Meenakshi Rajput, Manish Kumar & Nidhi Pareek. (2022) Myco-chitinases as versatile biocatalysts for translation of coastal residual resources to eco-competent chito-bioactives. Fungal Biology Reviews 41, pages 52-69.
Crossref
Olumayowa Mary Olowe, Lidia Nicola, Michael Dare Asemoloye, Akinlolu Olalekan Akanmu & Olubukola Oluranti Babalola. (2022) Trichoderma: Potential bio-resource for the management of tomato root rot diseases in Africa. Microbiological Research 257, pages 126978.
Crossref
Prasun K. Mukherjee, Artemio Mendoza-Mendoza, Susanne Zeilinger & Benjamin A. Horwitz. (2022) Mycoparasitism as a mechanism of Trichoderma-mediated suppression of plant diseases. Fungal Biology Reviews 39, pages 15-33.
Crossref
Şeyma Çolakoğlu Özkaya, Hüseyin Okan Soykam & Günseli Bayram Akçapınar. 2022. Advances in Trichoderma Biology for Agricultural Applications. Advances in Trichoderma Biology for Agricultural Applications
397
432
.
Jorge Poveda. (2021) Biological control of Fusarium oxysporum f. sp. ciceri and Ascochyta rabiei infecting protected geographical indication Fuentesaúco-Chickpea by Trichoderma species. European Journal of Plant Pathology 160:4, pages 825-840.
Crossref
Manvika Sahgal. 2021. Progress in Mycology. Progress in Mycology
327
356
.
Lisa Kappel & Sabine Gruber. 2020. New and Future Developments in Microbial Biotechnology and Bioengineering. New and Future Developments in Microbial Biotechnology and Bioengineering
243
280
.
Harekrushna Swain & Arup K. Mukherjee. 2020. Trichoderma. Trichoderma
149
165
.
Narasimhamurthy Konappa, Soumya Krishnamurthy, Nirmaladevi Dhamodaran, Udayashankar C. Arakere, Niranjana Siddapura Ramachandrappa & Srinivas Chowdappa. 2020. Trichoderma: Agricultural Applications and Beyond. Trichoderma: Agricultural Applications and Beyond
41
85
.
Y. M. Polyak & V. I. Sukcharevich. (2020) Allelopathic Interactions between Plants and Microorganisms in Soil Ecosystems. Biology Bulletin Reviews 9:6, pages 562-574.
Crossref
Darshna G. Hirpara, H. P. Gajera, Abha K. Patel, Zinkal A. Katakpara & B. A. Golakiya. (2018)
Molecular insights into development of
Trichoderma
interfusants for multistress tolerance enhancing antagonism against
Sclerotium rolfsii
Sacc
. Journal of Cellular Physiology 234:5, pages 7368-7383.
Crossref
Darshna G. Hirpara & H.P. Gajera. (2018) Molecular heterozygosity and genetic exploitations of Trichoderma inter-fusants enhancing tolerance to fungicides and mycoparasitism against Sclerotium rolfsii Sacc.. Infection, Genetics and Evolution 66, pages 26-36.
Crossref
H. Xia, Y. Y. Li, Z. C. Liu, Y. Q. Li & J. Chen. (2018) Transgenic Expression of chit42 gene from Metarhiziumanisopliae in Trichoderma harzianum Enhances Antagonistic Activity against Botrytis cinerea. Molecular Biology 52:5, pages 668-675.
Crossref
Elangovan Elamathi, Palaniyandi Malathi, Rasappa Viswanathan & Amalraj Ramesh Sundar. (2018) Expression analysis on mycoparasitism related genes during antagonism of Trichoderma with Colletotrichum falcatum causing red rot in sugarcane. Journal of Plant Biochemistry and Biotechnology 27:3, pages 351-361.
Crossref
William L. Franck, Emine Gokce, Yeonyee Oh, David C. Muddiman & Ralph A. Dean. (2013) Temporal Analysis of the Magnaporthe Oryzae Proteome During Conidial Germination and Cyclic AMP (cAMP)-mediated Appressorium Formation. Molecular & Cellular Proteomics 12:8, pages 2249-2265.
Crossref
Ada Viterbo & Benjamin A. Horwitz. 2010. Cellular and Molecular Biology of Filamentous Fungi. Cellular and Molecular Biology of Filamentous Fungi
676
693
.
Maria Cecilia Gortari & Roque Alberto Hours. (2008) Fungal chitinases and their biological role in the antagonism onto nematode eggs. A review. Mycological Progress 7:4, pages 221-238.
Crossref
Margaret A. Carpenter, Hayley J. Ridgway, Alison M. Stringer, Amanda J. Hay & Alison Stewart. (2008) Characterisation of a Trichoderma hamatum monooxygenase gene involved in antagonistic activity against fungal plant pathogens. Current Genetics 53:4, pages 193-205.
Crossref
M. Montero, L. Sanz, M. Rey, A. Llobell & E. Monte. (2007)
Cloning and characterization of
bgn16·3
, coding for a β-1,6-glucanase expressed during
Trichoderma harzianum
mycoparasitism
. Journal of Applied Microbiology 103:4, pages 1291-1300.
Crossref
Iván V. Rosado, Manuel Rey, Antonio C. Codón, Javier Govantes, Miguel A. Moreno-Mateos & Tahía Benítez. (2007) QID74 Cell wall protein of Trichoderma harzianum is involved in cell protection and adherence to hydrophobic surfaces. Fungal Genetics and Biology 44:10, pages 950-964.
Crossref
M. Belén Suárez, J. Antonio Vizcaíno, Antonio Llobell & Enrique Monte. (2007) Characterization of genes encoding novel peptidases in the biocontrol fungus Trichoderma harzianum CECT 2413 using the TrichoEST functional genomics approach. Current Genetics 51:5, pages 331-342.
Crossref
John M. Whipps, Amanda Bennett, Mike Challen, John Clarkson, Emma Coventry, S. Muthumeenakshi, Ralph Noble, Chris Rogers, S. Sreenivasaprasad & E. Eirian Jones. 2007. Novel Biotechnologies for Biocontrol Agent Enhancement and Management. Novel Biotechnologies for Biocontrol Agent Enhancement and Management
223
241
.
B. A. Bailey, H. Bae, M. D. Strem, D. P. Roberts, S. E. Thomas, J. Crozier, G. J. Samuels, Ik-Young Choi & K. A. Holmes. (2006) Fungal and plant gene expression during the colonization of cacao seedlings by endophytic isolates of four Trichoderma species. Planta 224:6, pages 1449-1464.
Crossref
Margaret A. Carpenter, Alison Stewart & Hayley J. Ridgway. (2005)
Identification of novel
Trichoderma hamatum
genes expressed during mycoparasitism using subtractive hybridisation
. FEMS Microbiology Letters 251:1, pages 105-112.
Crossref