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Pyrrole Pigments, Isoprenoid Compounds and Phenolic Plant Constituents

Pyrroles. --- Isopentenoids. --- Phenols. --- Phenolic compounds --- Phenolics --- Alcohols --- Antiseptics --- Aromatic compounds --- Isoprenoid compounds --- Isoprenoids --- Terpenes --- Pyrrhols --- Pyrrol --- Pyrrole --- Azoles

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Albert Boronat Manuel Rodríguez-Concepción Terpenoid Biosynthesis in Prokaryotes   Claudia Schmidt-Dannert Biosynthesis of Terpenoid Natural Products in Fungi   Dorothea Tholl Biosynthesis and Biological Functions of Terpenoids in Plants   Irini Pateraki Allison Maree Heskes Björn Hamberger Cytochromes P450 for Terpene Functionalisation and Metabolic Engineering   Yun Chen Yongjin J. Zhou Verena Siewers Jens Nielsen Enabling Technologies to Advance Microbial Isoprenoid Production   Chase Kempinski Zuodong Jiang Stephen Bell Joe Chappell Metabolic Engineering of Higher Plants and Algae for Isoprenoid Production  .

Chemistry. --- Biotechnology. --- Bioorganic Chemistry. --- Industrial Chemistry/Chemical Engineering. --- Bioorganic chemistry. --- Chemical engineering. --- Chimie --- Biotechnologie --- Chimie bioorganique --- Génie chimique --- Chemistry --- Biotechnology --- Bioorganic chemistry --- Chemical engineering --- Mechanical Engineering --- Engineering & Applied Sciences --- Bioengineering --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Engineering --- Chemistry, Technical --- Metallurgy --- Bio-organic chemistry --- Biological organic chemistry --- Biochemistry --- Chemistry, Organic --- Genetic engineering --- Physical sciences --- Isopentenoids. --- Isoprenoid compounds --- Isoprenoids --- Terpenes

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Plant Adaptation to Global Climate Change discusses the issues of the impact of climate change factors (abiotic and biotic) on vegetation. This book also deals with simulation modeling approaches to understanding the long-term effects of different environmental factors on vegetation. This book is a valuable resource for the environmental science research community, including those interested in assessing climate change impacts on vegetation and researchers working on simulation modeling.

Research & information: general --- climate change impacts --- sugarcane --- yield --- harvested area --- production --- Thai agriculture --- rice --- heat stress --- whole genome DNA microarray --- yield loss --- MapMan analysis --- HRDE --- anthesis and maturity date --- crop yield --- SimCLIM --- DSSAT model --- planting date --- basal area increment --- air temperature --- precipitation --- Taylor’s power law --- tree ring analysis --- climate change --- farm work --- WBGT --- mitigation --- East Africa --- leaf temperature --- infrared thermography --- thermal imagery --- tropical rain forest --- isoprenoid exchanges --- ground --- litter emissions --- soil --- Pinus pinea --- distance gradient --- Mediterranean turf --- agro-ecosystems --- biodiversity --- weed communities --- Ethiopia highlands --- seasonal climate --- crop impacts --- bananas --- Black Sigatoka Leaf Disease --- climate --- global spread &amp --- impact --- habitat suitability --- species distribution --- conservation --- P. africana --- actual evapotranspiration --- modified Penman–Monteith --- sap flow --- scaling methods --- allometric correlations --- sapwood depth --- sapwood area --- leaf area index --- species distribution model --- scenarios --- GIS --- ecological niche --- grapevine --- n/a --- Taylor's power law --- modified Penman-Monteith

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Plant Adaptation to Global Climate Change discusses the issues of the impact of climate change factors (abiotic and biotic) on vegetation. This book also deals with simulation modeling approaches to understanding the long-term effects of different environmental factors on vegetation. This book is a valuable resource for the environmental science research community, including those interested in assessing climate change impacts on vegetation and researchers working on simulation modeling.

Research & information: general --- climate change impacts --- sugarcane --- yield --- harvested area --- production --- Thai agriculture --- rice --- heat stress --- whole genome DNA microarray --- yield loss --- MapMan analysis --- HRDE --- anthesis and maturity date --- crop yield --- SimCLIM --- DSSAT model --- planting date --- basal area increment --- air temperature --- precipitation --- Taylor's power law --- tree ring analysis --- climate change --- farm work --- WBGT --- mitigation --- East Africa --- leaf temperature --- infrared thermography --- thermal imagery --- tropical rain forest --- isoprenoid exchanges --- ground --- litter emissions --- soil --- Pinus pinea --- distance gradient --- Mediterranean turf --- agro-ecosystems --- biodiversity --- weed communities --- Ethiopia highlands --- seasonal climate --- crop impacts --- bananas --- Black Sigatoka Leaf Disease --- climate --- global spread &amp --- impact --- habitat suitability --- species distribution --- conservation --- P. africana --- actual evapotranspiration --- modified Penman-Monteith --- sap flow --- scaling methods --- allometric correlations --- sapwood depth --- sapwood area --- leaf area index --- species distribution model --- scenarios --- GIS --- ecological niche --- grapevine --- climate change impacts --- sugarcane --- yield --- harvested area --- production --- Thai agriculture --- rice --- heat stress --- whole genome DNA microarray --- yield loss --- MapMan analysis --- HRDE --- anthesis and maturity date --- crop yield --- SimCLIM --- DSSAT model --- planting date --- basal area increment --- air temperature --- precipitation --- Taylor's power law --- tree ring analysis --- climate change --- farm work --- WBGT --- mitigation --- East Africa --- leaf temperature --- infrared thermography --- thermal imagery --- tropical rain forest --- isoprenoid exchanges --- ground --- litter emissions --- soil --- Pinus pinea --- distance gradient --- Mediterranean turf --- agro-ecosystems --- biodiversity --- weed communities --- Ethiopia highlands --- seasonal climate --- crop impacts --- bananas --- Black Sigatoka Leaf Disease --- climate --- global spread &amp --- impact --- habitat suitability --- species distribution --- conservation --- P. africana --- actual evapotranspiration --- modified Penman-Monteith --- sap flow --- scaling methods --- allometric correlations --- sapwood depth --- sapwood area --- leaf area index --- species distribution model --- scenarios --- GIS --- ecological niche --- grapevine

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Issues relating to the gender schism and its effect on the career advancement of women in the Academy, especially in the field of STEM disciplines, deserve our attention and the efforts of all the scientific community to mitigate the gender gap. In order to embrace gender equality, recognize the career progression of women, and to celebrate the achievements of women in the field of bioorganic chemistry, we present contributions both from highly renowned female scientists and young female researchers who are in the early stages of their careers. This Special Issue includes fifteen manuscripts, including eleven high-quality research articles and four comprehensive review articles in the area of bioorganic chemistry, published from mid-2020 to early 2022. The scope of this Special Issue covers a wide range of topics at the organic chemistry–biology interface, including the synthesis and derivatization of natural compounds and their analogues, and the investigation of their biological activities in the human health field (for instance as antitumorals, antioxidants and antimicrobial agents), as well as their possible application in the crop protection field as agrochemicals. An example of nanoparticle-based biomaterial is also included. The techniques employed, besides organic synthesis, are in silico studies (docking procedures and molecular modeling), FT-IR spectroscopy, laser diffraction, PET, fluorescence, STD-NMR studies, enzymatic evaluation, experiments on cell lines and in vivo studies on mice.

Technology: general issues --- Chemical engineering --- antibiotics --- biochemical studies --- iminosugars --- inhibitors --- insect trehalase --- trehalose --- in vivo studies --- mammalian trehalase --- natural compounds --- selectivity --- interrupted Nazarov cyclization --- pentacyclic steroids --- antiproliferative activity --- d-annulated steroids --- Lewis acid --- dental caries --- enamel remineralisation --- hydroxyapatite --- amelogenin --- amelogenin-derived peptides --- leucine-rich amelogenin peptides --- tyrosine-rich amelogenin peptides --- cannabidiol --- molecular mechanisms --- neurological diseases --- neuroprotective effects --- strigolactones --- Strigol --- anti-cancer --- antimicrobials --- sustainable agriculture --- α,α-difluorophosphonate --- deoxyxylulose phosphate reductoisomerase --- 1-deoxy-dxylulose 5-phosphate reductoisomerase (DXR) --- antimicrobial --- fosmidomycin --- isoprenoid biosynthesis --- 2-C-methyl-derythritol 4-phosphate (MEP) pathway --- multivalency --- gold nanoparticles --- enzyme inhibition --- Jack bean α-mannosidase --- aminoproline scaffold --- integrin targeting --- ligand design --- peptidomimetic synthesis --- leukocyte integrins --- BODIPY --- β-galactosidase activity --- PET --- fluorescent --- dispirooxindoles --- anticancer activity --- cytotoxicity --- 3D molecular docking --- p53/MDM2 interaction --- terpenes --- hydrazones --- penetration enhancers --- liposomes --- lipids --- stratum corneum --- laser diffraction --- fluorescence probe --- pyrene --- FT-IR spectroscopy --- heterohelicene --- chirality --- resolution --- enantiomers --- chiroptical --- screw-shaped compounds --- betulinic acid --- α-glucosidase --- inhibition mechanism --- postprandial hyperglycemia --- synergistic effect --- AMR --- persisters --- (p)ppGpp --- fragment screening --- thermal shift assay --- STD-NMR --- boron --- phthalimide --- benzamide --- glycosidase --- cancer --- boron neutron capture therapy --- n/a