Recent progress in secondary metabolism of plant glandular trichomes
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DOI[10.5511/plantbiotechnology.14.0701a]to the data of the same series
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- Material Type
- 記事
- Author/Editor
- Guodong Wang
- Publication, Distribution, etc.
- Publication Date
- 2014
- Publication Date (W3CDTF)
- 2014
- Periodical title
- Plant biotechnology
- No. or year of volume/issue
- 31(5)
- Volume
- 31(5)
- ISSN (Periodical Title)
- 1347-6114
- ISSN-L (Periodical Title)
- 1342-4580
- Text Language Code
- eng
- DOI
- 10.5511/plantbiotechnology.14.0701a
- Persistent ID (NDL)
- info:ndljp/pid/11000385
- Collection
- Collection (Materials For Handicapped People:1)
- Collection (particular)
- 国立国会図書館デジタルコレクション > 電子書籍・電子雑誌 > 学術機関 > 学協会
- Acquisition Basis
- インターネット資料収集保存事業(WARP)
- Date Accepted (W3CDTF)
- 2017-12-08T10:56:38+09:00
- Date Captured (W3CDTF)
- 2015-08-15
- Format (IMT)
- application/pdf
- Access Restrictions
- インターネット公開
- Availability of remote photoduplication service
- 不可
- Periodical Title (URI)
- Periodical Title (Persistent ID (NDL))
- info:ndljp/pid/11000383
- Data Provider (Database)
- 国立国会図書館 : 国立国会図書館デジタルコレクション
- Collection (particular)
- 国立国会図書館デジタルコレクション > 電子書籍・電子雑誌 > 学術機関 > 学協会
- Access Restrictions
- インターネット公開
- Availability of remote photoduplication service
- 不可
- Holding library
- 国立国会図書館
- Call No.
- Z54-J126
- Related Material (URI)
- Related Material (Persistent ID (NDL))
- info:ndljp/pid/11000385
- Data Provider (Database)
- 国立国会図書館 : 国立国会図書館雑誌記事索引
- Bibliographic ID (NDL)
- 026091812
- Bibliographic Record Category (NDL)
- 632
- Summary, etc.
- Trichomes can be found on the surfaces of the leaves, stems, and other organs of many angiosperm plants. Plant trichomes are commonly divided into two classes: glandular trichomes and non-glandular trichomes. Glandular trichomes produce large quantities of specialized natural compounds of diverse classes and are regarded as ‘chemical factories’ due to their impressively efficient biosynthetic capacities. This efficiency makes glandular trichomes an excellent experimental system for the elucidation of both the biosynthesis and the mechanisms of regulation of natural product pathways. The development of various -omics techniques has greatly accelerated experimental procedures that are typically used in combination with trichome studies. The purpose this review is to provide an introduction to the methods and technologies used for the investigation of glandular trichomes, to summarize current progress in the field, and to highlight the potential applications of trichome studies in metabolic engineering using the strategies of synthetic biology.
- DOI
- 10.5511/plantbiotechnology.14.0701a
- Access Restrictions
- インターネット公開
- Data Provider (Database)
- 科学技術振興機構 : J-STAGE
- Summary, etc.
- Trichomes can be found on the surfaces of the leaves, stems, and other organs of many angiosperm plants. Plant trichomes are commonly divided into two classes: glandular trichomes and non-glandular trichomes. Glandular trichomes produce large quantities of specialized natural compounds of diverse classes and are regarded as ‘chemical factories’ due to their impressively efficient biosynthetic capacities. This efficiency makes glandular trichomes an excellent experimental system for the elucidation of both the biosynthesis and the mechanisms of regulation of natural product pathways. The development of various -omics techniques has greatly accelerated experimental procedures that are typically used in combination with trichome studies. The purpose this review is to provide an introduction to the methods and technologies used for the investigation of glandular trichomes, to summarize current progress in the field, and to highlight the potential applications of trichome studies in metabolic engineering using the strategies of synthetic biology.
- DOI
- 10.5511/plantbiotechnology.14.0701a
- Related Material (URI)
- Is Referenced By
- Benzenoid biosynthesis in the flowers of Eriobotrya japonica: molecular cloning and functional characterization of p-methoxybenzoic acid carboxyl methyltransferase
- References
- Chavicol formation in sweet basil (Ocimum basilicum): cleavage of an esterified C9 hydroxyl group with NAD(P)H-dependent reductionSesterterpenoidsDiscovery and functional characterization of two diterpene synthases for sclareol biosynthesis in Salvia sclarea(L.) and their relevance for perfume manufactureIdentification of a BAHD acetyltransferase that produces protective acyl sugars in tomato trichomesPlant Glandular Trichomes as Targets for Breeding or Engineering of Resistance to HerbivoresExpression of Terpenoids 1, a glandular trichome-specific transcription factor from tomato that activates the terpene synthase 5 promoterThe draft genome and transcriptome of Cannabis sativa(−)-Menthol biosynthesis and molecular geneticsThe family of terpene synthases in plants: a mid‐size family of genes for specialized metabolism that is highly diversified throughout the kingdomIsolation and Characterization of AaWRKY1, an Artemisia annua Transcription Factor that Regulates the Amorpha-4,11-diene Synthase Gene, a Key Gene of Artemisinin BiosynthesisImproved herbivore resistance in cultivated tomato with the sesquiterpene biosynthetic pathway from a wild relativeHigh-level semi-synthetic production of the potent antimalarial artemisininMetabolic, Genomic, and Biochemical Analyses of Glandular Trichomes from the Wild Tomato Species<i>Lycopersicon hirsutum</i>Identify a Key Enzyme in the Biosynthesis of MethylketonesCharacterization of the Formation of Branched Short-Chain Fatty Acid:CoAs for Bitter Acid Biosynthesis in Hop Glandular TrichomesStudies of a Biochemical Factory: Tomato Trichome Deep Expressed Sequence Tag Sequencing and ProteomicsEugenol and isoeugenol, characteristic aromatic constituents of spices, are biosynthesized via reduction of a coniferyl alcohol esterIdentification of candidate genes affecting Δ9-tetrahydrocannabinol biosynthesis in Cannabis sativaIdentification of olivetolic acid cyclase from <i>Cannabis sativa</i> reveals a unique catalytic route to plant polyketidesGlobal characterization of Artemisia annua glandular trichome transcriptome using 454 pyrosequencingTrichOME: A Comparative Omics Database for Plant TrichomesTomato-produced 7-epizingiberene and R-curcumene act as repellents to whitefliesEngineering of Bacterial Methyl Ketone Synthesis for BiofuelsTerpene Biosynthesis in Glandular Trichomes of HopHeterologous Expression of Methylketone Synthase1 and Methylketone Synthase2 Leads to Production of Methylketones and Myristic Acid in Transgenic PlantsDivergent Regulation of Terpenoid Metabolism in the Trichomes of Wild and Cultivated Tomato Species2-Tridecanone: A Naturally Occurring Insecticide from the Wild Tomato <i>Lycopersicon hirsutum</i> f. <i>glabratum</i>An Investigation of the Storage and Biosynthesis of Phenylpropenes in Sweet BasilToward a Biosynthetic Route to Sclareol and Amber OdorantsComparative Functional Genomic Analysis of<i>Solanum</i>Glandular Trichome TypesProduction of amorphadiene in yeast, and its conversion to dihydroartemisinic acid, precursor to the antimalarial agent artemisininTobacco <i>NtLTP1</i>, a glandular‐specific lipid transfer protein, is required for lipid secretion from glandular trichomesMultiple functional roles of flavonoids in photoprotectionMass spectrometry screening reveals widespread diversity in trichome specialized metabolites of tomato chromosomal substitution linesSemi-synthetic artemisinin: a model for the use of synthetic biology in pharmaceutical developmentBiosynthesis of Sesquiterpene Lactones in Pyrethrum (Tanacetum cinerariifolium)Enzymatic Functions of Wild Tomato Methylketone Synthases 1 and 2An acyltransferase catalyzing the formation of diacylglucose is a serine carboxypeptidase-like proteinThe Jasmonate-Responsive AP2/ERF Transcription Factors AaERF1 and AaERF2 Positively Regulate Artemisinin Biosynthesis in Artemisia annua L.Flavonoid Biosynthesis. A Colorful Model for Genetics, Biochemistry, Cell Biology, and BiotechnologyTrichome-derived <i>O</i> -acyl sugars are a first meal for caterpillars that tags them for predationHeterodimeric geranyl(geranyl)diphosphate synthase from hop ( <i>Humulus lupulus</i> ) and the evolution of monoterpene biosynthesisImproving peppermint essential oil yield and composition by metabolic engineeringFunctional genomics and the biosynthesis of artemisininFlavonoids accumulate in leaves and glandular trichomes of <i>Phillyrea latifolia</i> exposed to excess solar radiationTranscriptome analysis of alfalfa glandular trichomesManufacturing Molecules Through Metabolic EngineeringA Novel Pathway for Sesquiterpene Biosynthesis from<i>Z,Z</i>-Farnesyl Pyrophosphate in the Wild Tomato<i>Solanum habrochaites</i>Evolution of a Complex Locus for Terpene Biosynthesis in <i>Solanum</i>Geranyl diphosphate synthase: Cloning, expression, and characterization of this prenyltransferase as a heterodimerGlandular Trichomes of <i>Leucosceptrum canum</i> Harbor Defensive SesterterpenoidsCharacterization of Phenylpropene <i>O</i>-Methyltransferases from Sweet BasilProduction of the antimalarial drug precursor artemisinic acid in engineered yeastMonoterpenes in the glandular trichomes of tomato are synthesized from a neryl diphosphate precursor rather than geranyl diphosphateChemical constituents of marijuana: The complex mixture of natural cannabinoidsEST Analysis of Hop Glandular Trichomes Identifies an <i>O</i>-Methyltransferase That Catalyzes the Biosynthesis of XanthohumolEnzymatic Reactions by Five Chalcone Synthase Homologs from Hop (<i>Humulus lupulus</i>L.)
- Data Provider (Database)
- 国立情報学研究所 : CiNii Research
- Original Data Provider (Database)
- Japan Link Center雑誌記事索引データベース雑誌記事索引データベースCrossrefCiNii ArticlesCrossref
- Bibliographic ID (NDL)
- 02609181211000385
- NAID
- 130004713020