Enhanced Electrochemical Voltammetric Fingerprints for Plant Taxonomic Sensing

Overview

Journal Biosens Bioelectron

Specialties Biochemistry
Biotechnology

Date 2018 Sep 2

PMID 30172233

Citations 13

Authors

Li Fu

Yuhong Zheng

Pengchong Zhang

Haoyang Zhang

Weibing Zhuang

Huaiwei Zhang

Aiwu Wang

Weitao Su

Jinhong Yu

Cheng-Te Lin

Affiliations

Soon will be listed here.

Abstract

Graphene-embedded plant tissues show a high sensitivity to electrochemical signals, which enables a screen-printed electrode to be used for electrochemical fingerprint recording. The electrochemical fingerprints obtained under different conditions can be transformed into multidimensional recognition modes for plant identification. These electrochemical fingerprints reflect the types and quantities of the electrochemically active substances in plant tissues such that the fingerprints can be used for chemotaxonomic investigations. In this paper, five species of Lycoris bulbs, including L. chinensis, L. radiate, L. aurea, L. sprengeri and L. straminea, were successfully recognized by electrochemical fingerprinting. The species's interspecific relationships were also investigated. L. chinensis and L. aurea show highly similar morphology but have a relatively distant relationship. Hybridized L. radiata shows a notably close relationship with L. straminea, suggesting that one of its parents may be L. radiata. In addition, L. chinensis also shows a close relationship with L. straminea, suggesting that the L. straminea may be produced by cross-breeding L. chinensis and L. radiate. The results mentioned above indicate that the proposed electro-chemotaxonomic methodology is an inexpensive and quick taxonomic method that can provide additional evidence for the existing taxonomy system.

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