[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