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Search: WFRF:(Fritzsche Joachim) > Medical and Health Sciences

  • Result 1-6 of 6
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1.
  • Müller, Vilhelm, 1990, et al. (author)
  • Rapid Tracing of Resistance Plasmids in a Nosocomial Outbreak Using Optical DNA Mapping
  • 2016
  • In: ACS Infectious Diseases. - : American Chemical Society (ACS). - 2373-8227. ; 2:5, s. 322-328
  • Journal article (peer-reviewed)abstract
    • Resistance to life-saving antibiotics increases rapidly worldwide, and multiresistant bacteria have become a global threat to human health. Presently, the most serious threat is the increasing spread of Enterobacteriaceae carrying genes coding for extended spectrum beta-lactamases (ESBL) and carbapenemases on highly mobile plasmids. We here demonstrate how optical DNA maps of single plasmids can be used as fingerprints to trace plasmids, for example, during resistance outbreaks. We use the assay to demonstrate a potential transmission route of an ESBL-carrying plasmid between bacterial strains/species and between patients, during a polyclonal outbreak at a neonatal ward at Sahlgrenska University Hospital (Gothenburg, Sweden). Our results demonstrate that optical DNA mapping is an easy and rapid method for detecting the spread of plasmids mediating resistance. With the increasing prevalence of multiresistant bacteria, diagnostic tools that can aid in solving ongoing routes of transmission, in particular in hospital settings, will be of paramount importance.
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2.
  • Müller, Vilhelm, 1990, et al. (author)
  • Direct identification of antibiotic resistance genes on single plasmid molecules using CRISPR/Cas9 in combination with optical DNA mapping.
  • 2016
  • In: Scientific Reports. - : Springer Science and Business Media LLC. - 2045-2322 .- 2045-2322. ; 6, s. 37938-
  • Journal article (peer-reviewed)abstract
    • Bacterial plasmids are extensively involved in the rapid global spread of antibiotic resistance. We here present an assay, based on optical DNA mapping of single plasmids in nanofluidic channels, which provides detailed information about the plasmids present in a bacterial isolate. In a single experiment, we obtain the number of different plasmids in the sample, the size of each plasmid, an optical barcode that can be used to identify and trace the plasmid of interest and information about which plasmid that carries a specific resistance gene. Gene identification is done using CRISPR/Cas9 loaded with a guide-RNA (gRNA) complementary to the gene of interest that linearizes the circular plasmids at a specific location that is identified using the optical DNA maps. We demonstrate the principle on clinically relevant extended spectrum beta-lactamase (ESBL) producing isolates. We discuss how the gRNA sequence can be varied to obtain the desired information. The gRNA can either be very specific to identify a homogeneous group of genes or general to detect several groups of genes at the same time. Finally, we demonstrate an example where we use a combination of two gRNA sequences to identify carbapenemase-encoding genes in two previously not characterized clinical bacterial samples.
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3.
  • McGinn, Steven, et al. (author)
  • New Technologies for DNA analysis-A review of the READNA Project.
  • 2016
  • In: New Biotechnology. - : Elsevier BV. - 1876-4347 .- 1871-6784.
  • Research review (peer-reviewed)abstract
    • The REvolutionary Approaches and Devices for Nucleic Acid analysis (READNA) project received funding from the European Commission for 4 1/2 years. The objectives of the project revolved around technological developments in nucleic acid analysis. The project partners have discovered, created and developed a huge body of insights into nucleic acid analysis, ranging from improvements and implementation of current technologies to the most promising sequencing technologies that constitute a 3(rd) and 4(th) generation of sequencing methods with nanopores and in situ sequencing, respectively.
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4.
  • Beech, Jason P., et al. (author)
  • Sample preparation for single-cell whole chromosome analysis
  • 2012
  • In: Proceedings of the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2012. - 9780979806452 ; , s. 998-999
  • Conference paper (peer-reviewed)abstract
    • In this work we present an integrated system for whole chromosome analysis of single bacterium. Using whole genome barcoding techniques, which offer direct and rapid microscopic visualization of the entire genome in one field-of-view, we aim to rapidly identify individual bacterium. We are developing our device to achieve the crucial, and difficult process of isolating a bacterium, removing the DNA in one piece and transferring it to a nano-channel for visualisation. In order to achieve control over the bacteria we encapsulate them in agarose, using flow focusing. The encapsulated bacteria can then be transported in microchannels to proximity with the nanochannels and then chemically lysis can be performed. Following lysis the intact genome can be extracted and transferred to the meandering nanochannel for analysis. We believe this device holds the potential to significantly decrease analysis times for single cell, whole genome analysis with the potential of opening up for automated, high-throughput genome analysis in microfluidic systems.
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5.
  • Frykholm, Karolin, 1977, et al. (author)
  • Fast size-determination of intact bacterial plasmids using nanofluidic channels
  • 2015
  • In: Lab on a Chip. - : Royal Society of Chemistry (RSC). - 1473-0189 .- 1473-0197. ; 15:13, s. 2739-2743
  • Journal article (peer-reviewed)abstract
    • We demonstrate how nanofluidic channels can be used as a tool to rapidly determine the number and sizes of plasmids in bacterial isolates. Each step can be automated at low cost, opening up opportunities for general use in microbiology labs.
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6.
  • Nyberg, Lena, 1979, et al. (author)
  • Rapid identification of intact bacterial resistance plasmids via optical mapping of single DNA molecules
  • 2016
  • In: Scientific Reports. - : Springer Science and Business Media LLC. - 2045-2322 .- 2045-2322. ; 6
  • Journal article (peer-reviewed)abstract
    • The rapid spread of antibiotic resistance - currently one of the greatest threats to human health according to WHO - is to a large extent enabled by plasmid-mediated horizontal transfer of resistance genes. Rapid identification and characterization of plasmids is thus important both for individual clinical outcomes and for epidemiological monitoring of antibiotic resistance. Toward this aim, we have developed an optical DNA mapping procedure where individual intact plasmids are elongated within nanofluidic channels and visualized through fluorescence microscopy, yielding barcodes that reflect the underlying sequence. The assay rapidly identifies plasmids through statistical comparisons with barcodes based on publicly available sequence repositories and also enables detection of structural variations. Since the assay yields holistic sequence information for individual intact plasmids, it is an ideal complement to next generation sequencing efforts which involve reassembly of sequence reads from fragmented DNA molecules. The assay should be applicable in microbiology labs around the world in applications ranging from fundamental plasmid biology to clinical epidemiology and diagnostics.
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  • Result 1-6 of 6
Type of publication
journal article (4)
conference paper (1)
research review (1)
Type of content
peer-reviewed (6)
Author/Editor
Fritzsche, Joachim, ... (5)
Ambjörnsson, Tobias (4)
Nyberg, Lena, 1979 (4)
Westerlund, Fredrik, ... (4)
Sandegren, Linus (3)
Müller, Vilhelm, 199 ... (3)
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Quaderi, Mahmood Saa ... (3)
Kristiansson, Erik, ... (2)
Noble, Charleston (2)
Frykholm, Karolin, 1 ... (2)
Freitag, Camilla (2)
Karami, N. (2)
Lagerstedt, Erik (2)
Nilsson, Mats (1)
Emilsson, Gustav, 19 ... (1)
Lehrach, Hans (1)
Willcocks, Spike (1)
Adolfsson, Karl (1)
Tegenfeldt, Jonas (1)
Beech, Jason P. (1)
Tegenfeldt, Jonas O. (1)
Sjoberg, F (1)
Fritzsche, Joachim (1)
Persson, Fredrik, 19 ... (1)
Kaye, Jane (1)
Karami, Nahid, 1959 (1)
Åhrén, Christina (1)
Moens, Lotte (1)
Kristensen, Anders (1)
Ke, Rongqin (1)
Holm, Stefan (1)
Yadegari, Farnaz (1)
Mir, Kalim U. (1)
Franke, Andre (1)
Mignardi, Marco (1)
Dekker, Cees (1)
Gullberg, Mats (1)
Gut, Ivo G. (1)
Gut, Marta (1)
Tost, Jörg (1)
Brookes, Anthony J. (1)
Fredriksson, Simon (1)
Heath, Simon (1)
El-Sagheer, Afaf (1)
Rajer, Fredrika (1)
Brown, Tom (1)
Lancaster, Owen (1)
Pichler, Christoffer (1)
Ekström, Björn (1)
Forster, Michael (1)
show less...
University
Lund University (6)
Chalmers University of Technology (5)
Uppsala University (4)
University of Gothenburg (3)
University of Skövde (2)
Stockholm University (1)
Language
English (6)
Research subject (UKÄ/SCB)
Natural sciences (5)
Engineering and Technology (1)

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