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Developing a Nicotiana benthamiana transgenic platform for high value diterpene production and candidate gene evaluation

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JournalPlant biotechnology journal
DateAccepted/In press - 24 Feb 2021
DateE-pub ahead of print (current) - 3 Mar 2021
Early online date3/03/21
Original languageEnglish

Abstract

To engineer Nicotiana benthamiana to produce novel diterpenoids, we first aimed to increase production of the diterpenoid precursor geranylgeranyl pyrophosphate (GGPP) by upregulation of key genes of the non-mevalonate (MEP) pathway sourced from Arabidopsis thaliana. We used transient expression to evaluate combinations of the eight MEP pathway genes plus GGPP synthase and a Jatropha curcas casbene synthase (JcCAS) to identify an optimal combination for production of casbene from GGPP. AtDXS and AtHDR together with AtGGPPS and JcCAS gave a 410% increase in casbene production compared to transient expression of JcCAS alone. This combination was cloned into a single construct using the MoClo toolkit, and stably integrated into the N. benthamiana genome. We also created multigene constructs for stable transformation of two J. curcas cytochrome P450 genes, JcCYP726A20 and JcCYP71D495 that produce the more complex diterpenoid jolkinol C from casbene when expressed transiently with JcCAS in N. benthamiana. Stable transformation of JcCYP726A20, JcCYP71D495 and JcCAS did not produce any detectable jolkinol C until these genes were co-transformed with the optimal set of precursor-pathway genes. One such stable homozygous line was used to evaluate by transient expression the involvement of an "alkenal reductase"-like family of four genes in the further conversion of jolkinol C, leading to the demonstration that one of these performs reduction of the 12,13-double bond in jolkinol C. This work highlights the need to optimise precursor supply for production of complex diterpenoids in stable transformants and the value of such lines for novel gene discovery.

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© 2021 The Authors.

    Research areas

  • plant diterpenes, Euphorbiaceae, Jatropha curcas, casbene, jolkinol, lathyranes, double bond reductase, Nicotiana benthamiana, stable transformations

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