Ramsey S Lewis
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Explore the profile of Ramsey S Lewis including associated specialties, affiliations and a list of published articles.
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32
Citations
253
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Recent Articles
1.
Allen Z, Kernodle S, Shi R, Liu H, Timko M, Steede T, et al.
Phytochemistry
. 2024 Dec;
232():114363.
PMID: 39694397
Plant species can accumulate secondary metabolites in optically pure form or, occasionally, as enantiomeric mixtures. Interestingly, enantiomers of the same molecule can confer different biological activities. In tobacco (Nicotiana tabacum...
2.
Ma H, Steede T, Dewey R, Lewis R
J Agric Food Chem
. 2024 Jun;
PMID: 38840459
Sclareol, a diterpene alcohol, is the most common starting material for the synthesis of ambrox, which serves as a sustainable substitute for ambergris, a valuable fragrance secreted by sperm whales....
3.
Fraher S, Watson M, Nguyen H, Moore S, Lewis R, Kudenov M, et al.
Plant Dis
. 2024 May;
108(9):2625-2629.
PMID: 38812368
spp. (root-knot nematodes [RKNs]) are a major threat to a wide range of agricultural crops worldwide. Breeding crops for RKN resistance is an effective management strategy, yet assaying large numbers...
4.
Shi R, Kernodle S, Steede T, Lewis R
Planta
. 2023 Sep;
258(4):82.
PMID: 37721629
Transgenic overexpression of a NtEGY2 gene restores normal green color of burley tobacco plants, but does not increase nitrogen utilization efficiency beyond that exhibited by wild-type individuals. Nitrogen physiology is...
5.
Burner N, McCauley A, Pramod S, Frederick J, Steede T, Kernodle S, et al.
Mol Breed
. 2023 Jun;
42(1):4.
PMID: 37309485
Supplementary Information: The online version contains supplementary material available at 10.1007/s11032-021-01274-5.
6.
Burner N, Kernodle S, Steede T, Lewis R
Mol Breed
. 2023 Jun;
42(4):20.
PMID: 37309461
Supplementary Information: The online version contains supplementary material available at 10.1007/s11032-022-01293-w.
7.
Mir R, Kudapa H, Pramod S, Lewis R
Front Genet
. 2022 Oct;
13:991630.
PMID: 36267419
No abstract available.
8.
Kernodle S, Webb S, Steede T, Lewis R
Plant Cell Rep
. 2022 Jul;
41(9):1853-1862.
PMID: 35779084
Reduced expression of two gene families results in ultra-low nicotine accumulation in Nicotiana tabacum. The potential for mandated lowering of tobacco cigarette filler nicotine levels to below 0.4 mg g...
9.
Bovet L, Campanoni P, Lu J, Hilfiker A, Kleinhans S, Laparra H, et al.
Front Plant Sci
. 2022 Mar;
13:741078.
PMID: 35251070
Nitrate accumulation in tobacco ( L.) leaf, particularly in the burley (BU) type, is a reservoir for the generation of nitrosating agents responsible for the formation of tobacco-specific nitrosamines (TSNAs)....
10.
Jin J, McCorkle K, Cornish V, Carbone I, Lewis R, Shew H
Plant Dis
. 2021 Nov;
106(3):906-917.
PMID: 34735283
Host resistance is an important tool in the management of black shank disease of tobacco. Race development leads to rapid loss of single-gene resistance, but the adaptation by to sources...