Terri A Long
Overview
Explore the profile of Terri A Long including associated specialties, affiliations and a list of published articles.
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27
Citations
1026
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Recent Articles
1.
Schmittling S, Muhammad D, Haque S, Long T, Williams C
BMC Genomics
. 2023 Oct;
24(1):620.
PMID: 37853316
Background: Plants respond to stress through highly tuned regulatory networks. While prior works identified master regulators of iron deficiency responses in A. thaliana from whole-root data, identifying regulators that act...
2.
Muhammad D, Clark N, Haque S, Williams C, Sozzani R, Long T
Plant Physiol
. 2022 Aug;
190(3):2017-2032.
PMID: 35920794
Plants must tightly regulate iron (Fe) sensing, acquisition, transport, mobilization, and storage to ensure sufficient levels of this essential micronutrient. POPEYE (PYE) is an iron responsive transcription factor that positively...
3.
Choi B, Hyeon D, Lee J, Long T, Hwang D, Hwang I
Mol Cells
. 2022 Apr;
45(5):294-305.
PMID: 35422451
E3 ligase BRUTUS (BTS), a putative iron sensor, is expressed in both root and shoot tissues in seedlings of . The role of in root tissues has been well established....
4.
Hodgens C, Akpa B, Long T
Curr Opin Plant Biol
. 2021 Nov;
64:102149.
PMID: 34839201
To ensure optimal utilization and bioavailability, iron uptake, transport, subcellular localization, and assimilation are tightly regulated in plants. Herein, we examine recent advances in our understanding of cellular responses to...
5.
Herlihy J, Long T, McDowell J
J Biol Chem
. 2020 Aug;
295(39):13444-13457.
PMID: 32732287
Iron metabolism and the plant immune system are both critical for plant vigor in natural ecosystems and for reliable agricultural productivity. Mechanistic studies of plant iron home-ostasis and plant immunity...
6.
Tong H, Madison I, Long T, Williams C
Curr Opin Plant Biol
. 2020 Jul;
57:8-15.
PMID: 32619968
Computational solutions enable plant scientists to model protein-mediated stress responses and characterize novel gene functions that coordinate responses to a variety of abiotic stress conditions. Recently, density functional theory was...
7.
Buckner E, Madison I, Chou H, Matthiadis A, Melvin C, Sozzani R, et al.
Front Plant Sci
. 2019 Dec;
10:1487.
PMID: 31803217
Exposure of plants to abiotic stresses, whether individually or in combination, triggers dynamic changes to gene regulation. These responses induce distinct changes in phenotypic characteristics, enabling the plant to adapt...
8.
Mendoza-Cozatl D, Gokul A, Carelse M, Jobe T, Long T, Keyster M
J Exp Bot
. 2019 Jun;
70(16):4197-4210.
PMID: 31231775
Plants are capable of synthesizing all the molecules necessary to complete their life cycle from minerals, water, and light. This plasticity, however, comes at a high energetic cost and therefore...
9.
Rodriguez-Celma J, Chou H, Kobayashi T, Long T, Balk J
Front Plant Sci
. 2019 Mar;
10:98.
PMID: 30815004
Iron (Fe) is an essential nutrient for plants, but at the same time its redox properties can make it a dangerous toxin inside living cells. Homeostasis between uptake, use and...
10.
Samira R, Li B, Kliebenstein D, Li C, Davis E, Gillikin J, et al.
Plant Mol Biol
. 2018 Jun;
97(4-5):297-309.
PMID: 29882068
ILR3 and PYE function in a regulatory network that modulates GLS accumulation under iron deficiency. The molecular processes involved in the cross talk between iron (Fe) homeostasis and other metabolic...