Giles Oldroyd
Overview
Explore the profile of Giles Oldroyd including associated specialties, affiliations and a list of published articles.
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Articles
21
Citations
691
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0
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Recent Articles
1.
Larson E, Armstrong E, Harper H, Knapp S, Edwards K, Grierson D, et al.
New Phytol
. 2023 Mar;
238(2):464-469.
PMID: 36924326
No abstract available.
2.
Keyes S, van Veelen A, McKay Fletcher D, Scotson C, Koebernick N, Petroselli C, et al.
New Phytol
. 2022 Jan;
234(2):688-703.
PMID: 35043984
Phosphorus (P) is essential for plant growth. Arbuscular mycorrhizal fungi (AMF) aid its uptake by acquiring P from sources distant from roots in return for carbon. Little is known about...
3.
Montero H, Lee T, Pucker B, Ferreras-Garrucho G, Oldroyd G, Brockington S, et al.
Proc Natl Acad Sci U S A
. 2021 Jun;
118(25).
PMID: 34161289
Receptor-like kinases (RLKs) are key cell signaling components. The rice ARBUSCULAR RECEPTOR-LIKE KINASE 1 (OsARK1) regulates the arbuscular mycorrhizal (AM) association postarbuscule development and belongs to an undefined subfamily of...
4.
Oldroyd G
Curr Biol
. 2020 Nov;
28(16):R856-R857.
PMID: 33220725
Interview with Giles Oldroyd, who studies the signalling and developmental processes that are involved in the interaction of mycorrhizal fungi and nitrogen-fixing bacteria in plants at the University of Cambridge.
5.
Bozsoki Z, Gysel K, Hansen S, Lironi D, Kronauer C, Feng F, et al.
Science
. 2020 Aug;
369(6504):663-670.
PMID: 32764065
Plants evolved lysine motif (LysM) receptors to recognize and parse microbial elicitors and drive intracellular signaling to limit or facilitate microbial colonization. We investigated how chitin and nodulation (Nod) factor...
6.
Choi J, Lee T, Cho J, Servante E, Pucker B, Summers W, et al.
Nat Commun
. 2020 May;
11(1):2114.
PMID: 32355217
Most plants associate with beneficial arbuscular mycorrhizal (AM) fungi that facilitate soil nutrient acquisition. Prior to contact, partner recognition triggers reciprocal genetic remodelling to enable colonisation. The plant Dwarf14-Like (D14L)...
7.
Robledo M, Menendez E, Jimenez-Zurdo J, Rivas R, Velazquez E, Martinez-Molina E, et al.
Mol Plant Microbe Interact
. 2018 Jan;
31(5):568-575.
PMID: 29334470
The infection of legume plants by rhizobia is tightly regulated to ensure accurate bacterial penetration, infection, and development of functionally efficient nitrogen-fixing root nodules. Rhizobial Nod factors (NF) have key...
8.
Bozsoki Z, Cheng J, Feng F, Gysel K, Vinther M, Andersen K, et al.
Proc Natl Acad Sci U S A
. 2017 Sep;
114(38):E8118-E8127.
PMID: 28874587
The ability of root cells to distinguish mutualistic microbes from pathogens is crucial for plants that allow symbiotic microorganisms to infect and colonize their internal root tissues. Here we show...
9.
Roy S, Robson F, Lilley J, Liu C, Cheng X, Wen J, et al.
Plant Physiol
. 2017 Apr;
174(1):326-338.
PMID: 28363992
Most legume plants can form nodules, specialized lateral organs that form on roots, and house nitrogen-fixing bacteria collectively called rhizobia. The uptake of the phytohormone auxin into cells is known...
10.
Sinharoy S, Liu C, Breakspear A, Guan D, Shailes S, Nakashima J, et al.
Plant Physiol
. 2016 Feb;
170(4):2204-17.
PMID: 26884486
The symbiosis between leguminous plants and soil rhizobia culminates in the formation of nitrogen-fixing organs called nodules that support plant growth. Two Medicago truncatula Tnt1-insertion mutants were identified that produced...