salicylic acid and trazodone hydrochloride

salicylic acid has been researched along with trazodone hydrochloride in 133 studies

Research

Studies (133)

TimeframeStudies, this research(%)All Research%
pre-19900 (0.00)18.7374
1990's1 (0.75)18.2507
2000's21 (15.79)29.6817
2010's79 (59.40)24.3611
2020's32 (24.06)2.80

Authors

AuthorsStudies
Brodsky, JL; Chiang, A; Chung, WJ; Denny, RA; Goeckeler-Fried, JL; Havasi, V; Hong, JS; Keeton, AB; Mazur, M; Piazza, GA; Plyler, ZE; Rasmussen, L; Rowe, SM; Sorscher, EJ; Weissman, AM; White, EL1
Görlach, J; Molina, A; Ryals, J; Volrath, S1
Lüthje, S; Mika, A; Minibayeva, F1
Bidney, DL; Crasta, O; Duvick, JP; Folkerts, O; Hu, X; Lu, G; Yalpani, N1
Anand, A; Muthukrishnan, S; Schmelz, EA1
Ci, XY; Guo, RF; Li, DC; Sun, B; Wang, Y1
Cherepanova, EA; Iarullina, LG; Maksimov, IV; Surina, OB; Troshina, NB1
Ahmer, BM; Carter, HD; Dong, Y; Iniguez, AL; Stone, JM; Triplett, EW1
Hao, L; Tao, S; Xu, X; Yu, L; Zhang, H1
Atici, O; Nalbantoğlu, B; Popova, LP; Taşgin, E1
Gällstedt, M; Gräslund, A; Hedenqvist, MS; Johansson, E; Ullsten, NH1
Moerschbacher, BM; Ortmann, I1
Grandmougin-Ferjani, A; Muchembled, J; Sahraoui, AL; Sancholle, M1
Arfan, M; Ashraf, M; Athar, HR1
Chattoo, BB; Roy-Barman, S; Sautter, C1
Chen, LY; Huang, X; Wang, J; Xu, ZQ1
Durand, R; Farcy, F; Nowak, E; Randoux, B; Reignault, P; Renard-Merlier, D1
Apostol, S; Janda, T; Leskó, K; Popova, LP; Szalai, G; Yordanova, R1
Dong, N; Huang, R; Liang, H; Liu, H; Yao, W; Zhang, Z1
Dundr, P; Foltán, R; Hejnák, V; Hlousek, M; Skalický, M1
Cho, SW; Gällstedt, M; Hedenqvist, MS; Johansson, E; Spencer, G; Ullsten, NH1
Plotnikova, LIa; Shtubeĭ, TIu1
Fu, XJ; Li, LH; Ma, PF; Yang, YJ; Zhang, CN; Zhao, HJ1
Kar, M; Sabat, SC; Sahu, GK1
Abdelkader, AF; Abo-Aly, MM; Attia, MS; Bakir, EM; Hassanein, RA1
Bakkeren, G; Gaudet, DA; Laroche, A; Lu, ZX; Penniket, C; Wang, Y1
El-Tayeb, MA; Hassanen, AM; Inouhe, M; Loutfy, N; Moustafa, MF; Sakuma, Y1
Liu, X; Meng, J; Smith, CM; Starkey, S1
Bell, HA; Davison, GM; Down, RE; Ferry, N; Gatehouse, AM; Gatehouse, JA; Guan, W; Stavroulakis, S; Weaver, RJ1
Kang, ZS; Li, M; Liu, HY; Wang, JM; Xu, HM1
Ma, Z; Song, M; Tong, J; Wang, Y; Wei, Z; Xiang, Y; Xiao, L; Zhang, L1
Al-Whaibi, MH; Basalah, MO; Siddiqui, MH1
Dong, Y; Lee, H; Makandar, R; Nalam, VJ; Shah, J; Trick, HN1
Liang, L; Lu, YL; Yang, H1
Balcerzak, M; Harris, LJ; Johnston, A; Long, XY; Ouellet, T; Qi, PF; Rocheleau, H; Wei, YM; Zheng, YL1
Chen, MS; Khajuria, C; Liu, X; Reese, JC; Wang, H; Welti, R; Whitworth, RJ; Zhu, L1
Atici, Ö; Mutlu, S1
Bai, X; Zhang, B; Zhang, H; Zhao, L; Zhou, C1
Guo, T; Han, Q; Kang, G; Li, G; Wang, C; Zheng, B; Zhu, Y1
Liu, X; Wang, X; Wei, X; Ye, X; Zhang, Z; Zhou, M; Zhou, X1
Guo, T; Han, Q; Kang, G; Li, G; Peng, X; Xu, W; Zhu, Y1
Bezrukova, MV; Fatkhutdinova, RA; Murzabaev, AR; Shakirova, FM; Yuldashev, RA1
Agami, RA; Mohamed, GF1
Cheng, Y; Duan, X; Feng, H; Fu, Y; Huang, L; Kang, Z; Li, X; Tang, C; Wang, X1
Cyganek, K; Czyczyło-Mysza, I; Dziurka, K; Dziurka, M; Filek, M; Grzesiak, MT; Grzesiak, S; Janowiak, F; Juzoń, K; Marcińska, I; Skrzypek, E; Waligórski, P1
Bourdon, N; Randoux, B; Reignault, P; Tayeh, C1
Geng, S; Guo, X; Jiang, G; Lan, X; Lei, C; Li, A; Mao, L; Tang, L; Wei, Y; Wu, L; Yin, L; Zhai, W; Zhang, X; Zheng, Y1
Guo, T; Han, Q; Kang, G; Li, C; Liu, G; Ma, H1
Kang, G; Li, G; Peng, X; Wei, L1
Cao, HH; Liu, TX; Wang, SH1
Iqbal, N; Khan, MI; Khan, NA; Masood, A; Per, TS1
Chauhan, H; Khurana, JP; Khurana, P; Singh, B; Singh, P1
Abou-Attia, MA; Al-Attala, MN; Duan, X; Kang, Z; Wang, X1
Kang, Z; Li, C; Liu, P; Wei, G; Xing, H; Yang, Y; Zhao, J1
Ayele, BT; Chitnis, VR; Gao, F; Jordan, MC; Park, S; Yao, Z1
Bano, A; Guest, D; Naz, R; Roberts, TH; Wilson, NL1
Darkó, E; Gondor, OK; Janda, T; Kovács, V; Majláth, I; Pál, M; Szalai, G1
Bourdon, N; Laruelle, F; Randoux, B; Reignault, P; Tayeh, Ch1
Lu, YC; Yang, H; Zhang, S1
Huang, MT; Jiang, C; Liu, Y; Lu, YC; Miao, SS; Yang, H; Zhang, S1
Devonshire, BJ; Hammond-Kosack, KE; Kanyuka, K; Lee, WS; Rudd, JJ1
Ambroso, L; Andongabo, A; Bharti, A; Courbot, M; Derbyshire, M; Desai, NM; Devonshire, J; Dietrich, RA; Farmer, A; Hammond-Kosack, KE; Hassani-Pak, K; Hooper, J; Kanyuka, K; Lysenko, A; Powers, SJ; Rudd, JJ; Saqi, M1
Ameye, M; Audenaert, K; De Vleesschauwer, D; De Zutter, N; Haesaert, G; Smagghe, G; Steppe, K; Van Meulebroek, L; Vanhaecke, L1
Gällstedt, M; Hedenqvist, MS; Johansson, E; Kuktaite, R; Newson, WR; Plivelic, TS; Rasheed, F1
Alam, S; Burdan, D; Keereetaweep, J; Lee, H; Makandar, R; Nalam, VJ; Sarowar, S; Shah, J; Trick, HN; Venables, B1
Chen, MS; Moch, J; Underwood, J; Zhu, L1
Zengin, F1
Cao, J; Ding, L; Li, P; Yang, G; Yang, R; Zhou, Y1
Dong, H; Mei, Y; Wang, D; Wang, X1
Kong, CH; Li, YH; Xia, ZC1
Kang, H; Li, S; Song, SJ; Wang, JG; Wang, Q; Zhang, Y; Zhao, XY1
Bandyopadhyay, T; Chand, R; Chowdhury, AK; Joshi, AK; Mishra, VK; Pandey, SP; Pradhan, M; Sahu, R; Sethi, A; Sharaff, M1
Chen, Q; Jiang, QT; Liu, CH; Liu, YB; Niu, KX; Pu, ZE; Qi, PF; Wang, AQ; Wang, YQ; Wei, YM; Yi, P; Yu, HY; Zhang, YZ; Zheng, YL1
Buhrow, LM; Cram, D; Foroud, NA; Loewen, MC; Tulpan, D1
An, F; Chen, X; Hu, X; Tao, F; Tian, W; Wang, J; Xu, X; Zou, Y1
Boldizsár, Á; Floková, K; Galiba, G; Gulyás, Z; Janda, T; Kalapos, B; Kocsy, G; Novák, A; Pál, M; Vanková, R1
Huang, L; Lagudah, E; Pujol, V; Robles, J; Tabe, L; Taylor, J; Wang, P; Zhang, P1
Wang, C; Zhang, Q1
Heybet Elif, H; Yücel Candan, N1
Darkó, É; Janda, K; Janda, T; Pál, M; Peeva, V; Szalai, G1
Cao, YL; Chen, C; Chen, Q; Deng, M; Feng, X; Guo, ZR; Han, YN; Jiang, QT; Li, W; Liu, CH; Qi, PF; Qiao, YY; Wang, Y; Wei, YM; Wei, ZZ; Xu, BJ; Zhang, YZ; Zheng, T; Zheng, YL; Zong, LJ1
Alam, A; Deeba, F; Gupta, SK; Majumder, B; Maurya, VK; Pandey, V; Sharma, M1
Emam, Y; Mokhtassi-Bidgoli, A; Sedaghat, M; Tahmasebi-Sarvestani, Z1
Cao, A; Chen, P; Cui, C; Hu, P; Li, M; Li, R; Qian, C; Wang, X; Xiao, J; Xing, L; Zhou, C1
Du, B; Zhou, J1
Janda, T; Majláth, I; Pál, M; Szalai, G; Tajti, J1
Cantoro, R; Chiotta, M; Chulze, S; Echenique, V; Karlovsky, P; Palacios, S; Palazzini, J; Ramírez, M; Roncallo, P; Torres, A; Yerkovich, N1
Christov, NK; Christova, PK; Imai, R; Mladenov, PV1
Guo, QN; Jin, SF; Lu, FF; Wang, YK; Xie, F; Yang, H; Zhang, JJ; Zhou, JH; Zhu, HM1
Aissat, K; Benslim, A; Haichour, N; Mezaache-Aichour, S; Zerroug, MM1
Chen, Q; Feng, X; Guo, ZR; Jiang, QT; Jiang, YF; Kong, L; Lan, XJ; Liu, CH; Qi, PF; Wang, JP; Wang, Y; Wei, YM; Xu, BJ; Zhang, YZ; Zheng, T; Zheng, YL; Zhou, CY; Zhu, J1
Abuhaie, CM; Ghinet, A; Halama, P; Magnin-Robert, M; Mejri, S; Randoux, B; Reignault, P; Rigo, B; Siah, A1
Fobert, PR; Li, Q; Li, Y; Liu, Z; Ouellet, T; Pan, Y; Surendra, A; Wang, L; Zaharia, LI1
Al-Harthi, R; Ouellet, T; Rocheleau, H1
Chen, Q; Deng, M; Gong, X; Guo, ZR; Jiang, QT; Jiang, YF; Kong, L; Lan, XJ; Liu, CH; Luo, CH; Ma, J; Qi, PF; Wang, JR; Wang, Y; Wei, YM; Wu, W; Xu, BJ; Zhang, YZ; Zheng, T; Zheng, YL1
Chen, J; Fan, J; Francis, F; Fu, Y; Zhang, Y1
Dobrev, P; Hamow, KÁ; Ivanovska, B; Janda, T; Khalil, R; Misheva, SP; Oláh, T; Pál, M; Szalai, G; Tajti, J; Vanková, R1
Babar, MDA; Bano, A; Khan, N1
Francis, F; Li, L; Qiu, D; Wang, S; Yang, X1
Glatz, G; Janda, T; Németh, E; Pál, M; Tajti, J1
Bano, A; Khan, N1
Chen, GY; Chen, Q; Guo, ZR; Jiang, QT; Jiang, YF; Kong, L; Lan, XJ; Lei, L; Li, Y; Liu, CH; Liu, YL; Ma, J; Qi, PF; Wang, JR; Wang, Y; Wei, MQ; Wei, YM; Xu, BJ; Zhang, YZ; Zhao, K; Zheng, YL1
Fahima, T; Krugman, T; Li, Y; Liu, X; Qiu, L; Sun, Q; Xie, C; Zhang, Q; Zhuansun, X1
Gupta, DK; Inouhe, M; Loutfy, N; Sakuma, Y1
Cao, S; Chen, H; Chen, S; He, Y; Jiang, W; Li, W; Ma, D; Shuai, S; Yin, J; Zhang, H1
Emtiazy, M; Hejazi, S; Hosseini, H; Mansouri, P; Sadeghpour, O; Shirbeigi, L; Zareie, E1
Abdallah, MF; Ameye, M; Audenaert, K; De Boevre, M; De Saeger, S; De Zutter, N; Landschoot, S; Tan, J; Van der Lee, T; Waalwijk, C1
Chen, D; Chen, W; Gao, L; Liu, T; Muhae-Ud-Din, G1
Bai, X; Guo, J; Islam, MA; Kang, Z; Peng, H; Tian, S; Zhu, H1
Bai, X; Goher, F; Guo, J; Huang, X; Kang, Z; Peng, H; Tian, S; Zhan, G1
Brett, P; Corredor-Moreno, P; Davey, PE; Hill, L; Korolev, AV; Kular, B; Lewis, CM; Macías Pérez, LA; Minter, F; Morgan, YML; Saunders, DGO; Wegel, E1
Devi, KA; Kadam, PM; Kumaraswamy, RV; Kumari, S; Pal, A; Prajapati, D; Saharan, V; Sharma, SK1
Chen, D; Chen, W; Gao, L; Liu, C; Liu, T; Muhae-Ud-Din, G1
Cai, QN; Fang, TT; Feng, JL; Xu, HL; Yang, J; Zhang, J; Zou, LP1
Chen, F; Deng, G; Huang, Q; Li, L; Liang, J; Long, H; Song, X; Yi, L; Yu, M; Zhang, H1
He, D; Jiang, Y; Jiao, Z; Li, H; Li, J; Li, L; Ni, Y; Niu, J; Wang, T; Yang, X; Yao, Z; Zhang, J; Zhang, P1
Chen, G; Chen, Q; Guo, Z; Jiang, Q; Jiang, Y; Kong, L; Lan, X; Lei, L; Li, Q; Li, Y; Liu, C; Ma, J; Qi, P; Wang, J; Wang, Y; Wei, Y; Xu, Q; Zhang, Y; Zheng, Y; Zhu, J1
Chen, ZP; Jin, XZ; Li, Y; Sami, A; Wu, LL; Xu, QQ; Yu, Y; Zhang, H; Zheng, WY; Zhou, KJ; Zhu, ZH1
Janda, T; Lantos, E; Nagyéri, G; Pál, M; Szalai, G1
Chen, X; Hu, X; Li, J; Shang, H; Wang, J1
Ayaz, FA; Colak, N; Fauzan, R; Kurt-Celebi, A; Torun, H1
Cholidah, L; Gheith, EMS; Hussain, HA; Shemi, R; Wang, L; Wang, R; Zhang, K; Zhang, S1
Ahmad, A; Ahmar, S; Ali, HM; Aslam, S; Aslam, Z; Hano, C; Hussain, S; Jamal, MA; Javed, T; Naz, M; Raza, A; Saeed, T; Salem, MZM; Shabbir, R; Siddiqui, MH1
Ayele, BT; Koramutla, MK; Tuan, PA1
Bai, S; Deng, P; Ji, W; Kou, X; Liu, X; Luo, Y; Wang, C; Wang, Y; Wang, Z; Xie, L; Zhang, H; Zhao, J1
Chen, F; Chen, S; Li, M; Ren, X; Ren, Y; Su, J; Wang, C; Wang, X; Yang, J; Yu, X; Zhao, J; Zhao, S1
Chen, J; Fan, J; Francis, F; Liu, H; Liu, X; Sun, Y; Wang, Q; Xie, H; Zhang, Y1
Cheng, H; Li, D; Pan, C; Wu, Y; Zhang, J; Zhou, C1
Depciuch, J; Drygaś, B; Jańczak-Pieniążek, M; Mazurek, K; Pawlak, R; Szpunar-Krok, E1
Boamah, S; Calderón-Urrea, A; John Tiika, R; Li, T; Xu, B; Zhang, S1
Alam, P; Balawi, TA; Faizan, M1
Chen, J; Fan, J; Francis, F; Fu, Y; Liu, H; Liu, X; Sun, Y; Wang, Q; Zhang, Y1
Bai, S; Cui, Y; Li, Q; Liu, C; Liu, F; Long, J; Wang, Z1

Trials

1 trial(s) available for salicylic acid and trazodone hydrochloride

ArticleYear
Effect of oral administration of Triphala, a polyphenol-rich prebiotic, on scalp sebum in patients with scalp seborrhea a randomized clinical trial.
    The Journal of dermatological treatment, 2022, Volume: 33, Issue:2

    Topics: Administration, Oral; Adolescent; Adult; Dandruff; Dermatitis, Seborrheic; Flour; Humans; Middle Aged; Plant Extracts; Polyphenols; Prebiotics; Scalp; Sebum; Triticum; Young Adult

2022

Other Studies

132 other study(ies) available for salicylic acid and trazodone hydrochloride

ArticleYear
Increasing the Endoplasmic Reticulum Pool of the F508del Allele of the Cystic Fibrosis Transmembrane Conductance Regulator Leads to Greater Folding Correction by Small Molecule Therapeutics.
    PloS one, 2016, Volume: 11, Issue:10

    Topics: Alleles; Benzoates; Cells, Cultured; Cystic Fibrosis; Cystic Fibrosis Transmembrane Conductance Regulator; Endoplasmic Reticulum; Furans; Gene Deletion; HEK293 Cells; HeLa Cells; High-Throughput Screening Assays; Humans; Hydroxamic Acids; Microscopy, Fluorescence; Protein Folding; Protein Structure, Tertiary; Pyrazoles; RNA, Messenger; Small Molecule Libraries; Ubiquitination; Vorinostat

2016
Wheat genes encoding two types of PR-1 proteins are pathogen inducible, but do not respond to activators of systemic acquired resistance.
    Molecular plant-microbe interactions : MPMI, 1999, Volume: 12, Issue:1

    Topics: Amino Acid Sequence; Ascomycota; Gene Expression Regulation, Plant; Genes, Plant; Isonicotinic Acids; Molecular Sequence Data; Plant Diseases; Plant Proteins; Salicylic Acid; Sequence Homology, Amino Acid; Thiadiazoles; Triticum

1999
Salicylic acid changes the properties of extracellular peroxidase activity secreted from wounded wheat (Triticum aestivum L.) roots.
    Protoplasma, 2003, Volume: 221, Issue:1-2

    Topics: Adaptation, Physiological; Enzyme Activation; Extracellular Space; Isoenzymes; Peroxidase; Plant Diseases; Plant Roots; Salicylic Acid; Triticum

2003
Overexpression of a gene encoding hydrogen peroxide-generating oxalate oxidase evokes defense responses in sunflower.
    Plant physiology, 2003, Volume: 133, Issue:1

    Topics: Ascomycota; Cyclopentanes; Defensins; Gene Expression Regulation, Enzymologic; Gene Expression Regulation, Plant; Helianthus; Hydrogen Peroxide; Immunity, Innate; Oxalic Acid; Oxidoreductases; Oxylipins; Plant Diseases; Plant Leaves; Plants, Genetically Modified; RNA, Messenger; Salicylic Acid; Transcriptional Activation; Triticum

2003
Development of a lesion-mimic phenotype in a transgenic wheat line overexpressing genes for pathogenesis-related (PR) proteins is dependent on salicylic acid concentration.
    Molecular plant-microbe interactions : MPMI, 2003, Volume: 16, Issue:10

    Topics: Chitinases; Cyclopentanes; Gene Expression; Genes, Plant; Glycoside Hydrolases; Oxylipins; Phenotype; Plant Diseases; Plant Proteins; Plants, Genetically Modified; Reactive Oxygen Species; Salicylic Acid; Triticum

2003
[Induction, purification and antifungal activity of beta-1, 3-glucanase from wheat leaves].
    Zhi wu sheng li yu fen zi sheng wu xue xue bao = Journal of plant physiology and molecular biology, 2004, Volume: 30, Issue:4

    Topics: Antifungal Agents; Enzyme Induction; Glucan 1,3-beta-Glucosidase; Mercuric Chloride; Plant Leaves; Riboflavin; Salicylic Acid; Triticum

2004
[Plant resistance inductors and active forms of oxygen. I. The influence of salicylic acid on hydrogen peroxide production in common cultures of wheat callus and bunt pathogen].
    Tsitologiia, 2004, Volume: 46, Issue:11

    Topics: 3,3'-Diaminobenzidine; Basidiomycota; Hydrogen Peroxide; Oxidoreductases; Plant Diseases; Rhizome; Salicylic Acid; Staining and Labeling; Triticum

2004
Regulation of enteric endophytic bacterial colonization by plant defenses.
    Molecular plant-microbe interactions : MPMI, 2005, Volume: 18, Issue:2

    Topics: Arabidopsis; Ethylenes; Hypocotyl; Klebsiella pneumoniae; Medicago; Medicago sativa; Medicago truncatula; Plant Growth Regulators; Plant Roots; Pseudomonas syringae; Salicylic Acid; Salmonella enterica; Time Factors; Triticum

2005
[SO2-caused oxidative stress and modulation of some signal molecules in wheat].
    Ying yong sheng tai xue bao = The journal of applied ecology, 2005, Volume: 16, Issue:6

    Topics: Catalase; Ethylenes; Oxidative Stress; Peroxidases; Plant Leaves; Salicylic Acid; Seedlings; Signal Transduction; Sulfur Dioxide; Superoxide Dismutase; Triticum

2005
Effects of salicylic acid and cold treatments on protein levels and on the activities of antioxidant enzymes in the apoplast of winter wheat leaves.
    Phytochemistry, 2006, Volume: 67, Issue:7

    Topics: Antioxidants; Catalase; Catechol Oxidase; Cold Temperature; Electrophoresis, Polyacrylamide Gel; Molecular Weight; Oxidative Stress; Peroxidase; Plant Leaves; Salicylic Acid; Time Factors; Triticum

2006
Enlarged processing window of plasticized wheat gluten using salicylic acid.
    Biomacromolecules, 2006, Volume: 7, Issue:3

    Topics: Chromatography, High Pressure Liquid; Cross-Linking Reagents; Electron Spin Resonance Spectroscopy; Free Radical Scavengers; Glutens; Glycerol; Luminescence; Macromolecular Substances; Rheology; Salicylic Acid; Solubility; Stress, Mechanical; Temperature; Tensile Strength; Triticum

2006
Spent growth medium of Pantoea agglomerans primes wheat suspension cells for augmented accumulation of hydrogen peroxide and enhanced peroxidase activity upon elicitation.
    Planta, 2006, Volume: 224, Issue:4

    Topics: Cell Culture Techniques; Culture Media, Conditioned; Escherichia coli; Hydrogen Peroxide; Pantoea; Peroxidases; Polysaccharides, Bacterial; Respiratory Burst; Salicylic Acid; Thiadiazoles; Triticum

2006
Changes in lipid composition of Blumeria graminis f.sp. tritici conidia produced on wheat leaves treated with heptanoyl salicylic acid.
    Phytochemistry, 2006, Volume: 67, Issue:11

    Topics: Ascomycota; Fungicides, Industrial; Lipids; Molecular Structure; Plant Leaves; Salicylates; Salicylic Acid; Trehalose; Triticum

2006
Does exogenous application of salicylic acid through the rooting medium modulate growth and photosynthetic capacity in two differently adapted spring wheat cultivars under salt stress?
    Journal of plant physiology, 2007, Volume: 164, Issue:6

    Topics: Adaptation, Physiological; Photosynthesis; Plant Roots; Salicylic Acid; Seedlings; Sodium Chloride; Triticum

2007
Expression of the lipid transfer protein Ace-AMP1 in transgenic wheat enhances antifungal activity and defense responses.
    Transgenic research, 2006, Volume: 15, Issue:4

    Topics: Antifungal Agents; Blotting, Northern; Genetic Techniques; Genetic Vectors; Immunity, Innate; Models, Genetic; Phenolsulfonphthalein; Phenylalanine Ammonia-Lyase; Plant Proteins; Plants, Genetically Modified; Plasmids; Polymerase Chain Reaction; Salicylic Acid; Transgenes; Triticum

2006
[Cloning and identification of the resistance gene analogs of wheat].
    Fen zi xi bao sheng wu xue bao = Journal of molecular cell biology, 2006, Volume: 39, Issue:2

    Topics: Amino Acid Sequence; Antifungal Agents; Basidiomycota; Blotting, Northern; Cloning, Molecular; DNA, Plant; Gene Expression Regulation, Plant; Molecular Sequence Data; Phylogeny; Plant Diseases; Plant Proteins; Salicylic Acid; Sequence Analysis, DNA; Sequence Homology, Amino Acid; Triticum

2006
Iodus 40, salicylic acid, heptanoyl salicylic acid and trehalose exhibit different efficacies and defence targets during a wheat/powdery mildew interaction.
    Phytochemistry, 2007, Volume: 68, Issue:8

    Topics: Antifungal Agents; Ascomycota; Catalase; Germination; Hydrogen Peroxide; Immunity, Innate; Lipid Peroxidation; Lipoxygenase; Oxidoreductases; Plant Diseases; Plant Proteins; Polysaccharides; Reactive Oxygen Species; Salicylates; Salicylic Acid; Trehalose; Triticum

2007
Factors contributing to enhanced freezing tolerance in wheat during frost hardening in the light.
    Phytochemistry, 2007, Volume: 68, Issue:12

    Topics: Antioxidants; Coumaric Acids; Fatty Acids; Freezing; Light; Plant Proteins; Salicylic Acid; Triticum

2007
A novel ERF transcription activator in wheat and its induction kinetics after pathogen and hormone treatments.
    Journal of experimental botany, 2007, Volume: 58, Issue:11

    Topics: Acetates; Amino Acid Sequence; Ascomycota; Base Sequence; Cyclopentanes; Ethylenes; Fusarium; Gene Expression Regulation, Plant; Kinetics; Molecular Sequence Data; Oxylipins; Phylogeny; Plant Proteins; Protein Structure, Tertiary; Rhizoctonia; Salicylic Acid; Sequence Alignment; Sequence Analysis, Protein; Signal Transduction; Trans-Activators; Triticum

2007
Not simply a foreign body.
    International journal of oral and maxillofacial surgery, 2008, Volume: 37, Issue:2

    Topics: Accidents, Traffic; Adult; Coal; Foreign Bodies; Head Injuries, Penetrating; Humans; Male; Scalp; Seeds; Triticum

2008
Properties of extruded vital wheat gluten sheets with sodium hydroxide and salicylic acid.
    Biomacromolecules, 2009, Mar-09, Volume: 10, Issue:3

    Topics: Glutens; Oxygen; Particle Size; Salicylic Acid; Sodium Hydroxide; Solubility; Surface Properties; Temperature; Triticum

2009
[Influence of salicylic and succinic acids on the cytophysiological reactions of wheat infected by brown rust].
    Tsitologiia, 2009, Volume: 51, Issue:1

    Topics: Basidiomycota; Glucans; Microscopy, Fluorescence; Plant Diseases; Plant Leaves; Reactive Oxygen Species; Salicylic Acid; Succinic Acid; Triticum; Virulence

2009
[Effects of salicylic acid on D1 protein phosphorylation and PS II performance in wheat leaf chloroplasts under high temperature and high light stress].
    Ying yong sheng tai xue bao = The journal of applied ecology, 2008, Volume: 19, Issue:12

    Topics: Chloroplasts; Hot Temperature; Phosphorylation; Photosystem II Protein Complex; Plant Leaves; Salicylic Acid; Sunlight; Triticum

2008
Alteration in phosphate uptake potential of wheat plants co-cultivated with salicylic acid.
    Journal of plant physiology, 2010, Mar-01, Volume: 167, Issue:4

    Topics: Autoradiography; Culture Media; Phosphates; Salicylic Acid; Time Factors; Triticum

2010
Screening the bio-safety of wheat produced from pretreated grains to enhance tolerance against drought using physiological and spectroscopic methods.
    Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 2010, Volume: 48, Issue:7

    Topics: Droughts; Electrophoresis, Polyacrylamide Gel; Germination; Indicators and Reagents; Pigments, Biological; Plant Leaves; Plant Proteins; Proline; Salicylic Acid; Seeds; Spectrometry, Fluorescence; Spectrophotometry, Ultraviolet; Spectroscopy, Fourier Transform Infrared; Thiourea; Triticum

2010
Morphological and molecular analyses of host and nonhost interactions involving barley and wheat and the covered smut pathogen Ustilago hordei.
    Molecular plant-microbe interactions : MPMI, 2010, Volume: 23, Issue:12

    Topics: Cyclopentanes; Ethylenes; Gene Expression Regulation, Plant; Hordeum; Host-Pathogen Interactions; Oxylipins; Plant Diseases; Plant Proteins; Protein Array Analysis; Salicylic Acid; Triticum; Ustilago

2010
Changes in the water status and osmotic solute contents in response to drought and salicylic acid treatments in four different cultivars of wheat (Triticum aestivum).
    Journal of plant research, 2012, Volume: 125, Issue:1

    Topics: Biomass; Carbohydrate Metabolism; Carotenoids; Chlorophyll; Droughts; Inorganic Chemicals; Osmosis; Photosynthesis; Plant Leaves; Plant Roots; Plant Shoots; Proline; Salicylic Acid; Seedlings; Solubility; Stress, Physiological; Triticum; Water

2012
Wheat gene expression is differentially affected by a virulent Russian wheat aphid biotype.
    Journal of chemical ecology, 2011, Volume: 37, Issue:5

    Topics: Animals; Aphids; Base Sequence; Cyclopentanes; Gene Expression Regulation, Plant; Genes, Plant; Host-Parasite Interactions; Molecular Sequence Data; Oxylipins; Pentose Phosphate Pathway; Plant Leaves; Salicylic Acid; Triticum

2011
Molecular interactions between wheat and cereal aphid (Sitobion avenae): analysis of changes to the wheat proteome.
    Proteomics, 2011, Volume: 11, Issue:10

    Topics: Acetates; Animals; Aphids; Cyclopentanes; Electrophoresis, Gel, Two-Dimensional; Host-Parasite Interactions; Oxylipins; Peptide Mapping; Plant Diseases; Plant Leaves; Plant Proteins; Proteome; Salicylic Acid; Seedlings; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization; Stress, Physiological; Triticum

2011
Analysis of differential transcriptional profiling in wheat infected by Blumeria graminis f. sp. tritici using GeneChip.
    Molecular biology reports, 2012, Volume: 39, Issue:1

    Topics: Ascomycota; Crosses, Genetic; Cyclopentanes; Disease Resistance; Ethylenes; Gene Expression Profiling; Intracellular Signaling Peptides and Proteins; Oligonucleotide Array Sequence Analysis; Oxylipins; Plant Diseases; Reverse Transcriptase Polymerase Chain Reaction; Salicylic Acid; Triticum

2012
A jacalin-related lectin-like gene in wheat is a component of the plant defence system.
    Journal of experimental botany, 2011, Volume: 62, Issue:15

    Topics: Arabidopsis; Ditiocarb; Fusarium; Gene Expression Regulation, Plant; Plant Diseases; Plant Immunity; Plant Proteins; Plants, Genetically Modified; Salicylic Acid; Triazoles; Triticum

2011
Salicylic acid and calcium-induced protection of wheat against salinity.
    Protoplasma, 2012, Volume: 249, Issue:3

    Topics: Antioxidants; Calcium; Carbonic Anhydrases; Catalase; Glutathione Reductase; Lipid Peroxidation; Malondialdehyde; Oxidative Stress; Peroxidases; Photosynthetic Reaction Center Complex Proteins; Plant Proteins; Proline; Salicylic Acid; Salinity; Salt Tolerance; Sodium Chloride; Superoxide Dismutase; Triticum

2012
Salicylic acid regulates basal resistance to Fusarium head blight in wheat.
    Molecular plant-microbe interactions : MPMI, 2012, Volume: 25, Issue:3

    Topics: Arabidopsis; Arabidopsis Proteins; Cyclopentanes; DNA, Plant; Fusarium; Gene Expression Regulation, Plant; Oxylipins; Plant Diseases; Plant Growth Regulators; Plant Immunity; Plant Leaves; Plants, Genetically Modified; Promoter Regions, Genetic; RNA, Plant; Salicylic Acid; Signal Transduction; Triticum

2012
Toxicology of isoproturon to the food crop wheat as affected by salicylic acid.
    Environmental science and pollution research international, 2012, Volume: 19, Issue:6

    Topics: Chlorophyll; Herbicides; Lipid Peroxidation; Oxidative Stress; Phenylurea Compounds; Plant Leaves; Reverse Transcriptase Polymerase Chain Reaction; Salicylic Acid; Triticum

2012
Effect of salicylic acid on Fusarium graminearum, the major causal agent of fusarium head blight in wheat.
    Fungal biology, 2012, Volume: 116, Issue:3

    Topics: Antifungal Agents; Carbon; Chromatography, High Pressure Liquid; Fusarium; Gene Expression Profiling; Genes, Fungal; Hyphae; Metabolic Networks and Pathways; Microarray Analysis; Plant Diseases; Salicylic Acid; Spores, Fungal; Trichothecenes; Triticum

2012
Rapid mobilization of membrane lipids in wheat leaf sheaths during incompatible interactions with Hessian fly.
    Molecular plant-microbe interactions : MPMI, 2012, Volume: 25, Issue:7

    Topics: Animals; Cyclopentanes; Diptera; Fatty Acids; Fatty Acids, Unsaturated; Gene Expression Regulation, Plant; Genes, Plant; Host-Parasite Interactions; Larva; Membrane Lipids; Models, Biological; Oligonucleotide Array Sequence Analysis; Oxylipins; Plant Diseases; Plant Epidermis; Plant Growth Regulators; Plant Immunity; Plant Leaves; RNA, Plant; Salicylic Acid; Seedlings; Time Factors; Triticum

2012
Alleviation of high salt toxicity-induced oxidative damage by salicylic acid pretreatment in two wheat cultivars.
    Toxicology and industrial health, 2013, Volume: 29, Issue:1

    Topics: Hydroponics; Oxidative Stress; Oxidoreductases; Photosynthesis; Plant Diseases; Salicylic Acid; Salt Tolerance; Seedlings; Sodium Chloride; Soil Pollutants; Triticum

2013
Physiological and molecular changes of detached wheat leaves in responding to various treatments.
    Journal of integrative plant biology, 2012, Volume: 54, Issue:8

    Topics: Abscisic Acid; Chlorophyll; Cold Temperature; Cyclopentanes; Darkness; Genes, Plant; Oxylipins; Plant Leaves; Salicylic Acid; Stress, Physiological; Triticum

2012
Proteomic analysis on salicylic acid-induced salt tolerance in common wheat seedlings (Triticum aestivum L.).
    Biochimica et biophysica acta, 2012, Volume: 1824, Issue:12

    Topics: Amino Acid Sequence; Lipid Peroxidation; Photosynthesis; Plant Proteins; Proteomics; Salicylic Acid; Salt Tolerance; Seedlings; Triticum

2012
An R2R3 MYB transcription factor in wheat, TaPIMP1, mediates host resistance to Bipolaris sorokiniana and drought stresses through regulation of defense- and stress-related genes.
    The New phytologist, 2012, Volume: 196, Issue:4

    Topics: Abscisic Acid; Ascomycota; Base Sequence; Droughts; Gene Expression Regulation, Plant; Molecular Sequence Data; Plant Diseases; Plant Proteins; Plants, Genetically Modified; Salicylic Acid; Stress, Physiological; Transcription Factors; Triticum

2012
Proteomics reveals the effects of salicylic acid on growth and tolerance to subsequent drought stress in wheat.
    Journal of proteome research, 2012, Dec-07, Volume: 11, Issue:12

    Topics: Adaptation, Physiological; Carbohydrate Metabolism; Droughts; Energy Metabolism; Lipid Peroxidation; Phenotype; Photosynthesis; Plant Leaves; Plant Proteins; Plant Roots; Protein Interaction Maps; Proteome; Proteomics; Salicylic Acid; Seedlings; Signal Transduction; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization; Stress, Psychological; Triticum

2012
Involvement of lectin in the salicylic acid-induced wheat tolerance to cadmium and the role of endogenous ABA in the regulation of its level.
    Doklady biological sciences : proceedings of the Academy of Sciences of the USSR, Biological sciences sections, 2013, Volume: 448

    Topics: Abscisic Acid; Cadmium; Drug Resistance; Salicylic Acid; Seedlings; Triticum; Wheat Germ Agglutinins

2013
Exogenous treatment with indole-3-acetic acid and salicylic acid alleviates cadmium toxicity in wheat seedlings.
    Ecotoxicology and environmental safety, 2013, Volume: 94

    Topics: Antioxidants; Cadmium; Catalase; Indoleacetic Acids; Lipid Peroxidation; Oxidative Stress; Peroxidase; Plant Leaves; Salicylic Acid; Seedlings; Soil Pollutants; Superoxide Dismutase; Triticum

2013
TaEIL1, a wheat homologue of AtEIN3, acts as a negative regulator in the wheat-stripe rust fungus interaction.
    Molecular plant pathology, 2013, Volume: 14, Issue:7

    Topics: Arabidopsis Proteins; Basidiomycota; Cell Nucleus; Cloning, Molecular; DNA-Binding Proteins; Gene Expression Regulation, Plant; Gene Knockdown Techniques; Gene Silencing; Host-Pathogen Interactions; Nuclear Proteins; Phenotype; Plant Diseases; Plant Leaves; Protein Transport; Real-Time Polymerase Chain Reaction; RNA, Messenger; Saccharomyces cerevisiae; Salicylic Acid; Sequence Homology, Amino Acid; Stress, Physiological; Sucrose; Transcription Factors; Transcription, Genetic; Transcriptional Activation; Triticum

2013
Alleviation of osmotic stress effects by exogenous application of salicylic or abscisic acid on wheat seedlings.
    International journal of molecular sciences, 2013, Jun-26, Volume: 14, Issue:7

    Topics: Abscisic Acid; Osmotic Pressure; Salicylic Acid; Seedlings; Triticum

2013
Lipid metabolism is differentially modulated by salicylic acid and heptanoyl salicylic acid during the induction of resistance in wheat against powdery mildew.
    Journal of plant physiology, 2013, Dec-15, Volume: 170, Issue:18

    Topics: Ascomycota; Disease Resistance; Gene Expression Profiling; Gene Expression Regulation, Plant; Genes, Plant; Lipid Metabolism; Lipoxygenase; Plant Diseases; Real-Time Polymerase Chain Reaction; Salicylates; Salicylic Acid; Time Factors; Triticum

2013
TaCPK2-A, a calcium-dependent protein kinase gene that is required for wheat powdery mildew resistance enhances bacterial blight resistance in transgenic rice.
    Journal of experimental botany, 2013, Volume: 64, Issue:11

    Topics: Cyclopentanes; Disease Resistance; Gene Expression Regulation, Plant; Oryza; Oxylipins; Plant Diseases; Plant Proteins; Plants, Genetically Modified; Protein Kinases; Salicylic Acid; Triticum

2013
Silencing of TaBTF3 gene impairs tolerance to freezing and drought stresses in wheat.
    Molecular genetics and genomics : MGG, 2013, Volume: 288, Issue:11

    Topics: Abscisic Acid; Acetates; Cyclopentanes; Droughts; Freezing; Gene Expression Regulation, Plant; Gene Silencing; Nuclear Proteins; Oxylipins; Plant Growth Regulators; Plant Proteins; Plants, Genetically Modified; RNA, Plant; Salicylic Acid; Seedlings; Stress, Physiological; Transcription Factors; Triticum; Up-Regulation; Water

2013
Salicylic acid increases the contents of glutathione and ascorbate and temporally regulates the related gene expression in salt-stressed wheat seedlings.
    Gene, 2013, Oct-25, Volume: 529, Issue:2

    Topics: Ascorbic Acid; Gene Expression Regulation, Plant; Genes, Plant; Glutathione; Glutathione Peroxidase; Glutathione Reductase; Glutathione Synthase; Glutathione Transferase; NADH, NADPH Oxidoreductases; Oxidoreductases; Salicylic Acid; Seedlings; Sodium Chloride; Stress, Physiological; Transcription, Genetic; Triticum

2013
Jasmonate- and salicylate-induced defenses in wheat affect host preference and probing behavior but not performance of the grain aphid, Sitobion avenae.
    Insect science, 2014, Volume: 21, Issue:1

    Topics: Animals; Aphids; Cyclopentanes; Feeding Behavior; Female; Host Specificity; Male; Oxylipins; Plant Diseases; Plant Leaves; Salicylic Acid; Triticum

2014
Salicylic acid alleviates adverse effects of heat stress on photosynthesis through changes in proline production and ethylene formation.
    Plant signaling & behavior, 2013, Volume: 8, Issue:11

    Topics: Carbon Dioxide; Chlorophyll; Ethylenes; Fluorescence; Heat-Shock Response; Hydrogen Peroxide; Nitrate Reductase; Nitrogen; Osmosis; Oxidative Stress; Phosphotransferases (Carboxyl Group Acceptor); Photosynthesis; Plant Leaves; Plant Stomata; Proline; Proline Oxidase; Ribulose-Bisphosphate Carboxylase; Salicylic Acid; Thiobarbituric Acid Reactive Substances; Triticum; Water

2013
Evidence for the role of wheat eukaryotic translation initiation factor 3 subunit g (TaeIF3g) in abiotic stress tolerance.
    Gene, 2013, Dec-15, Volume: 532, Issue:2

    Topics: Abscisic Acid; Arabidopsis; Crops, Agricultural; Eukaryotic Initiation Factor-3; Gene Expression; Germination; Molecular Sequence Data; Osmotic Pressure; Plant Growth Regulators; Plant Proteins; Plant Roots; Plant Shoots; Saccharomyces cerevisiae; Salicylic Acid; Salt Tolerance; Stress, Physiological; Triticum

2013
A novel TaMYB4 transcription factor involved in the defence response against Puccinia striiformis f. sp. tritici and abiotic stresses.
    Plant molecular biology, 2014, Volume: 84, Issue:4-5

    Topics: Abscisic Acid; Acetates; Amino Acid Sequence; Base Sequence; Basidiomycota; Cold Temperature; Cyclopentanes; Ethylenes; Gene Expression Profiling; Gene Expression Regulation, Plant; Gene Knockdown Techniques; Molecular Sequence Data; Oxylipins; Phylogeny; Plant Diseases; Plant Growth Regulators; Plant Leaves; Plant Proteins; Plant Viruses; Reverse Transcriptase Polymerase Chain Reaction; Salicylic Acid; Sequence Homology, Amino Acid; Sequence Homology, Nucleic Acid; Stress, Mechanical; Transcription Factors; Triticum

2014
Glycerol-3-phosphate metabolism in wheat contributes to systemic acquired resistance against Puccinia striiformis f. sp. tritici.
    PloS one, 2013, Volume: 8, Issue:11

    Topics: Basidiomycota; Cloning, Molecular; Disease Resistance; Gene Knockdown Techniques; Gene Silencing; Glycerolphosphate Dehydrogenase; Glycerophosphates; Host-Pathogen Interactions; Molecular Sequence Data; Plant Diseases; Plant Leaves; Salicylic Acid; Transcription, Genetic; Triticum

2013
After-ripening induced transcriptional changes of hormonal genes in wheat seeds: the cases of brassinosteroids, ethylene, cytokinin and salicylic acid.
    PloS one, 2014, Volume: 9, Issue:1

    Topics: Amino Acid Oxidoreductases; Brassinosteroids; Cytokinins; Ethylenes; Gene Expression Regulation, Plant; Germination; Phenylalanine Ammonia-Lyase; Plant Dormancy; Plant Growth Regulators; Salicylic Acid; Seeds; Signal Transduction; Transcription, Genetic; Triticum

2014
Pathogenesis-related protein expression in the apoplast of wheat leaves protected against leaf rust following application of plant extracts.
    Phytopathology, 2014, Volume: 104, Issue:9

    Topics: Apocynaceae; Basidiomycota; Bignoniaceae; Electrophoresis, Gel, Two-Dimensional; Fungicides, Industrial; Plant Diseases; Plant Extracts; Plant Leaves; Plant Proteins; Reverse Transcriptase Polymerase Chain Reaction; Salicylic Acid; Spores, Fungal; Triticum

2014
Synthesis and role of salicylic acid in wheat varieties with different levels of cadmium tolerance.
    Journal of hazardous materials, 2014, Sep-15, Volume: 280

    Topics: Adaptation, Biological; Antioxidants; Benzoic Acid; Cadmium; Coumaric Acids; Gene Expression; Genotype; Inactivation, Metabolic; Intramolecular Transferases; Phenylalanine Ammonia-Lyase; Phosphorus-Oxygen Lyases; Phytochelatins; Salicylic Acid; Stress, Physiological; Triticum

2014
Lipids as markers of induced resistance in wheat: a biochemical and molecular approach.
    Communications in agricultural and applied biological sciences, 2013, Volume: 78, Issue:3

    Topics: Ascomycota; Biomarkers; Disease Resistance; Lipids; Lipoxygenase; Plant Diseases; Plant Proteins; Salicylic Acid; Triticum; Type C Phospholipases

2013
Acceleration of the herbicide isoproturon degradation in wheat by glycosyltransferases and salicylic acid.
    Journal of hazardous materials, 2015, Volume: 283

    Topics: Chromatography, High Pressure Liquid; Glycosylation; Glycosyltransferases; Herbicides; Pesticide Residues; Phenylurea Compounds; Salicylic Acid; Tandem Mass Spectrometry; Triticum

2015
Enhanced degradation of Herbicide Isoproturon in wheat rhizosphere by salicylic acid.
    Journal of agricultural and food chemistry, 2015, Jan-14, Volume: 63, Issue:1

    Topics: Carboxylic Acids; Catalase; Enzyme Activation; Herbicides; Monophenol Monooxygenase; Oxidoreductases; Pesticide Residues; Phenylurea Compounds; Plant Roots; Rhizosphere; Salicylic Acid; Soil; Soil Microbiology; Triticum

2015
Deregulation of Plant Cell Death Through Disruption of Chloroplast Functionality Affects Asexual Sporulation of Zymoseptoria tritici on Wheat.
    Molecular plant-microbe interactions : MPMI, 2015, Volume: 28, Issue:5

    Topics: Ascomycota; Cell Death; Chlorophyll; Chloroplasts; Cyclopentanes; Gene Expression Regulation, Plant; Genes, Reporter; Host-Pathogen Interactions; Hydrogen Peroxide; Oxylipins; Plant Diseases; Plant Leaves; Plant Proteins; Salicylic Acid; Triticum

2015
Transcriptome and metabolite profiling of the infection cycle of Zymoseptoria tritici on wheat reveals a biphasic interaction with plant immunity involving differential pathogen chromosomal contributions and a variation on the hemibiotrophic lifestyle def
    Plant physiology, 2015, Volume: 167, Issue:3

    Topics: Ascomycota; Chromosomes, Fungal; Disease Progression; Fructans; Gene Expression Profiling; Gene Expression Regulation, Fungal; Genes, Fungal; Hexoses; Metabolome; Multigene Family; Nitrates; Plant Diseases; Plant Immunity; Plant Leaves; Reproduction, Asexual; Salicylic Acid; Sequence Analysis, RNA; Time Factors; Transcriptome; Triticum

2015
Priming of wheat with the green leaf volatile Z-3-hexenyl acetate enhances defense against Fusarium graminearum but boosts deoxynivalenol production.
    Plant physiology, 2015, Volume: 167, Issue:4

    Topics: Acetates; Cyclopentanes; Fusarium; Gene Expression Regulation, Plant; Oxylipins; Plant Diseases; Plant Growth Regulators; Plant Immunity; Plant Leaves; Plant Proteins; Salicylic Acid; Seedlings; Trichothecenes; Triticum

2015
Macromolecular changes and nano-structural arrangements in gliadin and glutenin films upon chemical modification: Relation to functionality.
    International journal of biological macromolecules, 2015, Volume: 79

    Topics: Ammonium Hydroxide; Disulfides; Gliadin; Glutens; Membranes, Artificial; Nanostructures; Polymerization; Protein Aggregates; Protein Structure, Secondary; Salicylic Acid; Sodium Hydroxide; Tensile Strength; Triticum

2015
Facilitation of Fusarium graminearum Infection by 9-Lipoxygenases in Arabidopsis and Wheat.
    Molecular plant-microbe interactions : MPMI, 2015, Volume: 28, Issue:10

    Topics: Arabidopsis; Base Sequence; Cyclopentanes; Disease Resistance; Fusarium; Gene Knockdown Techniques; Genes, Reporter; Lipoxygenases; Molecular Sequence Data; Mutation; Oxylipins; Plant Diseases; Plant Growth Regulators; Plant Leaves; Plant Proteins; Plants, Genetically Modified; Salicylic Acid; Sequence Analysis, DNA; Signal Transduction; Triticum

2015
Exogenous Salicylic Acid Enhances the Resistance of Wheat Seedlings to Hessian Fly (Diptera: Cecidomyiidae) Infestation Under Heat Stress.
    Journal of economic entomology, 2014, 10-01, Volume: 107, Issue:5

    Topics: Animals; Antibiosis; Diptera; Hot Temperature; Larva; Plant Growth Regulators; Salicylic Acid; Seedlings; Stress, Physiological; Triticum

2014
Effects of exogenous salicylic acid on growth characteristics and biochemical content of wheat seeds under arsenic stress.
    Journal of environmental biology, 2015, Volume: 36, Issue:1

    Topics: Arsenic; Salicylic Acid; Seedlings; Seeds; Triticum

2015
Identification of putative phosphoproteins in wheat spikes induced by Fusarium graminearum.
    Planta, 2016, Volume: 243, Issue:3

    Topics: Cell Wall; Disease Resistance; Electrophoresis, Gel, Two-Dimensional; Fusarium; Gene Expression Regulation, Plant; Host-Pathogen Interactions; Phosphoproteins; Phosphorylation; Plant Diseases; Plant Proteins; Salicylic Acid; Triticum

2016
The wheat homolog of putative nucleotide-binding site-leucine-rich repeat resistance gene TaRGA contributes to resistance against powdery mildew.
    Functional & integrative genomics, 2016, Volume: 16, Issue:2

    Topics: Amino Acid Sequence; Cloning, Molecular; Disease Resistance; Host-Pathogen Interactions; Leucine-Rich Repeat Proteins; Molecular Sequence Data; Phylogeny; Plant Diseases; Plant Leaves; Plant Proteins; Proteins; Recombinant Proteins; Saccharomycetales; Salicylic Acid; Sequence Homology, Amino Acid; Triticum

2016
Allelobiosis in the interference of allelopathic wheat with weeds.
    Pest management science, 2016, Volume: 72, Issue:11

    Topics: Allelopathy; Benzoxazines; Cyclopentanes; Oxylipins; Plant Growth Regulators; Plant Roots; Plant Weeds; Rhizosphere; Salicylic Acid; Signal Transduction; Triticum

2016
Precocious leaf senescence by functional loss of PROTEIN S-ACYL TRANSFERASE14 involves the NPR1-dependent salicylic acid signaling.
    Scientific reports, 2016, Feb-04, Volume: 6

    Topics: Acyltransferases; Amino Acid Sequence; Arabidopsis; Arabidopsis Proteins; Carbon; Cytokinins; DNA, Bacterial; Down-Regulation; Golgi Apparatus; Indoleacetic Acids; Mixed Function Oxygenases; Molecular Sequence Data; Phenotype; Plant Leaves; Plants, Genetically Modified; Salicylic Acid; Sequence Alignment; Signal Transduction; Triticum; Up-Regulation; Zea mays

2016
Elucidation of defense-related signaling responses to spot blotch infection in bread wheat (Triticum aestivum L.).
    The Plant journal : for cell and molecular biology, 2016, Volume: 86, Issue:1

    Topics: Ascomycota; Cyclopentanes; Ethylenes; Gene Expression Regulation, Plant; Inbreeding; Molecular Sequence Annotation; Oxylipins; Plant Diseases; Plant Growth Regulators; Plant Immunity; Plant Leaves; Salicylic Acid; Signal Transduction; Triticum

2016
Chitin synthase gene FgCHS8 affects virulence and fungal cell wall sensitivity to environmental stress in Fusarium graminearum.
    Fungal biology, 2016, Volume: 120, Issue:5

    Topics: Cell Wall; Chitin Synthase; Fusarium; Gene Knockout Techniques; Genetic Complementation Test; Plant Diseases; Salicylic Acid; Sodium Dodecyl Sulfate; Spores, Fungal; Trichothecenes; Triticum; Virulence; Virulence Factors

2016
Exogenous Abscisic Acid and Gibberellic Acid Elicit Opposing Effects on Fusarium graminearum Infection in Wheat.
    Phytopathology, 2016, Volume: 106, Issue:9

    Topics: Abscisic Acid; Cyclopentanes; Edible Grain; Fusarium; Gene Expression Regulation, Plant; Gibberellins; Mycotoxins; Oxylipins; Phenotype; Plant Diseases; Plant Growth Regulators; Salicylic Acid; Trichothecenes; Triticum

2016
Wheat transcription factor TaWRKY70 is positively involved in high-temperature seedling plant resistance to Puccinia striiformis f. sp. tritici.
    Molecular plant pathology, 2017, Volume: 18, Issue:5

    Topics: Acetates; Basidiomycota; Cold Temperature; Cyclopentanes; Ethylenes; Hot Temperature; Oxylipins; Plant Diseases; Plant Proteins; Salicylic Acid; Seedlings; Transcription Factors; Triticum

2017
The mvp2 mutation affects the generative transition through the modification of transcriptome pattern, salicylic acid and cytokinin metabolism in Triticum monococcum.
    Journal of plant physiology, 2016, Sep-01, Volume: 202

    Topics: Biosynthetic Pathways; Cluster Analysis; Cytokinins; Gene Deletion; Gene Expression Regulation, Developmental; Gene Expression Regulation, Plant; Gene Regulatory Networks; Genotype; Mutation; Oligonucleotide Array Sequence Analysis; Plant Proteins; Reproducibility of Results; RNA, Messenger; Salicylic Acid; Transcriptome; Triticum

2016
Cellular and molecular characterization of a stem rust resistance locus on wheat chromosome 7AL.
    BMC research notes, 2016, Dec-07, Volume: 9, Issue:1

    Topics: Basidiomycota; Chromosome Mapping; Chromosomes, Plant; Cyclopentanes; Disease Resistance; Fluorescein-5-isothiocyanate; Genes, Plant; Oxylipins; Phenotype; Plant Diseases; Polymorphism, Single Nucleotide; Salicylic Acid; Sequence Analysis, RNA; Signal Transduction; Transcriptome; Triticum

2016
Exogenous salicylic acid alleviates the toxicity of chlorpyrifos in wheat plants (Triticum aestivum).
    Ecotoxicology and environmental safety, 2017, Volume: 137

    Topics: Antioxidants; Ascorbate Peroxidases; Catalase; Chlorophyll; Chlorpyrifos; Insecticides; Oxidative Stress; Peroxidase; Peroxidases; Plant Leaves; Salicylic Acid; Soil; Soil Pollutants; Superoxide Dismutase; Triticum

2017
Salicylic Acid and Calcium Treatments Improves Wheat Vigor, Lipids and Phenolics Under High Salinity.
    Acta chimica Slovenica, 2016, Volume: 63, Issue:4

    Topics: Calcium; Germination; Lipids; Phenols; Plant Structures; Salicylic Acid; Salinity; Triticum

2016
Comparative analysis of polyamine metabolism in wheat and maize plants.
    Plant physiology and biochemistry : PPB, 2017, Volume: 112

    Topics: Biomass; Chlorophyll; Chlorophyll A; Fluorescence; Gases; Lipid Peroxidation; Models, Biological; Osmotic Pressure; Phenylalanine Ammonia-Lyase; Plant Leaves; Polyamines; Polyethylene Glycols; Proline; Putrescine; Salicylic Acid; Spermidine; Spermine; Triticum; Zea mays

2017
Linoleic acid isomerase gene FgLAI12 affects sensitivity to salicylic acid, mycelial growth and virulence of Fusarium graminearum.
    Scientific reports, 2017, 04-07, Volume: 7

    Topics: Biocatalysis; Fusarium; Gene Deletion; Genes, Fungal; Genetic Complementation Test; Isomerases; Isomerism; Linoleic Acid; Mycelium; Plant Diseases; Salicylic Acid; Spores, Fungal; Subcellular Fractions; Triticum; Virulence

2017
Salicylic acid mediated growth, physiological and proteomic responses in two wheat varieties under drought stress.
    Journal of proteomics, 2017, 06-23, Volume: 163

    Topics: Acclimatization; Adaptation, Physiological; Droughts; Energy Metabolism; Proteome; Salicylic Acid; Stress, Physiological; Triticum

2017
Physiological and antioxidant responses of winter wheat cultivars to strigolactone and salicylic acid in drought.
    Plant physiology and biochemistry : PPB, 2017, Volume: 119

    Topics: Antioxidants; Dehydration; Lactones; Salicylic Acid; Seasons; Triticum

2017
Molecular characterisation of the broad-spectrum resistance to powdery mildew conferred by the Stpk-V gene from the wild species Haynaldia villosa.
    Plant biology (Stuttgart, Germany), 2017, Volume: 19, Issue:6

    Topics: Arabidopsis; Ascomycota; Cyclopentanes; Disease Resistance; Ethylenes; Genes, Plant; Metabolic Networks and Pathways; Oxylipins; Plant Diseases; Plants, Genetically Modified; Reactive Oxygen Species; Real-Time Polymerase Chain Reaction; Salicylic Acid; Triticum

2017
Selenium status of children in Kashin-Beck disease endemic areas in Shaanxi, China: assessment with mercury.
    Environmental geochemistry and health, 2018, Volume: 40, Issue:2

    Topics: Adolescent; Child; Child, Preschool; China; Diet; Dietary Exposure; Endemic Diseases; Female; Hair; Humans; Kashin-Beck Disease; Male; Mercury; Scalp; Selenium; Triticum

2018
Comparative study on the effects of putrescine and spermidine pre-treatment on cadmium stress in wheat.
    Ecotoxicology and environmental safety, 2018, Volume: 148

    Topics: Antioxidants; Cadmium; Oxidative Stress; Proline; Putrescine; Salicylic Acid; Seeds; Soil Pollutants; Spermidine; Triticum

2018
Biocontrol of Fusarium graminearum sensu stricto, Reduction of Deoxynivalenol Accumulation and Phytohormone Induction by Two Selected Antagonists.
    Toxins, 2018, 02-20, Volume: 10, Issue:2

    Topics: Bacillus; Biological Control Agents; Cyclopentanes; Edible Grain; Fusarium; Oxylipins; Plant Growth Regulators; Salicylic Acid; Streptomyces; Trichothecenes; Triticum

2018
The wheat multidomain cystatin TaMDC1 displays antifungal, antibacterial, and insecticidal activities in planta.
    Plant cell reports, 2018, Volume: 37, Issue:6

    Topics: Acetates; Animals; Anti-Bacterial Agents; Antifungal Agents; Botrytis; Coleoptera; Cyclopentanes; Cystatins; Disease Resistance; Gene Expression; Larva; Oxylipins; Plant Diseases; Plant Growth Regulators; Plant Leaves; Plant Proteins; Plants, Genetically Modified; Pseudomonas syringae; Salicylic Acid; Solanum lycopersicum; Triticum

2018
Reduced phytotoxicity of propazine on wheat, maize and rapeseed by salicylic acid.
    Ecotoxicology and environmental safety, 2018, Oct-30, Volume: 162

    Topics: Brassica rapa; Chlorophyll; Glutathione Transferase; Herbicides; Peroxidase; Rhizosphere; Salicylic Acid; Soil; Triazines; Triticum; Zea mays

2018
Biofilm formation and regulation of salicylic acid-inducible genes expression in Arabidopsis by Algerian indigenous bacteria from wheat and potatoes rhizospheres in semi-arid Sétif region.
    Archives of microbiology, 2018, Volume: 200, Issue:9

    Topics: Algeria; Arabidopsis; Bacillus; Biofilms; Fusarium; Gene Expression; Gene Expression Regulation, Plant; Lipopeptides; Phytophthora; Plant Diseases; Pseudomonas; Rhizosphere; Salicylic Acid; Solanum tuberosum; Triticum

2018
    International journal of molecular sciences, 2018, Aug-10, Volume: 19, Issue:8

    Topics: Antifungal Agents; Arabidopsis; Drug Resistance, Fungal; Fungal Proteins; Fusarium; Mycelium; Plant Diseases; Salicylic Acid; Sulfonylurea Receptors; Triticum

2018
New salicylic acid and pyroglutamic acid conjugated derivatives confer protection to bread wheat against Zymoseptoria tritici.
    Journal of the science of food and agriculture, 2019, Mar-15, Volume: 99, Issue:4

    Topics: Ascomycota; Disease Resistance; Plant Diseases; Pyrrolidonecarboxylic Acid; Salicylic Acid; Triticum

2019
Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight.
    PloS one, 2018, Volume: 13, Issue:11

    Topics: Abscisic Acid; Cyclopentanes; Disease Resistance; Ethylenes; Fusarium; Gene Expression Regulation, Plant; Indoleacetic Acids; Oxylipins; Plant Diseases; Plant Growth Regulators; Plant Proteins; Principal Component Analysis; RNA, Plant; Salicylic Acid; Sequence Analysis, RNA; Transcriptome; Triticum

2018
Degradation of salicylic acid by Fusarium graminearum.
    Fungal biology, 2019, Volume: 123, Issue:1

    Topics: Anti-Infective Agents; Biotransformation; Carbon; Enzymes; Fusarium; Gene Deletion; Metabolic Networks and Pathways; Salicylic Acid; Triticum

2019
Functional Analysis of
    Toxins, 2019, 01-22, Volume: 11, Issue:2

    Topics: Arabidopsis; Disease Resistance; Escherichia coli; Fungal Proteins; Fusarium; Mixed Function Oxygenases; Mutation; Mycelium; Plant Diseases; Plants, Genetically Modified; Salicylic Acid; Triticum

2019
Plant-Mediated Interactions between Two Cereal Aphid Species: Promotion of Aphid Performance and Attraction of More Parasitoids by Infestation of Wheat with Phytotoxic Aphid Schizaphis graminum.
    Journal of agricultural and food chemistry, 2019, Mar-13, Volume: 67, Issue:10

    Topics: Animals; Aphids; Feeding Behavior; Host-Parasite Interactions; Plant Diseases; Plant Leaves; Salicylic Acid; Triticum

2019
Role of polyamines in plant growth regulation of Rht wheat mutants.
    Plant physiology and biochemistry : PPB, 2019, Volume: 137

    Topics: Abscisic Acid; Antioxidants; Enzymes; Gene Expression Regulation, Plant; Indoleacetic Acids; Lipid Peroxidation; Mutation; Plant Growth Regulators; Plant Leaves; Plant Roots; Polyamines; Proline; Putrescine; Salicylic Acid; Spermidine; Spermine; Triticum

2019
The stimulatory effects of plant growth promoting rhizobacteria and plant growth regulators on wheat physiology grown in sandy soil.
    Archives of microbiology, 2019, Volume: 201, Issue:6

    Topics: Bacillus cereus; Chlorophyll; Droughts; Planococcaceae; Plant Growth Regulators; Plant Roots; Pseudomonas fluorescens; Putrescine; Salicylic Acid; Seedlings; Soil; Soil Microbiology; Triticum

2019
Protein elicitor PeaT1 enhanced resistance against aphid (Sitobion avenae) in wheat.
    Pest management science, 2020, Volume: 76, Issue:1

    Topics: Animals; Aphids; Feeding Behavior; Plant Leaves; Salicylic Acid; Triticum

2020
Pattern of changes in salicylic acid-induced protein kinase (SIPK) gene expression and salicylic acid accumulation in wheat under cadmium exposure.
    Plant biology (Stuttgart, Germany), 2019, Volume: 21, Issue:6

    Topics: Cadmium; Protein Kinases; Salicylic Acid; Triticum

2019
Exopolysaccharide producing rhizobacteria and their impact on growth and drought tolerance of wheat grown under rainfed conditions.
    PloS one, 2019, Volume: 14, Issue:9

    Topics: Ammonia; Burkholderiales; Chlorophyll; Droughts; Hydrogen Cyanide; Indoleacetic Acids; Plant Development; Plant Growth Regulators; Plant Leaves; Plant Roots; Polysaccharides, Bacterial; Proline; Salicylic Acid; Seedlings; Soil Microbiology; Stress, Physiological; Triticum

2019
    Toxins, 2019, 10-29, Volume: 11, Issue:11

    Topics: Amino Acid Sequence; Cell Wall; Disease Resistance; Fusarium; Gene Expression Regulation, Fungal; Genes, Fungal; Host-Pathogen Interactions; Membrane Glycoproteins; Salicylic Acid; Triticum; Virulence

2019
Glycerol-Induced Powdery Mildew Resistance in Wheat by Regulating Plant Fatty Acid Metabolism, Plant Hormones Cross-Talk, and Pathogenesis-Related Genes.
    International journal of molecular sciences, 2020, Jan-20, Volume: 21, Issue:2

    Topics: Ascomycota; Cyclopentanes; Disease Resistance; Fatty Acids; Gene Expression Profiling; Glycerol; Oxylipins; Plant Diseases; Plant Growth Regulators; Plant Leaves; Plant Proteins; Salicylic Acid; Triticum

2020
Modifications of water status, growth rate and antioxidant system in two wheat cultivars as affected by salinity stress and salicylic acid.
    Journal of plant research, 2020, Volume: 133, Issue:4

    Topics: Antioxidants; Droughts; Salicylic Acid; Salinity; Triticum; Water

2020
Genome-wide identification, characterization analysis and expression profiling of auxin-responsive GH3 family genes in wheat (Triticum aestivum L.).
    Molecular biology reports, 2020, Volume: 47, Issue:5

    Topics: Cyclopentanes; Evolution, Molecular; Gene Expression Profiling; Gene Expression Regulation, Plant; Genome-Wide Association Study; Genome, Plant; Glucuronidase; Indoleacetic Acids; Multigene Family; Oxylipins; Phylogeny; Plant Growth Regulators; Plant Proteins; Salicylic Acid; Stress, Physiological; Transcriptome; Triticum

2020
At the scene of the crime: New insights into the role of weakly pathogenic members of the fusarium head blight disease complex.
    Molecular plant pathology, 2020, Volume: 21, Issue:12

    Topics: Cyclopentanes; Fusarium; Host-Pathogen Interactions; Mycotoxins; Oxylipins; Plant Diseases; Plant Growth Regulators; Plant Immunity; Salicylic Acid; Triticum

2020
Methyljasmonate and salicylic acid contribute to the control of Tilletia controversa Kühn, causal agent of wheat dwarf bunt.
    Scientific reports, 2020, 11-05, Volume: 10, Issue:1

    Topics: Acetates; Basidiomycota; Cyclopentanes; Oxylipins; Plant Diseases; Plant Roots; Salicylic Acid; Triticum

2020
    Genes, 2020, 12-03, Volume: 11, Issue:12

    Topics: Cell Membrane; Disease Resistance; Down-Regulation; Gene Expression Regulation, Plant; Gene Silencing; Genes, Plant; Host-Pathogen Interactions; Nicotiana; Plant Diseases; Plant Leaves; Protoplasts; Puccinia; Salicylic Acid; Stress, Physiological; Transcription, Genetic; Triticum

2020
RNAi-mediated stable silencing of TaCSN5 confers broad-spectrum resistance to Puccinia striiformis f. sp. tritici.
    Molecular plant pathology, 2021, Volume: 22, Issue:4

    Topics: Antifungal Agents; Arabidopsis; COP9 Signalosome Complex; Disease Resistance; Gene Silencing; Plant Diseases; Plant Leaves; Plant Proteins; Plants, Genetically Modified; Pseudomonas syringae; Puccinia; RNA Interference; Salicylic Acid; Signal Transduction; Triticum

2021
The branched-chain amino acid aminotransferase TaBCAT1 modulates amino acid metabolism and positively regulates wheat rust susceptibility.
    The Plant cell, 2021, 07-02, Volume: 33, Issue:5

    Topics: Amino Acids; Basidiomycota; Cluster Analysis; Disease Resistance; Gene Expression Profiling; Gene Expression Regulation, Plant; Homeostasis; Mitochondria; Models, Biological; Mutation; Plant Diseases; Plant Proteins; Salicylic Acid; Transaminases; Triticum

2021
Physio-biochemical responses of wheat plant towards salicylic acid-chitosan nanoparticles.
    Plant physiology and biochemistry : PPB, 2021, Volume: 162

    Topics: Chitosan; Nanoparticles; Salicylic Acid; Seedlings; Triticum

2021
Wheat Varietal Response to
    Genes, 2021, 03-16, Volume: 12, Issue:3

    Topics: Abscisic Acid; Acetates; Basidiomycota; Cyclopentanes; Disease Resistance; Microscopy, Confocal; Oxylipins; Plant Diseases; Plant Leaves; Plant Roots; Reverse Transcriptase Polymerase Chain Reaction; Salicylic Acid; Triticum

2021
Exogenous salicylic acid improves resistance of aphid-susceptible wheat to the grain aphid,
    Bulletin of entomological research, 2021, Volume: 111, Issue:5

    Topics: Animals; Aphids; Plant Leaves; Salicylic Acid; Seedlings; Triticum

2021
PAL-mediated SA biosynthesis pathway contributes to nematode resistance in wheat.
    The Plant journal : for cell and molecular biology, 2021, Volume: 107, Issue:3

    Topics: Animals; Cloning, Molecular; Gene Expression Regulation, Plant; Gene Silencing; Nematoda; Plant Proteins; Salicylic Acid; Triticum

2021
Enhanced SA and Ca
    Molecular genetics and genomics : MGG, 2021, Volume: 296, Issue:6

    Topics: Apoptosis; Calcium; Chlorophyll; Gene Expression Profiling; Nuclear Proteins; Photosynthesis; Plant Diseases; Plant Leaves; Reactive Oxygen Species; Salicylic Acid; Signal Transduction; Transcription Factors; Transcriptome; Triticum

2021
Major Facilitator Superfamily Transporter Gene
    International journal of molecular sciences, 2021, Aug-07, Volume: 22, Issue:16

    Topics: Carrier Proteins; Fungal Proteins; Fusarium; Genes, Fungal; Plant Diseases; Salicylic Acid; Stress, Physiological; Triticum

2021
Effects of seed priming treatments on the germination and development of two rapeseed (Brassica napus L.) varieties under the co-influence of low temperature and drought.
    PloS one, 2021, Volume: 16, Issue:9

    Topics: Abscisic Acid; Antioxidants; Brassica napus; Calcium Chloride; Chlorophyll; Cold Temperature; Droughts; Germination; Gibberellins; Nitroprusside; Plant Leaves; Salicylic Acid; Seedlings; Seeds; Species Specificity; Temperature; Triticum; Water

2021
Comparative study of salicylic acid contents in young wheat and rice plants and their anticancer activities in HepG2 and Caco-2 cells.
    Biologia futura, 2020, Volume: 71, Issue:3

    Topics: Antineoplastic Agents, Phytogenic; Caco-2 Cells; Drug Screening Assays, Antitumor; Hep G2 Cells; Humans; Oryza; Salicylic Acid; Triticum

2020
The RLK protein TaCRK10 activates wheat high-temperature seedling-plant resistance to stripe rust through interacting with TaH2A.1.
    The Plant journal : for cell and molecular biology, 2021, Volume: 108, Issue:5

    Topics: Disease Resistance; Histones; Host-Pathogen Interactions; Hot Temperature; Phosphorylation; Plant Diseases; Plant Proteins; Puccinia; Reactive Oxygen Species; Salicylic Acid; Seedlings; Triticum

2021
The protective effect of exogenous salicylic and gallic acids ameliorates the adverse effects of ionizing radiation stress in wheat seedlings by modulating the antioxidant defence system.
    Plant physiology and biochemistry : PPB, 2021, Volume: 168

    Topics: Antioxidants; Gallic Acid; Hydrogen Peroxide; Radiation, Ionizing; Salicylic Acid; Seedlings; Triticum

2021
Role of exogenous-applied salicylic acid, zinc and glycine betaine to improve drought-tolerance in wheat during reproductive growth stages.
    BMC plant biology, 2021, Dec-06, Volume: 21, Issue:1

    Topics: Betaine; Chlorophyll; Droughts; Photosynthesis; Salicylic Acid; Soil; Stress, Physiological; Triticum; Zinc

2021
Exogenous salicylic acid-induced drought stress tolerance in wheat (Triticum aestivum L.) grown under hydroponic culture.
    PloS one, 2021, Volume: 16, Issue:12

    Topics: Antioxidants; Chlorophyll; Droughts; Hydroponics; Photosynthesis; Plant Leaves; Plant Proteins; Plant Roots; Salicylic Acid; Stress, Physiological; Triticum

2021
Salicylic Acid Enhances Adventitious Root and Aerenchyma Formation in Wheat under Waterlogged Conditions.
    International journal of molecular sciences, 2022, Jan-23, Volume: 23, Issue:3

    Topics: Adaptation, Biological; Floods; Gene Expression; Gene Expression Regulation, Plant; Intramolecular Transferases; Phenylalanine Ammonia-Lyase; Plant Roots; Salicylic Acid; Seedlings; Triticum; Water

2022
Identification of Differentially Expressed Genes in Resistant Tetraploid Wheat (
    International journal of molecular sciences, 2022, May-27, Volume: 23, Issue:11

    Topics: Animals; Antibiosis; Aphids; Salicylic Acid; Tetraploidy; Triticum

2022
Exogenous expression of barley HvWRKY6 in wheat improves broad-spectrum resistance to leaf rust, Fusarium crown rot, and sharp eyespot.
    International journal of biological macromolecules, 2022, Oct-01, Volume: 218

    Topics: Basidiomycota; Disease Resistance; Fusarium; Gene Expression Regulation, Plant; Hordeum; Plant Diseases; Salicylic Acid; Triticum

2022
The salivary effector protein Sg2204 in the greenbug Schizaphis graminum suppresses wheat defence and is essential for enabling aphid feeding on host plants.
    Plant biotechnology journal, 2022, Volume: 20, Issue:11

    Topics: Animals; Aphids; Oxylipins; Salicylic Acid; Salivary Proteins and Peptides; Triticum

2022
Bensulfuron-Methyl, Terbutylazine, and 2,4-D Butylate Disturb Plant Growth and Resistance by Deteriorating Rhizosphere Environment and Plant Secondary Metabolism in Wheat Seedlings.
    Journal of agricultural and food chemistry, 2022, Oct-12, Volume: 70, Issue:40

    Topics: 2,4-Dichlorophenoxyacetic Acid; Apigenin; Herbicides; Melatonin; Plant Growth Regulators; Plant Roots; Quercetin; Rhizosphere; Salicylic Acid; Secondary Metabolism; Seedlings; Soil; Soil Microbiology; Sucrase; Thiocarbamates; Triazines; Triticum; Urease

2022
The Influence of Biostimulants Used in Sustainable Agriculture for Antifungal Protection on the Chemical Composition of Winter Wheat Grain.
    International journal of environmental research and public health, 2022, 10-11, Volume: 19, Issue:20

    Topics: Agriculture; Antifungal Agents; Edible Grain; Fatty Acids; Plant Extracts; Salicylic Acid; Triticum

2022
    PeerJ, 2022, Volume: 10

    Topics: Antioxidants; Peroxidases; Salicylic Acid; Salt Stress; Seedlings; Sodium Chloride; Superoxide Dismutase; Triticum

2022
Salicylic Acid's Impact on Growth, Photosynthesis, and Antioxidant Enzyme Activity of
    Molecules (Basel, Switzerland), 2022, Dec-23, Volume: 28, Issue:1

    Topics: Antioxidants; Photosynthesis; Salicylic Acid; Stress, Physiological; Triticum

2022
SmCSP4 from aphid saliva stimulates salicylic acid-mediated defence responses in wheat by interacting with transcription factor TaWKRY76.
    Plant biotechnology journal, 2023, Volume: 21, Issue:11

    Topics: Animals; Aphids; Salicylic Acid; Saliva; Transcription Factors; Triticum

2023
Regulation of hormone pathways in wheat infested by Blumeria graminis f. sp. tritici.
    BMC plant biology, 2023, Nov-09, Volume: 23, Issue:1

    Topics: Ethylenes; Hormones; Plant Diseases; Salicylic Acid; Triticum

2023