Study on secondary metabolites of Trichoderma atroviride F742 and their role in antibiosis

Aimé S, Alabouvette C, Steinberg C, Olivain C (2013) Molecular Plant-Microbe Interactions 26: 918–926.Search in Google Scholar

Alfiky A, Weisskopf L (2021) Journal of Fungi, 7(1), 61.Search in Google Scholar

Andrade AC, Van Nistelrooy JGM, Peery RB, Skatrud PL, De Waard MA (2000) Molecular and General Genetics MGG 263: 966–977.Search in Google Scholar

Baker SE, Perrone G, Richardson NM, Gallo A, Kubicek CP (2012) Microbiology 158: 147–154.Search in Google Scholar

Bell DK, Wells HD, Markham CR (1982) Phytopathology 72: 379–382.Search in Google Scholar

Benítez T, Rincón AM, Limón MC, Codón AC (2004) International microbiology 7: 249–260.Search in Google Scholar

Betina V, Sedmera P, Vokoun J, Podojil M (1986) Cellular and Molecular Life Sciences 42: 196–197.Search in Google Scholar

Chet I (1987) Innovative approaches to plant disease control. Wiley.Search in Google Scholar

Claydon N, Allan M, Hanson JR, Avent AG (1987) Transactions of the British Mycological Society, 88: 503–513.Search in Google Scholar

Clinical and Laboratory Standards Institute (CLSI). Approved standard–Eight edition, CLSI M7-A9, USA; 2014.Search in Google Scholar

Clinical and Laboratory Standards Institute (CLSI). NCCLS document M27-A, 15, 10, VA Medical Center, Tucson; 1996.Search in Google Scholar

Del Sorbo G, Schoonbeek HJ, De Waard MA (2000) Fungal genetics and biology, 30(1), 1–15.Search in Google Scholar

Dennis C, Webster J (1971) Transactions of the British Mycological Society 57: 41IN4-48.Search in Google Scholar

Druzhinina IS, Seidl-Seiboth V, Herrera-Estrella A, Horwitz BA, Kenerley CM, Monte E, Kubicek CP (2011) Nature Reviews Microbiology 9: 749–759.Search in Google Scholar

Dubey MK, Jensen DF, Karlsson M (2014) Molecular Plant-Microbe Interactions 27: 725–732.Search in Google Scholar

Dudová B, Hudecová D, Pokorný R, Mičková M, Palicová M, Segi’a P, Melník M (2002) Folia microbiologica 47: 225–229.Search in Google Scholar

Elad Y, Barak R, Chet I (1983) Journal of Bacteriology 154: 1431–1435.Search in Google Scholar

Fravel, Deborah R. Annual Review of Phytopathology 26.1 (1988): 75–91.Search in Google Scholar

Harman G, Khadka R, Doni F, Uphoff N (2021) Frontiers in Plant Science, 11, 610065.Search in Google Scholar

Higgins CF (2001) Research in microbiology 152: 205–210.Search in Google Scholar

Hjeljord L, Tronsmo A (1998) Trichoderma and Gliocladium 2: 131–151.Search in Google Scholar

Howell CR (2003) Plant disease 87: 4–10.Search in Google Scholar

Inbar J, Chet I (1992) Journal of Bacteriology 174: 1055–1059.Search in Google Scholar

Jeandet P, Vannozzi A, Sobarzo-Sánchez E, Uddin MS, Bru R, Martínez-Márquez A, Nabavi SM (2021) Natural product reports, 38(7), 1282–1329.Search in Google Scholar

Khan RAA, Najeeb S, Hussain S, Xie B, Li Y (2020) Microorganisms, 8(6), 817.Search in Google Scholar

Kubová Z, Pagáč T, Víglaš J, Olejníková P (2022) Acta Chimica Slovaca, 15(1), 85–96.Search in Google Scholar

Lee S, Yap M, Behringer G, Hung R, Bennett JW (2016) Fungal Biology and Biotechnology 3: 7.Search in Google Scholar

Lorito M, Woo SL, D’ambrosio M, Harman GE, Hayes CK, Kubicek CP, Scala F (1996) MPMI-Molecular Plant Microbe Interactions 9: 206–213.Search in Google Scholar

Lu Z, Tombolini R, Woo S, Zeilinger S, Lorito M, Jansson JK (2004) Applied and Environmental Microbiology 70: 3073–3081.Search in Google Scholar

Mukherjee M, Mukherjee PK, Horwitz BA, Zachow C, Berg G, Zeilinger S (2012) Indian journal of microbiology 52: 522–529.Search in Google Scholar

Olejnikova P et al. (2010) Folia microbiologica 55.1: 102–104.Search in Google Scholar

Pascale A, Proietti S, Pantelides IS, Stringlis IA (2020) Frontiers in plant science, 10, 1741.Search in Google Scholar

Pavlovičová R (1998) Chem. Listy, 92: 406–414.Search in Google Scholar

Poveda J, Abril-Urias P, Escobar C (2020) Frontiers in Microbiology, 11, 992.Search in Google Scholar

Raaijmakers JM, Paulitz TC, Steinberg C, Alabouvette C, Moёnne-Loccoz Y (2009) Plant and soil 321: 341–361.Search in Google Scholar

Rossman AY (2009) Biological Invasions 11: 97–107.Search in Google Scholar

Ruocco M, Lanzuise S, Vinale F, Marra R, Turrŕ D, Woo SL, Lorito M (2009) Molecular Plant-Microbe Interactions 22: 291–301.Search in Google Scholar

Schirmböck M, Lorito M, Wang YL, Hayes CK, Arisan-Atac I, Scala F, Kubicek CP (1994) Applied and Environmental Microbiology 60: 4364–4370.Search in Google Scholar

Sood M, Kapoor D, Kumar V, Sheteiwy MS, Ramakrishnan M, Landi M, Sharma A (2020) Plants, 9(6), 762.Search in Google Scholar

Su J, Zhao J, Zhao S, Li M, Pang S, Kang Z, Wang X (2021) Frontiers in Genetics, 12, 699342.Search in Google Scholar

Tyśkiewicz R, Nowak A, Ozimek E, Jaroszuk-Ściseł J (2022) International Journal of Molecular Sciences, 23(4), 2329.Search in Google Scholar

Vey A, Hoagland RE, Butt TM (2001) 12 Fungi as biocontrol agents 311.Search in Google Scholar

Vinale F, Sivasithamparam K, Ghisalberti EL, Marra R, Woo SL, Lorito M (2008) Soil Biology and Biochemistry, 40(1), 1–10.Search in Google Scholar

von Döhren H (2009) Fungal Genetics and Biology 46: 45–52.Search in Google Scholar

Yu J, Wang D, Geetha N, Khawar KM, Jogaiah S, Mujtaba M (2021) Carbohydrate Polymers, 261, 117904.Search in Google Scholar

Zeilinger S, Galhaup C, Payer K, Woo SL, Mach, RL, Fekete C, Kubicek CP (1999) Fungal Genetics and Biology 26: 131–140. Search in Google Scholar