Matthias Hess
Overview
Explore the profile of Matthias Hess including associated specialties, affiliations and a list of published articles.
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Articles
45
Citations
2004
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Recent Articles
1.
Nou N, Covington J, Lai D, Mayali X, Seymour C, Johnston J, et al.
Nat Commun
. 2024 Nov;
15(1):9534.
PMID: 39496591
Few aerobic hyperthermophilic microorganisms degrade polysaccharides. Here, we describe the genome-enabled enrichment and optical tweezer-based isolation of an aerobic polysaccharide-degrading hyperthermophile, Fervidibacter sacchari, previously ascribed to candidate phylum Fervidibacteria. F....
2.
Covington J, Torosian N, Cook A, Palmer M, Bryan S, Nou N, et al.
Front Microbiol
. 2024 May;
15:1355444.
PMID: 38725686
The aerobic hyperthermophile catabolizes diverse polysaccharides and is the only cultivated member of the class within the phylum . It encodes 117 putative glycoside hydrolases (GHs), including two from GH...
3.
Ladau J, Brodie E, Falco N, Bansal I, Hoffman E, Joachimiak M, et al.
Infect Dis Model
. 2024 Apr;
9(2):634-643.
PMID: 38572058
Objectives: We aim to estimate geographic variability in total numbers of infections and infection fatality ratios (IFR; the number of deaths caused by an infection per 1,000 infected people) when...
4.
Shaw C, Hess M, Weimer B
Microorganisms
. 2023 Jul;
11(7).
PMID: 37512997
The gut microbiome provides the host access to otherwise indigestible nutrients, which are often further metabolized by the microbiome into bioactive components. The gut microbiome can also shift the balance...
5.
Mohamad-Fauzi N, Shaw C, Foutouhi S, Hess M, Kong N, Kol A, et al.
Front Cell Dev Biol
. 2023 Apr;
11:1077350.
PMID: 37009487
The potential of mesenchymal stem cells (MSCs) for tissue repair and regeneration has garnered great attention. While MSCs are likely to interact with microbes at sites of tissue damage and...
6.
Shaw C, Hess M, Weimer B
Virulence
. 2022 Sep;
13(1):1666-1680.
PMID: 36128741
Two-component systems are ubiquitous signaling mechanisms in bacteria that enable intracellular changes from extracellular cues. These bacterial regulatory systems couple external stimuli to control genetic expression via an autophosphorylation cascade...
7.
Oyama L, Olleik H, Teixeira A, Guidini M, Pickup J, Hui B, et al.
NPJ Biofilms Microbiomes
. 2022 Jul;
8(1):58.
PMID: 35835775
Here we report two antimicrobial peptides (AMPs), HG2 and HG4 identified from a rumen microbiome metagenomic dataset, with activity against multidrug-resistant (MDR) bacteria, especially methicillin-resistant Staphylococcus aureus (MRSA) strains, a...
8.
Nalla K, Manda N, Dhillon H, Kanade S, Rokana N, Hess M, et al.
Front Microbiol
. 2022 Jun;
13:805963.
PMID: 35756055
There has been growing interest on probiotics to enhance weight gain and disease resistance in young calves and to improve the milk yield in lactating animals by reducing the negative...
9.
Kieft K, Zhou Z, Anderson R, Buchan A, Campbell B, Hallam S, et al.
Nat Commun
. 2021 Jun;
12(1):3503.
PMID: 34108477
Microbial sulfur metabolism contributes to biogeochemical cycling on global scales. Sulfur metabolizing microbes are infected by phages that can encode auxiliary metabolic genes (AMGs) to alter sulfur metabolism within host...
10.
Roux S, Paul B, Bagby S, Nayfach S, Allen M, Attwood G, et al.
Nat Commun
. 2021 May;
12(1):3076.
PMID: 34031405
Changes in the sequence of an organism's genome, i.e., mutations, are the raw material of evolution. The frequency and location of mutations can be constrained by specific molecular mechanisms, such...