Summary
Summary
We propose to biosynthesis de novo of fungal taxol® production by the regulation of transcription factors (TFs). However, such a scenario is not yet to be investigated in case of taxol-producing endophytic fungi. The principle aim of this project is to isolate TFs genes WRKY, AP2, MYP etc. that specifically regulate the expression of taxol biosynthetic rate limiting gene promoters using transient RNAi. The attractive features of this study, examining the elicitor-induced regulator of selected TFs genes to see whether their mRNA levels correlate with fungal taxol biosynthesis. In order to identify key regulators of taxol pathway, cDNAs will be explore to obtain the recombinant TF protein. This project offer de nova interactions between the TFs and the TB gene promoters, which results of DNA binding cis-elements. It can be exploited to produce superior increased taxol yields from wild or transgenic fungi. This programme of work will provide a new strategy for unlocking the full potential of fungal biotechnology at the interface with metabolic engineering and rDNA technology to establish of fungal fermentation through genetic engineering approaches. The complementary expertise of Dr Kamal (Fungal biotechnology) and the supervisor Prof. Dr. Frank Kempken (FK) (Fungal genetic and molecular biology) offer the unique combination to realize the fungal taxol biosynthetic potential. Overall, this research will lead to a comprehensive understanding of the key TFs that control elicitor induced metabolic changes to produce highest yield of fungal taxol and will provide intellectual property (IP), technology development, which lead to Dr. Kamal with new and cutting-edge research training.
We propose to biosynthesis de novo of fungal taxol® production by the regulation of transcription factors (TFs). However, such a scenario is not yet to be investigated in case of taxol-producing endophytic fungi. The principle aim of this project is to isolate TFs genes WRKY, AP2, MYP etc. that specifically regulate the expression of taxol biosynthetic rate limiting gene promoters using transient RNAi. The attractive features of this study, examining the elicitor-induced regulator of selected TFs genes to see whether their mRNA levels correlate with fungal taxol biosynthesis. In order to identify key regulators of taxol pathway, cDNAs will be explore to obtain the recombinant TF protein. This project offer de nova interactions between the TFs and the TB gene promoters, which results of DNA binding cis-elements. It can be exploited to produce superior increased taxol yields from wild or transgenic fungi. This programme of work will provide a new strategy for unlocking the full potential of fungal biotechnology at the interface with metabolic engineering and rDNA technology to establish of fungal fermentation through genetic engineering approaches. The complementary expertise of Dr Kamal (Fungal biotechnology) and the supervisor Prof. Dr. Frank Kempken (FK) (Fungal genetic and molecular biology) offer the unique combination to realize the fungal taxol biosynthetic potential. Overall, this research will lead to a comprehensive understanding of the key TFs that control elicitor induced metabolic changes to produce highest yield of fungal taxol and will provide intellectual property (IP), technology development, which lead to Dr. Kamal with new and cutting-edge research training.
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| Web resources: | https://cordis.europa.eu/project/id/101031370 |
| Start date: | 01-09-2021 |
| End date: | 31-08-2023 |
| Total budget - Public funding: | 174 806,40 Euro - 174 806,00 Euro |
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Original description
SummaryWe propose to biosynthesis de novo of fungal taxol® production by the regulation of transcription factors (TFs). However, such a scenario is not yet to be investigated in case of taxol-producing endophytic fungi. The principle aim of this project is to isolate TFs genes WRKY, AP2, MYP etc. that specifically regulate the expression of taxol biosynthetic rate limiting gene promoters using transient RNAi. The attractive features of this study, examining the elicitor-induced regulator of selected TFs genes to see whether their mRNA levels correlate with fungal taxol biosynthesis. In order to identify key regulators of taxol pathway, cDNAs will be explore to obtain the recombinant TF protein. This project offer de nova interactions between the TFs and the TB gene promoters, which results of DNA binding cis-elements. It can be exploited to produce superior increased taxol yields from wild or transgenic fungi. This programme of work will provide a new strategy for unlocking the full potential of fungal biotechnology at the interface with metabolic engineering and rDNA technology to establish of fungal fermentation through genetic engineering approaches. The complementary expertise of Dr Kamal (Fungal biotechnology) and the supervisor Prof. Dr. Frank Kempken (FK) (Fungal genetic and molecular biology) offer the unique combination to realize the fungal taxol biosynthetic potential. Overall, this research will lead to a comprehensive understanding of the key TFs that control elicitor induced metabolic changes to produce highest yield of fungal taxol and will provide intellectual property (IP), technology development, which lead to Dr. Kamal with new and cutting-edge research training.
Status
CLOSEDCall topic
MSCA-IF-2020Update Date
28-04-2024
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