Caffeic acid product from the highly copper-tolerant plant Elsholtzia splendens post-phytoremediation: its extraction, purification, and identification

Yan, Xinghong; Peng, Hongxia; Zhang, Mengxi; Li, Xia; Zeng, Weiwei; Yang, Xiaoe

doi:10.1631/jzus.b1100298

Cited by 44 publications

(25 citation statements)

References 9 publications

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“…Despite its established market and hopeful expansion of applications, current production approaches of caffeic acid from plant extract have been regarded as energy‐intensive and environmentally unfriendly (Xing et al, ). And it is desirable to develop more efficient innovative producing strategies to meet the growing market and to lower the cost.…”

Section: Introductionmentioning

confidence: 99%

Caffeic acid production enhancement by engineering a phenylalanine over‐producing Escherichia coli strain

Huang

Lin

Yan

2013

Biotech & Bioengineering

130

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Caffeic acid is a plant-specific phenylpropanoic acid with multiple health-improving effects reported, and its therapeutic derivatives have also been studied throughout the last decade. To meet its market need and achieve high-level production, microbial production of caffeic acid approaches have been developed in metabolically engineered Escherichia coli. In our previous work, we have established the first artificial pathway that realized de novo production of caffeic acid using E. coli endogenous 4-hydroxyphenylacetate 3-hydroxylase (4HP3H). In this work, we exploited the catalytic potential of 4HPA3H in the whole-cell bioconversion study and produced 3.82 g/L (461.12 mg/L/OD) caffeic acid from p-coumaric acid, a direct precursor. We further engineered a phenylalanine over-producer into a tyrosine over-producer and then introduced the artificial pathway. After adjusting the expression strategy and optimizing the inoculants timing, de novo production of caffeic acid reached 766.68 mg/L. Both results from the direct precursor and simple carbon sources represent the highest titers of caffeic acid from microbial production so far.

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Section: Introductionmentioning

confidence: 99%

Caffeic acid production enhancement by engineering a phenylalanine over‐producing Escherichia coli strain

Huang

Lin

Yan

2013

Biotech & Bioengineering

130

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“…Moreover, the determination of CA in wines received a considerable importance in quality control analysis. Hitherto, various analytical methods have been developed to determine the CA, including capillary gas chromatographic method8, liquid chromatography–electro spray ionization mass spectrometry9, high pressure liquid chromatography (HPLC)1011, capillary electrophoresis12 and voltammetric method13. These reported methods need sophisticated facilities and highly skilled technicians to operate those instruments, furthermore, they are time consuming process.…”

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confidence: 99%

A voltammetric determination of caffeic acid in red wines based on the nitrogen doped carbon modified glassy carbon electrode

Karikalan

Chen

2017

Sci Rep

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We reported an electrochemical determination of caffeic acid (CA) based on the nitrogen doped carbon (NDC). The described sensor material was prepared by the flame synthesis method, which gave an excellent platform for the synthesis of carbon nanomaterials with the hetero atom dopant. The synthesized material was confirmed by various physical characterizations and it was further characterized by different electrochemical experiments. The NDC modified glassy carbon electrode (NDC/GCE) shows the superior electrocatalytic performance towards the determination of CA with the wide linear concentration range from 0.01 to 350 μM. It achieves the lowest detection limit of 0.0024 μM and the limit of quantification of 0.004 μM. The NDC/GCE-CA sensor reveals the good selectivity, stability, sensitivity and reproducibility which endorsed that the NDC is promising electrode for the determination of CA. In addition, NDC modified electrode is applied to the determination of CA in red wines and acquired good results.

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“…ethyl acetate), thus being energy-intensive and environmentally unfriendly [7]. Moreover, 72 the yields obtained are low because it accumulates at low levels in plant cells.…”

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confidence: 99%

Heterologous production of caffeic acid from tyrosine in Escherichia coli

Rodrigues

Araújo

Prather

et al. 2015

Enzyme and Microbial Technology

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Caffeic acid product from the highly copper-tolerant plant Elsholtzia splendens post-phytoremediation: its extraction, purification, and identification

Cited by 44 publications

References 9 publications

Caffeic acid production enhancement by engineering a phenylalanine over‐producing Escherichia coli strain

Caffeic acid production enhancement by engineering a phenylalanine over‐producing Escherichia coli strain

A voltammetric determination of caffeic acid in red wines based on the nitrogen doped carbon modified glassy carbon electrode

Heterologous production of caffeic acid from tyrosine in Escherichia coli

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