Leaf polyphenol profile and SSR-based fingerprinting of new segregant Cynara cardunculus genotypes.

Gaetano Pandino,Sergio Lanteri,Andrea Moglia,Giovanni Mauromicale,Ezio Portis,Sara Lombardo

doi:10.3389/fpls.2014.00800

Gaetano Pandino, Sergio Lanteri + Show 4 more

Open Access

https://doi.org/10.3389/fpls.2014.00800

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Abstract

The dietary value of many plant polyphenols lies in the protection given against degenerative pathologies. Their in planta role is associated with the host's defense response against biotic and abiotic stress. The polyphenol content of a given plant tissue is strongly influenced by the growing environment, but is also genetically determined. Plants belonging to the Cynara cardunculus species (globe artichoke and the cultivated and wild cardoon) accumulate substantial quantities of polyphenols mainly mono and di-caffeoylquinic acid (CQA) in their foliage. Transgressive segregation for CQA content in an F1 population bred from a cross between a globe artichoke and a cultivated cardoon led to the selection of eight segregants which accumulated more CQA in their leaves than did those of either of their parental genotypes. The selections were grown over two seasons to assess their polyphenol profile (CQAs, apigenin and luteolin derivatives and narirutin), and were also fingerprinted using a set of 217 microsatellite markers. The growing environment exerted a strong effect on polyphenol content, but two of the selections were able to accumulate up to an order of magnitude more CQA than either parent in both growing seasons. Since the species is readily vegetatively propagable, such genotypes can be straightforwardly exploited as a source of pharmaceutically valuable compounds, while their SSR-based fingerprinting will allow the genetic identity of clonally propagated material to be easily verified.

Highlights

Polyphenols are a diverse group of plant secondary metabolites involved in both protection against biotic and abiotic stresses, and in plant growth and reproduction (Friedman, 1997; Bravo, 1998)
Transgressive segregation for caffeoylquinic acid (CQA) content in an F1 population bred from a cross between a globe artichoke and a cultivated cardoon led to the selection of eight segregants which accumulated more CQA in their leaves than did those of either of their parental genotypes
VARIATION IN CAFFEOYLQUINIC ACID CONTENT IN THE FULL F1 POPULATION Analysis of the methanolic extracts showed that the major leaf phenolic compounds present were chlorogenic acid (5-Ocaffeoylquinic acid; 5-O-CQA) and 1,5-O-dicaffeoylquinic acid (1,5-O-diCQA)

Summary

Introduction

Polyphenols are a diverse group of plant secondary metabolites involved in both protection against biotic and abiotic stresses, and in plant growth and reproduction (Friedman, 1997; Bravo, 1998) They represent an important component of the human diet, as many epidemiological studies have demonstrated that their consumption can be related to a decreased incidence or severity of a number of chronic diseases (Jang et al, 1997; Arai et al, 2000; Birt et al, 2001; Miller and Snyder, 2012). Genotype is a major determinant of variation in polyphenol content and profile (Mpofu et al, 2006; Farshadfar et al, 2012; Alfaro et al, 2013; Gündüz and Özdemir, 2014).

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