

This study aimed to isolate and genetically characterize Arcobacter species from broiler chickens sampled at three slaughterhouses in Grenada, West Indies. A total of 126 samples—including cloacal swabs, intestinal contents, and meat—from 42 birds were cultured using a chromogenic agar medium. Arcobacter spp. were detected in 21.4% (9/42) of the birds. Among the sample types, meat exhibited the highest prevalence at 14.3% (6/42), followed by fecal samples at 7.1% (3/42) and cloacal swabs at 2.4% (1/42). Genus- and species-specific polymerase chain reaction assays on 33 isolates identified five Arcobacter species: A. butzleri, A. cryaerophilus, and A. skirrowii (each 18.2%), as well as A. cibarius and A. thereius (each 6.1%). Genetic diversity was further assessed via Enterobacterial Repetitive Intergenic Consensus–polymerase chain reaction, which revealed 13 distinct genotypic fingerprints forming six clusters, with a high discriminatory power (D = 0.96). This study represents the first documented isolation and molecular characterization of five Arcobacter species from broiler chickens in Grenada across multiple sample types. These findings underscore the zoonotic implications of isolating Arcobacter spp., particularly in contaminated poultry meat destined for human consumption. The presence of Arcobacter spp. in poultry carcasses poses a significant public health concern. To mitigate this public health risk, recommendations include surveillance for the presence of this pathogen in Hazard Analysis and Critical Control Points plans or other tools used to identify pathogens compromising food safety and public health. Full article

(This article belongs to the Section Food Microbiology)

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14 pages, 2600 KiB

Open AccessArticle

SADS-CoV nsp5 Inhibits Interferon Production by Targeting Kinase IKKε

by Gaoli She, Chunhui Zhong, Yue Pan, Zexin Chen, Jingmin Li, Mingchong Li, Yufang Liu, Yongchang Cao, Xiaona Wei and Chunyi Xue

Microorganisms 2025, 13(7), 1494; https://doi.org/10.3390/microorganisms13071494 - 26 Jun 2025

Abstract

Swine acute diarrhea syndrome coronavirus (SADS-CoV), initially identified in China in February 2017, severely impacts the swine industry by causing lethal watery diarrhea in neonatal piglets. Understanding the molecular mechanism employed by SADS-CoV to evade the host’s immune defenses is of utmost importance. [...] Read more.

Swine acute diarrhea syndrome coronavirus (SADS-CoV), initially identified in China in February 2017, severely impacts the swine industry by causing lethal watery diarrhea in neonatal piglets. Understanding the molecular mechanism employed by SADS-CoV to evade the host’s immune defenses is of utmost importance. In this study, using the porcine ileum epithelial cell line IPI-FX as an in vitro model, we investigated the highly pathogenic SADS-CoV GDS04 strain and its nonstructural protein 5 (nsp5) for their roles in inhibiting interferon-beta (IFN-β) production. Our findings indicated that GDS04 inhibited poly(I:C)-induced IFN-β production by impeding the promoter activities of IRF3 and NF-κB. As a 3C-like protease, SADS-CoV nsp5 functioned as an interferon inhibitor by interacting with IKKε, reducing its protein abundance, and inhibiting its phosphorylation. This study enhances our understanding of the interaction between coronaviruses and their hosts, providing novel insights into the evasion of the immune system by coronaviruses. Full article

(This article belongs to the Special Issue Research on Swine Virus Infection and Immunity)

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24 pages, 5783 KiB

Open AccessArticle

Achnatherum inebrians Bacterial Communities Associated with Epichloë gansuensis Endophyte Infection Under Low-Concentration Urea Treatment: Links to Plant Growth and Root Metabolite

by Yuanyuan Jin, Zhenjiang Chen, Kamran Malik and Chunjie Li

Microorganisms 2025, 13(7), 1493; https://doi.org/10.3390/microorganisms13071493 - 26 Jun 2025

Abstract

Despite chemical exchange often serving as the first step in plant–microbe interactions, the specialized chemical metabolites produced by grass–Epichloë endophyte symbiosis as mediators of host growth, nutrient acquisition, and modulators of the rhizosphere community under low-nitrogen conditions are areas lacking in knowledge. [...] Read more.

Despite chemical exchange often serving as the first step in plant–microbe interactions, the specialized chemical metabolites produced by grass–Epichloë endophyte symbiosis as mediators of host growth, nutrient acquisition, and modulators of the rhizosphere community under low-nitrogen conditions are areas lacking in knowledge. In this study, we investigated the plant growth-promoting effects of the Epichloë endophyte strain and identified the growth of the Epichloë strain under different types of nitrogen source treatments. In addition to the in vitro test, we evaluated growth performance for Epichloë endophyte–infected plants (E+) and Epichloë endophyte–free plants (E−) in a pot trial under 0.01 mol/L urea treatment. Seedlings from E+ and E− groups were collected to analyze the plant bacterial microbiome and root metabolites. The E. gansuensis endophyte strain was found not to produce indoleacetic acid (IAA), pectinase, or contain ferritin. The nitrogenase gene, essential for nitrogen fixation, was also absent. These results suggest that E. gansuensis endophyte strains themselves do not contain attributes to promote plant growth. Concerning N fertilization, it was observed an increase in the colony diameter of E. gansuensis strain was observed only in the NO₃⁻-N (NN) treatment, while inhibition was observed in the urea-N (UN) treatment. E. gansuensis endophyte symbiosis significantly increased tiller number and plant dry weight. Overall, our results suggest that the E+ plants had more root forks and greater average root diameter compared to E− plants under the UN treatment. In a pot experiment using UN, data from 16S rRNA amplicon sequencing revealed that E. gansuensis endophyte infection significantly altered the bacterial community composition in shoot and root, and significantly increased Shannon (p < 0.001) and Chao 1 (p < 0.01) indexes. The relative abundance of Acidobacteriota, Actinomycetota, Cyanobacteriota, Fibrobacterota, Myxococcota, and Patescibacteria in the shoot, and Cyanobacteriota, Pseudomonadota, and Verrucomicrobiota in the root were significantly increased by E. gansuensis endophyte infection. Similarly, E. gansuensis endophyte symbiosis shifted the metabolite composition of the host plants, with the E+ plants showing a higher number of metabolites than the E− plants. In addition, co-metabolism network analysis revealed that the positive relevance between exudates and microorganisms in the root of the E+ plants is higher than that of the E− plants. These findings provide valuable insights into the knowledge of the effects of the symbiotic relationship between host plants and Epichloë endophyte on interspecific interactions of plant microbiome, beneficial for harnessing endophytic symbiosis, promoting plant growth. Full article

(This article belongs to the Section Microbiomes)

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13 pages, 886 KiB

Open AccessArticle

Production of Indole-3-Acetic Acid and Degradation of 2,4-D by Yeasts Isolated from Pollinating Insects

by Camila G. de Oliveira, Angela Alves dos Santos, Eduardo J. P. Pritsch, Stéfany K. Bressan, Anderson Giehl, Odinei Fogolari, Altemir J. Mossi, Helen Treichel and Sérgio L. Alves, Jr.

Microorganisms 2025, 13(7), 1492; https://doi.org/10.3390/microorganisms13071492 - 26 Jun 2025

Abstract

Synthetic herbicides such as glyphosate and 2,4-D are widely used in agriculture but can negatively impact non-target organisms, including microorganisms essential for ecological balance. Yeasts associated with pollinating insects play crucial roles in plant–insect interactions, yet their responses to herbicides remain understudied. This [...] Read more.

Synthetic herbicides such as glyphosate and 2,4-D are widely used in agriculture but can negatively impact non-target organisms, including microorganisms essential for ecological balance. Yeasts associated with pollinating insects play crucial roles in plant–insect interactions, yet their responses to herbicides remain understudied. This study aimed to evaluate the capacity of yeasts isolated from bees and beetles to produce indole-3-acetic acid (IAA), a plant-growth-promoting hormone, as well as their ability to tolerate or degrade glyphosate (in the commercial herbicide Zapp QI 620^®) and 2,4-D (in the commercial Aminol 806^®). Seven yeast strains were isolated from insects, identified via ITS sequencing, and assessed for IAA production in YPD medium. Growth assays were conducted under varying herbicide concentrations, and 2,4-D degradation was analyzed using high-performance liquid chromatography. All strains produced IAA, with Papiliotrema siamensis CHAP-239 exhibiting the highest yield (4.17 mg/L). Glyphosate completely inhibited growth in all strains, while 2,4-D showed dose-dependent effects, with four strains tolerating lower concentrations. Notably, Meyerozyma caribbica CHAP-248 degraded up to 46% of 2,4-D at 6.045 g/L. These findings highlight the ecological risks herbicides pose to beneficial yeasts and suggest the potential of certain strains for bioremediation in herbicide-contaminated environments. Overall, the study underscores the importance of preserving microbial biodiversity in the context of sustainable agriculture. Full article

(This article belongs to the Section Microbial Biotechnology)

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16 pages, 1835 KiB

Open AccessArticle

Stress Tolerance and Contribution to Aroma Profile of Pichia kudriavzevii GAAS-JG-1 Isolated from Apricot Fermentation in Co-Fermentation of Sea Buckthorn Wine

by Yuwen Mu, Yu’an Wang and Chaozhen Zeng

Microorganisms 2025, 13(7), 1491; https://doi.org/10.3390/microorganisms13071491 - 26 Jun 2025

Abstract

High-acidity fruit wines, such as sea buckthorn wine, are valued for their nutritional benefits but often suffer from excessive tartness and limited aroma complexity, which restrict their consumer acceptance. The application of non-Saccharomyces yeasts with acid tolerance and flavor-enhancing potential offers a promising [...] Read more.

High-acidity fruit wines, such as sea buckthorn wine, are valued for their nutritional benefits but often suffer from excessive tartness and limited aroma complexity, which restrict their consumer acceptance. The application of non-Saccharomyces yeasts with acid tolerance and flavor-enhancing potential offers a promising strategy to address these challenges. In this study, a highly acid-tolerant yeast strain, Pichia kudriavzevii GAAS-JG-1, was isolated from a naturally fermented apricot system and systematically characterized in terms of its taxonomy, physiological properties, and fermentation potential. The experimental results demonstrated that Pichia kudriavzevii GAAS-JG-1 maintained robust growth activity (OD₆₀₀ = 1.18 ± 0.09) even under extremely acidic conditions (pH 2.0). Furthermore, the strain exhibited a strong tolerance to high ethanol concentrations (16%), elevated sugar levels (350 g/L), and substantial sulfur dioxide exposure (500 mg/L). Optimal growth was observed at 35 °C (OD₆₀₀ = 2.21 ± 0.02). When co-fermented with Saccharomyces cerevisiae in sea buckthorn wine, the ethyl acetate content increased significantly from 303.71 μg/L to 4453.12 μg/L, while the ethyl propionate levels rose from 5.18 μg/L to 87.75 μg/L. Notably, Pichia kudriavzevii GAAS-JG-1 also produced novel flavor compounds such as methyl acetate and ethyl 3-methylthiopropionate, which were absent in the single-strain fermentation. These findings highlight the potential of Pichia kudriavzevii GAAS-JG-1 as a valuable non-Saccharomyces yeast resource with promising applications in the fermentation of high-acidity specialty fruit wines. Full article

(This article belongs to the Special Issue Beneficial Microbes: Food, Mood and Beyond—Third Edition)

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15 pages, 1395 KiB

Open AccessArticle

Novel Whey Fermented Beverage Enriched with a Mixture of Juice Concentrates: Evaluation of Antimicrobial, Antioxidant, and Angiotensin I Converting Enzyme Inhibitory (ACE) Activities Before and After Simulated Gastrointestinal Digestion

by Paschalia Kotsaki, Maria Aspri and Photis Papademas

Microorganisms 2025, 13(7), 1490; https://doi.org/10.3390/microorganisms13071490 - 26 Jun 2025

Abstract

This study explored the development of a novel whey-based fermented beverage enriched with juice concentrates and health-promoting ingredients, emphasizing its bioactive properties. The formulation included whey protein isolate (5%), juice concentrates (10% apple, raspberry, and cranberry), and inulin (4%). Fermentation was carried out [...] Read more.

This study explored the development of a novel whey-based fermented beverage enriched with juice concentrates and health-promoting ingredients, emphasizing its bioactive properties. The formulation included whey protein isolate (5%), juice concentrates (10% apple, raspberry, and cranberry), and inulin (4%). Fermentation was carried out with the following strains: Lacticaseibacillus rhamnosus (LGG), Lacticaseibacillus casei (431), and Lactobacillus helveticus (R0052) at 2%. Antimicrobial activity was evaluated against pathogens including Listeria monocytogenes (strains 33423 and 33413), Staphylococcus aureus (113 and Newman), Bacillus cereus (DPC 6089), Escherichia coli (NCTC 9001), and Salmonella Enteritidis (NCTC 6676). Antioxidant capacity was measured using 2,2-Diphenyl-1-picrylhydrazylradical (DPPH) and Ferric Reducing Antioxidant Power (FRAP) assays, and angiotensin-converting enzyme (ACE) inhibitory activity was assessed. All bioactivities were found to be high in fermented whey beverage and a further significant increase was observed after simulated gastrointestinal digestion. This fruit-flavored whey beverage demonstrated notable antimicrobial and antioxidant activities, highlighting its potential for functional food applications aimed at combating harmful bacteria and oxidative stress. Full article

(This article belongs to the Special Issue Role of Microorganisms in Functional Dairy Products)

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14 pages, 857 KiB

Open AccessArticle

Step-Wise Ethanol Adaptation Drives Cell-Wall Remodeling and ROM2/KNR4 Activation in Brettanomyces bruxellensis

by Leslie Hernandez-Cabello, Nachla Rojas-Torres, Liliana Godoy, Camila G-Poblete, Yarabi Concha, Verónica Plaza, Luis Castillo, Héctor M. Mora-Montes and María Angélica Ganga

Microorganisms 2025, 13(7), 1489; https://doi.org/10.3390/microorganisms13071489 - 26 Jun 2025

Abstract

Brettanomyces bruxellensis has been described as the main spoilage microorganism in wines due to its ability to produce volatile phenols, which negatively impact the final product’s organoleptic properties. This yeast can grow and survive in environments that are too nutritionally poor and stressful [...] Read more.

Brettanomyces bruxellensis has been described as the main spoilage microorganism in wines due to its ability to produce volatile phenols, which negatively impact the final product’s organoleptic properties. This yeast can grow and survive in environments that are too nutritionally poor and stressful for other microorganisms, and one of the stressful conditions it can endure is the high alcohol content in wine. In this study, cell wall morphology and the expression of some genes related to its composition were characterized under increasing ethanol concentrations to establish a possible ethanol resistance mechanism. B. bruxellensis LAMAP2480 showed greater resistance to β-1,3-glucanase activity when grown in media supplemented with 5% or 10% ethanol compared with the control assay (without ethanol). Transmission electron microscopy showed no significant differences in cell wall thickness during the different adaptation stages. However, the amount of wall polysaccharides and chitin briefly increased at 1% ethanol but returned to baseline at 5% and 10%. The amount of wall-associated protein increased progressively with each increment in ethanol concentration. In addition, overexpression of the ROM2 and KNR4/SMI1 genes was observed at 10% ethanol. These results suggest that the integrity of the cell wall might play an important role in the adaptation of B. bruxellensis to an ethanol-containing medium. Full article

(This article belongs to the Special Issue Wine Fermentation Microorganisms)

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