Chemical Composition of Lipophilic Bark Extracts from Pinus pinaster and Pinus pinea Cultivated in Portugal

[1]  H. Pereira,et al.  Anatomy and Chemical Composition of Pinus Pinaster Bark , 1996 .

[2]  C. Magalhães,et al.  The conifer biomarkers dehydroabietic and abietic acids are widespread in Cyanobacteria , 2016, Scientific Reports.

[3]  A. Gutiérrez,et al.  Chemical characterization of the lipophilic fraction of giant reed (Arundo donax) fibres used for pulp and paper manufacturing , 2007 .

[4]  B. Holmbom,et al.  Chemical Composition of Lipophilic and Phenolic Constituents of Barks from Pinus nigra, Abies bornmülleriana and Castanea sativa , 2002 .

[5]  J. Rontani,et al.  EIMS Fragmentation Pathways and MRM Quantification of 7α/β-Hydroxy-Dehydroabietic Acid TMS Derivatives , 2015, Journal of The American Society for Mass Spectrometry.

[6]  J. Parajó,et al.  Recovery of bioactive compounds from Pinus pinaster wood by consecutive extraction stages , 2013, Wood Science and Technology.

[7]  E. Ioannou,et al.  1H and 13C NMR spectral assignments of abietane diterpenes from Pinus heldreichii and Pinus nigra subsp. nigra , 2017, Magnetic resonance in chemistry : MRC.

[8]  G. Schmeda-Hirschmann,et al.  Gastroprotective Effect and Cytotoxicity of Carnosic Acid Derivatives , 2011, Planta medica.

[9]  J. Bohlmann,et al.  Diterpene resin acids in conifers. , 2006, Phytochemistry.

[10]  V. Tešević,et al.  New Natural Diterpene-Type Abietane from Tetradenia riparia Essential Oil with Cytotoxic and Antioxidant Activities , 2014, Molecules.

[11]  H. Grönberg,et al.  Natural resin acid –enriched composition as a modulator of intestinal microbiota and performance enhancer in broiler chicken , 2015 .

[12]  G. Lukmandaru,et al.  Lipophilic extractives of the inner and outer barks from six different Pinus species grown in Indonesia , 2017, Journal of Forestry Research.

[13]  J. Duan,et al.  Diterpenoids from Pinus massoniana resin and their cytotoxicity against A431 and A549 cells. , 2010, Phytochemistry.

[14]  C. Freire,et al.  Secondary metabolites from Eucalyptus grandis wood cultivated in Portugal, Brazil and South Africa , 2017 .

[15]  D. Evtuguin,et al.  Chemical characterisation of bark and of alkaline bark extracts from maritime pine grown in Portugal. , 2002 .

[16]  A. Kabouche,et al.  Antioxidant diterpenoids from the roots of Salvia barrelieri. , 2009, Phytochemical analysis : PCA.

[17]  Miguel A. González Aromatic abietane diterpenoids: their biological activity and synthesis. , 2015, Natural product reports.

[18]  M. Cortijo,et al.  Characterization of two chemotypes of Pinus pinaster by their terpene and acid patterns in needles , 2011, Plant Systematics and Evolution.

[19]  Jian-Dong Jiang,et al.  Anti-Coxsackie virus B diterpenes from the roots of Illicium jiadifengpi , 2013 .

[20]  Boon,et al.  Mass spectrometric methodology for the analysis of highly oxidized diterpenoid acids in Old Master paintings. , 2000, Journal of mass spectrometry : JMS.

[21]  M. Karonen,et al.  Extractives in bark of different conifer species growing in Pakistan , 2009 .

[22]  A. Romano,et al.  Supercritical fluid extraction and hydrodistillation for the recovery of bioactive compounds from Lavandula viridis L’Hér , 2012 .

[23]  J. Vuorenmaa,et al.  Dietary resin acid composition as a performance enhancer for broiler chickens , 2017 .

[24]  Miguel A. González,et al.  Synthesis and biological evaluation of abietic acid derivatives. , 2009, European journal of medicinal chemistry.

[25]  P. Doskey,et al.  Evaluation of multistep derivatization methods for identification and quantification of oxygenated species in organic aerosol. , 2015, Journal of chromatography. A.

[26]  H. Pereira,et al.  Anatomy and chemical composition of Pinus pinea L. bark , 1999 .

[27]  R. Redfern,et al.  ‘Choicest unguents’: molecular evidence for the use of resinous plant exudates in late Roman mortuary rites in Britain , 2015 .

[28]  J. Parajó,et al.  Extraction of low-molar-mass phenolics and lipophilic compounds from Pinus pinaster wood with compressed CO2 , 2013 .

[29]  Jiachen Zi,et al.  Abietane and C20-norabietane diterpenes from the stem bark of Fraxinus sieboldiana and their biological activities. , 2010, Journal of natural products.

[30]  H. Hafızoğlu Studies on the Wood and Bark Constituents of Pinus pinea L. , 1989 .

[31]  C. Freire,et al.  Bioactive Triterpenic Acids: From Agroforestry Biomass Residues to Promising Therapeutic Tools , 2014 .

[32]  C. Freire,et al.  Miscanthus x giganteus extractives: a source of valuable phenolic compounds and sterols. , 2009, Journal of agricultural and food chemistry.

[33]  J. Roseiro,et al.  Antimicrobial activity of diterpene resin acid derivatives. , 1999, Journal of microbiological methods.

[34]  Gui-Sheng Li,et al.  New abietane norditerpenoid from Salvia miltiorrhiza with cytotoxic activities , 2012, Journal of Asian natural products research.

[35]  C. Freire,et al.  Identification of New Hydroxy Fatty Acids and Ferulic Acid Esters in the Wood of Eucalyptus globulus , 2002 .

[36]  I. J. Seabra,et al.  Fractioned SFE of antioxidants from maritime pine bark , 2008 .

[37]  M. Gordaliza,et al.  Abietane Acids: Sources, Biological Activities, and Therapeutic Uses , 1993, Planta medica.

[38]  G. Culioli,et al.  Characterization of archaeological frankincense by gas chromatography-mass spectrometry. , 2004, Journal of chromatography. A.

[39]  V. Isidorov,et al.  Gas chromatographic retention indices of trimethylsilyl derivatives of terpene alcohols. , 2011, Journal of chromatography. A.