Paul O Sheridan
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Explore the profile of Paul O Sheridan including associated specialties, affiliations and a list of published articles.
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18
Citations
749
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Recent Articles
1.
Malik A, Martiny J, Ribeiro A, Sheridan P, Weihe C, Brodie E, et al.
ISME J
. 2024 Nov;
18(1).
PMID: 39495619
Microbes drive fundamental ecosystem processes, such as decomposition. Environmental stressors are known to affect microbes, their fitness, and the ecosystem functions that they perform; yet, understanding the causal mechanisms behind...
2.
Williams T, Davin A, Szantho L, Stamatakis A, Wahl N, Woodcroft B, et al.
ISME J
. 2024 Jul;
18(1.
PMID: 39001714
In recent years, phylogenetic reconciliation has emerged as a promising approach for studying microbial ecology and evolution. The core idea is to model how gene trees evolve along a species...
3.
Sheridan P, Odat M, Scott K
Microbiome Res Rep
. 2023 Dec;
2(1):1.
PMID: 38059211
Recent years have seen the development of high-accuracy and high-throughput genetic manipulation techniques, which have greatly improved our understanding of genetically tractable microbes. However, challenges remain in establishing genetic manipulation...
4.
Sheridan P, Meng Y, Williams T, Gubry-Rangin C
Nat Commun
. 2023 Nov;
14(1):7305.
PMID: 37951938
Knowledge of deeply-rooted non-ammonia oxidising Thaumarchaeota lineages from terrestrial environments is scarce, despite their abundance in acidic soils. Here, 15 new deeply-rooted thaumarchaeotal genomes were assembled from acidic topsoils (0-15 ...
5.
Harris B, Sheridan P, Davin A, Gubry-Rangin C, Szollosi G, Williams T
Methods Mol Biol
. 2022 Sep;
2569:189-211.
PMID: 36083449
Interpreting phylogenetic trees requires a root, which provides the direction of evolution and polarizes ancestor-descendant relationships. But inferring the root using genetic data is difficult, particularly in cases where the...
6.
Sheridan P, Meng Y, Williams T, Gubry-Rangin C
Nat Commun
. 2022 Jul;
13(1):4110.
PMID: 35840579
The Terrestrial Miscellaneous Euryarchaeota Group has been identified in various environments, and the single genome investigated thus far suggests that these archaea are anaerobic sulfite reducers. We assemble 35 new...
7.
Sheridan P, Louis P, Tsompanidou E, Shaw S, Harmsen H, Duncan S, et al.
Microb Genom
. 2022 Jan;
8(1).
PMID: 35077342
No abstract available.
8.
Sheridan P, Martin J, Scott K
Bio Protoc
. 2021 Mar;
10(7):e3575.
PMID: 33659545
and species of the human gut microbiota play an important role in the maintaince of human health, partly by producing butyrate, the main energy source of our colonic epithelial cells....
9.
Sheridan P, Raguideau S, Quince C, Holden J, Zhang L, Williams T, et al.
Nat Commun
. 2020 Oct;
11(1):5494.
PMID: 33127895
Ammonia-oxidising archaea of the phylum Thaumarchaeota are important organisms in the nitrogen cycle, but the mechanisms driving their radiation into diverse ecosystems remain underexplored. Here, existing thaumarchaeotal genomes are complemented...
10.
Sheridan P, Martin J, Minton N, Flint H, OToole P, Scott K
Anaerobe
. 2019 Jun;
59:131-140.
PMID: 31228669
Commensal butyrate-producing bacteria in the Firmicutes phylum are abundant in the human intestine and are important for maintaining health. However, understanding of the metabolism and host interaction of these bacteria...