Hormone Signaling: Current Perspectives on the Roles of Salicylic Acid and Its Derivatives in Plants

Kumar, Dhirendra, Haq, Imdadul, Chapagai, Danda, Tripathi, Diwaker, Donald, David, Hossain, Mir, Devaiah, Shivakumar

14 October 2015

Salicylic acid (SA) is an important plant hormone with a wide range of effects on plant growth and metabolism. Plants lacking SA exhibit enhanced susceptibility to pathogens. SA plays important signaling roles in resistance against biotrophic and hemi- biotrophic phytopathogens. It is synthesized in plastids along two pathways, one involving phenylalanine ammonia lyase (PAL) and the other isochorismate synthase (ICS). In Arabidopsis , during immune response most SA is synthesized through the ICS-dependent pathway, but clearly an ICS-independent pathway also exists. Several SA effector proteins have been identified and characterized which mediate downstream SA signaling. This includes SABP, a catalase, SABP2, a methyl salicylate esterase, SABP3, a carbonic anhydrase, NPR1 (nonexpressor of pathogenesis-related 1), NPR3 (a NPR1 paralog), and NPR4 (another NPR1 paralog). NPR3 and NPR4 regulate the turnover of NPR1, a process which plays a key role in activating defense gene expression. The role of SA in abiotic stress signaling is gradually becoming clearer. Various components of SA signaling in biotic stress also appear to impact abiotic stress signaling.

isochorismate synthase (ICS)

methyl salicylate (MeSA)

NPR3

NPR4

phenylalanine ammonia lyase (PAL)

salicylate

salicylic acid (SA)

systemic acquired resistance (SAR)

Biological Sciences

Biomedical Sciences

Salicylic Acid-Catalyzed Radical Arylations from In-situ Formed Arenediazonium Salts

Felipe-Blanco, Diego

22 July 2020

In this thesis, it has been studied the deamination of aromatic amines, through in situ formed diazonium salts as reaction intermediates, catalyzed by salicylic acid, a nontoxic, eco-friendly and economic catalyst. In the early part of the thesis (Chapter I) it has studied the deamination process using THF as solvent as hydrogen donor and anilines as radical source, to carry the hydrodeamination reaction, as well as the process in its deuterodeamination manner using deuterated solvent. Following with this study in Chapter II and Chapter III, it has been studied the addition of the aromatic radicals, generated with the methodology employed in the first chapter, to different types of double bond, to form α-arylketones (Chapter II) and γ-aryl lactones, throw a following intramolecular cyclization (Chapter III). Finally, in Chapter IV was studied the construction of arylphosphonates, starting from anilines as radical source, and triphenylphosphite, and in this case specially, mechanism was hard explored. In every work, the methodologies could be scaled-up above 1 g, reaction mechanisms were proposed and studied through control and mechanistical experiments, and follow reactions were carried out.

Aniline

Aryl

Radical

Aryl Radicals

Salicylic Acid

Radical Reactions

Sustainable Chemistry

Synthetic Methods

Aroamtic Amines

Hydrogen Transfer

Enol Acetates

α-arylketones

Diazonium Salts

Organophosphorous

Hydrocarbon

Aromatic Compounds

Química Orgánica

EXPLORING THE MOLECULAR MECHANISM OF ROOT-MEDIATED RESPONSES TO <i>RALSTONIA</i>

Katherine Rivera-Zuluaga (17552421)

06 December 2023

<p dir="ltr">Bacterial Wilt, caused by <i>Ralstonia solanacearum</i>, is among the most devastating plant diseases in the world. This pathogen causes significant loss in crops such as tobacco, potato, and tomato. <i>R. solanacearum</i> root infection and xylem colonization determine disease outcome. To date, little is known about the defense mechanism mediated by roots to prevent <i>R. solanacearum</i> vascular colonization during the initial infection stages. Plant early responses are important since they may impact disease outcomes<i>.</i><i> </i>Here, we report the formation of root hairs and primary root growth inhibition in tomato seedlings as <i>Ralstonia</i>-induced phenotypes that depend on tomato genotype and <i>Ralstonia</i> species. The <i>Ralstonia</i>-induced root phenotypes are independent of a functional type III secretion system and exopolysaccharide production (EPS). We also found that <i>R. solanacearum</i><i> </i>K60 infection increased auxin levels throughout the root meristem in wilt-susceptible tomato roots. Our data suggest proper auxin signaling and transport are important for susceptibility to <i>R. solanacearum</i> K60. Blocking auxin transport pharmacologically or genetically led to fewer wilting symptoms, suggesting that auxin is important during early infection stages and disease outcomes in tomato. We previously found that a tomato mutant defective in auxin transport and signaling, known as <i>diageotropica</i> (<i>dgt</i>), has enhanced resistance to <i>R. solanacearum</i> K60. We characterized the resistant response in the <i>dgt</i> mutant, and we found that the resistant response in the <i>dgt</i> mutant may be due to increased lignin content preventing pathogen vasculature colonization. <i>DGT</i> encodes a cyclophilin protein that regulates auxin transport and signaling. Mutations in the cyclophilin DGT promote resistance to <i>R. solanacearum</i> K60. DGT has been reported to regulate auxin transport and signaling. However, the molecular mechanism regarding how DGT mediates these processes is still unknown. We used Yeast Two-Hybrid to identify candidate protein interactors, and we found that SlbZIP1/SlbZIP29, Sl14-3-3, and SlMYB110 may interact with DGT to regulate both development and defense responses. Understanding the role of DGT, auxin, and lignin in defense responses to <i>R. solanacearum</i> K60 in tomato is necessary for Solanaceae crop improvement.</p>

Tomato

Ralstonia solanacearum

Bacterial Wilt Disease

diageotropica

Salicylic Acid

resistant

lignin

roots

cyclophilin

Arabidopsis

MYB

14-3-3

bZIP

DGT

Auxin

susceptible

phenolics

Investigation of a putative mitochondrial Twin Arginine Translocation pathway in <i>Arabidopsis thaliana</i>

Weerakoon, Tasmeen Shiny

02 August 2017

No description available.

Cellular Biology

Biochemistry

Molecular Biology

Plant Pathology

Plant Biology

Tat

mitochondria

plant stress

salicylic acid

Tat translocation

ultrastructure

dualtargeting

oxidative stress

plant immunity

hypersensitive response

chloroplast

Arabidopsis thaliana

protein transport

membrane proteins

Management of Sclerotinia stem rot of soybean and diversity of Pythium irregulare in Ohio

Huzar Novakowiski, Jaqueline

January 2017

No description available.

Agriculture

Agronomy

Biology

Plant Biology

Plant Pathology

Plant Sciences

Sclerotinia sclerotiorum

white mold

chemical control

host resistance

fungicide

pyraclostrobin

QoI fungicide

qPCR

ethylene

jasmonic acid

salicylic acid

components of resistance

SSR

Pythium cryptoirregulare

Analyse des Transkriptionsfaktors TGA2.1 aus Nicotiana tabacum / Analysis of the transcription factor TGA2.1 from Nicotiana tabacum

Kegler, Carsten

26 June 2001

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Nicotiana tabacum

Salizylsäure

TGA-Transkriptionsfaktoren

as-1-Element

EMSA

ASF-1

transdominante Suppression

Nicotiana tabacum

salicylic acid

TGA-transcription factor

as-1-element

EMSA

ASF-1

transdominant suppression

42.38

Signals and metabolic consequences during the interaction of Brassicaceae and <i>Verticillium longisporum</i> / Signale und metabolische Konsequenzen während der Interaktion von Brassicaceen und <i>Verticillium longisporum</i>

Possienke, Mareike

29 February 2012

No description available.

570 Biowissenschaften, Biologie

WA000 Biologie

Biology (incl. Psychology)

Brassica napus

Camelina sativa

Cyclobrassinin Biosynthese

Dicarbonsäuren

Metabolite Fingerprinting

Phytoalexine

Raphanusamsäure

Salicylsäureglucosid

Verticillium longisporum

Brassica napus

Camelina sativa

cyclobrassinin biosynthesis

dicarboxylic acids

metabolite fingerprinting

phytoalexins

raphanusamic acid

salicylic acid glucoside

Verticillium longisporum

42 Biologie

Mutations affecting tomato (Solanum lycopersicum L. cv. Micro-Tom) response to salt stress and their physiological meaning / Mutações afetando a resposta ao estresse salino em tomateiro (Solanum lycopersicum L. cv. Micro-Tom) e seu significado fisiológico

Sa, Ariadne Felicio Lopo de

13 July 2016

Salinity is a challenge for crop productivity. Hence, plants exposed to saline environments reduce their vegetative and reproductive growth due to adverse effects of specific ions on metabolism and water relations. In order to cope with salinity, plants display physiological mechanisms based on three main aspects: i) source-sink relationships, ii) resource allocation and iii) alterations in endogenous hormone levels. The roles of developmental and hormonal mechanisms in salt response were investigated here. We employed mutants and transgenic tomato plants affecting different aspects of plant development and hormone response in the same genetic background (cultivar Micro-Tom). The following genotypes were used: Galapagos dwarf (Gdw), Lanata (Ln), lutescent (l), single flower truss (sft), sft heterozygous (sft/+), diageotropica (dgt), entire (e), Never ripe (Nr), epinastic (epi), procera (pro), notabilis (not), anti sense Chloroplastic carotenoid cleavage dioxygenase 7 (35S::asCCD7) and Salicylate hydroxylase (35S::nahG). Among the developmental genotypes studied, sft and l, involved in flower induction and senescence, respectively, were less affected when exposed to salt stress. Although l is considered deleterious due to its precocious senescence, it presented greater shoot biomass and leaf area during salinity. The heterozygous sft/+, whose high productivity was recently linked to an improved vegetative-to-reproductive balance, changed this balance and lowered its yield more than the control MT upon salt treatment. In the analysis of genotypes affecting hormonal status/signaling four kinds of salt responses among the genotypes were observed: i) High shoot growth in spite of high Na:K ratio presented by the strigolactone deficient and high branching CCD7 transgene; ii) High shoot growth and reduced accumulation of Na in tissues (probably due to dilution) presented by the auxin constitutive response e mutant; iii) The opposite response observed in \"ii\" presented by the low auxin sensitivity dgt mutant and iv) growth inhibition combined with reduced levels of Na and higher accumulation of K presented by the not mutant, which produces less ABA. Taken together, the results presented here points to novel developmental mechanisms, such as the promotion of moderate senescence and vegetative growth, and hormonal imbalances to be explored in the pursuing of crops resistant to salt stress. / A salinidade é um desafio para a produtividade agrícola, uma vez que plantas expostas à salinidade tem o crescimento vegetativo e reprodutivo reduzido devido aos efeitos adversos de íons específicos no metabolismo e nas relações hídricas. A fim de lidar com a salinidade, as plantas desempenham mecanismos fisiológicos baseados em três principais características: i) relações fonte-dreno; ii) alocação de reservas e iii) alterações nos níveis endógenos de hormônios. Nesse trabalho, investigamos a relação entre os processos de desenvolvimento e de regulação hormonal com a resposta à salinidade. Para tanto foram usados genótipos de tomateiro com alteração em diferentes vias de desenvolvimento e de produção ou sinalização de hormônios vegetais. Os seguintes genótipos foram usados: Galapagos dwarf (Gdw), Lanata (Ln), lutescent (l), single flower truss (sft), sft heterozygous (sft/+), diageotropica (dgt), entire (e), Never ripe (Nr), epinastic (epi), procera (pro), notabilis (not), anti sense Dioxigenase cloroplastídica de carotenoide 7 (35S::asCCD7) e Salicilato hidroxilase (35S::nahG). Entre os genótipos de desenvolvimento estudados, sft e l, relacionados à menor indução floral e senescência respectivamente, foram os menos afetados quando expostos à salinidade. O genótipo l acumulou maior biomassa e área foliar, apesar de ser considerado deletério devido à senescência precoce. As plantas heterozigotas, sft/+, cuja maior produtividade foi recentemente relacionada a um melhor balanço vegetativo/reprodutivo, alteraram esse balanço sob salinidade e reduziram sua produtividade mais que o controle MT sob estresse salino. Na análise dos genótipos com alteração hormonais foram observados quatro tipos de respostas à salinidade: i) elevado crescimento da parte aérea, apesar da razão Na:K ser alta no genótipo CCD7 cujo transgene induz deficiência de estrigolactona e excessiva ramificação; ii) elevado crescimento e acúmulo reduzido de Na nos tecidos (devido provavelmente a diluição) apresentada pelo mutante de resposta constitutiva a auxina e; iii) o oposto da resposta anterior foi apresentado pelo mutante pouco sensível à auxina , dgt; iv) inibição do crescimento combinado com nível reduzido de Na e alto acúmulo de K apresentada pelo mutante not que produz menos ácido abscísico. Considerados em conjunto, os resultados apresentaram temas para novos mecanismos de desenvolvimento, como a promoção moderada de senescência e do crescimento vegetativo além dos desbalanços hormonais, para serem explorados na busca de culturas resistentes ao estresse salino.

Abscisic acid

Ácido abscísico

Ácido salicílico

Auxin

Auxina

Crescimento vegetativo/reprodutivo

Estrigolactona

Ethylene

Etileno

Flower induction

Gibberellin

Giberelina

Heterose

Heterosis

Hormônios vegetais

Indução floral

Mutant

Mutante

Plant hormones

Productivity

Produtividade

Resistance

Resistencia

Salicylic acid

Salinidade

Salinity

Senescence

Senescência

Strigolactone

Tolerance

Tolerância

Vegetative/reproductive growth

Solid-liquid Phase Equilibria and Crystallization of Disubstituted Benzene Derivatives

Nordström, Fredrik

January 2008

The Ph.D. project compiled in this thesis has focused on the role of the solvent in solid-liquid phase equilibria and in nucleation kinetics. Six organic substances have been selected as model compounds, viz. ortho-, meta- and para-hydroxybenzoic acid, salicylamide, meta- and para-aminobenzoic acid. The different types of crystal phases of these compounds have been explored, and their respective solid-state properties have been determined experimentally. The solubility of these crystal phases has been determined in various solvents between 10 and 50 oC. The kinetics of nucleation has been investigated for salicylamide by measuring the metastable zone width, in five different solvents under different experimental conditions. A total of 15 different crystal phases were identified among the six model compounds. Only one crystal form was found for the ortho-substituted compounds, whereas the meta-isomeric compounds crystallized as two unsolvated polymorphs. The para-substituted isomers crystallized as two unsolvated polymorphs and as several solvates in different solvents. It was discovered that the molar solubility of the different crystal phases was linked to the temperature dependence of solubility. In general, a greater molar solubility corresponds to a smaller temperature dependence of solubility. The generality of this relation for organic compounds was investigated using a test set of 41 organic solutes comprising a total of 115 solubility curves. A semi-empirical solubility model was developed based on how thermodynamic properties relate to concentration and temperature. The model was fitted to the 115 solubility curves and used to predict the temperature dependence of solubility. The model allows for entire solubility curves to be constructed in new solvents based on the melting properties of the solute and the solubility in that solvent at a single temperature. Based on the test set comprising the 115 solubility curves it was also found that the melting temperature of the solute can readily be predicted from solubility data in organic solvents. The activity of the solid phase (or ideal solubility) of four of the investigated crystal phases was determined within a rigorous thermodynamic framework, by combining experimental data at the melting temperature and solubility in different solvents and temperatures. The results show that the assumptions normally used in the literature to determine the activity of the solid phase may give rise to errors up to a factor of 12. An extensive variation in the metastable zone width of salicylamide was obtained during repeated experiments performed under identical experimental conditions. Only small or negligible effects on the onset of nucleation were observed by changing the saturation temperature or increasing the solution volume. The onset of nucleation was instead considerably influenced by different cooling rates and different solvents. A correlation was found between the supersaturation ratio at the average onset of nucleation and the viscosity of the solvent divided by the solubility of the solute. The trends suggest that an increased molecular mobility and a higher concentration of the solute reduce the metastable zone width of salicylamide. / QC 20100831

Salicylic acid

m-hydroxybenzoic acid

p-hydroxybenzoic acid

salicylamide

m-aminobenzoic acid

p-aminobenzoic acid

solubility

solid-liquid equilibria

thermodynamics

activity of the solid phase

ideal solubility

activity coefficient

van't Hoff enthalpy of solution

solid state

solution properties

metastable zone width

primary nucleation

nucleation kinetics

Chemical engineering

Kemiteknik

Charakterisierung von zwei Arabidopsis thaliana Mutanten mit erhöhter PR1-Expression / Characterisation of two Arabidopsis thaliana mutants with constitutive PR1 expression

Heupel, Miriam

06 July 2006

No description available.

580 Pflanzen (Botanik)

Mathematics and Computer Science

Salizylsäure

EMS-Mutagenese

Expression von Abwehrgenen

Trockenstress

oxidativer Stress

salicylic acid

PR gene expression

oxidative stress

drought tolerance

defense response

42.41 Pflanzenphysiologie

42.43 Pflanzengenetik