S. V. Sokornova, E. L. Gasich, L. B. Khlopunova & A. N. Alekseeva. (2023) Ecological and Genetic Characteristics of the Phoma-Like Micromycete Calophoma complanata. Contemporary Problems of Ecology 16:4, pages 479-491.
Crossref
Mahendra Rai, Beata Zimowska, Aniket Gade & Pramod Ingle. (2023) Phoma spp. an untapped treasure of cytotoxic compounds: current status and perspectives. Applied Microbiology and Biotechnology 107:16, pages 4991-5001.
Crossref
Nirmaladevi Dhamodaran, Narasimhamurthy Konappa, Srinivas Chowdappa & Sudisha Jogaiah. 2023. Fungal Resources for Sustainable Economy. Fungal Resources for Sustainable Economy
251
273
.
Víctor López & Francisco Les. 2023. Natural Secondary Metabolites. Natural Secondary Metabolites
607
626
.
Mahendra Rai, Beata Zimowska, Aniket Gade & Pramod Ingle. (2022) Promising antimicrobials from Phoma spp.: progress and prospects. AMB Express 12:1.
Crossref
Shuang Yang, Wen-Zhi Shi, Xing Long, Shi-Yu Li, Li-Jingfei Sun, Rong-Huang Ceng, Shuang Su, Xue-Qiong Yang, Ya-Bin Yang & Zhong-Tao Ding. (2022) A New Diphenyl Derivative from Endogenous Phoma sp. Associated with the Edible Mushroom Boletus edulis. Chemistry of Natural Compounds 58:2, pages 261-263.
Crossref
Kannaiah Surendirakumar, Radha Raman Pandey, Thangavelu Muthukumar, Anbazhagan Sathiyaseelan, Surbala Loushambam & Amit Seth. (2022) Characterization and biological activities of melanin pigment from root endophytic fungus, Phoma sp. RDSE17. Archives of Microbiology 204:3.
Crossref
Farjana Sultana & Md. Motaher Hossain. 2022. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology
91
119
.
Beata Zimowska. 2022. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology
13
34
.
Aniket Gade, Sudhir Shende & Mahendra Rai. 2022. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology
313
325
.
Luciana Luft, Tássia C. Confortin, Izelmar Todero & Marcio A. Mazutti. 2022. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology
221
242
.
Pramod Kumar Mahish, Shweta Singh & Ravishankar Chauhan. 2022. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology
205
219
.
Hidayat Hussain, Elizbit, Iftikhar Ali, Nilufar Z. Mamadalieva, Ghulam Abbas, Maroof Ali, Gohar Zaman, Amjad Khan, Uzma Hassan & Ivan R. Green. 2022. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology. Phoma: Diversity, Taxonomy, Bioactivities, and Nanotechnology
183
203
.
Mahendra Rai, Beata Zimowska, Surbhi Shinde & Marcus V. Tres. (2021) Bioherbicidal potential of different species of Phoma: opportunities and challenges. Applied Microbiology and Biotechnology 105:8, pages 3009-3018.
Crossref
Andreia Alves da Costa Silveira, Leila Garcês Araújo, Marta Cristina Corsi de Fillipi & Sérgio Tadeu Sibov. (2020) Isolation, identification and characterization of endophytic fungi of Bambusa oldhamii munro applied as antagonists to Pyricularia oryzae. Revista Ceres 67:4, pages 296-305.
Crossref
Wonyong Kim & Weidong Chen. (2019) Phytotoxic Metabolites Produced by Legume-Associated Ascochyta and Its Related Genera in the Dothideomycetes. Toxins 11:11, pages 627.
Crossref
T. Kowalski, W. Kraj, B. Bednarz & R. Rossa. (2019) The association of Boeremia lilacis with necrotic lesions on shoots and leaf petioles and its pathogenicity towards Fraxinus excelsior. European Journal of Plant Pathology 154:4, pages 961-974.
Crossref
Lars-Erik Petersen, Michael Marner, Antje Labes & Deniz Tasdemir. (2019) Rapid Metabolome and Bioactivity Profiling of Fungi Associated with the Leaf and Rhizosphere of the Baltic Seagrass Zostera marina. Marine Drugs 17:7, pages 419.
Crossref
Peter M. Eze, Dominic O. Abonyi, Chika C. Abba, Peter Proksch, Festus B. C. Okoye & Charles O. Esimone. (2019)
Toxic, but beneficial compounds from endophytic fungi of
Carica papaya
. The EuroBiotech Journal 3:2, pages 105-111.
Crossref
Mohammed Shariq Iqbal & Mohammad Israil Ansari. 2019. Natural Bio-active Compounds. Natural Bio-active Compounds
183
204
.
Sakshi Tewari, Vijay Laxmi Shrivas, P. Hariprasad & Shilpi Sharma. 2019. Plant Health Under Biotic Stress. Plant Health Under Biotic Stress
189
218
.
Marco Masi, Paola Nocera, Maria C. Zonno, Angela Tuzi, Gennaro Pescitelli, Alessio Cimmino, Angela Boari, Alessandro Infantino, Maurizio Vurro & Antonio Evidente. (2018)
Lentiquinones A, B, and C, Phytotoxic Anthraquinone Derivatives Isolated from
Ascochyta lentis
, a Pathogen of Lentil
. Journal of Natural Products 81:12, pages 2700-2709.
Crossref
Mahendra Rai, Aniket Gade, Beata Zimowska, Avinash P. Ingle & Pramod Ingle. (2018) Marine-derived Phoma—the gold mine of bioactive compounds. Applied Microbiology and Biotechnology 102:21, pages 9053-9066.
Crossref
Sunil Deshmukh, Manish Gupta, Ved Prakash & Sanjai Saxena. (2018) Endophytic Fungi: A Source of Potential Antifungal Compounds. Journal of Fungi 4:3, pages 77.
Crossref
Mohammed Ibrahim, Thomas N. Sieber & Markus Schlegel. (2017) Communities of fungal endophytes in leaves of Fraxinus ornus are highly diverse. Fungal Ecology 29, pages 10-19.
Crossref
Jiyoung Kim, Deok-Hyo Yoon, Junsang Oh, Min-Woo Hyun, Jae-Gu Han & Gi-Ho Sung. (2016)
Calmodulin-mediated suppression of 2-ketoisovalerate reductase in
Beauveria bassiana
beauvericin biosynthetic pathway
. Environmental Microbiology 18:11, pages 4136-4143.
Crossref
Markus Schlegel, Vivanne Dubach, Larissa von Buol & Thomas N. Sieber. (2016) Effects of endophytic fungi on the ash dieback pathogen. FEMS Microbiology Ecology 92:9, pages fiw142.
Crossref
Felipe S. Chambergo & Estela Y. Valencia. (2016) Fungal biodiversity to biotechnology. Applied Microbiology and Biotechnology 100:6, pages 2567-2577.
Crossref
Jiyoung Kim, Hyesung Park, Jae-Gu Han, Junsang Oh, Hyung-Kyoon Choi, Seong Hwan Kim & Gi-Ho Sung. (2015)
Regulation of a phenylalanine ammonia lyase (BbPAL) by calmodulin in response to environmental changes in the entomopathogenic fungus
B
eauveria bassiana
. Environmental Microbiology 17:11, pages 4484-4494.
Crossref
Mariano Jordi Muria-Gonzalez, Yit-Heng Chooi, Susan Breen & Peter S. Solomon. (2015) The past, present and future of secondary metabolite research in the Dothideomycetes. Molecular Plant Pathology 16:1, pages 92-107.
Crossref
Mahendra Kumar Rai, Vaibhav V. Tiwari, László Irinyi & György János Kövics. (2013) Advances in Taxonomy of Genus Phoma: Polyphyletic Nature and Role of Phenotypic Traits and Molecular Systematics. Indian Journal of Microbiology 54:2, pages 123-128.
Crossref
Aniket Gade, Swapnil Gaikwad, Nelson Duran & Mahendra Rai. (2013)
Screening of different species of
Phoma
for the synthesis of silver nanoparticles
. Biotechnology and Applied Biochemistry 60:5, pages 482-493.
Crossref
N. N. Gessler, A. S. Egorova & T. A. Belozerskaya. (2013) Fungal anthraquinones. Applied Biochemistry and Microbiology 49:2, pages 85-99.
Crossref
Huiru Zhang, Yuchun Xiong, Hongyue Zhao, Yanjie Yi, Caiyun Zhang, Cuiping Yu & Chunping Xu. (2013) An antimicrobial compound from the endophytic fungus Phoma sp. isolated from the medicinal plant Taraxacum mongolicum. Journal of the Taiwan Institute of Chemical Engineers 44:2, pages 177-181.
Crossref
Nalin N. Wijayawardene, Eric H.C. Mckenzie, Ekachai Chukeatirote, Yong Wang & Kevin D. Hyde. (2012) Coelomycetes. Cryptogamie, Mycologie 33:3, pages 215-244.
Crossref
Jia‐Hui Pan, Juan‐Juan Deng, Yi‐Guang Chen, Jun‐Ping Gao, Yong‐Cheng Lin, Zhi‐Gang She & Yu‐Cheng Gu. (2010)
New Lactone and Xanthone Derivatives Produced by a Mangrove Endophytic Fungus
Phoma
sp. SK3RW1M from the South China Sea
. Helvetica Chimica Acta 93:7, pages 1369-1374.
Crossref
M.M. Aveskamp, J. de Gruyter, J.H.C. Woudenberg, G.J.M. Verkley & P.W. Crous. (2010) Highlights of the Didymellaceae: A polyphasic approach to characterise Phoma and related pleosporalean genera. Studies in Mycology 65, pages 1-60.
Crossref