Dominik Weixler
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Explore the profile of Dominik Weixler including associated specialties, affiliations and a list of published articles.
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Articles
10
Citations
56
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Recent Articles
1.
Reich S, Goldbeck O, Lkhaasuren T, Weixler D, Weiss T, Eikmanns B
Microorganisms
. 2023 Feb;
11(2).
PMID: 36838266
Cyclic di-adenosine monophosphate (c-di-AMP) is a bacterial second messenger discovered in and involved in potassium homeostasis, cell wall maintenance and/or DNA stress response. As the role of c-di-AMP has been...
2.
Pashou E, Reich S, Reiter A, Weixler D, Eikmanns B, Oldiges M, et al.
Microbiol Spectr
. 2022 Dec;
11(1):e0175622.
PMID: 36541778
Genome analysis of Corynebacterium lactis revealed a bacteriocin gene cluster encoding a putative bacteriocin of the linaridin family of ribosomally synthesized and posttranslationally modified peptides (RiPPs). The locus harbors typical...
3.
Weixler D, Berghoff M, Ovchinnikov K, Reich S, Goldbeck O, Seibold G, et al.
Microb Cell Fact
. 2022 Feb;
21(1):24.
PMID: 35177073
No abstract available.
4.
Weixler D, Berghoff M, Ovchinnikov K, Reich S, Goldbeck O, Seibold G, et al.
Microb Cell Fact
. 2022 Jan;
21(1):11.
PMID: 35033086
Background: The bacteriocin nisin is naturally produced by Lactococcus lactis as an inactive prepeptide that is modified posttranslationally resulting in five (methyl-)lanthionine rings characteristic for class Ia bacteriocins. Export and...
5.
Mengele A, Weixler D, Amthor S, Eikmanns B, Seibold G, Rau S
Angew Chem Int Ed Engl
. 2021 Dec;
61(11):e202114842.
PMID: 34932847
During the light-dependent reaction of photosynthesis, green plants couple photoinduced cascades of redox reactions with transmembrane proton translocations to generate reducing equivalents and chemical energy in the form of NADPH...
6.
Mengele A, Weixler D, Chettri A, Maurer M, Huber F, Seibold G, et al.
Chemistry
. 2021 Sep;
27(68):16840-16845.
PMID: 34547151
A series of three Ru(II) polypyridine complexes was investigated for the selective photocatalytic oxidation of NAD(P)H to NAD(P) in water. A combination of (time-resolved) spectroscopic studies and photocatalysis experiments revealed...
7.
Goldbeck O, Desef D, Ovchinnikov K, Perez-Garcia F, Christmann J, Sinner P, et al.
Metab Eng
. 2021 Sep;
68:34-45.
PMID: 34492380
Bacteriocins are antimicrobial peptides produced by bacteria to inhibit competitors in their natural environments. Some of these peptides have emerged as commercial food preservatives and, due to the rapid increase...
8.
Goldbeck O, Weixler D, Eikmanns B, Riedel C
Microorganisms
. 2021 Apr;
9(3).
PMID: 33808930
Post-translationally modified, (methyl-)lanthionine-containing peptides are produced by several Gram-positive bacteria. These so-called lantibiotics have potent activity against various bacterial pathogens including multidrug-resistant strains and are thus discussed as alternatives to...
9.
Lin J, Weixler D, Daboss S, Seibold G, Andronescu C, Schuhmann W, et al.
Talanta
. 2019 Aug;
205:120083.
PMID: 31450430
In vitro synthesis of ATP catalyzed by the ATP-synthase requires membrane vesicles, in which the ATP-synthase is present within the bilayer membrane. Inverted vesicle prepared from Gram negative cells (e.g.,...
10.
Crauwels P, Schafer L, Weixler D, Bar N, Diep D, Riedel C, et al.
Front Microbiol
. 2019 Jan;
9:3038.
PMID: 30619129
Bacteriocins are antimicrobial peptides naturally produced by many bacteria and were shown to be effective against various pathogens including . is a food-borne pathogen that frequently causes disease outbreaks around...