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| Natura: | Artículo científico |
| Lingua: | en |
| Pubblicazione: |
Bioresource technology
2026
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| Soggetti: | |
| Accesso online: | https://pubmed.ncbi.nlm.nih.gov/40998061/ |
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| _version_ | 1868266149476564992 |
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| author | Song, Ji-Zheng Gui, Zhen-Tong Fang, Ya-Meng Qin, Yu-Xin Liu, Ya-Jun Chi, Zhen-Ming Liu, Guang-Lei |
| author_facet | Song, Ji-Zheng Gui, Zhen-Tong Fang, Ya-Meng Qin, Yu-Xin Liu, Ya-Jun Chi, Zhen-Ming Liu, Guang-Lei Song, Ji-Zheng Gui, Zhen-Tong Fang, Ya-Meng Qin, Yu-Xin Liu, Ya-Jun Chi, Zhen-Ming Liu, Guang-Lei |
| collection | PubMed - marine biology |
| contents | Distribution and transcriptional regulation of fungal inulinases and their biotechnological applications for inulin biorefinery. Song, Ji-Zheng Gui, Zhen-Tong Fang, Ya-Meng Qin, Yu-Xin Liu, Ya-Jun Chi, Zhen-Ming Liu, Guang-Lei Inulin Glycoside Hydrolases Biotechnology Fungi Gene Expression Regulation, Fungal Transcription, Genetic Inulin, a naturally abundant β-linked fructan widely distributed in plants, is recognized as a low-cost, high-yield, non-grain-based feedstock with broad industrial potential. Inulinases, which specifically hydrolyze the β-2,1 linkages of inulin, play a pivotal role in converting inulin into fermentable sugars (fructose and glucose) for use as carbon sources in synthesizing value-added products. To date, characterized inulinases are predominantly derived from fungi, attracting extensive research interest in recent years. This review summarizes recent progress in fungal inulinase research, covering the contents of identifying novel inulinase-producing taxa, elucidating regulatory mechanisms of inulinase-encoding genes, and developing innovative strategies for inulin and inulin-rich materials bioconversion. It further highlights unique mechanistic insights into fungal inulinases and emphasizes their application potential for sustainable inulin-based biorefinery. |
| format | Artículo científico |
| id | pubmed_40998061 |
| institution | PubMed |
| language | en |
| publishDate | 2026 |
| publisher | Bioresource technology |
| record_format | pubmed |
| spellingShingle | Distribution and transcriptional regulation of fungal inulinases and their biotechnological applications for inulin biorefinery. Song, Ji-Zheng Gui, Zhen-Tong Fang, Ya-Meng Qin, Yu-Xin Liu, Ya-Jun Chi, Zhen-Ming Liu, Guang-Lei Inulin Glycoside Hydrolases Biotechnology Fungi Gene Expression Regulation, Fungal Transcription, Genetic Distribution and transcriptional regulation of fungal inulinases and their biotechnological applications for inulin biorefinery. Song, Ji-Zheng Gui, Zhen-Tong Fang, Ya-Meng Qin, Yu-Xin Liu, Ya-Jun Chi, Zhen-Ming Liu, Guang-Lei Inulin Glycoside Hydrolases Biotechnology Fungi Gene Expression Regulation, Fungal Transcription, Genetic Inulin, a naturally abundant β-linked fructan widely distributed in plants, is recognized as a low-cost, high-yield, non-grain-based feedstock with broad industrial potential. Inulinases, which specifically hydrolyze the β-2,1 linkages of inulin, play a pivotal role in converting inulin into fermentable sugars (fructose and glucose) for use as carbon sources in synthesizing value-added products. To date, characterized inulinases are predominantly derived from fungi, attracting extensive research interest in recent years. This review summarizes recent progress in fungal inulinase research, covering the contents of identifying novel inulinase-producing taxa, elucidating regulatory mechanisms of inulinase-encoding genes, and developing innovative strategies for inulin and inulin-rich materials bioconversion. It further highlights unique mechanistic insights into fungal inulinases and emphasizes their application potential for sustainable inulin-based biorefinery. |
| title | Distribution and transcriptional regulation of fungal inulinases and their biotechnological applications for inulin biorefinery. |
| topic | Inulin Glycoside Hydrolases Biotechnology Fungi Gene Expression Regulation, Fungal Transcription, Genetic |
| url | https://pubmed.ncbi.nlm.nih.gov/40998061/ |