Phenolic Compounds Content and Genetic Diversity at Population Level across the Natural Distribution Range of Bearberry (Arctostaphylos uva-ursi, Ericaceae) in the Iberian Peninsula

Bearberry (Arctostaphylos uva-ursi) is a medicinal plant traditionally employed for the treatment of urinary tract infections due to high contents of arbutin (hydroquinone β-D-glucoside), which is now mainly used as a natural skin-whitening agent in cosmetics. Bearberry has also been proposed as a natural antioxidant additive due to the high contents of phenolic compounds in leaves. We studied the variation on phenolic compounds in 42 wild populations of bearberry, aiming to elucidate if intrinsic biological, climatic, and/or geographic factors affect phenolic contents across its natural distribution in the Iberian Peninsula. Bearberry leaves were collected during autumn over a three-year period (2014–2016) in populations across a latitude and altitude gradient. Methanolic extracts showed a wide range of variation in total phenols content, and different phenolic profiles regarding arbutin (levels of this major constituent varied from 87 to 232 mg/g dr wt), but also catechin and myricetin contents, which were affected by geographic and climatic factors. Moderate levels of variation on genome size—assessed by flow cytometry—and on two plastid DNA regions were also detected among populations. Genetic and cytogenetic differentiation of populations was weakly but significantly associated to phytochemical diversity. Elite bearberry genotypes with higher antioxidant capacity were subsequently identified.

[1]  L. Di Ciaccio,et al.  The “polyploid effect” in the breeding of aromatic and medicinal species , 2020 .

[2]  I. Ljubenkov,et al.  Antioxidant and Antimicrobial Potential of Phenolic Metabolites from Traditionally Used Mediterranean Herbs and Spices , 2019, Foods.

[3]  K. Szabo,et al.  Phenolic Compounds from Five Ericaceae Species Leaves and Their Related Bioavailability and Health Benefits , 2019, Molecules.

[4]  C. Nerín,et al.  Antioxidant and antimicrobial markers by UPLC®-ESI-Q-TOF-MSE of a new multilayer active packaging based on Arctostaphylos uva-ursi. , 2019, Talanta.

[5]  L. Vitorino,et al.  Recent Trends in Research on the Genetic Diversity of Plants: Implications for Conservation , 2019, Diversity.

[6]  John P. Moore,et al.  Metabolomics as a complement to phylogenetics for assessing intraspecific boundaries in the desiccation-tolerant medicinal shrub Myrothamnus flabellifolia (Myrothamnaceae). , 2019, Phytochemistry.

[7]  V. Schubert,et al.  Variation in genome size, cell and nucleus volume, chromosome number and rDNA loci among duckweeds , 2019, Scientific Reports.

[8]  W. Mu,et al.  Recent progress on biological production of α-arbutin , 2018, Applied Microbiology and Biotechnology.

[9]  I. Álvarez,et al.  A new circumscription of the Mediterranean genus Anacyclus (Anthemideae, Asteraceae) based on plastid and nuclear DNA markers , 2018 .

[10]  V. Kadentsev,et al.  Constituents of Arctostaphylos uva-ursi Leaves , 2018, Chemistry of Natural Compounds.

[11]  M. Kanlayavattanakul,et al.  Plants and Natural Products for the Treatment of Skin Hyperpigmentation – A Review , 2018, Planta Medica.

[12]  I. Leitch,et al.  Genome Size Diversity and Its Impact on the Evolution of Land Plants , 2018, Genes.

[13]  Juan C. Sánchez-DelBarrio,et al.  DnaSP 6: DNA Sequence Polymorphism Analysis of Large Data Sets. , 2017, Molecular biology and evolution.

[14]  Weikang Yang,et al.  High genetic diversity in an endangered medicinal plant, Saussurea involucrata (Saussurea, Asteraceae), in western Tianshan Mountains, China , 2017, Conservation Genetics.

[15]  P. Poschlod,et al.  Phylogeography of a tough rock survivor in European dry grasslands , 2017, PloS one.

[16]  J. Guitian,et al.  Geographic genetic structure of Iberian columbines (gen. Aquilegia) , 2017, Plant Systematics and Evolution.

[17]  E. Weidner,et al.  Screening of European medicinal herbs on their tannin content—New potential tanning agents for the leather industry , 2017 .

[18]  Xingguang Dong,et al.  Study on chloroplast DNA diversity of cultivated and wild pears (Pyrus L.) in Northern China , 2017, Tree Genetics & Genomes.

[19]  Ana Maravić,et al.  Phytochemical and Cytogenetic Characterization of Centaurea solstitialis L. (Asteraceae) from Croatia , 2017, Chemistry & biodiversity.

[20]  G. Glauser,et al.  Biotic and abiotic factors associated with altitudinal variation in plant traits and herbivory in a dominant oak species. , 2016, American journal of botany.

[21]  Keiichi Mochida,et al.  Exploring Genetic Diversity in Plants Using High-Throughput Sequencing Techniques , 2016, Current genomics.

[22]  S. Abdullah,et al.  Study of the Properties of Bearberry Leaf Extract as a Natural Antioxidant in Model Foods , 2016, Antioxidants.

[23]  A. Segura‐Carretero,et al.  Phenolic composition and antioxidant activity of kenaf leaves , 2015 .

[24]  E. Narbona,et al.  On flavonoid accumulation in different plant parts: variation patterns among individuals and populations in the shore campion (Silene littorea) , 2015, Front. Plant Sci..

[25]  M. Krauze-Baranowska,et al.  The significance of arbutin and its derivatives in therapy and cosmetics , 2015 .

[26]  David Bryant,et al.  popart: full‐feature software for haplotype network construction , 2015 .

[27]  S. Barrett Influences of clonality on plant sexual reproduction , 2015, Proceedings of the National Academy of Sciences.

[28]  R. Petrucci,et al.  UHPLC-PDA-ESI-TOF/MS metabolic profiling of Arctostaphylos pungens and Arctostaphylos uva-ursi. A comparative study of phenolic compounds from leaf methanolic extracts. , 2015, Phytochemistry.

[29]  C. Külheim,et al.  Explaining intraspecific diversity in plant secondary metabolites in an ecological context. , 2014, The New phytologist.

[30]  T. Madarász,et al.  Validated HPLC Method for Simultaneous Quantitation of Bergenin, Arbutin, and Gallic Acid in Leaves of Different Bergenia Species , 2014, Chromatographia.

[31]  M. Almajano,et al.  The Effect of Perilla frutescens Extract on the Oxidative Stability of Model Food Emulsions , 2014, Antioxidants.

[32]  M. Pino-Yanes,et al.  Simultaneous purifying selection on the ancestral MC1R allele and positive selection on the melanoma-risk allele V60L in south Europeans. , 2013, Molecular biology and evolution.

[33]  V. Lattanzio,et al.  Plant phenolics: recent advances on their biosynthesis, genetics, and ecophysiology. , 2013, Plant physiology and biochemistry : PPB.

[34]  R. Julkunen‐Tiitto,et al.  Altitudinal and seasonal changes of phenolic compounds in Buxus sempervirens leaves and cuticles. , 2013, Plant physiology and biochemistry : PPB.

[35]  D. Olennikov,et al.  6″-Galloylpicein and other phenolic compounds from Arctostaphylos uva-ursi , 2013, Chemistry of Natural Compounds.

[36]  Heikki Kallio,et al.  Effects of latitude and weather conditions on phenolic compounds in currant (Ribes spp.) cultivars. , 2013, Journal of agricultural and food chemistry.

[37]  Wooki Kim,et al.  Biotechnological production of arbutins (α- and β-arbutins), skin-lightening agents, and their derivatives , 2012, Applied Microbiology and Biotechnology.

[38]  M. S. Brewer NATURAL ANTIOXIDANTS: SOURCES, COMPOUNDS, MECHANISMS OF ACTION, AND POTENTIAL APPLICATIONS , 2011 .

[39]  T. Garnatje,et al.  Origin and evolution of the South American endemic Artemisia species (Asteraceae): evidence from molecular phylogeny, ribosomal DNA and genome size data , 2010 .

[40]  A. Hohtola,et al.  Effect of latitude on flavonoid biosynthesis in plants. , 2010, Plant, cell & environment.

[41]  Muhammad Asim,et al.  A RP-HPLC-DAD-APCI/MSD method for the characterisation of medicinal Ericaceae used by the Eeyou Istchee Cree First Nations. , 2010, Phytochemical analysis : PCA.

[42]  Sonja Siljak-Yakovlev,et al.  Towards a Genome Size and Chromosome Number Database of Balkan Flora: C-Values in 343 Taxa with Novel Values for 242 , 2010 .

[43]  O. Kunert,et al.  Phytochemistry of heather (Calluna vulgaris (L.) Hull) and its altitudinal alteration , 2010, Phytochemistry Reviews.

[44]  L. Jaakola,et al.  Anthocyanin and flavonol variation in bog bilberries (Vaccinium uliginosum L.) in Finland. , 2010, Journal of agricultural and food chemistry.

[45]  R. Duval,et al.  Effect of latitude and altitude on the terpenoid and soluble phenolic composition of juniper (Juniperus communis) needles and evaluation of their antibacterial activity in the boreal zone. , 2009, Journal of agricultural and food chemistry.

[46]  B. Smallfield,et al.  Sesquiterpene lactones in Arnica montana: helenalin and dihydrohelenalin chemotypes in Spain. , 2009, Planta medica.

[47]  P. Saxena,et al.  Comparisons of Scutellaria baicalensis, Scutellaria lateriflora and Scutellaria racemosa: Genome Size, Antioxidant Potential and Phytochemistry , 2008, Planta medica.

[48]  Kaisu R Riihinen,et al.  Analysis of anthocyanin variation in wild populations of bilberry (Vaccinium myrtillus L.) in Finland. , 2008, Journal of agricultural and food chemistry.

[49]  J. Kerry,et al.  Evaluation of the antioxidant potential of grape seed and bearberry extracts in raw and cooked pork. , 2007, Meat science.

[50]  R. Gregory The evolution of the genome , 2005 .

[51]  John Fox,et al.  GETTING STARTED WITH THE R COMMANDER: A BASIC-STATISTICS GRAPHICAL USER INTERFACE TO R , 2005 .

[52]  P. Rahimi-Moghaddam,et al.  Free-radical scavenging capacity and antioxidant activity of selected plant species from the Canadian prairies , 2004 .

[53]  Miaw-Ling Chang,et al.  Simultaneous HPLC determination of hydrophilic whitening agents in cosmetic products. , 2003, Journal of pharmaceutical and biomedical analysis.

[54]  C. Codina,et al.  Variation of the Arbutin Content in Different Wild Populations of Arctostaphylos uva-ursi in Catalonia, Spain , 2002 .

[55]  S. Espinel,et al.  White oaks phylogeography in the Iberian Peninsula , 2002 .

[56]  C. Codina,et al.  A single extraction step in the quantitative analysis of arbutin in bearberry (Arctostaphylos uva-ursi) leaves by high-performance liquid chromatography. , 2001, Phytochemical analysis : PCA.

[57]  K. Crandall,et al.  TCS: a computer program to estimate gene genealogies , 2000, Molecular ecology.

[58]  J. Thompson,et al.  CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice. , 1994, Nucleic acids research.

[59]  J. Doležel Flow cytometric analysis of nuclear DNA content in higher plants , 1991 .

[60]  M. Davey Secondary Metabolism in Plant Cell Cultures , 2017 .

[61]  H. Malinowska The selects of bearberry (Arctostaphylos uva-ursi (l.) spreng.) from natural populations in Poland , 2014 .

[62]  A. Leitch,et al.  Genome Size Diversity and Evolution in Land Plants , 2013 .

[63]  Yuh-Charn Lin,et al.  Evaluation of antioxidant activity of aqueous extract of some selected nutraceutical herbs , 2007 .

[64]  D. Petrov,et al.  The large genome constraint hypothesis: evolution, ecology and phenotype. , 2005, Annals of botany.

[65]  I. Leitch,et al.  Nuclear DNA amounts in angiosperms: progress, problems and prospects. , 2005, Annals of botany.

[66]  Chi-Tang Ho,et al.  Antioxidant activity of polyphenolics from a bearberry-leaf (Arctostaphylos uva-ursi L. Sprengel) extract in meat systems. , 2005 .

[67]  T. A. Hall,et al.  BIOEDIT: A USER-FRIENDLY BIOLOGICAL SEQUENCE ALIGNMENT EDITOR AND ANALYSIS PROGRAM FOR WINDOWS 95/98/ NT , 1999 .

[68]  E. Pahlich,et al.  A rapid DNA isolation procedure for small quantities of fresh leaf tissue , 1980 .