Genome mutations of the Turkish strain Leishmania infantum_TR01.

PURPOSE: Today, almost 15 years have passed since the whole genome sequence (WGS) of a Leishmania parasite was completed for the first time. However, information on the genetics of these parasites remains to be elucidated. Genome-based studies may contribute to control strategies for leishmaniasis. The increase in genetically based studies, particularly whole-genome sequencing studies on Leishmania, will contribute to the control of leishmaniasis, which is a common and neglected disease worldwide. Our previous study obtained the Leishmania infantum_TR01 (Lin_TR01) genome sequence (Guldemir et al., 2020). In the present study, we focused on the mutations detected in the genome and aimed to investigate the effects of these mutations. METHODS: In our previous study, the whole-genome sequence of the L. infantum_TR01 strain was obtained (Guldemir et al., 2020). In the present study, 3153 polymorphisms were detected in bioinformatics analysis performed on the Geneious 11.0.5. (www.geneious.com) platform. Herein, the L. infantum JPCM5 strain was used as the reference genome for genome mapping. Polymorphic regions were determined using the Find Variations/SNPs program on the Geneious platform. We further analyzed these polymorphisms detected in the previous study. Additionally, a literature review was performed by searching the PubMed database for proteins with polymorphisms. RESULTS: In our previous study (Guldemir et al., 2020), the genomic DNA sequence was submitted to the NCBI GenBank (www.ncbi.nlm.nih.gov) database and registered under the name Leishmania infantum_TR01 (Lin_TR01) and project accession number PRJNA437593. As a result of the annotation of the genome, 3153 polymorphisms were identified. In this study, 166 protein-coding polymorphisms were found among the 3153 polymorphisms, affecting 63 different proteins. Fourteen of them were studied, and the remaining 49 proteins were not studied. The 14 proteins examined in terms of the mutations detected in this study were related to virulence (n = 5), vaccine candidates (n = 2), diagnosis/typing (n = 4), drug resistance (n = 2), drug targets (n = 3) and vital function (n = 1). CONCLUSION: As mentioned previously, the acquisition of the Lin_TR01 genome was described in our previous study (Guldemir et al., 2020). The present meta-analytical study is the first comparison report of whole-genome sequence-based polymorphisms between the Turkish strain Leishmania infantum_TR01 and reference Leishmania infantum JPCM5 strain and evaluated polymorphisms and proteins. In this study, we focused on the mutations detected in the genome, and the effects of these mutations were investigated and evaluated together with the current literature. In our previous study, a high-quality WGS of Leishmania infantum was successfully obtained for the first time in Turkey (1). In this study, the comparison of both genomes will contribute to providing the scientific community with a solid infrastructure for postgenomic investigations of the parasite.

Whole-genome sequencing of a Toxoplasma gondii strain from a Turkish isolate using next-generation sequencing technology.

PURPOSE: Toxoplasma gondii is an intracellular parasite that can affect all vertebrae and is the causative agent of toxoplasmosis. At present, the United States CDC (Centers for Disease Control and Prevention) recognizes this infection as a neglected disease. Toxoplasma gondii infection profiles exhibit differences because of the different regional and climatic responses to these parasites in Turkey, and these protozoan infections are notably common in this country. In this study, we attempted to obtain the whole-genome sequence of T. gondii using next-generation sequencing technology. METHODS: Toxoplasma gondii isolates were isolated from an infant with congenital toxoplasmosis by Ekmen et al. (1974) in Ankara, Turkey. Whole-genome sequencing (WGS) was performed using the Illumina HiSeq 2500 and HiSeq SBS Kit v2. A T. gondii library was created on this device in the initial stage. After the completion of the library phase, sequence analysis was begun with a next-generation sequencing device. The resulting fragments were combined using paired-end (PE) reading and converted into a single DNA fragment. Bioinformatic analysis was performed using the Geneious 2.1. RESULTS: In our study, WGS was successfully performed on T. gondii. The T. gondii whole-genome sequence has a coverage value of 50x, a size of 61,5763 Mb and a GC ratio of 52.6%. Data from this sequence were submitted to the National Center for Biotechnology Information (NCBI) GenBank (www.ncbi.nlm.nih.gov) database under the name Toxoplasma gondii TR01 (TG_TR01). The accession number of the genome obtained in this study is WOEV00000000.1. The biological sample access number is SAMN13338796. The genome of the T. gondii strain obtained in this study was compared with the reference genome, and 8312 CDSs (coding sequences), 183 tRNAs, 294 rRNAs and 8789 genes were identified. Among the 8312 CDSs, 4284 encoded hypothetical proteins (hypothetical protein CDSs/proteins of unknown function). The entire genome sequence of T gondii TR01 was compared with that of Toxoplasma gondii ME49. The results of this comparison demonstrate that the analyzed genome was 99,98% similar to the reference genome. The accession numbers of 14 chromosomes belonging to the genome sequences of T. gondii TR01 (TG_TR01) are CM019722.1, CM019723.1, CM019724.1, CM019725.1, CM019726.1, CM019727.1, CM019728.1, CM019729.1, CM019730.1, CM019731.1, CM019732.1, CM019733.1, CM019734.1, and CM019735.1. CONCLUSION: In this study, a whole-genome sequences of T. gondii was conducted for the first time in Turkey. The analyzed strain was named T. gondii TR01. The data obtained from this study may contribute to a better understanding of T. gondii. T. gondii is an important pathogen with an unusual population structure. Although T. gondii is highly zoonotic and has a complicated life cycle, some strains of this parasite have exhibited high genetic sequence similarity, and our study supports this knowlegde. The characterization of this strain may be very useful for the scientific community of our country and may help to establish a foundation for further research investigating the genome of T. gondii.

Genome Sequencing of Leishmania infantum Causing Cutaneous Leishmaniosis from a Turkish Isolate with Next-Generation Sequencing Technology.

PURPOSE: Leishmania subgenus Leishmania causes leishmaniosis, which is a chronic systemic disease in humans and animals, in which the skin and visceral organs can be affected. The disease generally consists of three different clinical types in humans: visceral (kala-azar, VL), cutaneous (CL) and mucocutaneous leishmaniosis (MCL). According to the World Health Organization (WHO), leishmaniosis is still one of the world's most neglected diseases. It has been nearly 13-14 years since the completion of the first complete genome sequence of a Leishmania parasite. However, much information about these parasites remains to be elucidated, such as the causes of differences in tissue tropism. The aim of this study is to perform the whole-genome sequencing of Leishmania infantum causing cutaneous leishmaniosis from a Turkish isolate with next-generation sequencing technology. METHODS: Genomic sequencing was performed on the Illumina HiSeq 2500 platform. The TruSeq Nano DNA Low Throughput Library Prep Kit, compatible with the Illumina HiSeq 2500 platform, was used to generate the library. Synthesis sequencing (SBS) was performed with a HiSeq Rapid SBS Kit v2 to generate single-fragment reads (2 × 150 bp; PE) with two fragment end-to-end assemblies. Bioinformatics analyses were performed on the Geneious 11.0.5. ( www.genius.com ) platform. RESULTS: In our study, a high-quality whole-genome sequence (WGS) of L. infantum was successfully generated, and a total of 32,009,137 base pairs of genomic DNA from 36 chromosomes were obtained. The resulting genomic DNA sequence was submitted to the US National Center for Biotechnology Information (NCBI) GenBank ( www.ncbi.nlm.nih.gov ) database and registered under the name Leishmania infantum_TR01 (Lin_TR01). The following accession numbers were assigned by NCBI to the 36 chromosomes of the Lin_TR01 genome: CP027807, CP027810, CP027808, CP027811, CP027809, CP027812, CP027813, CP027814, CP027817, CP027818, CP027819, CP027815, CP027821, CP027816, CP027823, CP027820, CP027822, CP027824, CP027825, CP027826, CP027827, CP027828, CP027829, CP027830, CP027831, CP027832, CP027833, CP027834, CP027835, CP027836, CP027837, CP027838, CP027839, CP027840, CP027841, CP027842. As a result of the annotation of the Lin_TR01 genome, 3153 polymorphisms, 8324 genes, 8199 CDSs, 8109 mRNAs, 67 tRNAs, 11 rRNAs and 58 ncRNA were identified. Among the 8199 CDS obtained, 5278 encode hypothetical proteins. CONCLUSION: In this study, a high-quality WGS of Leishmania infantum was successfully obtained for the first time in Turkey. According to a review of WGS studies on this subject, the Lin_TR01 strain is the first strain to be isolated from cutaneous leishmaniosis. The reference genome of L. infantum JPCM5 (Peacock et al., 2007) was obtained from a visceral leishmaniosis case, in accordance with the classical tissue and organ tropism of the species. Lin_TR01 is the second whole-genome-sequenced strain in the world after the JPCM5 strain. The Lin_TR01 genome is the only L. infantum whole-genome sequence that is completed assembly level from 36 chromosomes among the genomes obtained thus far ( https://www.ncbi.nlm.nih.gov/genome/genomes/249 ).

Molecular Characterization of Carbapenem-Resistant Acinetobacter baumannii Blood Culture Isolates from Three Hospitals in Turkey.

We aimed to investigate the clonal relationships, common sequence types, and carbapenemase genes in 177 non-repetitive blood culture isolates of Acinetobacter baumannii collected from patients at three university hospitals in Turkey in 2016. Molecular epidemiological characteristics of the isolates were examined using pulsed-field gel electrophoresis (PFGE), and multilocus sequence typing (MLST) (Pasteur scheme-cpn60, fusA, gltA, pyrG, recA, rplB, and rpoB). Multiplex PCR was used to investigate the carbapenemase genes, including blaOXA-23-like, blaOXA-24-like, blaOXA-48-like, blaOXA-58-like, blaIMP, blaVIM, and blaNDM. PFGE genotyping yielded 92 pulsotypes with a clustering ratio of 69.7%. As per a ≥85% similarity coefficient, 159 (90.9%) isolates were found to be clonally related. The blaOXA-23-like and blaOXA-58-like genes were identified in 100% and 28.2% of the isolates, respectively. The blaNDM gene was identified in two isolates. The MLST analysis included 54 isolates with different pulsotypes, and 29 sequence types (STs). Most of the isolates (n = 36) belonged to the clonal complex (CC)2, one isolate belonged to CC1, and one isolate belonged to CC164. Sixteen new STs (ST1235-ST1250) were identified. Identifying both global ST2 and a large number of new STs, revealed high genetic diversity in A. baumannii isolates in the study population.

Nasopharyngeal pneumococcal carriage in healthy Turkish children after 13-valent conjugated pneumococcal vaccine implementation in the national immunization program.

BACKGROUND: In Turkey, pneumococcal conjugated vaccine (PCV) was introduced to the national immunization program as PCV7 in 2008, and was replaced with PCV13 in 2011. The aims of this study were to investigate the effects of PCV13 on nasopharyngeal pneumococcal carriage (NPC) by determining the serotype distribution, and to identify risk factors for carriage, in healthy Turkish children. METHODS: This prospective study was conducted on 500 healthy children aged 0-13 years between April and November 2014. Nasopharyngeal swab samples were taken, and molecular method for capsular serotyping was performed by multiplex PCR. RESULTS: Of 500 children, 43.4% were unvaccinated with a PCV (7- or 13-valent), 56.6% were vaccinated and The NPC rate was found to be 9.8%. Of 49 positive Streptococcus pneumoniae isolates, 26 (53%) were PCV13 vaccine strains (VSs), and 17 (34.7%) were non-VS. Six isolates (12.2%) were not typeable by the method applied. The most common serotypes detected were serotype 3 (18.3%), serotype 19F (14.2%), serotype 6A/B (8.1%), serotype 11A (8.1%), and serotype 15B (8.1%). The total coverage rate of the PCV13 serotypes was 60.4%. CONCLUSION: A significant decrease in carriage rate was detected within three years after the introduction of PCV13 in Turkey. However, the nasopharyngeal carriage of PCV13 strains was found to be interestingly high.

Molecular characterization of the influenza A(H1N1)pdm09 isolates collected in the 2015-2016 season and comparison of HA mutations detected in Turkey since 2009.

Influenza A(H1N1)pdm09 pandemic virus causing the 2009 global outbreak moved into the post-pandemic period, but its variants continued to be the prevailing subtype in the 2015-2016 influenza season in Europe and Asia. To determine the molecular characteristics of influenza A(H1N1)pdm09 isolates circulating during the 2015-2016 season in Turkey, we identified mutations in the hemagglutinin (HA) genes and investigated the presence of H275Y alteration in the neuraminidase genes in the randomly selected isolates. The comparison of the HA nucleotide sequences revealed a very high homology (>99.5%) among the studied influenza A(H1N1)pdm09 isolates, while a relatively low homology (96.6%-97.2%), was observed between Turkish isolates and the A/California/07/2009 vaccine virus. Overall 14 common mutations were detected in HA sequences of all 2015-2016 influenza A(H1N1)pdm09 isolates with respect to the A/California/07/2009 virus, four of which located in three different antigenic sites. Eleven rare mutations in 12 HA sequences were also detected. Phylogenetic analysis revealed that all characterized influenza A(H1N1)pdm09 isolates formed a single genetic cluster, belonging to the genetic subclade 6B.1, defined by HA amino acid substitutions S84N, S162N, and I216T. Furthermore, all isolates showed an oseltamivir-sensitive genotype, suggesting that Tamiflu (Oseltamivir) could still be the drug of choice in Turkey.

[Optimization of real-time multiplex polymerase chain reaction for the diagnosis of acute bacterial meningitis and Neisseria meningitidis serogrouping]. / Akut bakteriyel menenjit tanisi ve Neisseria meningitidis serogruplandirmasinda gerçek zamanli multipleks polimeraz zincir reaksiyonunun optimizasyonu.

Streptococcus pneumoniae, Neisseria meningitidis and Haemophilus influenzae type B are responsible for about 80-85% of acute bacterial meningitis cases among adults and in our country it is mandatory to report bacterial meningitis cases caused by these agents. In recent years, disease control programs have focused especially on these three pathogens in our country. It is very important to know the causative agent of meningitis for prevention/control measures, choice of treatment regimen, and prediction of the severity and the course of the disease. Rapid diagnosis of meningococcal meningitis is especially vital. In addition, the identification of N.meningitidis serogroups in the community is also important for the decision of the type and combination of vaccine to be administered. The aim of this study was to optimize the real-time multiplex polymerase chain reaction (Rt-multiplex PCR) for the diagnosis of the disease and serogrouping of N.meningitidis in clinical samples in a direct, quick and reliable way. In this study, three Rt-multiplex PCR assays were optimized and standardized for the detection of N.meningitidis, H.influenzae and S.pneumoniae (NHS mix) and for the serogrouping of N.meningitidis (BCY mix and AWX mix) in our laboratory. Sensitivity of the Rt-multiplex PCR method was detected by reference strains and simulation studies. Forty three samples (41 cerebrospinal fluid (CSF), 1 serum and 1 clinical isolate) with the suspicion of acute bacterial meningitis and six nasopharyngeal isolates sent to National Reference Laboratory for Molecular Microbiology between July 2012-May 2014 were included in the present study. All samples were examined with the Rt-multiplex PCR methods. Clinical isolates were studied by both conventional and Rt-multiplex PCR methods. Oxidase, catalase test, Gram stain, API-NH and agglutination tests with specific antisera were performed in the National Respiratory Pathogens Reference Laboratory. The detection limit of the method, which was optimized and standardized in our laboratory was determined as 102 cfu/ml. The CT (threshold cycle) value in this dilution was detected approximately as 35. N.meningitidis was detected in 14 of the 41 CSF samples by the NHS mix. However, only 10 of the positive samples could be typed with BCY mix and AWX mix. Eight (80%) of them were serogroup B, one of each was (10%) serogroup A and serogroup W135, respectively. All the isolates (six nasopharyngeal and one clinical specimen) were identified as N.meningitidis serogroup B by Rt-multiplex PCR and the isolates were also confirmed by conventional methods. The CSF specimens with CT value > 35 could not be typed. We concluded that the Rt-multiplex PCR method is a rapid and reliable test for the direct diagnosis of acute bacterial meningitis due to NHS and serogrouping of N.meningitidis. Rapid diagnosis plays an important role for the treatment and control of the disease, and serogrouping of the agent plays an important role in terms of prevention/control and vaccination policies.

Metagenomics Analysis of Bacterial Population of Tympanosclerotic Plaques and Cholesteatomas.

Objective Chronic otitis media can cause cholesteatomas or tympanosclerosis; however, the pathophysiology of such conditions is not completely known. The aim was to identify a bacterial genome that might be present in tympanosclerotic plaques and cholesteatomas using sequence analysis of the gene responsible for the transcription of 16 ribosomal RNA (rRNA). Study Design Metagenomics analysis of the samples. Setting Samples were collected and evaluated at tertiary care centers. Subjects and Methods Sixty-five tympanosclerotic plaques and 37 cholesteatomas were evaluated. The polymerase chain reaction (PCR) was performed using primers designed for the amplification of the gene responsible for the transcription of bacterial 16 rRNA. The PCR-positive samples were sequenced via Sanger method, and 46 selected samples were analyzed with next-generation sequencing (NGS). Results Sanger sequencing revealed the presence of bacterial genomes in a total of 18 of the 102 samples tested. Sequencing of these genomes indicated the presence of Alloiococcus otitis, Staphylococcus aureus, Achromobacter xylosoxidans, Escherichia coli, Staphylococcus sciuri, Staphylococcus caprae, Parvimonas spp., and Bacillus sp. in the tested samples. The NGS showed 1 or more different bacterial genomes in 44 (95.7%) of the 46 samples tested. Predominately, genome of Clostridiales (27 samples), Staphylococcaceae (24 samples), Peptoniphilaceae (12 samples), and Turicella otitidis (9 samples) were identified. Conclusion The middle ear is inhabited by a diverse microbial community than that previously known. With the use of molecular biology, it has become easier to identify the bacterial genomes and improve our understanding of the role of middle ear microbiota in the pathogenesis of chronic inflammatory ear diseases.

The importance of serological and molecular analyses for the diagnosis of measles cases and for meeting elimination targets in Turkey from 2007 to 2015.

Measles is an important childhood infection targeted to be eliminated by the World Health Organization (WHO). Virus circulation has not been interrupted in the European Region because high vaccination rates could not be achieved among some countries of the WHO European Region including Turkey. The purpose of this study was to evaluate the laboratory findings of measles cases confirmed in the last nine years, to assess the epidemiological data of the cases, to determine the molecular genotyping studies and to emphasise the importance of laboratory-based surveillance in measles. From 2007 to 2010, only 18 imported cases were detected in Turkey. However, this number increased with a local outbreak of 111 cases in 2011, followed by another outbreak in 2012 in Istanbul that spread countrywide in the following two years; a total of 8661 laboratory-confirmed measles cases were reported from 2012 to 2015. After ELISA detection of a measles IgM-positive result in serum samples of potential measles cases, RT-PCR was performed with urine or nasopharyngeal swab samples of patients, and amplicons were subjected to sequencing. In the samples of 2010 and 2011, D4 and D9 genotypes were mainly detected; as of 2012, the D8 genotype has gained importance. Although D8 was also identified in 2014, in the same year genotype H1 viruses were detected in Turkey for the first time. Therefore, it is important to perform a genotypic analysis of the virus causing the outbreak, analyse epidemiological connections of the contact, determine the source of the outbreak and plan measures based on this information.

Towards measles elimination: Phylogenetic analysis of measles viruses in Turkey (2012-2013) and identification of genotype D8.

Molecular characterization of different measles virus (MV) strains is essential to combat the disease. Sixty measles MV strains were obtained from throat swabs or urine of patients in Turkey between 2012 and 2013 and characterized. MV RNA sequences (n = 60) were analysed for 456 nucleotides representing hypervariable domain of the nucleoprotein (N) gene. Of the 60 strains analysed 53 were the D8 genotype, 6 were B3, 1 was D4, and 1 was A. This report describes MV genotype D8 that was involved in a measles outbreak in Turkey. Sequences of most genotype D8 strains (n = 51) were identical to the sequence of variant D8-Frankfurt-Main, which has been associated with outbreaks throughout Europe. Despite the lack of epidemiologic information, a phylogenetic analysis suggested that the genotype D8 MV may have been brought to Turkey from elsewhere. Phylogenetic and epidemiological findings suggested that strains identified in tourists and associated with importation included one strain of genotype D8, one strain of genotype B3, and one strain of genotype D4. These findings from the 2012 to 2013 outbreak in Turkey confirm that pockets of unimmunised individuals are making the country susceptible to measles outbreaks. To prevent further outbreaks, deliberate and sustained effort must be made to reach, and immunise susceptible age groups. Towards measles elimination process, continued molecular surveillance of measles strains in Turkey will help identify transmission patterns of virus and evaluate vaccination efforts. J. Med. Virol. 88:1867-1873, 2016. © 2016 Wiley Periodicals, Inc.

High-Level Genetic Diversity among Invasive Streptococcus pneumoniae Isolates in Turkey.

This study obtained information on the serotypes and molecular typing characteristics of Streptococcus pneumoniae strains causing invasive diseases in Turkey. Sixty-eight S. pneumoniae isolates causing invasive pneumococcal diseases were collected from different regions of Turkey from 2009 to 2011. The isolates were characterized by performing multilocus sequence typing (MLST), pulsed-field gel electrophoresis (PFGE), and capsular serotyping, and 25 different serotypes were identified. Serotypes 19F, 23F, 1, 14, and 7F were common and accounted for 52.9% of all the serotypes. In addition, 54 different PFGE profiles (pulsotypes) were observed. Twenty-three of the 68 (33.8%) isolates were clustered into 9 pulsotypes. MLST analysis yielded 36 sequence types, of which 12 (33.3%) were novel. A comparison of results with the global pneumococcal MLST database by performing eBURST analysis showed that our strains belonged to 20 different clonal complexes and 5 singletons. In addition, we identified 4 new alleles: 2 gdh, 1 xpt, and 1 ddl. Thus, the results of this study highlighted a high level of diversity among pneumococcal isolates. In addition, the study identified a case of possible capsular switching.

A Syrian patient diagnosed with meningococcal meningitis serogroup B.

Meningococcal infection is an important health problem in children, with significant mortality and morbidity. In this infection, early recognition and aggressive treatment can reduce mortality. Herein we report an 11-year-old-Syrian refugee girl living in Turkey for 3 months admitting with fever, headache, and vomiting diagnosed as meningococcal meningitis type B who was cured with intravenous ceftriaxone therapy. Infections in refugee populations constitute major importance for highlighting importance of investigation of endemic diseases in their own country and contagious diseases in their present place.

Molecular characterization of measles viruses in Turkey (2010-2011): first report of genotype D9 involved in an outbreak in 2011.

Genetic characterization of measles viruses (MVs) combined with acquisition of epidemiologic information is essential for measles surveillance programs used in determining transmission pathways. This study describes the molecular characterization of 26 MV strains (3 from 2010, 23 from 2011) obtained from urine or throat swabs harvested from patients in Turkey. MV RNA samples (n = 26) were subjected to sequence analysis of 450 nucleotides comprising the most variable C-terminal region of the nucleoprotein (N) gene. Phylogenetic analysis revealed 20 strains from 2011 belonged to genotype D9, 3 to D4, 2 strains from 2010 to genotype D4 and 1 to genotype B3. This study represents the first report describing the involvement of MV genotype D9 in an outbreak in Turkey. The sequence of the majority of genotype D9 strains was identical to those identified in Russia, Malaysia, Japan, and the UK. Despite lack of sufficient epidemiologic information, the presence of variants observed following phylogenetic analysis suggested that exposure to genotype D9 might have occurred due to importation more than once. Phylogenetic analysis of five genotype D4 strains revealed the presence of four variants. Epidemiological information and phylogenetic analysis suggested that three genotype D4 strains and one genotype B3 strain were associated with importation. This study suggests the presence of pockets of unimmunized individuals making Turkey susceptible to outbreaks. Continuing molecular surveillance of measles strains in Turkey is essential as a means of acquiring epidemiologic information to define viral transmission patterns and determine the effectiveness of measles vaccination programs designed to eliminate this virus.

Monitoring genetic diversity of influenza A(H1N1)pdm09 virus circulating during the post-pandemic period in Turkey.

The aimes of the present study were to monitor genetic alterations in the hemagglutin (HA) gene and oseltamivir resistance-related alterations in the neuraminidase (NA) gene of influenza A(H1N1)pdm09 viral isolates detected during the post-pandemic period in Turkey. A total of 2601 clinical specimens obtained from suspected cases of influenza A(H1N1)pdm09 viral infections were analyzed by real-time reverse transcription polymerase chain reaction. Viral RNA was detected in 233 (9%) clinical specimens. Sequence analysis of the HA gene in 16 random isolates showed >98.7% homology among each other and with the A/California/07/2009 vaccine strain. These 16 isolates had common (75%-100%) amino acid substitiutions at positions P83S, D97N, S203T, R205K, I216V, V249L, I321V, and E374K in the HA gene. In addition, two additional rare mutations were also observed at positions S162N (addition of a glycosylation site, 6.25%) and A186T (receptor binding region, 6.25%). On the basis of amino acid substitutions in the HA1 domain, majority of the Turkish isolates were classified in the genetic group v and others in the genetic groups ii, iii, and vi. In the present study, we observed an increase in the variety and ratio of mutations detected in the HA1 and HA2 domains of the HA gene; however, these alterations have not yet resulted in vaccine escape mutants in Turkey. In addition, analysis of the NA regions of the isolates revealed that oseltamivir resistance was not an issue in Turkey.

One-step multiplex PCR assay for detecting Streptococcus pneumoniae serogroups/types covered by 13-valent pneumococcal conjugate vaccine (PCV13).

The life-threatening illnesses caused by Streptococcus pneumoniae have been declined significantly after the use of pneumococcal conjugate vaccines. Continuous monitoring of the vaccine serogroups/types is necessary to follow the changing epidemiology of invasive pneumococcal diseases. Recently, the sequential multiplex PCR approach, which uses several different sets of reactions, has been commonly adopted for determining capsular serogroups/types of S. pneumoniae isolates. In our study, we focused on development of a one-step multiplex PCR assay detecting all 1, 3, 4, 5, 6A/B, 7F, 9V, 14, 18C, 19A, 19F and 23F serogroups/types targeted by PCV13. The content of multiplex PCR mix and the cycling conditions were optimized in a manner that allowed rapid and accurate serotyping of a pneumococcal isolate by performing only a single amplification reaction. In our study of 182 clinical isolates, the one-step multiplex PCR assay exhibited 100% sensitivity and specificity, suggesting that its utilization can significantly reduce the use of traditional antiserum method requiring expensive reagents.

[Development and optimization of an in-house PCR method for molecular diagnosis of pertussis]. / Bogmacanin Moleküler Tanisi Için Laboratuvar Yapimi Bir PCR Yönteminin Gelistirilmesi ve Optimizasyonu.

Pertussis (whooping cough), caused by Bordetella pertussis is a severe, acute contagious disease of the respiratory system and it affects mostly children and also susceptible individuals of all ages. Although the conventional culture method used for diagnosis is highly specific, it has a lower sensitivity. Therefore, there is a need for a sensitive, specific and rapid method for diagnosis of pertussis. Polymerase chain reaction (PCR), introduced recently as a new approach for diagnosis of pertussis, has been shown to be more sensitive than culture method. Pertussis toxin gene (ptxA-Pr), insertion sequence genes (IS481 and IS1001), adenylate cyclase genes and structural porin and flagellin genes were chosen as targets for PCR, in different studies. This study aimed to develop and optimize a diagnostic inhouse PCR method by using primers specific for ptxA-Pr and IS481 gene regions. An in-house PCR method was developed by using primer pairs of PTp1/PTp2 specific for ptxA-Pr gene and PIp1/PIp2 specific for IS481 gene and DNAs of various bacterial reference strains. Throat samples obtained from 45 healthy individuals and B.pertussis reference strain with decreasing concentrations were mixed to constitute a group of "representative clinical samples" and used to test and optimize sensitivity and specificity of the method. The in-house PCR with PTp1/PTp2 primers showed a very high specificity but a low sensitivity with a value of 34.4 cfu/Rm (colony forming unit/reaction mixture). Whereas, the inhouse PCR with PIp1/PIp2 primers exhibited a low specificity due to cross-reactivity with B. Pertussis and B.bronchiseptica but much higher sensitivity with a value of 1.12 cfu/Rm. The experiments performed with the representative clinical samples yielded similar results. Simultaneously applied cultivation studies indicated the detection limit of the PCR method as 2 x 103 cfu/ml. Based on our results, the PCR targeting IS481 gene had high sensitivity while the PCR targeting ptxA-Pr gene had high specificity. It was concluded that, PCR method targeting the IS481 gene might be used for pre-diagnosis and then PCR for ptxA-Pr gene might be applied for the confirmation of B.pertussis in the molecular diagnosis of pertussis.

Epidemiological, demographic, and molecular characteristics of laboratory-confirmed pandemic influenza A (H1N1) virus infection in Turkey, May 15-November 30, 2009.

A total of 19,973 clinical specimens obtained from suspected cases of pandemic influenza A virus infection were analyzed by real-time reverse transcription-polymerase chain reaction. Mutations in hemagglutinin (HA) gene and alteration at position 275 in neuraminidase (NA) gene of the randomly selected 29 isolates were detected by sequencing analysis. The virus RNA was detected in 47.3% of the clinical specimens. The pandemic flu cases increased from the 42nd week and peaked in the 46th week of 2009. This intensity continued to the end of the study period. Pandemic flu mainly affected children in the 5-14 year age group, without any gender predominance. The analyzed strains had >98.9% homology with vaccine strains and with each other. More than 37% of the isolates had mutation at position D222E/N on HA gene. There was no isolate harbored mutation at the position H275Y of the NA gene, indicating that the virus isolates currently circulating in Turkey are sensitive to oseltamivir.