Dmitri A Nusinow
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Explore the profile of Dmitri A Nusinow including associated specialties, affiliations and a list of published articles.
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49
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Recent Articles
1.
Cox Jr K, Pardi S, OConnor L, Klebanovych A, Huss D, Nusinow D, et al.
Plant J
. 2025 Mar;
121(5):e70049.
PMID: 40051203
Expansion microscopy (ExM) achieves nanoscale imaging by physical expansion of fixed biological tissues embedded in a swellable hydrogel, enhancing the resolution of any optical microscope several-fold. While ExM is commonly...
2.
Milburn G, Morris C, Kosola E, Patel-Tupper D, Liu J, Pham D, et al.
bioRxiv
. 2025 Jan;
PMID: 39868288
Light is essential for photosynthesis; however, excess light can increase the accumulation of photoinhibitory reactive oxygen species that reduce photosynthetic efficiency. Plants have evolved photoprotective non-photochemical quenching (NPQ) pathways to...
3.
Battle M, Ewing S, Dickson C, Obaje J, Edgeworth K, Bindbeutel R, et al.
Mol Plant
. 2024 Jul;
17(9):1458-1471.
PMID: 39014898
Plants exploit phenotypic plasticity to adapt their growth and development to prevailing environmental conditions. Interpretation of light and temperature signals is aided by the circadian system, which provides a temporal...
4.
Kim S, Nusinow D, Wang X
bioRxiv
. 2024 Jan;
PMID: 38260301
One Sentence Summary: This study identifies combinations of two or more phospholipase Ds involved in altering clock outputs and the specific phosphatidic acid species impacting the clock rhythms.
5.
Kim S, Edgeworth K, Nusinow D, Wang X
Cell Rep
. 2023 Nov;
42(12):113483.
PMID: 37995186
The circadian clock regulates temporal metabolic activities, but how it affects lipid metabolism is poorly understood. Here, we show that the central clock regulators LATE ELONGATED HYPOCOTYL (LHY) and CIRCADIAN...
6.
Gao M, Lu Y, Geng F, Klose C, Staudt A, Huang H, et al.
Genome Biol
. 2023 Nov;
24(1):256.
PMID: 37936225
Background: Daylength is a key seasonal cue for animals and plants. In cereals, photoperiodic responses are a major adaptive trait, and alleles of clock genes such as PHOTOPERIOD1 (PPD1) and...
7.
Park S, Qiu J, Wei S, Peterson F, Beltran J, Medina-Cucurella A, et al.
Nat Chem Biol
. 2023 Oct;
20(1):103-110.
PMID: 37872402
Plants sense abscisic acid (ABA) using chemical-induced dimerization (CID) modules, including the receptor PYR1 and HAB1, a phosphatase inhibited by ligand-activated PYR1. This system is unique because of the relative...
8.
Sorkin M, Tzeng S, King S, Romanowski A, Kahle N, Bindbeutel R, et al.
Plant Physiol
. 2023 Apr;
192(3):2436-2456.
PMID: 37017001
Many molecular and physiological processes in plants occur at a specific time of day. These daily rhythms are coordinated in part by the circadian clock, a timekeeper that uses daylength...
9.
Sorkin M, Markham K, Zorich S, Menon A, Edgeworth K, Ricono A, et al.
Plant Methods
. 2023 Mar;
19(1):19.
PMID: 36859301
Background: Non-invasive reporter systems are powerful tools to query physiological and transcriptional responses in organisms. For example, fluorescent and bioluminescent reporters have revolutionized cellular and organismal assays and have been...
10.
Beltran J, Steiner P, Bedewitz M, Wei S, Peterson F, Li Z, et al.
Nat Biotechnol
. 2022 Jun;
40(12):1855-1861.
PMID: 35726092
A general method to generate biosensors for user-defined molecules could provide detection tools for a wide range of biological applications. Here, we describe an approach for the rapid engineering of...