Genotype D4 Research Articles

Ongoing measles outbreak in Romania: Clinical investigation and molecular epidemiology performed on whole genome sequences.

Romania is currently facing a prolonged measles outbreak. The aim of the study was to analyse the circulating human measles virus (HMV) strains by combining whole genome sequencing (WGS) with phylogenetic analysis, with a focus on the haemagglutinin gene. We conducted an observational study in the first five months of 2024, in which 168 patients diagnosed with measles were randomly included. We have evaluated the clinical and epidemiological differences between children and adults. Screening for samples to be sequenced was performed with a commercial kit (PrimerDesign). WGS was done on Illumina MiSeq platform and phylogenetic analysis was performed with ML FastTree. No significant epidemiological and clinical differences between patients in the two age groups were identified. WGS was successfully performed for a number of 124 HMV strains. Genotype analysis indicated all the sequences as D8, except one that was B3. Phylogenetic analysis identified two well supported clusters, suggestive for at least two local transmission networks in Romania. One large transmission network (n = 108) consisted of sequences both from adults and children. Only one sequence from outside Romania (reported in Russia in 2023) clustered within this group. Another small transmission cluster was identified (14 sequences of which 11 from patients infected in the spring of 2024 and three in 2022). A few differences between the two co-circulating viral variants/clusters were observed. The median duration of hospitalisation was 2 days longer for patients in smaller cluster compared to those in the larger one (p = 0.019). Furthermore, these two clusters presented different mutation profiles in the hemagglutinin (HA) and neuraminidase (N) genes with implications for molecular surveillance. The current measles epidemic in Romania is driven mainly by two D8 genotype variants with different mutation profiles and slightly different severity of the disease, highlighting the usefulness of sustained molecular surveillance.

Genetic diversity and spread of recombinant coxsackievirus A4 in hand, foot, and mouth disease cases in Bangkok, Thailand: 2017–2023

Coxsackievirus A4 (CVA4) has recently become one of the most common causative agents of hand, foot, and mouth disease. The current study investigated the genetic diversity and spread of recombinant CVA4 by analyzing circulating genotypes and recombinant strains in Bangkok, Thailand, from 2017 to 2023. Partial VP1, 3Dpol, and whole genome sequencing of CVA4 samples collected from collaborating hospitals were conducted. Phylogenetic analysis of CVA4 VP1 and 3Dpol genome regions revealed discordance, indicating recombination. The predominant CVA4 genotype was C3, primarily observed in 2019. The predominant genotype in 2017 was C1. D2, commonly found in China, was occasionally observed. In nucleotide similarity analysis, intertypic recombination between CVA4 and EV-A during the evolutionary history of the virus was evident, particularly in the nonstructural region. The estimated emergence of genotypes C1 and C3 in Thailand occurred around 2014, with an evolutionary rate of 5.8 × 10− 3 nucleotide substitutions per site per year. Genotype D2 exhibited notable variability across both the entire genome and the structural protein region compared to genotype C. Monitoring the genetic diversity and circulation of recombinant CVA4 is crucial for identifying newly emerging virus strains, enabling prompt public health responses and containment efforts, and enhancing surveillance in Thailand.

Molecular and genetic characteristics from phylogenetic analysis of Russian and foreign variants of measles virus 2020–2024

Introduction. Over the past two years, there has been an increase in measles morbidity in Russia and other countries. In order to assess the heterogeneity of clinically significant strains of Measles morbillivirus to reveal the sources of infection and transmission routes strains, a molecular genetic study thus becomes an urgent task. In this paper, a genetic identification of clinical strains of measles virus detected in 2023–2024 is compared with global variants as well as Russian strains detected in previous years.Materials and methods. Forty measles virus genome sequences isolated from nasopharyngeal swab samples obtained in Moscow and Novosibirsk in 2023–2024 were included in the study. The data were then compared with strains collected in Russia in May 2023 and deposited at the Central Research Institute of Epidemiology, as well as strains collected in 2020 and 2021 in Moscow.Results. The nucleotide sequences of studied Measles morbillivirus strains were categorized into different phylogenetic groups within genotype D8. For samples of genotype B3 collected in 2020 and 2023, a comparative analysis was performed to identify the region of origin. Phylogenetic analysis of Russian and foreign variants of measles virus suggests that strains currently circulating in Russia may be a variety of strains that had previously circulated in other countries and independently spread to Russia in 2023. After analyzing the most frequent nucleotide substitutions in various measles virus genes, the most variable genes were identified to provide a basis for the extension of phylogenetic analysis.Conclusions. The proposed approach to molecular genetic testing of complete and partial genome sequences of clinical isolate of measles virus detected in 2023–2024 in Moscow and Novosibirsk made it possible to identify strain subgroups that differ in origin. The comparison of the Measles morbillivirus strains sequenced in the present research with global sequences allowed us to detect similar sequences identified both in 2023 and in previous years in various countries of the world. The analysis of epidemiologically significant strains of Measles morbillivirus shows that N gene can be used to reliably determine the main genotype; however, this approach is not sufficient for studying the transmission pathways of the virus.

Contamination of Hepatitis E Virus in Pig Livers of Different Market Types Collected from Seven Provinces of China.

Foodborne transmission of the Hepatitis E virus (HEV) is becoming an important public health problem in China, but the food associated with the HEV transmission route remains unclear. Pig liver is among the suspected food products involved in HEV transmission. Our research aimed to survey the contamination rate and genotype identification of HEV in pig livers from different types of markets in selected provinces of China. reverse transcription-quantitative polymerase chain reaction (RT-qPCR) was used to screen for HEV in pig livers, nest RT-PCR was used for partial amplification of opren reading frame (ORF) 2, followed by sequencing, and phylogenetic analysis to determine the genotype of positive samples. A total of 787 pig liver samples from 7 provinces were collected. The average positive rate of HEV was 8.13% (64/787), Inner Mongolia (14.29%, 1/7) and Hebei province (14.29%, 23/161) showed the highest positive rate. There was a significant difference among the provinces (p < 0.01). Three major market types (wholesale market, supermarket, and butcher's shop) were included in this study, and the positive rates were 5.28% (21/398), 15.86% (23/145), and 8.20% (20/244), respectively. There was no significant difference among the three market types. Eleven of the positive samples were partially sequenced and identified genotypes 4a, 4d, and 3a.

High rates of hepatic involvement associated with new epidemic measles strains in Romania.

Similar to other European countries, a measles epidemic dominated by D8 genotype strains is ongoing since 2022 in our country. Recent reports of liver involvement associated with new measles virus (MeV) strains are scarce. The aim of the study was to compare the clinical characteristics between hospitalized patients with measles from the current epidemic and those from the previous outbreak and to analyze the risk factors associated with hepatic involvement. Data were collected retrospectively for all consecutive adult ( ≥18 years old) patients admitted between October 2022-April 2024 and January 2018-December 2019. A number of 228 patients from the current and 130 from the previous MeV epidemic were included. The main statistically significant differences were those regarding hepatic involvement (77.2% vs. 45.4%, p < 0.001) and significant hepatocellular injury (23.6% vs. 10.7%, p = 0.003). Compared to cases without liver involvement (123), patients with hepatocytolysis (235) had a higher prevalence of keratoconjunctivitis (42.5% vs. 28.4%, p = 0.01), thrombocytopenia (47.6% vs. 34.9%, p = 0.02), severe lymphopenia (51% vs. 35.7%, p = 0.007) and high fibrinogen levels (58.7% vs. 47.1%, p = 0.04). MeV strains from the 2022-2024 epidemic were the strongest predictors of hepatic involvement in the multivariable analysis (odds ratio = 4.3, 95% confidence interval: 2.5-7.4, p < 0.001). The mortality rate of patients with hepatocellular injury was 1.2%. The current measles epidemic is dominated by high rates of hepatic involvement compared to the previous outbreak. Although not associated with a significant mortality, the potential change in MeV hepatotropism could have important clinical implications and warrants further monitoring.

Diversity in flower characteristics and chromosome numbers of Rain Lily (Zephyranthes spp.)

The study examined the flower characteristics and chromosome numbers of twenty rain lily genotypes with different origins. The bulbs of investigated genotypes were grown sequentially in an experimental garden under net-house conditions at the Vietnam National University of Agriculture. The data was collected for flower parameters including flower size and color, flower longevity, lengths of stamen, pistil, and anther, and the number of chromosomes. The results showed that the rain lily genotypes exhibited diversity in flower color and flower diameter, making advances for bedding flowers and landscaping. Furthermore, a wide range of chromosome numbers (from 2n = 18 to 2n =54) was found among the genotypes from 2n =18 in genotype D21 to 2n = 54 in genotype D6. The new chromosome numbers of Z. atamasco (2n = 22), Z. ajax (2n = 28), Z. candida (2n = 30), Z. rosea (2n = 28), and Habaranthus robutus (2n = 18) from Vietnamese genotypes and new hybrids were updated. The information will be valuable for the breeding programs of this species.

Genetic variation and evolutionary characteristics of Echovirus 11: new variant within genotype D5 associated with neonatal death found in China

ABSTRACT Echovirus 11 (E11) has gained attention owing to its association with severe neonatal infections. From 2018 to 2023, a surge in severe neonatal cases and fatalities linked to a novel variant of genotype D5 was documented in China, France, and Italy. However, the prevention and control of E11 variants have been hampered by limited background data on the virus circulation and genetic variance. Therefore, the present study investigated the circulating dynamics of E11 and the genetic variation and molecular evolution of genotype D5 through the collection of strains from the national acute flaccid paralysis (AFP) and hand, foot, and mouth disease (HFMD) surveillance system in China during 2000–2022 and genetic sequences published in the GenBank database. The results of this study revealed a prevalent dynamic of E11 circulation, with D5 being the predominant genotype worldwide. Further phylogenetic analysis of genotype D5 indicated that it could be subdivided into three important geographic clusters (D5-CHN1: 2014–2019, D5-CHN2: 2016–2022, and D5-EUR: 2022–2023). Additionally, variant-specific (144) amino acid mutation sites and positive-selection pressure sites (132, 262) were identified in the VP1 region. Cluster-specific recombination patterns were also identified, with CVB5, E6, and CVB4 as the major recombinant viruses. These findings provide a preliminary landscape of E11 circulation worldwide and basic scientific data for further study of the pathogenicity of E11 variants.

Resurgence of measles virus infection in an eliminated country, Sri Lanka

Objective: To describe the situation of measles in Sri Lanka from May to November, 2023 and to define the role of virology laboratory towards case confirmation and epidemiological and genetic characterization of the outbreak. Methods: This retrospective study analyzed all samples tested for measles from 1st of May to 30th of November, 2023 at National Measles Rubella Laboratory, Sri Lanka. According to the World Health Organization (WHO) algorithm, serum and oropharyngeal/nasopharyngeal swabs were tested with WHO recommended kits for anti-measles IgM and measles virus specific RNA, respectively. Selected RNA positive samples were sequenced at reference laboratory, India. Analysis of sequencing data and construction of phylogenetic tree were carried out at National Measles Rubella Laboratory. Data was analyzed using descriptive statistics. Results: Of the total 1132 serum samples and 497 oropharyngeal/nasopharyngeal swabs from 1326 patients, 657 (49.5%) patients were confirmed as measles by anti-measles IgM, measles virus specific RNA or both. Males (55.6%, n=365) and the age group from &gt;20 to ≤30 years (33.0%, n=217) predominated positive patients. All provinces reported measles positive cases. All samples sequenced (100%, n=42) were genotype D8 with 95.2% (n=40) bearing Victoria. Australia origin. Conclusions: We described resurgence of measles in an eliminated country, confirming the genotype to be D8, one of the two genotypes currently circulating globally. Further, the study strongly convinced the importance of a strengthened virological surveillance system in an eliminated country, despite its eliminated status.

Rapid molecular epidemiology investigations into two recent measles outbreaks in Israel detected from October 2023 to January 2024.

Between late 2023 and early 2024, two measles outbreaks occurred in Israel, each caused by importation of measles virus strains of respective B3 and D8 genotypes. In this study, we validate transmission pathways uncovered by epidemiological investigations using a rapid molecular approach, based on complete measles virus genomes. The presented findings support this rapid molecular approach in complementing conventional contact tracing and highlight its potential for informing public health interventions.

An outbreak of hepatitis E virus genotype 4d caused by consuming undercooked pig liver in a nursing home in Zhejiang Province, China

Hepatitis E infection is typically caused by contaminated water or food. In July and August 2022, an outbreak of hepatitis E was reported in a nursing home in Zhejiang Province, China. Local authorities and workers took immediate actions to confirm the outbreak, investigated the sources of infection and routes of transmission, took measures to terminate the outbreak, and summarized the lessons learned. An epidemiological investigation was conducted on all individuals in the nursing home, including demographic information, clinical symptoms, history of dietary, water intake and contact. Stool and blood samples were collected from these populations for laboratory examinations. The hygiene environment of the nursing home was also investigated. A case-control study was conducted to identify the risk factors for this outbreak. Of the 722 subjects in the nursing home, 77 were diagnosed with hepatitis E, for an attack rate of 10.66 %. Among them, 18 (23.38 %, 18/77) individuals had symptoms such as jaundice, fever, and loss of appetite and were defined as the population with hepatitis E. The average age of people infected with hepatitis E virus (HEV) was 59.96 years and the attack rate of hepatitis E among women (12.02 %, 59/491) was greater than that among men (7.79 %, 18/231). The rate was the highest among caregivers (22.22 %, 32/144) and lowest among logistics personnel (6.25 %, 2/32); however, these differences were not statistically significant (P > 0.05). Laboratory sequencing results indicated that the genotype of this hepatitis E outbreak was 4d. A case-control study showed that consuming pig liver (odds ratio (OR) = 7.50; 95 % confidence interval [CI]: 3.84–16.14, P < 0.001) and consuming raw fruits and vegetables (OR = 5.92; 95 % CI: 1.74–37.13, P = 0.017) were risk factors for this outbreak of Hepatitis E. Moreover, a monitoring video showed that the canteen personnel did not separate raw and cooked foods, and pig livers were cooked for only 2 min and 10 s. Approximately 1 month after the outbreak, an emergency vaccination for HEV was administered. No new cases were reported after two long incubation periods (approximately 4 months). The outbreak of HEV genotype 4d was likely caused by consuming undercooked pig liver, resulting in an attack rate of 10.66 %. This was related to the rapid stir-frying cooking method and the hygiene habit of not separating raw and cooked foods.

Neutralizing antibody titers against D8 genotype and persistence of measles humoral and cell-mediated immunity eight years after the first dose of measles, mumps, and rubella vaccine in Brazilian children

Objective: Assess the level of measles vaccine-induced neutralizing antibodies against the D8 genotype and the persistence of humoral and cell-mediated immunity in children who received their first dose of the measles, mumps, and rubella vaccine eight years previously. Methods: Measles-specific IgG and neutralizing antibodies were determined in serum using ELISA and plaque reduction neutralization test, respectively. Cellular response was evaluated from peripheral blood mononuclear cells (PBMC). IFN-γ-secreting cells, memory B and T cells, and immunological mediators were assayed by ELISpot, flow cytometry, and multiplex liquid microarray assay, respectively. Results: Antibody concentrations declined over time; however, the vaccine-induced neutralizing antibodies’ effect against D8 and vaccinal genotypes persisted. PBMC stimulated with the vaccine virus exhibited specific IFN- γ-measles-secreting responses in most participants. Participants with high levels of neutralizing antibodies showed a higher proportion of activated B cells compared to participants with low levels of neutralizing antibodies, while proportions of memory CD4+ and CD8+ T cells were similar between these groups. PBMC supernatant cytokine levels showed a significant difference between stimulated and non-stimulated conditions for IL-2, TNF-α, IL-10, and CXCL10. Conclusion: Despite the decline in antibody concentrations over time, the participants still demonstrated neutralizing capacity against the measles D8 genotype five to eight years after the second dose of the measles, mumps, and rubella vaccine. Additionally, most of the enrolled children exhibited cell-mediated immunity responses to measles virus stimulation.

Detection and full genomic sequencing of rare hepatitis E virus genotype 4d in Italian wastewater, undetected by clinical surveillance

Hepatitis E is a liver disease caused by the hepatitis E virus (HEV), primarily transmitted through contaminated water or food. There are four different HEV genotypes in humans, with genotypes 1 and 2 being the most widespread. Genotypes 3 and 4 are found in animals and can also infect humans. Genotype 4 is prevalent in Asia, mainly in China. In Italy, only one outbreak of HEV-4 has been documented, which occurred in 2011, involving five patients. In 2013, HEV G4 was also detected in a pig farm. Since then, no further evidence of HEV genotype 4 has been found in the country. This study describes the first detection of HEV genotype 4, subtype d, in wastewater in central Italy, despite a lack of any clinical case reported in the area. By using a multiplex PCR protocol and two sequencing strategies, Illumina and ONT, the virus's complete genome was sequenced and characterized as subtype 4d. These findings shed light on the potential of environmental surveillance for infectious agents to improve our understanding of epidemiology and support public health efforts.

Neutralizing Antibody Response to Genotypically Diverse Measles Viruses in Clinically Suspected Measles Cases.

The neutralizing antibody (Nt-Ab) response to vaccine and wild-type measles viruses (MeV) was studied in suspected measles cases reported during the years 2012-2016. The neutralization activity against MeV A, D4 and D8 genotypes was studied on sera (Panel A; n = 68 (measles-immunized) and Panel B; n = 50 (unvaccinated)) that were either laboratory confirmed or not confirmed by the presence of IgM antibodies. Additionally, the Nt-Ab response in Panel A was measured against the MeV vaccine and four wild-type viruses. Neutralization results were compared using homology modeling and molecular dynamics simulation (MDS) of MeV-hemagglutinin (H) and fusion (F) proteins. Overall, the Nt-Ab titres for MeV-A were found to be significantly lower than MeV-D4 and MeV-D8 viruses for Panel A. No major difference was noted in Nt-Ab titres between MeV-D8 viruses (Jamnagar and New Delhi), whereas MeV-D4 (Sindhudurg and Bagalkot (BGK) viruses) showed significant differences between Nt-Ab titres for Panel B. Interestingly, the substitutions observed in epitopes of H-protein, L249P and G316A are observed to be unique to MeV-BGK. MDS of H-protein revealed significant fluctuations in neutralizing epitopes due to L249P substitution. The majority of the clinically suspected cases showed Nt-Abs to MeV wild-types. Higher IgG antibody avidity and Nt-Ab titres were noted in IgM-negatives than in IgM-positives cases, indicating reinfection or breakthrough. MDS revealed reduced neutralization due to decreased conformational flexibility in the H-epitope.

Deciphering the morpho-physiological and biochemical responses in Lablab purpureus (L.), Sweet, seedlings to water stress

Drought is a major crop productivity-limiting factor, which adversely affects growth and yield worldwide. Lablab (Lablab pupureus [L.] Sweet), is better adapted to withstand drought stress, however, characterization of lablab in Kenya has not been undertaken and there is limited knowledge on plant response to drought stress. Ten lablab genotypes were evaluated under greenhouse to determine the morpho-physiological and biochemical response at the seedling stage. The study revealed significant differential responses among lablab genotypes to water stress. The interaction between the water stress and the genotypes significantly affected the evaluated traits. Genotypes D1 and D6 showed significantly increased and superior morphological adaptation, respectively, indicating enhanced adaptation for tolerance to water stress. Significant variations of ascorbate peroxidase, guaiacol peroxidase and catalase activities were detected during the experimental period. The plants exhibited varying non-enzymatic antioxidants and osmolytes with an increase in proline, total phenol and water-soluble carbohydrates and a decline in free amino acids and water-soluble proteins under severe water stress. Genotype D10 recorded high antioxidant enzymatic activity and water-soluble carbohydrates, whereas D1 accumulated more proline and proteins, indicating better adaptation in scavenging reactive oxygen species to prevent membrane damage. The higher photosynthetic efficiency of seedlings of genotype D1 and superior morphological adaptation of D6 indicated better agronomic adaptation to severe water stress and could be utilized in plant breeding programmes for tolerance to drought.

A Lesson from a Measles Outbreak among Healthcare Workers in a Single Hospital in South Korea: The Importance of Knowing the Prevalence of Susceptibility.

Despite the high vaccination coverage rate, in-hospital transmission of measles continues to occur in South Korea. We present a measles outbreak in which two healthcare workers (HCWs) with presumptive evidence of measles immunity were infected by a patient with typical measles at a single hospital in South Korea. This facilitated the evaluation of measles seroprevalence in all HCWs. In 2018, suspected patients and contacts exposed during a measles outbreak were investigated based on their medical histories and vaccination status. Cases were confirmed by the detection of measles-specific immunoglobulin M or RNA. After the measles outbreak in 2018, measles IgG testing was conducted on a total of 972 HCWs for point-prevalence, including those exposed to the measles. In addition, we have routinely performed measles IgG tests on newly employed HCWs within one week of their hire date since 2019. The measles vaccine was administered to HCWs who tested negative or equivocally negative for IgG antibodies. An index patient who returned from China with fever and rash was diagnosed with measles at a hospital in Korea. Two additional HCWs were revealed as measles cases: one was vaccinated with the two-dose measles-mumps-rubella (MMR) vaccine, and the other, who was born in 1967, was presumed to have immunity from natural infection in South Korea. All three patients harbored the same D8 genotype. No additional measles cases were identified among the 964 contacts of secondary patients. A total of 2310 HCWs, including those tested during the 2018 outbreak, underwent measles IgG tests. The average age at the time of the test was 32.6 years, and 74.3% were female. The overall seropositivity of measles was 88.9% (95% confidence interval, 87.5-90.1). Although the birth cohorts between 1985 and 1994 were presumed to have received the measles-rubella (MR) catch-up vaccination in 2001, 175 (89.3%) HCWs were born after 1985 among the 195 seronegative cases. Despite high population immunity, imported measles transmission occurred among HCWs with presumed immunity. This report underscores the importance of understanding the prevalence of measles susceptibility among newly employed HCWs. This is important for policymaking regarding hospital-wide vaccinations to prevent the spread of vaccine-preventable diseases.

Genetic Characterization of the H Gene of MeV Strains (H1, B3, and D4) Recently Circulated in Iran for Improving the Molecular Measles Surveillance in the National Measles Lab.

Despite decreasing the global burden of measles disease after the introduction of vaccination, measles remains one of the most devastating childhood diseases. Since genotype B3 is reported as a predominant Measles Virus (MeV) genotype recently, the current study aimed to better understand MeV genetic variation by analyzing the complete sequence of Hemagglutinin (H) gene associated with outbreaks of circulated genotypes in Iran. Nine positive measles specimens were selected from three circulated different genotypes H1, B3, and D4. Two different regions of MeV RNA were detected by RT-PCR assay. Sequence data and phylogenetic trees were analyzed and constructed by MEGA X software program. Moreover, missense and silent mutations in critical positions of the MeV-H protein were investigated. The result of phylogenetic analysis from the C-terminus of the Nucleoprotein gene (NP-450) and the complete H gene revealed that the mean sequence diversity was 0.06%-0.08% and 0.04%, respectively. Genotype H1 had the highest mutation in this study; however, the substitutions in genotype B3 fundamentally occurred in critical epitopes. Moreover, genotype D4 was more stable than genotypes B3 and H1. Mutations were investigated in the whole sequence of H protein. Moreover, the mutations that occur in the critical sites of the protein have an important effect on the pathogenicity of the virus. In this way, we were able to illustrate why genotype B3 is more transmissible than other measles genotypes and is the most important circulating genotype around the world.

THU-178 - Network transmission of hepatitis C genotype 2c and 4d in men who have sex with men in Cape Town, South Africa

THU-178 - Network transmission of hepatitis C genotype 2c and 4d in men who have sex with men in Cape Town, South Africa

Genetic Characteristics of Measles Viruses Isolated in Taiwan between 2015 and 2020

A genetic analysis of circulating measles virus (MeV) provides strong evidence of an interruption in endemic measles and supports the elimination status of this disease. This study investigated 219 MeVs isolated between 2015 and 2020. Based on the 450 nucleotide sequences of the nucleoprotein gene (N-450), three genotypes of the H1, D8 and B3 with 8, 18 and 6 different N-450 sequences, respectively, were identified. The H1 genotype virus has not circulated in Taiwan since 2017, and the D8 and B3 genotype MeVs became dominant between 2018 and 2019. Different D8 genotype variants were imported from neighboring countries, and the majority of MeV variants were detected only for a short period. However, MVs/Gir Somnath.IND/42.16[D8], a named strain designated by the World Health Organization (WHO), was detected over 2 years. To explore whether the endemic transmission of measles has been underestimated, another sequence window of the hypervariable, noncoding regions between the matrix (M) and fusion (F) genes (MF-NCR) was introduced to clarify the transmission chain. From the chronological sequence analysis of MeVs with N-450 and MF-NCR sequence windows, no endemic MeV variants lasted over 4 weeks, providing strong evidence to support the contention that Taiwan has reached the status for measles elimination.

Pathogen genomics study of an early medieval community in Germany reveals extensive co-infections

BackgroundThe pathogen landscape in the Early European Middle Ages remains largely unexplored. Here, we perform a systematic pathogen screening of the rural community Lauchheim “Mittelhofen,” in present-day Germany, dated to the Merovingian period, between fifth and eighth century CE. Skeletal remains of individuals were subjected to an ancient DNA metagenomic analysis. Genomes of the detected pathogens were reconstructed and analyzed phylogenetically.ResultsOver 30% of the individuals exhibit molecular signs of infection with hepatitis B virus (HBV), parvovirus B19, variola virus (VARV), and Mycobacterium leprae. Seven double and one triple infection were detected. We reconstructed four HBV genomes and one genome each of B19, VARV, and M. leprae. All HBV genomes are of genotype D4 which is rare in Europe today. The VARV strain exhibits a unique pattern of gene loss indicating that viruses with different gene compositions were circulating in the Early Middle Ages. The M. leprae strain clustered in branch 3 together with the oldest to-date genome from the UK.ConclusionsThe high burden of infectious disease, together with osteological markers of physiological stress, reflect a poor health status of the community. This could have been an indirect result of the climate decline in Europe at the time, caused by the Late Antique Little Ice Age (LALIA). Our findings suggest that LALIA may have created an ecological context in which persistent outbreaks set the stage for major epidemics of severe diseases such as leprosy and smallpox hundreds of years later.

Identification of hepatitis B virus genotypes detected in Lahaul & Spiti district of Himachal Pradesh, India.

Infection by hepatitis B virus (HBV) results in acute or chronic hepatitis. Based on sequence differences of eight per cent or more, HBV is divided into 10 genotypes (A to J) and 35 sub-genotypes. Molecular characterization of the circulating HBV genome has helped in understanding the epidemiology and its clinical importance. Spiti valley in Himachal Pradesh, which shares its border with Tibet, is one of the most HBV prevalent areas in India. Since information about the circulating genotype/s of HBV in this area is limited, this study was conducted to identify the circulating HBV genotypes. The surface and partial reverse transcriptase gene regions were sequenced using 14 hepatitis B surface antigen-positive samples. Out of the 14 hepatitis B surface antigen-positive samples 11 sample gave quality sequence for further analysis. All the 11 samples belonged to subtype ayw2. The phylogenetic and recombination analysis revealed that five out of 11 samples were of genotype CD1 and the rest six were of genotype D3. The CD1 recombinant sub-genotype might have immigrated during past or present transcontinental migration between the adjacent countries. Further studies using full-genome sequencing and high sample size will be helpful to understand this epidemiology and to combat the high prevalence of HBV in the area.