Lycopersicon esculentum

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Lycopersicon esculentum

"Lycopersicon esculentum" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure, which enables searching at various levels of specificity.

MeSH information

Definition | Details | More General Concepts | Related Concepts | More Specific Concepts

A plant species of the family SOLANACEAE, native of South America, widely cultivated for their edible, fleshy, usually red fruit.

Descriptor ID	D018551
MeSH Number(s)	B01.650.940.800.575.100.905.322 J02.500.850.533
Concept/Terms	Lycopersicon esculentum Lycopersicon esculentum Solanum lycopersicum lycopersicum, Solanum Tomatoes Tomatoes Tomato

Below are MeSH descriptors whose meaning is more general than "Lycopersicon esculentum".

Organisms [B]
Eukaryota [B01]
Plants [B01.650]
Viridiplantae [B01.650.940]
Streptophyta [B01.650.940.800]
Embryophyta [B01.650.940.800.575]
Angiosperms [B01.650.940.800.575.100]
Solanaceae [B01.650.940.800.575.100.905]
Lycopersicon esculentum [B01.650.940.800.575.100.905.322]
Technology, Industry, Agriculture [J]
Food and Beverages [J02]
Food [J02.500]
Vegetables [J02.500.850]
Lycopersicon esculentum [J02.500.850.533]

Below are MeSH descriptors whose meaning is related to "Lycopersicon esculentum".

Below are MeSH descriptors whose meaning is more specific than "Lycopersicon esculentum".

publications

Timeline | Most Recent

This graph shows the total number of publications written about "Lycopersicon esculentum" by people in UAMS Profiles by year, and whether "Lycopersicon esculentum" was a major or minor topic of these publications.

Bar chart showing 30 publications over 14 distinct years, with a maximum of 4 publications in 2011 and 2013

To see the data from this visualization as text, click here.

Below are the most recent publications written about "Lycopersicon esculentum" by people in Profiles over the past ten years.

Cruz-Carrión Á, Calani L, Ruiz de Azua MJ, Mena P, Del Rio D, Arola-Arnal A, Suárez M. Impact of Seasonal Consumption of Local Tomatoes on the Metabolism and Absorption of (Poly)Phenols in Fischer Rats. Nutrients. 2022 May 13; 14(10).

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Cruz-Carrión Á, Calani L, de Azua MJR, Mena P, Del Rio D, Suárez M, Arola-Arnal A. (Poly)phenolic composition of tomatoes from different growing locations and their absorption in rats: A comparative study. Food Chem. 2022 Sep 15; 388:132984.

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Shohat H, Cheriker H, Kilambi HV, Illouz Eliaz N, Blum S, Amsellem Z, Tarkowská D, Aharoni A, Eshed Y, Weiss D. Inhibition of gibberellin accumulation by water deficiency promotes fast and long-term 'drought avoidance' responses in tomato. New Phytol. 2021 12; 232(5):1985-1998.

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Cruz-Carrión Á, Ruiz de Azua MJ, Bravo FI, Aragonès G, Muguerza B, Suárez M, Arola-Arnal A. Tomatoes consumed in-season prevent oxidative stress in Fischer 344 rats: impact of geographical origin. Food Funct. 2021 Sep 20; 12(18):8340-8350.

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Ramon U, Weiss D, Illouz-Eliaz N. Underground gibberellin activity: differential gibberellin response in tomato shoots and roots. New Phytol. 2021 02; 229(3):1196-1200.

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Shohat H, Illouz-Eliaz N, Kanno Y, Seo M, Weiss D. The Tomato DELLA Protein PROCERA Promotes Abscisic Acid Responses in Guard Cells by Upregulating an Abscisic Acid Transporter. Plant Physiol. 2020 09; 184(1):518-528.

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Thomas CE, Luu HN, Wang R, Adams-Haduch J, Jin A, Koh WP, Yuan JM. Association between Dietary Tomato Intake and the Risk of Hepatocellular Carcinoma: The Singapore Chinese Health Study. Cancer Epidemiol Biomarkers Prev. 2020 07; 29(7):1430-1435.

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Illouz-Eliaz N, Ramon U, Shohat H, Blum S, Livne S, Mendelson D, Weiss D. Multiple Gibberellin Receptors Contribute to Phenotypic Stability under Changing Environments. Plant Cell. 2019 07; 31(7):1506-1519.

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Nir I, Shohat H, Panizel I, Olszewski N, Aharoni A, Weiss D. The Tomato DELLA Protein PROCERA Acts in Guard Cells to Promote Stomatal Closure. Plant Cell. 2017 12; 29(12):3186-3197.

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Alimohammadi M, Lahiani MH, McGehee D, Khodakovskaya M. Polyphenolic extract of InsP 5-ptase expressing tomato plants reduce the proliferation of MCF-7 breast cancer cells. PLoS One. 2017; 12(4):e0175778.

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Farber M, Attia Z, Weiss D. Cytokinin activity increases stomatal density and transpiration rate in tomato. J Exp Bot. 2016 12; 67(22):6351-6362.

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Dzakovich MP, Ferruzzi MG, Mitchell CA. Manipulating Sensory and Phytochemical Profiles of Greenhouse Tomatoes Using Environmentally Relevant Doses of Ultraviolet Radiation. J Agric Food Chem. 2016 Sep 14; 64(36):6801-8.

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Livne S, Lor VS, Nir I, Eliaz N, Aharoni A, Olszewski NE, Eshed Y, Weiss D. Uncovering DELLA-Independent Gibberellin Responses by Characterizing New Tomato procera Mutants. Plant Cell. 2015 Jun; 27(6):1579-94.

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Alimohammadi M, Lahiani MH, Khodakovskaya MV. Genetic reduction of inositol triphosphate (InsP3) increases tolerance of tomato plants to oxidative stress. Planta. 2015 Jul; 242(1):123-35.

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Lor VS, Starker CG, Voytas DF, Weiss D, Olszewski NE. Targeted mutagenesis of the tomato PROCERA gene using transcription activator-like effector nucleases. Plant Physiol. 2014 Nov; 166(3):1288-91.

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Navab M, Hough G, Buga GM, Su F, Wagner AC, Meriwether D, Chattopadhyay A, Gao F, Grijalva V, Danciger JS, Van Lenten BJ, Org E, Lusis AJ, Pan C, Anantharamaiah GM, Farias-Eisner R, Smyth SS, Reddy ST, Fogelman AM. Transgenic 6F tomatoes act on the small intestine to prevent systemic inflammation and dyslipidemia caused by Western diet and intestinally derived lysophosphatidic acid. J Lipid Res. 2013 Dec; 54(12):3403-18.

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Nir I, Moshelion M, Weiss D. The Arabidopsis gibberellin methyl transferase 1 suppresses gibberellin activity, reduces whole-plant transpiration and promotes drought tolerance in transgenic tomato. Plant Cell Environ. 2014 Jan; 37(1):113-23.

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Gutensohn M, Orlova I, Nguyen TT, Davidovich-Rikanati R, Ferruzzi MG, Sitrit Y, Lewinsohn E, Pichersky E, Dudareva N. Cytosolic monoterpene biosynthesis is supported by plastid-generated geranyl diphosphate substrate in transgenic tomato fruits. Plant J. 2013 Aug; 75(3):351-63.

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Micallef SA, Goldstein RE, George A, Ewing L, Tall BD, Boyer MS, Joseph SW, Sapkota AR. Diversity, distribution and antibiotic resistance of Enterococcus spp. recovered from tomatoes, leaves, water and soil on U.S. Mid-Atlantic farms. Food Microbiol. 2013 Dec; 36(2):465-74.

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Khodakovskaya MV, Kim BS, Kim JN, Alimohammadi M, Dervishi E, Mustafa T, Cernigla CE. Carbon nanotubes as plant growth regulators: effects on tomato growth, reproductive system, and soil microbial community. Small. 2013 Jan 14; 9(1):115-23.

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Steiner E, Yanai O, Efroni I, Ori N, Eshed Y, Weiss D. Class I TCPs modulate cytokinin-induced branching and meristematic activity in tomato. Plant Signal Behav. 2012 Jul; 7(7):807-10.

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