Your search keyword '"Mycobacterium avium ssp paratuberculosis"' showing total 13 results

1. A phase 1b clinical trial to determine the safety, tolerability and immunogenicity of simian adenovirus and poxvirus vectored vaccines against a Mycobacterium avium complex subspecies in patients with active Crohn's disease

Author

Sanderson, Jeremy, Aboagye, Jeremy, Makinson, Rebecca, Rapi, Katerina, Provstgaard-Morys, Samuel, Stockdale, Lisa, Alison Lawrie, Lanigan, Isabelle, Halim, Nishat, Douiri, Abdel, Greenlay, Emily, Malek, Rayka, Gray, Emma, West, Lindsey, El Oulidi, Fatima, Cross, Paul Ian, Stallibrass, Michael, Gilbert, Sarah C., Hill, Adrian V.S., and Ewer, Katie J.

Published

2025

2. The role of Mce proteins in Mycobacterium avium paratuberculosis infection

Author

Rosemary Blake, Kirsty Jensen, Neil Mabbott, Jayne Hope, and Joanne Stevens

Subjects

Mycobacteria, Mycobacterium avium ssp paratuberculosis, MAP, Mammalian cell entry gene, Enteroids, Microbial-cell interaction, Medicine, Science

Abstract

Abstract Mycobacterium avium subspecies paratuberculosis (MAP) is the causative agent of Johne’s Disease, a chronic granulomatous enteritis of ruminants. MAP establishes an infection in the host via the small intestine. This requires the bacterium to adhere to, and be internalised by, cells of the intestinal tract. The effector molecules expressed by MAP for this purpose remain to be fully identified and understood. Mammalian cell entry (mce) proteins have been shown to enable other Mycobacterial species to attach to and invade host epithelial cells. Here, we have expressed Mce1A, Mce1D, Mce3C and Mce4A proteins derived from MAP on the surface of a non-invasive Escherichia coli to characterise their role in the initial interaction between MAP and the host. To this end, expression of mce1A was found to significantly increase the ability of the E. coli to attach and survive intracellularly in human monocyte-like THP-1 cells, whereas expression of mce1D was found to significantly increase attachment and invasion of E. coli to bovine epithelial cell-like MDBK cells, implying cell-type specificity. Furthermore, expression of Mce1A and Mce1D on the surface of a previously non-invasive E. coli enhanced the ability of the bacterium to infect 3D bovine basal-out enteroids. Together, our data contributes to our understanding of the effector molecules utilised by MAP in the initial interaction with the host, and may provide potential targets for therapeutic intervention.

Published

2024

3. Investigating the early interaction between Mycobacterium avium ssp paratuberculosis and the host using a bovine enteroid system

Author

Blake, Rosemary, Hope, Jayne, and Stevens, Joanne

Subjects

Mycobacterium avium ssp paratuberculosis, bovine enteroid system, Johne's disease, granulomatous enteritis, bovine intestinal organoids

Abstract

Mycobacterium avium ssp paratuberculosis (MAP) is the causative agent of Johne's disease (JD), a chronic granulomatous enteritis of ruminant's prevalent world-wide. Infection of calves occurs through the faecal oral route, typically in animals < 6 months old. Animals are asymptomatic for 2-5 years before clinical signs begin to show, which typically present as emaciation and chronic diarrhoea. In the subclinical phase, animals will have decreased milk yield, increased susceptibility to other diseases and decreased feed conversion. This has a severe impact on the farming economy and animal welfare, as affected animals are often prematurely culled. Infected subclinical animals are extremely difficult to identify but can still act as a source of transmission for the rest of the herd by shedding MAP in their faeces. There is no treatment for JD, and the current diagnostic tests are ineffective. By investigating the initial interaction between MAP and the host at the intestinal lining, a greater understanding of MAP pathogenesis can be gained and better diagnostic and therapeutic targets can be identified. In this work, proteins expressed on the surface of MAP were assessed for their ability to aid attachment, invasion and intracellular survival in epithelial and phagocytic cells when expressed on the membrane of a non-invasive E. coli host strain. The proteins investigated were encoded by mammalian cell entry (mce) genes, mce1A, mce1D, mce3C and mce4A, which have been implicated in attachment and invasion of epithelial cells by other mycobacteria. Interestingly, E. coli expressing Mce1A had enhanced uptake by phagocytic cells and E. coli expressing Mce1D had enhanced attachment and invasion of epithelial cells, but neither protein conferred this phenotype in both eukaryotic cell types investigated. To identify key intestinal cell types involved in MAP pathogenesis, bovine intestinal organoids (enteroids) were assessed for their ability to model a MAP infection in a physiologically representative system. Baso-out 3D enteroids, apical-out 3D enteroids and 2D monolayers were created, and the cell types present were compared to bovine intestinal tissue samples using RT-PCR and immunofluorescence microscopy. The models contained the mature epithelial cell types of the intestine including goblet cells, enteroendocrine cells, Paneth cells and enterocytes. 3D baso-out enteroids and 2D monolayers also contained proliferative cells, but the 3D apical-out enteroids did not and so could not be maintained past 2 weeks of culture. The models were infected with two strains of MAP over the course of 72 hours, the reference strain K10, and a recent clinical isolate C49. MAP C49 was shown to be present in all three intestinal models in consistently higher numbers than MAP K10, quantified using qPCR of the genomic DNA. This indicates that MAP C49 was better able to infect these models than K10, which may suggest a loss of virulence in MAP K10. Overall, the data presented has increased our understanding of MAP pathogenesis by emphasising the need for multicellular models which accurately represent the pathogen target cell type/s in vivo and the confirmation of the role of two hypothetical MAP proteins in cellular interactions.

Published

2023

4. Mycobacterium avium ssp. paratuberculosis in the Food Supply: A Public Health Issue

Author

Lauren Kuenstner and John Todd Kuenstner

Subjects

Mycobacterium avium ssp paratuberculosis, milk pasteurization, zoonosis, Crohn's disease, food safety regulations, FDA food safety modernization act, Public aspects of medicine, RA1-1270

Abstract

This article examines the policy implications of Mycobacterium avium subspecies paratuberculosis (MAP) as a zoonotic pathogen and the public health risks posed by the presence of MAP in food, particularly milk products. Viable MAP has been cultured from commercially pasteurized milk in the US. Dairy pasteurization standards and regulations are examined in light of this finding. On the basis of the precautionary principle, the authors suggest options to reduce exposure to MAP, including (1) increased federal authority to regulate pasteurization of all dairy products, (2) modification of pasteurization standards in order to more effectively kill MAP, (3) removal of the Pasteurized Milk Ordinance (PMO) provision that allows states to override federal policy in intrastate dairy sales, and (4) creation of a mandatory Johne's Disease Control Program. These measures would reduce human exposure to MAP and may reduce the risk of diseases associated with MAP.

Published

2021

5. Implications of PCR and ELISA results on the routes of bulk-tank contamination with Mycobacterium avium ssp. paratuberculosis.

Author

Beaver, A., Cazer, C. L., Ruegg, P. L., Gröhn, Y. T., and Schukken, Y. H.

Subjects

*MYCOBACTERIUM avium, *CATTLE diseases, *MILK tanks, *PARATUBERCULOSIS, *CATTLE

Abstract

Mycobacterium avium ssp. paratuberculosis (MAP), the etiologic agent of Johne's disease in dairy cattle, may enter the bulk tank via environmental contamination or direct excretion into milk. Traditionally, diagnostics to identify MAP in milk target either MAP antibodies (by ELISA) or the organism itself (by culture or PCR). High ELISA titers may be directly associated with excretion of MAP into milk but only indirectly linked to environmental contamination of the bulk tank. Patterns of bulk-milk ELISA and bulk-milk PCR results could therefore provide insight into the routes of contamination and level of infection or environmental burden. Coupled with questionnaire responses pertaining to management, the results of these diagnostic tests could reveal correlations with herd characteristics or on-farm practices that distinguish herds with high and low environmental bulk-tank MAP contamination. A questionnaire on hygiene, management, and Johne's specific parameters was administered to 292 dairy farms in New York, Oregon, and Wisconsin. Bulk-tank samples were collected from each farm for evaluation by real-time PCR and ELISA. Before DNA extraction and testing of the unknown samples, bulk-milk template preparation was optimized with respect to parameters such as MAP fractionation patterns and lysis. Two regression models were developed to explore the relationships among bulk-tank PCR, ELISA, environmental predictors, and herd characteristics. First, ELISA optical density (OD) was designated as the outcome in a linear regression model. Second, the log odds of being PCR positive in the bulk tank were modeled using binary logistic regression with penalized maximum likelihood. The proportion of PCR-positive bulk tanks was highest for New York and for organic farms, providing a clue as to the geographical patterns of MAP-positive bulk-tank samples and relationship to production type. Bulk-milk PCR positivity was also higher for large relative to small herds. The models revealed that bulk-milk PCR result could predict ELISA OD, with PCR-positive results corresponding to high bulk-milk ELISA titers. Similarly, ELISA was a predictor of PCR result, although the association was stronger for organic farms. Despite agreement between high bulk-milk ELISA titers and positive PCR results, a large proportion of high ELISA farms had PCR-negative bulk tanks, suggesting that farms are able to maintain satisfactory hygiene and management despite a presence of MAP in these herds. Key words: Mycobacterium avium ssp. paratuberculosis, Johne's disease, bulk-tank milk, PCR, ELISA [ABSTRACT FROM AUTHOR]

Published

2016

6. Rapid identification of Mycobacterium avium ssp paratuberculosis laboratory strains by IS900-Nested polymerase chain reaction

Author

Mohammad Mohammad Taheri, Nader Mosavari, Mohammad Mehdi Feizabadi, Keyvan Tadayon, Rouholah Keshavarz, Reza Aref Pajoohi, Kioomars Soleimani, and Shojaat Dashti Pour

Subjects

IS900, IS901, Nested PCR, Mycobacterium avium ssp paratuberculosis, Mycobacterium tuberculosis, M. bovis Tuberculin, Microbiology, QR1-502

Abstract

Introdution: Mycobacterium avium ssp paratuberculosis (MAP) causes paratuberculosis (Johne's disease) in ruminants. As a species, M. avium comprises M. avium subsp. hominissuis and a number of clones that are known to have evolved from this subspecies, namely M. avium subsp. avium (MAA), M. avium subsp. silvaticum, and MAP. Despite the very high genomic similarity of MAP and MAA, the insertion sequence IS900, which is 1,451-bp long, is now understood to be exclusively present in 10–20 copies in the genome of MAP. In the present study, a multidiscipline polymerase chain reaction (PCR)-based algorithm targeting16SrRNA, IS6110, IS901, IS1245, and IS900 markers has been employed to differentiate between six laboratory strains of M. avium complex (including MAP 316F, III&V, and 2e plus MAA D4), Mycobacterium tuberculosis DT, and Mycobacterium bovis AN5 strains used at the Razi Institute (Tehran, Iran) for the preparation of paratuberculin, avian, human, and bovine tuberculin, respectively. Materils and methods: Three laboratory strains of III&V, 2e, and 316F were subcultured on Herrold's egg yolk medium, whereas the MAA strain of D4 along with M. bovis AN5 and M. tuberculosis DT were subcultured on Lowenstein–Jensen slopes. All the inoculated culture tubes were incubated for 8 weeks at 37°C. Eventually, their genomic DNA was extracted according to the method of van Soolingen. Five individual PCRs were conducted on these templates to amplify 16SrRNA (genus-specific marker shared by all mycobacteria), IS900 (MAP-specific marker), IS901 (MAA-specific marker), IS1245 (M. avium complex (MAC)-specific marker), and IS6110 (M. tuberculosis complex (MTC)-specific marker) loci. Results: Consequently, a 543-bp amplicon was amplified by all the six strains in PCR against 16SrRNA, an indication of their identity as members of Mycobacterium genus. A 245-bp fragment was detected in only IS6110-PCR with M. bovis AN5 as well as M. tuberculosis DT. In the IS1245 assessment, the MAA strain of D4 produced a 427-bp amplicon, whereas none of the other studied strains produced this amplicon. A 1,108-bp amplicon fragment of the IS901 marker was successfully produced by MAA strain, whereas no PCR product was achieved in amplification of all the three MAP strains. In IS900-nested PCR, the three MAP strains produced the expected 400-bp and 298-bp fragments Conclution: However, no amplification was observed with other strains. Two main achievements of this work are the development of an efficient means of differentiation between the six Razi laboratory mycobacterial strains and characterization of the genomic profile of these strains, a capability that is vital when cross contamination is potentially an important concern.

Published

2016

7. High herd-level prevalence of Mycobacterium avium subspecies paratuberculosis in Western Canadian dairy farms, based on environmental sampling.

Author

Wolf, R., Barkema, H. W., De Buck, J., Slomp, M., Flaig, J., Haupstein, D., Pickel, C., and Orsel, K.

Subjects

*MYCOBACTERIUM avium paratuberculosis, *MYCOBACTERIUM avium, *ENTERITIS, *ENVIRONMENTAL sampling, *ENVIRONMENTAL monitoring

Abstract

Mycobacterium avium subspecies paratuberculosis (MAP) causes chronic progressive enteritis in ruminants. The pathogen is present in most countries with modern dairy production, causing substantial economic losses for the industry. The objectives of this study were to estimate dairy herd prevalence of MAP in the Western Canadian provinces of Alberta and Saskatchewan, and to determine whether herd size and housing system (tie-stall versus freestall or loose housing) affected the risk of a herd testing positive for MAP. Six environmental samples were collected on 360 Alberta farms (60% of registered producers) and on 166 Saskatchewan dairy farms (99%). In total, 47% of the sampled farms in Alberta and 53% of the sampled farms in Saskatchewan had at least one environmental sample that was MAP culture positive and were, therefore, defined as infected. Sensitivity of environmental sampling was estimated using 3 subsequent annual tests performed on 82 farms. Because laboratory protocols were continuously improved throughout the project, the sensitivity increased over time. Therefore, a mean of the sensitivity estimates weighted on sampling year was constructed; this resulted in sensitivities of 68 and 69% for Alberta and Saskatchewan, respectively. Implementing those estimates in an approximate Bayesian computation model resulted in a true herd prevalence of 68% (95% probability interval: 60-80%) for Alberta and 76% (95% probability interval: 70-85%) for Saskatchewan. Herds with >200 cows had 3.54 times higher odds of being environmental sample positive and had more positive samples than herds with <50 cows (neither province nor housing system affected those results). In conclusion, the majority of Alberta and Saskatchewan dairy farms were infected with MAP and larger herds were more often MAP positive than smaller herds. [ABSTRACT FROM AUTHOR]

Published

2014

8. Longitudinal relationship between fecal culture, fecal quantitative PCR, and milk ELISA in Mycobacterium avium ssp paratuberculosis-infected cows from low-prevalence dairy herds

Author

Beaver, A., Sweeney, R.W., Hovingh, S.E., Wolfgang, D. R., Grohn, Y. T., Schukken, Y. H., LS Theoretische Epidemiologie, dFAH AVR, LS Theoretische Epidemiologie, and dFAH AVR

Subjects

0301 basic medicine, Veterinary medicine, milk ELISA, Kwantitatieve Veterinaire Epidemiologie, Paratuberculosis, Polymerase Chain Reaction, Milk elisa, 0403 veterinary science, Feces, New England, Prevalence, Udder, biology, food and beverages, 04 agricultural and veterinary sciences, Mycobacterium avium subsp. paratuberculosis, Real-time polymerase chain reaction, medicine.anatomical_structure, Milk, Female, Fecal culture, fecal culture, 040301 veterinary sciences, fecal quantitative PCR, Cattle Diseases, Enzyme-Linked Immunosorbent Assay, Mycobacterium avium ssp paratuberculosis, Mycobacterium avium ssp. paratuberculosis, 03 medical and health sciences, Genetics, medicine, Bulk tank, Animals, Milk ELISA, Quantitative Veterinary Epidemiology, medicine.disease, biology.organism_classification, Fecal quantitative PCR, 030104 developmental biology, Cross-Sectional Studies, Immunology, Herd, WIAS, Linear Models, Animal Science and Zoology, Cattle, Johne's disease, Food Science, Mycobacterium

Abstract

Mycobacterium avium ssp. paratuberculosis (MAP), the causative agent of ruminant Johne's disease, presents a particular challenge with regard to infection mitigation on dairy farms. Diagnostic testing strategies to identify and quantify MAP and associated antibodies are imperfect, and certain facets of the relationship between diagnostic tests remain to be explored. Additional repeated-measures data from known infected animals are needed to complement the body of cross-sectional research on Johne's disease-testing methods. Statistical models that accurately account for multiple diagnostic results while adjusting for the effects of individual animals and herds over time can provide a more detailed understanding of the interplay between diagnostic outcomes. Further, test results may be considered as continuous wherever possible so as to avoid the information loss associated with dichotomization. To achieve a broader understanding of the relationship between diagnostic tests, we collected a large number of repeated fecal and milk samples from 14 infected cows, in addition to bulk milk samples, from 2 low-prevalence dairy herds in the northeast United States. Predominately through the use of mixed linear modeling, we identified strong associations between milk ELISA optical density, fecal quantitative PCR, and fecal culture in individual animals while concurrently adjusting for variables that could alter these relationships. Notably, we uncovered subtleties in the predictive abilities of fecal shedding level on milk ELISA results, with animals categorized as disease progressors reaching higher ELISA optical density levels. Moreover, we observed that spikes in fecal shedding could predict subsequent high ELISA values up to 2 mo later. We also investigated the presence of MAP in individual milk samples via PCR and noted an association between poor udder hygiene and MAP positivity in milk, suggesting some level of environmental contamination. The paucity of positive milk samples and the complete absence of detectable MAP in the bulk tank throughout the study period indicate that contamination of milk with MAP may not be of chief concern in low-prevalence herds. An enhanced understanding of the interrelationships between diagnostic tests can only benefit the development of testing strategies and objectives, which in turn may lessen MAP infection prevalence in dairy herds.

Published

2017

9. The effect of Mycobacterium avium ssp paratuberculosis infection on clinical mastitis occurrence in dairy cows

Author

ROSSI, G, Grohn, Y. T., Schukken, Y. H., Smith, Rebecca L, LS Theoretische Epidemiologie, dFAH AVR, LS Theoretische Epidemiologie, and dFAH AVR

Subjects

medicine.medical_specialty, 040301 veterinary sciences, dairy farm, Kwantitatieve Veterinaire Epidemiologie, Paratuberculosis, Mycobacterium avium ssp paratuberculosis, Disease, Mycobacterium avium ssp. paratuberculosis, clinical mastitis, Biology, 0403 veterinary science, Indirect costs, Epidemiology, Genetics, medicine, Animals, Lactation, Risk factor, Mastitis, Bovine, Survival analysis, business.industry, 0402 animal and dairy science, Quantitative Veterinary Epidemiology, food and beverages, 04 agricultural and veterinary sciences, medicine.disease, 040201 dairy & animal science, Mastitis, Mycobacterium avium subsp. paratuberculosis, comorbidity, Immunology, WIAS, Animal Science and Zoology, Livestock, Cattle, Female, business, Johne's disease, Food Science

Abstract

Endemic diseases can be counted among the most serious sources of losses for livestock production. In dairy farms in particular, one of the most common diseases is Johne's disease, caused by Mycobacterium avium ssp. paratuberculosis (MAP). Infection with MAP causes direct costs because it affects milk production, but it has also been suspected to increase the risk of clinical mastitis (CM) among infected animals. This might contribute to further costs for farmers. We asked whether MAP infection represents a risk factor for CM and, in particular, whether CM occurrences were more common in MAP-infected animals. Our results, obtained by survival analysis, suggest that MAP-infected cows had an increased probability of experiencing CM during lactation. These results highlight the need to account for the interplay of infectious diseases and other health conditions in economic and epidemiological modeling. In this case, accounting for MAP-infected cows having an increased CM occurrence might have nonnegligible effects on the estimated benefit of MAP control.

Published

2017

10. Alteration of GI symptoms in a cow with Johne disease by the dietary organosulfur, 2-mercaptoethanol.

Author

Click, Robert E.

Subjects

*PHENOTYPES, *INFLAMMATORY bowel diseases, *CROHN'S disease, *ULCERATIVE colitis, *IRRITABLE colon

Abstract

Sub-phenotypes of inflammatory bowel disease (IBD)--Crohn disease, ulcerative colitis and some cases of irritable bowel syndrome--are generally considered a consequence of gastrointestinal inflammation of unknown etiology. Conventional therapy and more recently biologic agents, all with varying degrees of drawbacks, have resulted in improved control of these diseases. However, as the incidence and prevalence continue to rise, needs for prevention, permanent remission and cures remain unmet, plus there still remain needs for improved control of symptoms, such as pain and diarrhea. The case report herein describes a serendipitous, novel means for curtailing these symptoms associated with a bovine gastrointestinal disease that may have applicability for patients with diseases characterized by abdominal-visceral pain and diarrhea. [ABSTRACT FROM AUTHOR]

Published

2012

11. MycoClub 2

Author

Winter, Nathalie, Biet, Franck, Infectiologie Animale et Santé Publique (UR IASP), and Institut National de la Recherche Agronomique (INRA)

Subjects

MYCOBACTERIUM AVIUM SSP PARATUBERCULOSIS, [SDV]Life Sciences [q-bio], MYCOBACTERIUM BOVIS, ComputingMilieux_MISCELLANEOUS, MYCOBACTERIUM ABSCESSUS, MYCOBACTERIUM ULCERANS

Abstract

National audience

Published

2011

12. Paratuberculosis in Cattle.

Author

Fecteau ME

Subjects

Animals, Cattle, Cattle Diseases prevention & control, Feces microbiology, Mycobacterium avium subsp. paratuberculosis isolation & purification, Paratuberculosis microbiology, Paratuberculosis prevention & control, Cattle Diseases microbiology, Cattle Diseases physiopathology, Paratuberculosis physiopathology

Abstract

Paratuberculosis remains one of the most important diseases of cattle worldwide. In cattle, the disease is debilitating and is characterized by weight loss and chronic diarrhea in the later stages of infection. However, cattle in the subclinical stages of the disease often show decreased milk production and are at higher risk for development of other common production diseases. Infections with Mycobacterium avium ssp paratuberculosis are difficult to control because of long incubation periods, the absence of clinical signs until advanced stages of the disease, and the lack of completely reliable diagnostic methods in the preclinical stages of the disease., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

13. Rapid identification of Mycobacterium avium ssp paratuberculosis laboratory strains by IS900-Nested polymerase chain reaction.

Author

Taheri, Mohammad Mohammad, Mosavari, Nader, Feizabadi, Mohammad Mehdi, Tadayon, Keyvan, Keshavarz, Rouholah, Pajoohi, Reza Aref, Soleimani, Kioomars, and Pour, Shojaat Dashti

Abstract

Introdution Mycobacterium avium ssp paratuberculosis (MAP) causes paratuberculosis (Johne’s disease) in ruminants. As a species, M. avium comprises M. avium subsp . hominissuis and a number of clones that are known to have evolved from this subspecies, namely M. avium subsp. avium (MAA), M. avium subsp . silvaticum , and MAP . Despite the very high genomic similarity of MAP and MAA, the insertion sequence IS900, which is 1,451-bp long, is now understood to be exclusively present in 10–20 copies in the genome of MAP. In the present study, a multidiscipline polymerase chain reaction (PCR)-based algorithm targeting16SrRNA, IS6110, IS901, IS1245, and IS900 markers has been employed to differentiate between six laboratory strains of M. avium complex (including MAP 316F, III&V, and 2e plus MAA D4), Mycobacterium tuberculosis DT, and Mycobacterium bovis AN5 strains used at the Razi Institute (Tehran, Iran) for the preparation of paratuberculin, avian, human, and bovine tuberculin, respectively. Materils and methods Three laboratory strains of III&V, 2e, and 316F were subcultured on Herrold’s egg yolk medium, whereas the MAA strain of D4 along with M. bovis AN5 and M. tuberculosis DT were subcultured on Lowenstein–Jensen slopes. All the inoculated culture tubes were incubated for 8 weeks at 37 °C. Eventually, their genomic DNA was extracted according to the method of van Soolingen. Five individual PCRs were conducted on these templates to amplify 16SrRNA (genus-specific marker shared by all mycobacteria), IS900 (MAP-specific marker), IS901 (MAA-specific marker), IS1245 ( M. avium complex (MAC)-specific marker), and IS6110 ( M. tuberculosis complex (MTC)-specific marker) loci. Results Consequently, a 543-bp amplicon was amplified by all the six strains in PCR against 16SrRNA, an indication of their identity as members of Mycobacterium genus. A 245-bp fragment was detected in only IS6110-PCR with M. bovis AN5 as well as M. tuberculosis DT. In the IS1245 assessment, the MAA strain of D4 produced a 427-bp amplicon, whereas none of the other studied strains produced this amplicon. A 1,108-bp amplicon fragment of the IS901 marker was successfully produced by MAA strain, whereas no PCR product was achieved in amplification of all the three MAP strains. In IS900-nested PCR, the three MAP strains produced the expected 400-bp and 298-bp fragments Conclution However, no amplification was observed with other strains. Two main achievements of this work are the development of an efficient means of differentiation between the six Razi laboratory mycobacterial strains and characterization of the genomic profile of these strains, a capability that is vital when cross contamination is potentially an important concern. [ABSTRACT FROM AUTHOR]

Published

2016