Difference between revisions of "Part:BBa K3645011"
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===Characterization from iGEM21-NNU-China=== | ===Characterization from iGEM21-NNU-China=== | ||
− | Microbially produced 2‑Phenylethanol (2-PE) is mainly obtained by two routes, containing the de novo pathway from glucose and bioconversion from L-phenylalanine by the Ehrlich pathway. Compared to the multi-step pathway, the Ehrlich pathway provides more efficient synthesis of 2-PE In the Ehrlich pathway, the generation of L-phenylalanine by oxidative decarboxylation to phenylethylaldehyde is a key step in the high yield of 2-PE(Farhi et al. 2010) (Fig. 1). Petunia hybrida hybrid phenylacetaldehyde synthase (PAAS) was first registered in 2021, which had been shown to have functional activity in Saccharomyces cerevisiae BY4741. We introduced this gene into the genome of Y. lipolytica polf and tested it in shake flask fermentation with 4 g/L of L-phe. The experimental result showed that overexpression of PhPAAS ( | + | Microbially produced 2‑Phenylethanol (2-PE) is mainly obtained by two routes, containing the de novo pathway from glucose and bioconversion from L-phenylalanine by the Ehrlich pathway. Compared to the multi-step pathway, the Ehrlich pathway provides more efficient synthesis of 2-PE In the Ehrlich pathway, the generation of L-phenylalanine by oxidative decarboxylation to phenylethylaldehyde is a key step in the high yield of 2-PE(Farhi et al. 2010) (Fig. 1). Petunia hybrida hybrid phenylacetaldehyde synthase (PAAS) was first registered in 2021, which had been shown to have functional activity in Saccharomyces cerevisiae BY4741. We introduced this gene into the genome of Y. lipolytica polf and tested it in shake flask fermentation with 4 g/L of L-phe. The experimental result showed that overexpression of PhPAAS (BBa_K4297067) does not affect the normal growth of Y. lipolytica. Simultaneously, there was a significant increase in the yield of 2-PE, reaching 957.35 mg/L (Fig. 1). These results provide references for future iGEM team to select suitable sources of PAAS. |
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Revision as of 11:54, 13 October 2022
Target-AID (CBE)
Contains the full CDS of Target-AID, whose Cas9 part was replace with our lab's dCas9.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 1099
- 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 4775
Illegal BamHI site found at 3378
Illegal XhoI site found at 4384 - 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Contribution From NNU-China 2021
Group: iGEM Team NNU-China 2021
Author: Yan Xu
Summary: Testing its gene editing efficiency in BL21 (DE3)
Characterization from iGEM21-NNU-China
Microbially produced 2‑Phenylethanol (2-PE) is mainly obtained by two routes, containing the de novo pathway from glucose and bioconversion from L-phenylalanine by the Ehrlich pathway. Compared to the multi-step pathway, the Ehrlich pathway provides more efficient synthesis of 2-PE In the Ehrlich pathway, the generation of L-phenylalanine by oxidative decarboxylation to phenylethylaldehyde is a key step in the high yield of 2-PE(Farhi et al. 2010) (Fig. 1). Petunia hybrida hybrid phenylacetaldehyde synthase (PAAS) was first registered in 2021, which had been shown to have functional activity in Saccharomyces cerevisiae BY4741. We introduced this gene into the genome of Y. lipolytica polf and tested it in shake flask fermentation with 4 g/L of L-phe. The experimental result showed that overexpression of PhPAAS (BBa_K4297067) does not affect the normal growth of Y. lipolytica. Simultaneously, there was a significant increase in the yield of 2-PE, reaching 957.35 mg/L (Fig. 1). These results provide references for future iGEM team to select suitable sources of PAAS.
- Fig. 1. A. The key synthetic steps of the Ehrlich pathway. B. Overexpression of PhPAAS enhances 2-PE yield.
Reference
1. Farhi M, Lavie O, Masci T, Hendel-Rahmanim K, Weiss D, Abeliovich H, Vainstein A (2010) Identification of rose phenylacetaldehyde synthase by functional complementation in yeast. Plant Mol Biol 72(3):235-245.