Jens Laurids Sorensen
Overview
Explore the profile of Jens Laurids Sorensen including associated specialties, affiliations and a list of published articles.
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53
Citations
644
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Recent Articles
11.
Westphal K, Heidelbach S, Zeuner E, Riisgaard-Jensen M, Nielsen M, Vestergaard S, et al.
Int J Food Microbiol
. 2021 Apr;
347:109171.
PMID: 33872940
Potatoes contain several nutrients essential for fungal growth, making them an excellent component of media such as the popular Potato Dextrose Agar (PDA) medium. Commercially, PDA is available from multiple...
12.
Pedersen T, Nielsen M, Kristensen S, Spedtsberg E, Yasmine W, Matthiesen R, et al.
Int J Mol Sci
. 2020 Oct;
21(20).
PMID: 33066643
Through stepwise recreation of the biosynthetic gene cluster containing from , it was possible to produce the core scaffold compound of bostrycoidin, a red aza-anthraquinone pigment in . This was...
13.
Kristensen S, van Mourik T, Pedersen T, Sorensen J, Muff J
Sci Rep
. 2020 Aug;
10(1):13571.
PMID: 32782387
Quinones are produced in organisms and are utilized as electron transfer agents, pigments and in defence mechanisms. Furthermore, naturally occurring quinones can also be cytotoxins with antibacterial properties. These properties...
14.
Nielsen M, Holzwarth A, Brew E, Chrapkova N, Kaniki S, Kastaniegaard K, et al.
Fungal Biol Biotechnol
. 2020 Jan;
6:25.
PMID: 31890232
Background: Besides their ability to produce several interesting bioactive secondary metabolites, members of the species complex comprise important pathogens of plants and humans. One of the major obstacles in understanding...
15.
Westphal K, Werner M, Nielsen K, Sorensen J, Andrushchenko V, Winde J, et al.
Molecules
. 2019 Sep;
24(19).
PMID: 31561557
Chemical analyses of grown on banana medium resulted in eight novel spiroleptosphols, T1, T2 and U-Z (-). The structures were elucidated by a combination of high-resolution mass spectrometric data and...
16.
Bachleitner S, Sorensen J, Gacek-Matthews A, Sulyok M, Studt L, Strauss J
Front Microbiol
. 2019 Aug;
10:1759.
PMID: 31456754
Fungi produce a plethora of secondary metabolites (SMs) involved in cellular protection, defense, and signaling. Like other metabolic processes, transcription of SM biosynthesis genes is tightly regulated to prevent an...
17.
Nielsen M, Wollenberg R, Westphal K, Sondergaard T, Wimmer R, Gardiner D, et al.
Fungal Genet Biol
. 2019 Jul;
132:103248.
PMID: 31279974
Filamentous fungi such as species from the genus Fusarium are capable of producing a wide palette of interesting metabolites relevant to health, agriculture and biotechnology. Secondary metabolites are formed from...
18.
Nielsen M, Sondergaard T, Giese H, Sorensen J
Curr Genet
. 2019 May;
65(6):1263-1280.
PMID: 31139896
The eukaryotic ascomycete genus Fusarium comprises many species capable of producing secondary metabolites important for agriculture, health, and biotechnology. Filamentous fungi share common physiological features, but even within Fusarium, there...
19.
Westphal K, Nielsen K, Wollenberg R, Mollehoj M, Bachleitner S, Studt L, et al.
Toxins (Basel)
. 2019 May;
11(5).
PMID: 31100892
Fungal non-ribosomal peptide synthetase ( clusters are spread across the chromosomes, where several modifying enzyme-encoding genes typically flank one . However, a recent study showed that the octapeptide fusaoctaxin A...
20.
Wollenberg R, Sondergaard T, Nielsen M, Knutsson S, Pedersen T, Westphal K, et al.
Fungal Biol
. 2019 Jan;
123(1):10-17.
PMID: 30654953
Fusarium pseudograminearum is a significant pathogen of cereals in arid regions worldwide and has the ability to produce numerous bioactive secondary metabolites. The genome sequences of seven F. pseudograminearum strains...