John T Sullivan
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Explore the profile of John T Sullivan including associated specialties, affiliations and a list of published articles.
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100
Citations
1911
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Recent Articles
1.
Wightman T, Muszynski A, Kelly S, Sullivan J, Smart C, Stougaard J, et al.
Mol Plant Microbe Interact
. 2024 Jun;
37(9):662-675.
PMID: 38904752
The symbiosis between R7A and Gifu is an important model system for investigating the role of bacterial exopolysaccharides (EPS) in plant-microbe interactions. Previously, we showed that R7A mutants that are...
2.
Hemocyte-like cells in larvae of the freshwater snail Biomphalaria glabrata (Mollusca: Panpulmonata)
Sullivan J
J Invertebr Pathol
. 2023 Sep;
201:107994.
PMID: 37741506
Despite undergoing development within a germfree egg capsule, embryos and larvae of the freshwater snail Biomphalaria glabrata possess passive immune protection in the form of parentally-derived antimicrobial proteins in the...
3.
Jowsey W, Morris C, Hall D, Sullivan J, Fagerlund R, Eto K, et al.
Nucleic Acids Res
. 2023 May;
51(13):6841-6856.
PMID: 37246713
Horizontal gene transfer is tightly regulated in bacteria. Often only a fraction of cells become donors even when regulation of horizontal transfer is coordinated at the cell population level by...
4.
Kelly S, Hansen S, Rubsam H, Saake P, Pedersen E, Gysel K, et al.
PLoS Biol
. 2023 May;
21(5):e3002127.
PMID: 37200394
Receptors that distinguish the multitude of microbes surrounding plants in the environment enable dynamic responses to the biotic and abiotic conditions encountered. In this study, we identify and characterise a...
5.
Colombi E, Hill Y, Lines R, Sullivan J, Kohlmeier M, Christophersen C, et al.
Microb Genom
. 2023 Feb;
9(1).
PMID: 36748564
Mesorhizobia are soil bacteria that establish nitrogen-fixing symbioses with various legumes. Novel symbiotic mesorhizobia frequently evolve following horizontal transfer of symbiosis-gene-carrying integrative and conjugative elements (ICESyms) to indigenous mesorhizobia in...
6.
Dreessen J, Ren X, Gardner D, Green K, Stratton P, Sullivan J, et al.
J Air Waste Manag Assoc
. 2022 Oct;
73(3):178-199.
PMID: 36251984
The Ozone Water-Land Environmental Transition Study, 2018 (OWLETS-2) measured total non-methane hydrocarbons (TNMHC) and EPA PAMS Volatile Organic Compounds (VOCs) on an island site in the northern Chesapeake Bay 2.1...
7.
Tao M, Fiore A, Jin X, Schiferl L, Commane R, Judd L, et al.
Environ Sci Technol
. 2022 Oct;
56(22):15312-15327.
PMID: 36219092
Understanding the local-scale spatial and temporal variability of ozone formation is crucial for effective mitigation. We combine tropospheric vertical column densities (VCD) of formaldehyde (HCHO) and nitrogen dioxide (NO), referred...
8.
9.
Ramsay J, Bastholm T, Verdonk C, Tambalo D, Sullivan J, Harold L, et al.
Nucleic Acids Res
. 2021 Dec;
50(2):975-988.
PMID: 34904658
Horizontal transfer of the integrative and conjugative element ICEMlSymR7A converts non-symbiotic Mesorhizobium spp. into nitrogen-fixing legume symbionts. Here, we discover subpopulations of Mesorhizobium japonicum R7A become epigenetically primed for quorum-sensing...
10.
Gysel K, Laursen M, Thygesen M, Lironi D, Bozsoki Z, Hjuler C, et al.
Proc Natl Acad Sci U S A
. 2021 Oct;
118(44).
PMID: 34716271
Plants and animals use cell surface receptors to sense and interpret environmental signals. In legume symbiosis with nitrogen-fixing bacteria, the specific recognition of bacterial lipochitooligosaccharide (LCO) signals by single-pass transmembrane...