| Products/Services Used | Details | Operation |
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| Codon Optimization | PAL from Rhodotorula glutinis (RgPAL)31, PAL from Trichosporon cutaneum (TcPAL)20, 4CL from Petroselinum crispum, STS from Vitis vinifera6 were codon-optimized for E. coli expression (http://www.jcat.de/), synthesized by GenScript (Nanjing, China).This resulted in pCDFD-Trc, pRSFD-Trc. Primers Pf_Trc (EcoNI) and Pr_Trc (FseI) were used to clone the Trc promoter, multi-cloning sites and rrnB terminator from pTrcHis2B to the sites of EcoNI/FseI in pACYCDuet-1, pETDuet-1, resulted in pACYC-Trc, pETD-Trc. PAL from Trichosporon cutaneum (TcPAL) was independently cloned from pUC57-TcPAL (synthesized by GenScript, Nanjing, China) into pCDFD-Trc using primers Pf_TcPAL (NcoI) and Pr_TcPAL (EcoRI) with enzymes NcoI and EcoRI, which resulted in pCDFD-Trc-TcPAL. 4CL was cloned from pUC57-4CL (synthesized by GenScript, Nanjing, China) into pCDFD-Trc by primers Pf_4CL (NcoI) and Pr_4CL (HindIII) and the enzymes NcoI and HindIII, resulted in pCDFD-Trc-4CL. pCDFD-Trc-TcPAL-Trc4CL was constructed by amplifying Trc promoter and 4CL (pTrc-4CL region) with primers Pf_Ptrc4CL (EcoRI) and Pr_Ptrc4CL (HindIII) and cloning into pCDFD-Trc-TcPAL with EcoRI and HindIII.4CL was independently cloned into pCDFD-Trc, pETD-Trc, pRSFD-Trc and pACYC-Trc from pUC57-4CL (GenScript, Nanjing, China) via primers Pf_4CL (NcoI) and Pr_4CL (EcoRI) with the restriction enzymes NcoI and EcoRI, respectively. This resulted in pCDFD-Trc-4CL, pETD-Trc-4CL, pRSFD-Trc-4CL, pACYC-Trc-4CL. STS was independently cloned into pCDFD-Trc from pUC57-STS (GenScript, Nanjing, China) via primers Pf_ STS (NcoI) and Pr_STS (HindIII) with the restriction enzymes NcoI and HindIII, resulted in pCDFD-Trc-STS. | Get A Quote |
Efficient biosynthesis of the plant polyphenol pinosylvin, which has numerous applications in nutraceuticals and pharmaceuticals, is necessary to make biological production economically viable. To this end, an efficient Escherichia coli platform for pinosylvin production was developed via a rational modular design approach. Initially, different candidate pathway enzymes were screened to construct de novo pinosylvin pathway directly from D-glucose. A comparative analysis of pathway intermediate pools identified that this initial construct led to the intermediate cinnamic acid accumulation. The pinosylvin synthetic pathway was then divided into two new modules separated at cinnamic acid. Combinatorial opt... More
