Access the full text.
Sign up today, get DeepDyve free for 14 days.
A. Ghosh (2018)
Bioformulation of antifungal herbal extract from Curcuma caesia Roxb. and Ixora coccinea L. against Botrytis cinerea Pers.The Journal of Phytopharmacology
C. Singh, D. Vyas (2021)
The Trends in the Evaluation of Fusarium Wilt of ChickpeaDiagnostics of Plant Diseases [Working Title]
(2019)
Evaluation of Biocontrol Efficacy of Herbal and Bioformulations against Root Rot Pathogen Fusarium Solani in TomatoInternational Journal of Recent Technology and Engineering
Carolina Zuleta-Castro, Diego Rios, R. Hoyos, F. Orozco-Sánchez (2017)
First formulation of a botanical active substance extracted from neem cell culture for controlling the armywormAgronomy for Sustainable Development, 37
A. Mayer, E. Harel, R. Ben-Shaul (1966)
Assay of catechol oxidase—a critical comparison of methodsPhytochemistry, 5
B. Landa, J. Navas‐Cortés, R. Jiménez-Díaz (2004)
Integrated management of fusarium wilt of chickpea with sowing date, host resistance, and biological control.Phytopathology, 94 9
Rosa Arvayo-Ortiz, M. Esqueda, E. Acedo-Félix, Alfonso Sánchez, A. Gutiérrez (2011)
Morphological Variability and Races of Fusarium oxysporum f.sp. ciceris Associated with Chickpea (Cicer arietinum) CropsAmerican Journal of Agricultural and Biological Sciences, 6
Rakesh Singh, Pankaj Sharma, R. Varshney, S. Sharma, N. Singh (2008)
Chickpea Improvement: Role of Wild Species and Genetic MarkersBiotechnology and Genetic Engineering Reviews, 25
Zhongxiao Zhang, Hailing Diao, Hongyan Wang, Kaiyun Wang, Ming Zhao (2019)
Use of Ganoderma Lucidum polysaccharide to control cotton fusarium wilt, and the mechanism involved.Pesticide biochemistry and physiology, 158
E. Fuerst, P. Okubara, James Anderson, C. Morris (2014)
Polyphenol oxidase as a biochemical seed defense mechanismFrontiers in Plant Science, 5
L. Loon, M. Rep, C. Pieterse (2006)
Significance of inducible defense-related proteins in infected plants.Annual review of phytopathology, 44
S. Dubey, V. Singh, K. Priyanka, B. Upadhyay, Birendra Singh (2015)
Combined application of fungal and bacterial bio-agents, together with fungicide and Mesorhizobium for integrated management of Fusarium wilt of chickpeaBioControl, 60
P. Sinha (2018)
Management of Wilt Disease of Pulses: A ReviewInternational Journal of Pure & Applied Bioscience
Jasmina Ćilerdžić, M. Stajić, J. Vukojevic (2016)
Potential of Submergedly Cultivated Mycelia of Ganoderma spp. as Antioxidant and Antimicrobial Agents.Current pharmaceutical biotechnology, 17 3
H. Chand, S. Khirbat (2009)
Chickpea wilt and its management – A reviewAgricultural Reviews, 30
R. Saikia, T. Singh, Rakesh Kumar, J. Srivastava, A. Srivastava, Kiran Singh, D. Arora (2003)
Role of salicylic acid in systemic resistance induced by Pseudomonas fluorescens against Fusarium oxysporum f. sp. ciceri in chickpea.Microbiological research, 158 3
R. Hammerschmidt, E. Nuckles, J. Kuc (1982)
Association of enhanced peroxidase activity with induced systemic resistance of cucumber to Colletotrichum lagenariumPhysiologial Plant Pathology, 20
Masahiro Mitsuboshi, Y. Kioka, Katsunori Noguchi, S. Asakawa (2017)
An Evaluation Method for Suppression of Pathogenic Fusarium oxysporum by Soil Microorganisms Using the Dilution Plate TechniqueMicrobes and Environments, 32
A. Bhattacharya, P. Sood, V. Citovsky (2010)
The roles of plant phenolics in defence and communication during Agrobacterium and Rhizobium infection.Molecular plant pathology, 11 5
R. Jiménez-Díaz, P. Castillo, M. Jiménez-Gasco, B. Landa, J. Navas‐Cortés (2015)
Fusarium wilt of chickpeas: Biology, ecology and managementCrop Protection, 73
Samar Jitan, Saeed AlKhoori, Lina Yousef (2018)
Phenolic Acids From Plants: Extraction and Application to Human Health, 58
D. Naguib (2019)
Comparative lipid profiling for studying resistance mechanism against Fusarium wiltPhysiological and Molecular Plant Pathology, 108
Naznoosh Shomali, Okan Onar, T. Alkan, Nergiz Demirtas, Ilgaz Akata, Ö. Yildirim (2018)
Investigation of the Polyphenol Composition, Biological Activities, and Detoxification Properties of Some Medicinal Mushrooms from TurkeyTurkish Journal of Pharmaceutical Sciences, 16
T. Yaeno, O. Matsuda, K. Iba (2004)
Role of chloroplast trienoic fatty acids in plant disease defense responses.The Plant journal : for cell and molecular biology, 40 6
(2020)
Stability Study of Eugenol and Kitolod Extract (Isotoma Longiflora) Nanoemulsion Concentrate for Botanical Pesticide ApplicationBiointerface Research in Applied Chemistry
A. Rakita, N. Nikolić, M. Mildner, J. Matiasek, A. Elbe-Bürger (2020)
Re-epithelialization and immune cell behaviour in an ex vivo human skin modelScientific Reports, 10
(2021)
Evaluation of the impact of pathogenic fungi on the growth of Pisum sativum L
Fei Ren, Yuguang Zhang, Hai-In Yu, Yong Zhang (2020)
Ganoderma lucidum cultivation affect microbial community structure of soil, wood segments and tree rootsScientific Reports, 10
(1981)
Chickpea diseases: resistance screening techniques, Information Bulletins No
L. Almagro, L. Ros, S. Belchí-Navarro, R. Bru, A. Barceló, M. Pedreño (2009)
Class III peroxidases in plant defence reactions.Journal of experimental botany, 60 2
D. Dickerson, S. Pascholati, A. Hagerman, L. Butler, R. Nicholson (1984)
Phenylalanine ammonia-lyase and hydroxycinnamate: CoA ligase in maize mesocotyls inoculated with Helminthosporium maydis or Helminthosporium carbonumPhysiologial Plant Pathology, 25
(1981)
Patancheru: International CroDS Research Institute for the Semi-Arid Tropics
I. Sheikh, D. Vyas, R. Lone, Vinita Singh, H. Gour, Ld Jo, D. Pharm., Hari Singh (2015)
GANODERMA LUCIDUM AND TRAMETES HIRSUTA AS POTENT ANTIOXIDANTS IN FREE RADICAL SYSTEMS IN VITRO
Dae Kim, B. Hwang (2014)
An important role of the pepper phenylalanine ammonia-lyase gene (PAL1) in salicylic acid-dependent signalling of the defence response to microbial pathogensJournal of Experimental Botany, 65
J. Shah (2005)
Lipids, lipases, and lipid-modifying enzymes in plant disease resistance.Annual review of phytopathology, 43
O. Orole (2016)
GC-MS Evaluation, Phytochemical and Antinutritional Screening of Ganoderma lucidumJournal of Advances in Biology & Biotechnology, 5
A. Kachroo, P. Kachroo (2009)
Fatty Acid-derived signals in plant defense.Annual review of phytopathology, 47
Pradeep Singh, Moganavelli Singh, V. Agnihotri, D. Vyas (2013)
Arbuscular Mycorrhizal Fungi : Biocontrol against Fusarium Wilt of Chickpea
Y. Yamauchi, Ai Furutera, Kumiko Seki, Y. Toyoda, Kiyoshi Tanaka, Y. Sugimoto (2008)
Malondialdehyde generated from peroxidized linolenic acid causes protein modification in heat-stressed plants.Plant physiology and biochemistry : PPB, 46 8-9
I. Sheikh, D. Vyas, M. Ganaie, K. Dehariya, Vinita Singh (2014)
HPLC DETERMINATION OF PHENOLICS AND FREE RADICAL SCAVENGING ACTIVITY OF ETHANOLIC EXTRACTS OF TWO POLYPORE MUSHROOMS
(2021)
Ganoderma lucidum: cultivation and production of ganoderic and lucidenic acid
G. Chathurdevi, K. Rani
Evaluation of Bioactive Potential of Basidiocarp Extracts of Ganoderma lucidum
Abstract Biological based formulation for inducing systematic resistance in the crop is a sustainable measure to control plant disease by utilizing the natural defence system of the host plant and meet the strategic needs of pesticide application for agricultural products worldwide. The crude extract of Ganoderma lucidum was used to induce systematic resistant in the chickpeas against the Fusarium wilt caused by soil-borne fungus Fusarium oxysporum (Schletend: Fr) f. sp. ciceri (Padwick) (FOC). The formulation was made using a crude extract of Ganoderma lucidum and an emulsion (water in oil: W/O); different dilutions of the formulation were made and applied to the chickpea and then challenged with the FOC. After the incubation with FOC, the chickpea was assayed for the enzyme involved in Phenylpropanoid pathways, i.e. Peroxidase (PO), Polyphenol oxidase (PPO) and Phenylalanine ammonia-lyase (PAL). The activity levels of these enzymes were changed in chickpea treated with the formulations as compared to the control (water treated chickpea). The GC-MS analysis confirmed bioactive compounds responsible for the enhanced level of enzyme in chickpea. The findings of the study would lead to the development of a bio-formulation based inducer of resistance molecules in the chickpea against the Fusarium wilt.
Archives of Phytopathology and Plant Protection – Taylor & Francis
Published: May 9, 2023
Keywords: Fusarium wilt; Ganoderma lucidum; formulation; bioactive compounds; chickpea
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.