The influence of primer choice on archaeal phylogenetic analyses based on 16S rRNA gene PCR

Polymerase chain reaction (PCR) assays targeting 16S rRNA genes followed by DNA sequencing are still important tools to characterize microbial communities present in environmental samples. However, despite the crescent number of deposited archaeal DNA sequences in databases, until now we do not have a clear picture of the effectiveness and specificity of the universal primers widely used to describe archaeal communities from different natural habitats. Therefore, in this study, we compared the phylogenetic profile obtained when Cerrado lake sediment DNA samples were submitted to 16S rDNA PCR employing three Archaea-specific primer sets commonly used. Our findings reveal that specificity of primers differed depending on the source of the analyzed DNA. Furthermore, archaeal communities revealed by each primer pair varied greatly, indicating that 16S rRNA gene primer choice affects the community profile obtained, with differences in both taxon detection and operational taxonomic unit (OTU) estimates.

Sulphate-reducing bacterial community structure from produced water of the Periquito and Galo de Campina onshore oilfields in Brazil

Sulphate-reducing bacteria (SRB) cause fouling, souring, corrosion and produce H2S during oil and gas production. Produced water obtained from Periquito (PQO) and Galo de Campina (GC) onshore oilfields in Brazil was investigated for SRB. Produced water with Postgate B, Postgate C and Baars media was incubated anaerobically for 20 days. DNA was extracted, 16S rDNA PCR amplified and fragments were sequenced using Illumina TruSeq. 4.2 million sequence reads were analysed and deposited at NCBI SAR accession number SRP149784. No significant differences in microbial community composition could be attributed to the different media but significant differences in the SRB were observed between the two oil fields. The dominant bacterial orders detected from both oilfields were Desulfovibrionales, Pseudomonadales and Enterobacteriales. The genus Pseudomonas was found predominantly in the GC oilfield and Pleomorphominas and Shewanella were features of the PQO oilfield. 11% and 7.6% of the sequences at GC and PQO were not classified at the genus level but could be partially identified at the order level. Relative abundances changed for Desulfovibrio from 29.8% at PQO to 16.1% at GC. Clostridium varied from 2.8% at PQO and 2.4% at GC. These data provide the first description of SRB from onshore produced water in Brazil and reinforce the importance of Desulfovibrionales, Pseudomonadales, and Enterobacteriales in produced water globally. Identifying potentially harmful microbes is an important first step in developing microbial solutions that prevent their proliferation.

First Report of Pectobacterium punjabense causing potato soft rot and blackleg in Serbia

Soft rot and blackleg are common diseases affecting potato (Solanum tuberosum) production in Serbia. Pectinolytic plant pathogens belonging to the genera Pectobacterium cause soft rot and wilt diseases by plant cell wall degradation. These opportunistic phytopathogens lead to considerable economic losses in many potato-growing regions worldwide and are listed among top 10 plant pathogenic bacteria (Mansfield et al. 2012). Potato plants (cv. VR808) with symptoms of wilting, slow growth, stem blackening and tubers softening, were collected from a commercial potato field in Zobnatica (Serbia) in July 2019 and subjected to analysis. All symptoms occurred in the same field and the incidence of symptomatic plants was approximately 5%. Isolation was performed from 10 randomly chosen potato plant and tuber samples, expressing wilting and soft rot symptoms. Plant tissue was surface-disinfected and 1 cm length sections from the margins of lesions were macerated in sterile distilled water for 25 min and streaked on nutrient-agar medium. After 48 h of incubation at 26°C, predominant shiny, cream-colored, round colonies were obtained from all samples. Three representative isolates (MMZKVR1, MMZCVR2, and MMZKVR3) from independent samples were selected randomly and subjected to biochemical and pathogenicity tests. Isolates were gram-negative, nonfluorescent facultative anaerobes, exhibiting pectinolytic activity on potato tuber slices and hypersensitive response on tobacco leaves. They expressed catalase activity but did not express oxidase or acid phosphatase activity or produce indole. All strains grew at 37°C, in 5% NaCl, and reduced nitrate. Pathogenicity of the obtained isolates was tested on 3-week-old healthy potato plants (cv. VR808 and cv. Kiebitz) grown in commercial Baltic Tray Substrate (Hawita) in the greenhouse, as well as on potato tubers of the same varieties. Three potato plant stems per isolate were inoculated by the toothpick piercing method (Duarte et al. 2004) using bacterial suspension (approx. 1 × 108 CFU/ml). Inoculated plants were incubated under plastic bags in a greenhouse at 25 ± 2°C. Blackleg symptoms and stem wilting developed 48 hours after inoculation. No symptoms were observed on plants inoculated with sterile toothpicks dipped in sterile distilled water. The pathogen was re-isolated from symptomatic plants, fulfilling Koch's postulates and sequencing of 16S rDNA confirmed the originally isolated pathogen. Three potato tubers per isolate were inoculated by toothpicks dipped in bacterial suspension (approx. 1 × 108 CFU/ml). Inoculated tubers were placed in a sealed plastic container at 25 ± 2°C. Treatment with sterile distilled water was used as a negative control. Softening of the tissue around the inoculation point developed within 48 h from inoculation, and no symptoms developed on the control tubers. For molecular analyses, total DNA of the isolates was extracted using the DNeasy Plant Mini Kit (Qiagen). The isolates were not detected in diagnostic PCR assays using specific primers Br1F/L1R for the detection of P. brasiliense (Duarte et al. 2004) and primers EXPCCF/EXPCCR for P. catotovorum subsp. carotovorum (Kang et al. 2003). The 16S rDNA PCR amplification was performed using the universal PCR primer pair 27F/1492R (Fredriksson et al. 2013) and followed by Sanger sequencing (Macrogen Europe BV). The BLASTn analysis of sequences (GenBank Accession Numbers MZ048661, MZ048662, and MZ157274) revealed 100% query coverage and 100% identity to the sequences of Pectobacterium punjabense in NCBI (MT242589 and CP038498) isolated from potato in China and Pakistan (Sarfraz et al. 2018), respectively. All three obtained isolates were proposed to belong to Pectobacterium punjabense sp. nov. To further validate the identification, isolate MMZCVR2 of P. punjabense was selected for multilocus sequence analyses of 5 housekeeping genes (gyrA, recA, recN, rpoA and rpoS). The gyrA (MZ161817), recA (MZ161818), recN (MZ161819), rpoA (MZ161820) and rpoS (MZ161821) sequence analysis showed the highest nucleotide identity (99.44 to 100%) with P. punjabense strain SS95 (Sarfraz et al. 2018) previously deposited in NCBI GenBank database. To our knowledge, this is the first report of blackleg and soft rot caused by P. punjabense on potato in Serbia. Pectobacterium punjabense is a newly described species causing soft rot and blackleg disease in potato plants (Sarfraz et al. 2018). Its current geographic distribution is not well-described but important to know since soft rot bacteria are easily transported long distances in latently infected seed tubers and can cause significant economic losses in potato production worldwide.

Prevalence of Antibiotic-Resistant Escherichia coli Isolated from Swine Faeces and Lagoons in Bulgaria

Antimicrobial resistance (AMR) is a worldwide health problem affecting humans, animals, and the environment within the framework of the “One Health” concept. The aim of our study was to evaluate the prevalence of pathogenic strains of the species Escherichia coli (E. coli), their AMR profile, and biofilm-forming potential. The isolated strains from three swine faeces and free lagoons (ISO 16654:2001/Amd 1:2017) were confirmed using Phoenix M50 and 16S rDNA PCR. The antibiotic sensitivity to 34 clinically applied antibiotics was determined by Phoenix M50 and the disc diffusion method, according to the protocols of the CLSI and EUCAST. We confirmed the presence of 16 E. coli isolates, of which 87.5% were multi-drug-resistant and 31.25% performed strong biofilms. The possibility for the carrying and transmission of antibiotic-resistance genes to quinolones (qnr), aminoglycosides (aac(3)), β-lactamase-producing plasmid genes ampC, and blaSHV/blaTEM was investigated. We confirmed the carrying of blaSHV/blaTEM in one and ampC in seven isolates. The strains were negative for the virulence genes (ETEC (LT, STa, and F4), EPEC (eae), and STEC/VTEC (stx and stx2all)). The results should contribute to the development of effective measures for limitation and control on the use of antibiotics, which is a key point in the WHO action plan.

Evaluation of 16S rDNA Heart Tissue PCR as a Complement to Blood Cultures for the Routine Etiological Diagnosis of Infective Endocarditis

Identification of the causative pathogen is required to optimize the effective therapy in infective endocarditis (IE). The aim of this study was to assess a 16S rDNA PCR to identify bacteria from heart valve tissues and to evaluate its usefulness as a complement to blood and removed valves cultures. A total of 266 patients diagnosed with IE from January 2015 to December 2019 were evaluated. Results between 16S rDNA PCR from heart valve tissues were compared with microbiological cultures. Blood cultures were positive in 83.5% of patients diagnosed with IE, while 39.6% and 71.8% of the evaluated heart valve samples were positive by culture and 16S rDNA PCR, respectively. For 32 (12%) patients, 16S rDNA tissue PCR provided valuable information supporting the results of blood cultures in the case of bacteria characteristic from the skin microbiota. Additionally, a microorganism was identified by using 16S rDNA PCR in 36% of blood culture-negative cases. The present study reveals that molecular diagnosis using 16S rDNA tissue PCR provides complementary information for the diagnosis of IE, and it should be recommended in surgical endocarditis, especially when blood cultures are negative.

Elevated levels of Merkel cell polyoma virus in the anophthalmic conjunctiva

The human ocular surface hosts a paucibacterial resident microbiome and virome. The factors contributing to homeostasis of this mucosal community are presently unknown. To determine the impact of ocular enucleation and prosthesis placement on the ocular surface microbiome, we sampled conjunctival swabs from 20 anophthalmic and 20 fellow-eye intact conjunctiva. DNA was extracted and subjected to quantitative 16S rDNA PCR, biome representational karyotyping (BRiSK), and quantitative PCR (qPCR) confirmation of specific organisms. 16S ribosomal qPCR revealed equivalent bacterial loads between conditions. Biome representational in silico karyotyping (BRiSK) demonstrated comparable bacterial fauna between anophthalmic and intact conjunctiva. Both torque teno virus and Merkel cell polyoma virus (MCPyV) were detected frequently in healthy and anophthalmic conjunctiva. By qPCR, MCPyV was detected in 19/20 anophthalmic samples compared with 5/20 fellow eyes. MCPyV copy number averaged 891 copies/ng in anophthalmic conjunctiva compared with 193 copies/ng in fellow eyes (p < 0.001). These results suggest that enucleation and prosthesis placement affect the ocular surface flora, particularly for the resident virome. As MCPyV has been shown to be the etiologic cause of Merkel cell carcinoma, understanding the mechanisms by which the ocular surface regulates this virus may have clinical importance.

Case report: first symptomatic Candidatus Neoehrlichia mikurensis infection in Slovenia

Background Candidatus Neoehrlichia mikurensis (CNM) is an emerging tick-born pathogen and usually causes symptomatic infection only in immunocompromised patients. Apart from one described case found in the literature where cultivation was successful, all cases so far were diagnosed by using broad-range 16S rDNA PCR. Case presentation Our patient presented with a prolonged febrile state of unknown origin. Clinical presentation, extensive medical workup and classic microbiologic testing were non-conclusive. Several infectious agents and other causes for the febrile state were excluded. In the end, a broad-range 16S rDNA PCR was to be performed to confirm the diagnosis of CNM infection. Treatment was successful with doxycycline. Conclusions Due to the obscurity of the pathogen, diagnostic workup in CNM is prolonged and challenging. More awareness is need about this emerging infectious disease in countries with high prevalence of tick-borne diseases as standard microbiological methods are not successful in confirming the diagnosis.

A novel Filobacterium sp can cause chronic bronchitis in cats

Background Cilia-associated respiratory bacillus (CARB; now known as Filobacterium rodentium gen. nov., sp. nov.) is a primary pathogen of rodents. A CARB-like organism was reported in post-mortem lung samples of cats using light and electron microscopy. Here we explore by molecular procedures if a Filobacterium sp. is a part of the normal feline lower respiratory microbiome and whether it could in some cats contribute to the development of chronic bronchial disease. Methodology A Filobacterium sp. was identified in three Czech cats clinically diagnosed as having chronic neutrophilic bronchitis. Bronchoalveolar lavage fluid (BALF) specimens obtained from these cats were subjected to panbacterial 16S rDNA PCR followed by Sanger sequencing of the V5 to V8 region. After these cats were treated with specific antimicrobials, their clinical signs resolved promptly, without recurrence. Next, BALF specimens from 13 Australian and 11 Italian cats with lower respiratory disease and an additional 16 lung samples of Italian cats who died of various causes were examined using next generation sequencing (NGS). Subsequently, a Filobacterium-specific qPCR assay was developed and used to re-test BALF specimens from the 11 Italian cats and lung tissue homogenates from the additional 16 deceased cats. Principal findings An amplicon of 548 bp with 91.24% sequence agreement with Filobacterium rodentium was obtained from all three patients, suggesting the novel Filobacterium sp. was the cause of their lower respiratory disease. The novel Filobacterium sp., which we propose to call F. felis, was detected in 3/3 Czech cats with chronic neutrophilic bronchitis, 13/13 Australian cats and 6/11 Italian cats with chronic lower respiratory disease, and 14/16 necropsy lung specimens from Italian cats. NGS and qPCR results all showed identical sequences. The Filobacterium sp. was sometimes the preponderant bacterial species in BALF specimens from cats with lower airway disease. There was an association between the presence of large numbers (greater than 105 organisms/mL) of Filobacterium and the presence of neutrophilic and/or histiocytic inflammation, although only a subset of inflammatory BALF specimens had F. felis as the preponderant organism. Conclusion The novel Filobacterium sp. comprises a finite part of the normal feline lower respiratory microbiome. Under certain circumstances it can increase in absolute and relative abundance and give rise to neutrophilic and/or histiocytic bronchitis, bronchiolitis and bronchopneumonia. These findings strongly suggest that F. felis could be an underdiagnosed cause of feline bronchial disease.

Capnocytophaga canimorsus Meningitis – Diagnosis with 16S rDNA PCR when Conventional Methods Failed to Identify the Causative Agent

Meningitis whether bacterial or viral, poses many challenges to clinicians as the causative agent is often not found. According to guidelines, it is standard to start empiric treatment before a Cerebrospinal Fluid (CSF) sample is obtained. Meningitis, if not diagnosed and treated early, can lead to high morbidity and mortality rates with serious neurological sequelae. While the most common cases of bacterial meningitis are related to Streptococcus pneumoniae and Neisseria meningitidis, this clinical case report found a rare case of meningitis caused by a zoonotic pathogen, Capnocytophaga canimorsus; a commensal found as part of the normal flora of dogs and cats. This rare organism was identified with the help of broad range 16S ribosomal DNA Polymerase Chain Reaction (rDNA PCR), an emerging technique that is now increasingly useful in rapid diagnosis especially if the offending agent is not timely identified and conventional methods have failed, making diagnosis and management difficult for physicians.