日期 影响因子
日期:
2020 年 — 2026 年
2020
2021
2022
2023
2024
2025
2026
影响因子:

Fungal Coculture: Unlocking the Potential for Efficient Bioconversion of Lignocellulosic Biomass

真菌共培养:释放木质纤维素生物质高效生物转化的潜力

期刊:Journal of Fungi
影响因子:4
doi:10.3390/jof11060458
Vieira, Rafael Icaro Matos; Peixoto, Alencar da Silva; Monclaro, Antonielle Vieira; Ricart, Carlos André Ornelas; Filho, Edivaldo Ximenes Ferreira; Miller, Robert Neil Gerard; Gomes, Taísa Godoy
微生物学
发表日期:2025
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LPMO-oxidized cellulose oligosaccharides evoke immunity in Arabidopsis conferring resistance towards necrotrophic fungus B. cinerea

LPMO氧化纤维素寡糖诱导拟南芥产生免疫力,使其对坏死性真菌灰霉病菌(B. cinerea)具有抗性。

期刊:Communications Biology
影响因子:5.1
doi:10.1038/s42003-021-02226-7
Zarattini, Marco; Corso, Massimiliano; Kadowaki, Marco Antonio; Monclaro, Antonielle; Magri, Silvia; Milanese, Irma; Jolivet, Sylvie; de Godoy, Mariana Ortiz; Hermans, Christian; Fagard, Mathilde; Cannella, David
微生物学
免疫/内分泌
发表日期:2021
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A review on the potential of filamentous fungi for microbial self-healing of concrete

丝状真菌在混凝土微生物自修复中的应用潜力综述

期刊:Fungal Biology and Biotechnology
影响因子:
doi:10.1186/s40694-021-00122-7
Van Wylick, Aurélie; Monclaro, Antonielle Vieira; Elsacker, Elise; Vandelook, Simon; Rahier, Hubert; De Laet, Lars; Cannella, David; Peeters, Eveline
微生物学
发表日期:2021
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Characterization of two family AA9 LPMOs from Aspergillus tamarii with distinct activities on xyloglucan reveals structural differences linked to cleavage specificity

对来自 Aspergillus tamarii 的两个 AA9 LPMO 家族进行表征,发现它们对木葡聚糖具有不同的活性,并揭示了与裂解特异性相关的结构差异

期刊:PLoS One
影响因子:2.9
doi:10.1371/journal.pone.0235642
Antonielle V Monclaro, Dejan M Petrović, Gabriel S C Alves, Marcos M C Costa, Glaucia E O Midorikawa, Robert N G Miller, Edivaldo X F Filho, Vincent G H Eijsink, Anikó Várnai
信号转导
发表日期:2020
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