Thomas Nordahl Petersen
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Explore the profile of Thomas Nordahl Petersen including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
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24
Citations
7747
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Recent Articles
1.
Munk P, Yang D, Roder T, Maier L, Petersen T, Duarte A, et al.
mSystems
. 2024 Mar;
9(4):e0132823.
PMID: 38501800
Metagenomic sequencing has proven to be a powerful tool in the monitoring of antimicrobial resistance (AMR). Here, we provide a comparative analysis of the resistome from pigs, poultry, veal calves,...
2.
Martiny H, Munk P, Brinch C, Szarvas J, Aarestrup F, Petersen T
mSystems
. 2022 Mar;
7(2):e0010522.
PMID: 35343801
Since the initial discovery of a mobilized colistin resistance gene (), several other variants have been reported, some of which might have circulated a while beforehand. Publicly available metagenomic data...
3.
Duarte A, Roder T, Van Gompel L, Petersen T, Hansen R, Hansen I, et al.
Front Microbiol
. 2021 Feb;
11:601407.
PMID: 33519742
Metagenomics can unveil the genetic content of the total microbiota in different environments, such as food products and the guts of humans and livestock. It is therefore considered of great...
4.
Nissen J, Johansen J, Allesoe R, Sonderby C, Almagro Armenteros J, Gronbech C, et al.
Nat Biotechnol
. 2021 Jan;
39(5):555-560.
PMID: 33398153
Despite recent advances in metagenomic binning, reconstruction of microbial species from metagenomics data remains challenging. Here we develop variational autoencoders for metagenomic binning (VAMB), a program that uses deep variational...
5.
Hoper D, Grutzke J, Brinkmann A, Mossong J, Matamoros S, Ellis R, et al.
Front Microbiol
. 2020 Nov;
11:575377.
PMID: 33250869
Metagenomics-based high-throughput sequencing (HTS) enables comprehensive detection of all species comprised in a sample with a single assay and is becoming a standard method for outbreak investigation. However, unlike real-time...
6.
Nielsen R, Helenius M, Garcia S, Roager H, Aytan-Aktug D, Hansen L, et al.
Sci Rep
. 2020 Nov;
10(1):20103.
PMID: 33208769
Diet is an important component in weight management strategies, but heterogeneous responses to the same diet make it difficult to foresee individual weight-loss outcomes. Omics-based technologies now allow for analysis...
7.
Brinkmann A, Andrusch A, Belka A, Wylezich C, Hoper D, Pohlmann A, et al.
J Clin Microbiol
. 2019 Jun;
57(8).
PMID: 31167846
Quality management and independent assessment of high-throughput sequencing-based virus diagnostics have not yet been established as a mandatory approach for ensuring comparable results. The sensitivity and specificity of viral high-throughput...
8.
Hendriksen R, Munk P, Njage P, van Bunnik B, McNally L, Lukjancenko O, et al.
Nat Commun
. 2019 Mar;
10(1):1124.
PMID: 30850636
Antimicrobial resistance (AMR) is a serious threat to global public health, but obtaining representative data on AMR for healthy human populations is difficult. Here, we use metagenomic analysis of untreated...
9.
Almagro Armenteros J, Tsirigos K, Sonderby C, Petersen T, Winther O, Brunak S, et al.
Nat Biotechnol
. 2019 Feb;
37(4):420-423.
PMID: 30778233
Signal peptides (SPs) are short amino acid sequences in the amino terminus of many newly synthesized proteins that target proteins into, or across, membranes. Bioinformatic tools can predict SPs from...
10.
Munk P, Knudsen B, Lukjancenko O, Duarte A, Van Gompel L, Luiken R, et al.
Nat Microbiol
. 2018 Aug;
3(10):1186.
PMID: 30131524
In the version of this Article originally published, the surname of author Oksana Lukjancenko was spelt incorrectly as 'Lukjacenko'. This has now been corrected.