Comparative evaluation of various in-house protocols on diagnostic performance for paratuberculosis IS900 PCR.

BACKGROUND: Paratuberculosis is a worldwide endemic infectious disease of ruminants that results in high economic losses. Public health concerns are also being raised with human Crohn's disease. Therefore, control is becoming priority for governments. Control is largely dependent on "Test and Cull" or "Test and Segregate" policy. Hence, it is critical to assure the infection before making the decision. Commercial kits are costly especially in view of resource limited areas. Present study analyzed the performance various in house DNA isolation methods and PCR master mix combinations to optimize a protocol for confirmation of paratuberculosis bacilli shedding in feces. METHODS AND RESULTS: Present study included five protocols of fecal DNA isolation (chemical, bio-chemical, physio-chemical and physical) and three reaction mixes (based on Qiagen, Genei and Thermo 2X master mixes) in nine different combinations using additives and tested their performance for IS900 PCR. Spiked fecal samples were used to select the best combination of DNA isolation method and PCR master mix (PRM). Selected combination was used to test reference (positive and negative) fecal samples and field samples. Findings revealed that combination physical method of DNA isolation and Genei based PRM (with additives; betaine DMSO and BSA) had lowest limit of detection. Sensitivity was 83% and specificity was 100% in comparison to fecal culture. High prevalence (23%) was reported for paratuberculosis on field samples. CONCLUSION: Optimized protocol has acceptable sensitivity and can easily be adopted in resource-limited laboratories. High prevalence of paratuberculosis needs immediate implementation of the control strategies.

Multidrug-Resistant Bacteria: Their Mechanism of Action and Prophylaxis.

In the present scenario, resistance to antibiotics is one of the crucial issues related to public health. Earlier, such resistance to antibiotics was limited to nosocomial infections, but it has now become a common phenomenon. Several factors, like extensive development, overexploitation of antibiotics, excessive application of broad-spectrum drugs, and a shortage of target-oriented antimicrobial drugs, could be attributed to this condition. Nowadays, there is a rise in the occurrence of these drug-resistant pathogens due to the availability of a small number of effective antimicrobial agents. It has been estimated that if new novel drugs are not discovered or formulated, there would be no effective antibiotic available to treat these deadly resistant pathogens by 2050. For this reason, we have to look for the formulation of some new novel drugs or other options or substitutes to treat such multidrug-resistant microorganisms (MDR). The current review focuses on the evolution of the most common multidrug-resistant bacteria and discusses how these bacteria escape the effects of targeted antibiotics and become multidrug resistant. In addition, we also discuss some alternative mechanisms to prevent their infection as well.

Comparative performance of different antigens on the lateral flow assay (LFA) platform for the rapid serodiagnosis of paratuberculosis.

Paratuberculosis is a globally prevalent disease, that adversely affects the economy of livestock farming. Control is largely based on early detection followed by 'Test and Cull' or 'Test and Segregate' Policy. Implementation of paratuberculosis control is a special challenge due to the non-availability of point of care diagnostics (PoCD). Therefore, the present study aimed to optimize and evaluate a lateral flow assay (LFA) for the rapid serodiagnosis of paratuberculosis in ruminant species, especially in the view of the resource-limited areas. Performance of three different antigenic preparations including native purified protoplasmic antigen (nPPA-LFA), commercial purified protoplasmic antigen (cPPA-LFA), and a cocktail of recombinant secretory proteins (RP-LFA) was evaluated as detection reagents for coating LFA strips. Comparative performance of the optimized LFA was also evaluated with gold standard tissue culture, fecal PCR (polymerase chain reaction), and plate ELISA. In addition, the onsite testing of animals belonging to different farms (endemic), species, and regions using optimized LFA was also done to highlight the on-farm testing approach. Findings revealed recombinant secretory proteins based LFA (RP-LFA) had a higher sensitivity of detection compared to other antigens. RP-LFA had a sensitivity of 77.7%, 75.44%, and 75.16% in comparison to gold standard tissue culture, fecal PCR, and plate ELISA, respectively. The specificity of RP-LFA was 100% with all reference tests. In comparison to plate ELISA, RP-LFA had a detection limit of 100% when the S/P ratio of the serum sample is ≥1.0 and 80% when the S/P ratio range of 0.8-1.0. Using RP-LFA, on-farm testing of 608 animals was done and 283 (46.5%) were found positive. Kappa analysis of present RP-LFA revealed 'good strength of agreement' with gold standard tissue culture, fecal PCR, and plate ELISA. Optimized RP-LFA had no cross-reactivity with bovine tuberculosis (bovine TB). The RP-LFA was found reproducible, user-friendly and test results can be interpreted within five minutes. In conclusion, the findings of the present study advocate the huge potential of LFA-based PoCD in the rapid diagnosis and control of paratuberculosis.

An overview of the phytosynthesis of various metal nanoparticles.

Nanotechnology is an emerging branch of science wherein various valuable molecules with altered properties can be synthesized and utilized for numerous technological applications. Nowadays, nanotechnology is the preferred tool for the agriculture, food, and medicine industries. However, consistent accumulation of toxic by-products during the synthesis of nanoparticles from the established physical and chemical methods imposes an unprecedented danger to the environment and human well-being. The biological route for the synthesis of nanoparticles offers a potential option over the conventional chemical synthesis process due to the involvement of non-toxic and environmentally friendly materials, such as plants, fungi, bacteria, etc. Phytosynthesis, a type of biological synthesis, utilizes various combinations of secondary metabolites from different plant parts (whole plant, leaves, fruit peel, root, bark, seeds, and stem) for non-toxic and environmentally friendly nanoparticles fabrication. Non-toxic and environmentally friendly secondary metabolites derived from plants are the sources of reducing and capping agents during the biosynthesis of nanoparticles which proceeds in a controlled manner with desired characteristics. Phytosynthesis of nanoparticles is also a simple, economic, durable, and reproducible process. The present article is a comprehensive depiction of the synthesis of different metal nanoparticles from diverse plant species.

Development of rELISA using novel markers for the diagnosis of paratuberculosis.

Paratuberculosis is one of the complex livestock infections whose control has largely been hampered due to the lack of efficacious diagnostics. Present study optimized plate ELISA assay for the diagnosis and screening of paratuberculosis using recombinant secretory proteins. Five secretory antigens (2677c, 3547c, 4308c, 1693c, and 2168c) were produced in the recombinant system using the E. coli host and used for the optimization of the assay. These proteins were selected because of their prior proven specificity and antigenicity as humoral immunity markers. The assay was first optimized using traditional ELISA reader and then the performance was evaluated using a handheld ELISA reader. Findings were identical in both traditional ELISA reader as well as handheld ELISA reader. Optimized ELISA was found reproducible using different batches of the recombinant antigens as well as in terms of the inter and intra assay %CV values. The present ELISA has a sensitivity and specificity of 91.6% and 100%, respectively. Also, rELISA revealed AUCROC and Youden index J of 0.95 and 0.91, respectively. In conclusion, assay conditions of MAP-recombinant protein-based ELISA were optimized and the optimized ELISA ODs can be read using portable handheld ELISA reader. Thereby, opening a future window to develop assay for onsite testing.

Bacterial stress response: understanding the molecular mechanics to identify possible therapeutic targets.

INTRODUCTION: Bacteria are ubiquitous and many of them are pathogenic in nature. Entry of bacteria in host and its recognition by host defense system induce stress in host cells. With time, bacteria have also developed strategies including drug resistance to escape from antibacterial therapy as well as host defense mechanism. AREAS COVERED: Bacterial stress initiates and promotes adaptive immune response through several integrated mechanisms. The mechanisms of bacteria to up and down regulate different pathways involved in these responses have been discussed. The genetic expression of these pathways can be manipulated by the pharmacological interventions. Present review discusses in these contexts and explores the possibilities to overcome stress induced by bacterial pathogens and to suggest new possible therapeutic targets. EXPERT OPINION: In our opinion, there are two important fronts to regulate the bacterial stress. One is to target caspase involved in the process of transformation and translation at gene level and protein expression. Second is the identification of bacterial genes that lead to synthesis of abnormal end products supporting bacterial survival in host environment and also to surpass the host defense mechanism. Identification of such genes and their expression products could be an effective option to encounter bacterial resistance.

Comparative evaluation of Mycobacterium avium subspecies paratuberculosis (MAP) recombinant secretory proteins as DTH marker for paratuberculosis.

Delayed type hypersensitivity (DTH) based skin test is an important onsite animal herd screening procedure for detecting the early stages of the chronic mycobacterial infections. DTH testing plays a vital role in the diagnosis of paratuberculosis infection. However, there are questions over the specificity of this test due to cross-reactive epitopes present on the purified protein derivative (PPD) prepared from the whole cell secretory proteins. PPD may contain proteins shared with other mycobacteria especially environmental species. Therefore, it is needed to test alternate paratuberculosis specific secretory antigens. Present study explored the potential of recombinant secretory proteins (MAP2168c, MAP1693c, MAP3547c, MAP4308c and MAP2677c) as DTH markers. The published literature shows that these proteins as strong cell mediated markers with specificity to paratuberculosis bacilli. To determine the positive skin thickness cutoff, herds of farm animals with history of endemic paratuberculosis were selected and thickness of >2.0 mm was reported as the positive cutoff. Preliminary findings on pilot scale animals report the usefulness of recombinant secretory proteins as DTH markers over traditional Johnin assay. Traditional Johnin reported more false positives and negatives compared to gold standard fecal PCR and field reference plate ELISA test. Present findings encourage and demand further research.

Development and evaluation of LAMP-coupled lateral flow device for the detection of MAP in livestock at point of care resource-limited areas.

The Mycobacterium avium subspecies paratuberculosis (MAP) causes paratuberculosis (Johne's disease), a systemic and chronic inflammation of intestine that affects bovine, small ruminants like goat and sheep. The disease has a greater economic importance in cattle and in small ruminants. But its effective control is impeded due to lack of rapid and accurate diagnostics. The present study is aimed at developing a LAMP-coupled lateral flow device (LFD) for rapid detection of paratuberculosis in livestock animal species such as cattle and in small ruminants at resource-limited areas. LAMP primers with biotin and FITC end tags were designed for IS900 gene specific for MAP. To determine sensitivity of LAMP assay, 10-fold serial dilutions were made from 10 ng/µl MAP stock DNA and were compared with PCR. The detection limits of LAMP-coupled LFD were defined and reactions were repeated for reproducibility. The specificity was evaluated using other infectious bacteria such as M. bovis, M. tuberculosis, Brucella abortus, Leptospira interrogan, Yersinia enterocolitica, Salmonella typhimurium, Listeria monocytogens, and Staphylococcus aureus. A total of 95 samples turned positive for LAMP-coupled LFD out of 389 fecal samples. All the cultural-positive and PCR-positive samples showed positive in LAMP-coupled LFD. Nine samples with negative cultures turned positive in LAMP assay. The overall sensitivity and specificity of the LAMP-coupled LFD assays were 100% and 97.02% respectively in comparison with the culture as the gold standard method. The sensitivity detection limit of developed assay was 10 fg/µl and specificity was 100%. This assay successfully detected MAP not only by using bacterial DNA but also in clinical fecal samples. The clear band formation at control and test positions was observed on LAMP-coupled LFD. The developed assay is a simple, rapid, easy to perform, and is very useful in early diagnosis of Mycobacterium avium subsp. paratuberculosis at point of care resource-limited areas.

Evaluation of newly developed 'six recombinant secretary proteins based 'cocktail ELISA' and 'whole cell lysate' based 'indigenous ELISA' and tissue microscopy' with 'Gold standard' histo-pathology for the diagnosis of Johne's disease in slaughtered goats and buffaloes.

Three screening tests {(newly developed, six recombinant secretory proteins based 'cocktail ELISA', in-house robust 'indigenous ELISA' based on semi-purified protoplasmic antigens and tissue microscopy were evaluated with 'Gold standard', histo-pathology for the diagnosis of Johne's disease in goats and buffaloes. Serum and tissues {mesenteric lymph nodes and intestines) were driven from farmer's goats (n = 77) and buffaloes (n = 40) slaughtered for harvesting meat and farm goats (n = 77), died and necropsied. Twenty seven (35%) goats and 23 (57.5%) buffaloes were positive in all the four tests. Of 134 tissues screened by histo-pathology, 79.8% MLN and 76.8%, intestines, were positive for MAP infection. In tissue microscopy, 55.2 and 52.3%, goats and buffaloes were positive, respectively. Of 117 sera screened by i_ELISA, 58.4 and 70.0%, goats and buffaloes were positive, respectively. Whereas, c_ELISA detected 55.8 and 62.5%, goats and buffaloes, positives, respectively. Twelve tissues (70.5%) of goats necropsied were positive, both in tissue microscopy and histo-pathology. Most significant gross findings were serous atrophy of the fat and mild to moderate, diffuse thickening of terminal ileum, especially at ileo-caecal junction with or without transverse / longitudinal corrugations. In histo-pathology grade III and IV lesions were significantly low as compared to grade I and II. Of the four tests used for screening 268 samples, histo-pathology was most sensitive (78.3%), followed by i_ELISA (62.3%), c_ELISA (58.9%) and tissue microscopy (58.9%). Between two ELISA tests, c_ELISA using six recombinants secretory proteins, had higher specificity as compared to i_ELISA.

Molecular characterization of Mycobacterium avium subspecies paratuberculosis C-type and S-type isolated from sheep and goats by using a combination of MIRU-VNTR loci.

Mycobacterium avium subspecies paratuberculosis (Map) is the etiological agent of paratuberculosis of domestic and wild ruminants. Map strains are segregated into 2 main groups or strain types referred to as sheep (S) type and cattle (C) type. Few small ruminant Map strains have been genetically characterized to date. The present study was undertaken to genetically characterize a panel of 30 small ruminant Map strains in the province of Quebec, Canada. Mycobacterial Interspersed Repetitive Units - Variable-Number Tandem Repeat analysis (MIRU-VNTR) were used as genetic markers in addition to IS1311 PCR-REA. S-type and C-type strains were found in both sheep and goats, although C-type strains were more frequently isolated from goats and S-type strains were more common in sheep. A total of 12 distinct Map genotypes were uncovered in the present collection of strains using these markers. Considering the genetic diversity reported here, molecular characterization of Map stains in small ruminants using MIRU-VNTR markers represent an interesting avenue for both epidemiological investigations regarding the sources of herd infection and association studies between Map strains and their virulence, persistence and host-specific adaptation characteristics.

Mycobacterium avium subspecies paratuberculosis (Map) est l'agent étiologique de la paratuberculose affectant les ruminants sauvages et domestiques. Les souches de Map se répartissent dans deux grands groupes ou types appelés 'sheep (S)' et 'cattle (C)'. Très peu de souches de Map provenant des petits ruminants ont été caractérisées génétiquement jusqu'à présent. Cette étude a été initiée afin de caractériser un ensemble de 30 souches de Map provenant de 5 troupeaux de moutons et 8 troupeaux de chèvres situés dans la province de Quebec, Canada, et d'évaluer leur diversité génétique. Une analyse répétée en tandem des unités répétitives alternées des mycobactéries (MIRU-VNTR) a été utilisée comme marqueurs génétiques en plus du marqueur IS1311 PCR-REA. Les souches de type S et C ont été retrouvées chez les isolats ovins et caprins, avec une prédominance des souches de type C chez les isolats provenant de chèvres tandis que les souches de type S étaient plus fréquentes chez les moutons. Un total de 12 génotypes distincts de Map ont été retrouvés parmi les isolats d'après les marqueurs utilisés. Considérant la diversité génétique observée, la caractérisation moléculaire des isolats de Map représente une avenue intéressante pour investiguer les sources potentielles d'infection des troupeaux et pour étudier les associations entre les caractéristiques génétiques et pathogéniques des isolats.(Traduit par les auteurs).

Profiling of Mycobacterium avium subspecies paratuberculosis in the milk of lactating goats using antigen-antibody based assays.

Johne's disease, caused by Mycobacterium avium subspecies paratuberculosis is endemic in the domestic livestock population, still it is not priority for control in the country. First time we used 'multiple assays' for screening raw milk of 465 goats (farm/farmer's herds) to estimate bio-load and bio-type profile of bacilli. Each sample was screened by six tests and compared their sensitivity and specificity. Of 465 raw milk samples screened, bio-load of bacilli was 65.3% by six assays. Assay-wise bio-load was 49.4 and 62.7% in antigen and antibody detection tests, respectively. Bio-load was 48.8, 46.6, and 13.9% in Indirect Fluorescent Antibody Test (i_FAT), microscopy and IS900 PCR and 39.1, 57.4 and 55.6% in Indirect Enzyme Linked Immuno Sorbant Assay (i_ELISA), Dot Enzyme Linked Immuno Sorbant Assay (d_ELISA) and Latex Agglutination Test (LAT), respectively. Dot-ELISA was most sensitive followed by LAT, i_FAT, microscopy and i_ELISA. Milk DNA samples positive in IS900 PCR on bio-typing using IS1311 PCR_ Restriction Enzyme Analysis (IS1311 PCR_REA) revealed, 72.3% (47/65) were 'Indian Bison Type'. Milk was easy to collect sample and first time we used 'whole milk' as 'test sample' without centrifugation. High bio-load of MAP in milk underlined need for urgent control of disease in lactating goatherds. Bacilli was important 'Milk born' infection and on the basis of sensitivity, specificity, resources and requirements, of the 'six assays' most appropriate assay/s (single or in combination) can be chosen for the screening and diagnosis of Johne's disease in lactating goatherds using whole milk as sample.

'Nano-immuno test' for the detection of live Mycobacterium avium subspecies paratuberculosis bacilli in the milk samples using magnetic nano-particles and chromogen.

Early rapid detection of Mycobacterium avium subspecies paratuberculosis (MAP) bacilli in milk samples is the major challenge since traditional culture method is time consuming and laboratory dependent. We report a simple, sensitive and specific nano-technology based 'Nano-immuno test' capable of detecting viable MAP bacilli in the milk samples within 10 h. Viable MAP bacilli were captured by MAP specific antibody-conjugated magnetic nano-particles using resazurin dye as chromogen. Test was optimized using true culture positive (10-bovine and 12-goats) and true culture negative (16-bovine and 25-goats) raw milk samples. Domestic livestock species in India are endemically infected with MAP. After successful optimization, sensitivity and specificity of the 'nano-immuno test' in goats with respect to milk culture was 91.7% and 96.0%, respectively. Whereas, it was 90.0% (sensitivity) and 92.6% (specificity) with respect to IS900 PCR. In bovine milk samples, sensitivity and specificity of 'nano-immuno test' with respect to milk culture was 90.0% and 93.7%, respectively. However, with respect to IS900 PCR, the sensitivity and specificity was 88.9% and 94.1%, respectively. Test was validated with field raw milk samples (goats-258 and bovine-138) collected from domestic livestock species to detect live/viable MAP bacilli. Of 138 bovine raw milk samples screened by six diagnostic tests, 81 (58.7%) milk samples were positive for MAP infection in one or more than one diagnostic tests. Of 81 (58.7%) positive bovine raw milk samples, only 24 (17.4%) samples were detected positive for the presence of viable MAP bacilli. Of 258 goats raw milk samples screened by six diagnostic tests, 141 (54.6%) were positive for MAP infection in one or more than one test. Of 141 (54.6%) positive raw milk samples from goats, only 48 (34.0%) were detected positive for live MAP bacilli. Simplicity and efficiency of this novel 'nano-immuno test' makes it suitable for wide-scale screening of milk samples in the field. Standardization, validation and re-usability of functionalized nano-particles and the test was successfully achieved in field samples. Test was highly specific, simple to perform and easy to read by naked eyes and does not require laboratory support in the performance of test. Test has potential to be used as screening test to estimate bio-load of MAP in milk samples at National level.

Mycobacterium avium subspecies paratuberculosis - an important food borne pathogen of high public health significance with special reference to India: an update.

This review underlines the public health significance of 'Indian Bison Type' of Mycobacterium avium subspecies paratuberculosis (MAP) and also its potential as 'zoonotic infection'. In the absence of control programs, bio-load of MAP is increasing and if we take total population of animals (500 million plus) and human beings (1.23 billion plus) into account, the number of infected animals and human beings will run into millions in India. Our research on screening of over 26,000 domestic livestock for MAP infection using 4 different diagnostic tests (microscopy, culture, ELISA and PCR), during last 31 years has shown that the average bio-load of MAP in the livestock population of India is very high (cattle 43%, buffaloes 36%, goats 23% and sheep 41%). 'Mass screening' of 28,291 human samples between 2008-2016 revealed also high bio-load of MAP. It has been proved that MAP is not in-activated during pasteurization and therefore live bacilli are continuously reaching human population by consumption of even pasteurized milk and other milk products. Live bacilli have also been recovered from meat products and the environment thus illustrating the potential of MAP as pathogen of public health concern. However, at present, there is inadequate scientific evidence to confirm a conclusive link between MAP infection and Johne's disease in ruminants and some cases of Crohn's disease in human beings.

Trends and advances in the diagnosis and control of paratuberculosis in domestic livestock.

Paratuberculosis (pTB) is a chronic granulomatous enteritis caused by Mycobacterium avium subsp. paratuberculosis (MAP) in a wide variety of domestic and wild animals. Control of pTB is difficult due to the lack of sensitive, efficacious and cost-effective diagnostics and marker vaccines. Microscopy, culture, and PCR have been used for the screening of MAP infection in animals for quite a long time. Besides, giving variable sensitivity and specificity, these tests have not been considered ideal for large-scale screening of domestic livestock. Serological tests like ELISA easily detects anti-MAP antibodies. However, it cannot differentiate between the vaccinated and infected animals. Nanotechnology-based diagnostic tests are underway to improve the sensitivity and specificity. Newer generation diagnostic tests based on recombinant MAP secretory proteins would open new paradigm for the differentiation between infected and vaccinated animals and for early detection of the infection. Due to higher seroreactivity of secretory proteins vis-à-vis cellular proteins, the secretory proteins may be used as marker vaccine, which may aid in the control of pTB infection in animals. Secretory proteins can be potentially used to develop future diagnostics, surveillance and monitoring of the disease progression in animals and the marker vaccine for the control and eradication of pTB.

Comparative Evaluation of Different Test Combinations for Diagnosis of Mycobacterium avium Subspecies paratuberculosis Infecting Dairy Herds in India.

A total of 355 cows were sampled (serum, n = 315; faeces, n = 355; milk, n = 209) from dairy farms located in the Punjab state of India. Faeces and serum/milk samples were screened by acid fast staining and "indigenous ELISA," respectively. IS900 PCR was used to screen faeces and milk samples. Bio-load of MAP in dairy cows was 36.9, 15.6, 16.3, and 14.4%, using microscopy, serum ELISA, milk ELISA and milk PCR, respectively. Estimated kappa values between different test combinations: serum and milk ELISA, faecal microscopy and faecal PCR, milk ELISA and milk PCR, faecal PCR and serum ELISA were 0.325, 0.241, 0.682, and 0.677, respectively. Estimation of the relative sensitivity and specificity of different tests in the present study indicated that "serum ELISA" and "milk ELISA" were good screening tests, add "milk PCR" was "confirmatory test" for MAP infection. Combination of milk ELISA with milk PCR may be adopted as a model strategy for screening and diagnosis of JD in lactating/dairy cattle herds in Indian conditions.

Application of IS1311 locus 2 PCR-REA assay for the specific detection of 'Bison type' Mycobacterium avium subspecies paratuberculosis isolates of Indian origin.

BACKGROUND & OBJECTIVES: Of the three major genotypes of Mycobacterium avium subspecies paratuberculosis (MAP), 'Bison type' is most prevalent genotype in the domestic livestock species of the country, and has also been recovered from patients suffering from Crohn's disease. Recently, a new assay based on IS1311 locus 2 PCR- restriction endonuclease analysis (REA) was designed to distinguish between 'Indian Bison type' and non-Indian genotypes. The present study investigated discriminatory potential of this new assay while screening of a panel of MAP isolates of diverse genotypes and from different geographical regions. METHODS: A total of 53 mycobacterial isolates (41 MAP and 12 mycobacterium other than MAP), three MAP genomic DNA and 36 MAP positive faecal DNA samples from different livestock species (cattle, buffaloes, goat, sheep and bison) and geographical regions (India, Canada, USA, Spain and Portugal) were included in the study. The extracted DNA samples (n=92) were analyzed for the presence of MAP specific sequences (IS900, ISMav 2 and HspX) using PCR. DNA samples were further subjected to genotype differentiation using IS1311 PCR-REA and IS1311 L2 PCR-REA methods. RESULTS: All the DNA samples (except DNA from non-MAP mycobacterial isolates) were positive for all the three MAP specific sequences based PCRs. IS1311 PCR-REA showed that MAP DNA samples of Indian origin belonged to 'Bison type'. Whereas, of the total 19 non-Indian MAP DNA samples, 2, 15 and 2 were genotyped as 'Bison type', 'Cattle type' and 'Sheep type', respectively. IS1311 L2 PCR-REA method showed different restriction profiles of 'Bison type' genotype as compared to non-Indian DNA samples. INTERPRETATION & CONCLUSIONS: IS1311 L2 PCR-REA method successfully discriminated 'Indian Bison type' from other non-Indian genotypes and showed potential to be future epidemiological tool and for genotyping of MAP isolates.

Genetic structure of Mycobacterium avium subsp. paratuberculosis population in cattle herds in Quebec as revealed by using a combination of multilocus genomic analyses.

Mycobacterium avium subsp. paratuberculosis is the etiological agent of paratuberculosis, a granulomatous enteritis affecting a wide range of domestic and wild ruminants worldwide. A variety of molecular typing tools are used to distinguish M. avium subsp. paratuberculosis strains, contributing to a better understanding of M. avium subsp. paratuberculosis epidemiology. In the present study, PCR-based typing methods, including mycobacterial interspersed repetitive units/variable-number tandem repeats (MIRU-VNTR) and small sequence repeats (SSR) in addition to IS1311 PCR-restriction enzyme analysis (PCR-REA), were used to investigate the genetic heterogeneity of 200 M. avium subsp. paratuberculosis strains from dairy herds located in the province of Quebec, Canada. The majority of strains were of the "cattle type," or type II, although 3 strains were of the "bison type." A total of 38 genotypes, including a novel one, were identified using a combination of 17 genetic markers, which generated a Simpson's index of genetic diversity of 0.876. Additional analyses revealed no differences in genetic diversity between environmental and individual strains. Of note, a spatial and spatiotemporal cluster was evidenced regarding the distribution of one of the most common genotypes. The population had an overall homogeneous genetic structure, although a few strains stemmed out of the consensus cluster, including the bison-type strains. The genetic structure of M. avium subsp. paratuberculosis populations within most herds suggested intraherd dissemination and microevolution, although evidence of interherd contamination was also revealed. The level of genetic diversity obtained by combining MIRU-VNTR and SSR markers shows a promising avenue for molecular epidemiology investigations of M. avium subsp. paratuberculosis transmission patterns.

Genetic diversity of group A rotavirus in swine in Canada.

Group A rotaviruses (RVA) in pigs have been poorly investigated in Canada. In a continued effort to fill this gap, ten finisher swine farms in Quebec, Canada, were sampled over a nine-month period. The presence of RVA was detected in healthy pigs on all farms investigated during the entire sampling period. The genotypes detected included G2, G5, G9 and G11; P[6], P[7], P[13], P[27] and P[34]; and I5 and I14. The predominant types were G2, P[13] and I5, which is different from previous global reports. Various fomites were consistently contaminated by RVA, suggesting that a resident viral flora remains in the farm environment and may play a role in the infection of incoming pigs. The results also suggest temporal or geographical specificities regarding strain distribution on pig farms.

Genome Sequence of the "Indian Bison Type" Biotype of Mycobacterium avium subsp. paratuberculosis Strain S5.

We report the 4.79-Mb genome sequence of the "Indian Bison Type" biotype of Mycobacterium avium subsp. paratuberculosis strain S5, isolated from a terminally sick Jamunapari goat at the CIRG (Central Institute for Research on Goats) farm in India. This draft genome will help in studying novelties of this biotype, which is widely distributed in animals and human beings in India.

Group A rotaviruses in children with gastroenteritis in a Canadian pediatric hospital: The prevaccine era.

BACKGROUND: A publicly funded, group A rotavirus (RVA) vaccination program was implemented in Quebec in November 2011. OBJECTIVES: To evaluate trends in RVA infections and describe circulating genotypes before the implementation of a publicly funded vaccination program. METHODS: The Montreal Children's Hospital (Montreal, Quebec) virology laboratory database was reviewed for RVA ELISA performed between July 2006 and June 2011. A five-week moving average was used to follow the proportion of positive RVA ELISA test results. A season was defined as starting with the first two and ending with the final two consecutive weeks in which the percentage of specimens testing positive for RVA was ≥10%. Duplicate tests were excluded. A random sample of 39 RVA-positive fecal samples from the final season (2010/2011) was genetically characterized: VP4, VP6, VP7 and NSP4 gene segments were genotyped using sequence analysis. RESULTS: Of the 3403 nonduplicate tests, 433 were RVA positive: 15.1% (2006/2007) to 9.3% (2010/2011) of the samples were positive during the study period, with a proportionally larger decrease in the percentage of positive tests compared with the decrease in the number of tests performed. The most common RVA strain types detected were G9P[8]I1 (n=19) and G1P[8]I1 (n=14), followed by G2P[4]I2 (n=4), G3P[6]I1 (n=1) and G4P[8]I2 (n=1). Mixed RVA infection was observed in two samples. CONCLUSION: Before the implementation of the vaccination program, the proportion of positive RVA tests had already begun to steadily decline. The present study was the first to report the genetic makeup of human RVA collected from a Canadian hospital based on the genotyping of four gene segments. The present study provided a baseline with which to monitor the impact of the universal vaccination program.

HISTORIQUE: En novembre 2011, le Québec a commencé à financer un programme de vaccination contre le rotavirus du groupe A (RVA). OBJECTIFS: Évaluer les tendances des infections par le RVA et décrire les génotypes en circulation avant la mise en œuvre d'un programme de vaccination financé par le gouvernement. MÉTHODOLOGIE: Les chercheurs ont analysé la base de données du laboratoire de virologie de L'Hôpital de Montréal pour enfants de Montréal, au Québec, pour en extraire les tests ELISA du RVA effectués entre juillet 2006 et juin 2011. Ils ont utilisé une moyenne mobile de cinq semaines pour suivre la proportion de résultats de tests ELISA positifs au RVA. Ils ont défini une saison comme commençant avec les deux premières semaines consécutives au cours desquelles au moins 10 % des échantillons étaient positifs au RVA et se terminant avec les deux dernières semaines présentant ces caractéristiques. Ils ont exclu les tests dédoublés. Ils ont procédé à la caractérisation génétique d'un échantillon aléatoire de 39 coprocultures positives au RVA de la dernière saison (2010-2011) : ils ont génotypé les segments de gène VP4, VP6, VP7 et NSP4 au moyen de l'analyse séquentielle. RÉSULTATS: Sur les 3 403 tests non dédoublés, 433 étaient positifs au RVA : de 15,1 % (2006-2007) à 9,3 % (2010-2011) des échantillons étaient positifs pendant la période de l'étude, la diminution étant proportionnellement plus importante en matière de pourcentage de tests positifs que de nombre de tests effectués. Les types de souches de RVA les plus décelés étaient le G9P[8]I1 (n=19) et le G1P[8]I1 (n=14), suivis du G2P[4]I2 (n=4), du G3P[6]I1 (n=1) et du G4P[8]I2 (n=1). Dans deux échantillons, les chercheurs ont observé une infection à RVA mixte. CONCLUSION: Avant la mise en œuvre du programme de vaccination, la proportion de tests positifs au RVA avait déjà commencé à subir une baisse constante. La présente étude est la première à avoir rendu compte de la constitution génétique du RVA humain prélevé dans un hôpital canadien d'après le génotypage de quatre segments de gène. Elle fournit un point de départ pour surveiller les répercussions du programme de vaccination universelle.