Andy C. Wetten, Jim M. Dunwell


Contributed volume


Transgenic Plants


Provides access to the most up-to-date improvements being made for the production and analysis of transgenic plantsProvides step-by-step detail essential for reproducible results Contains key notes and implementation advice from the experts


Humana Press

BOOK (manifestation)

  • Book: 978-1-61779-558-9 (eBook)
  • Book: 978-1-61779-557-2 (Book)

  • Related objects


  • University Of Reading


  • BookChapter: High Frequency of Single-Copy T-DNA Transformants Produced After Floral Dip in CRE-Expressing Arabidopsis Plants
  • BookChapter: Highly Efficient Transformation Protocol for Plum (Prunus domestica L.)
  • BookChapter: Bioactive Bead-Mediated Transformation of Plants with Large DNA Fragments
  • BookChapter: Genetic Transformation of the Model Green Alga Chlamydomonas reinhardtii
  • BookChapter: Initiation and Transformation of Grapevine Embryogenic Cultures
  • BookChapter: Combinatorial Genetic Transformation of Cereals and the Creation of Metabolic Libraries for the Carotenoid Pathway
  • BookChapter: Organophosphorus Hydrolase: A Multifaceted Plant Genetic Marker Which Is Selectable, Scorable, and Quantifiable in Whole Seed
  • BookChapter: Employment of Cytokinin Vectors for Marker-Free and Backbone-Free Transformation
  • BookChapter: Development of Highly Efficient Genetic Transformation Protocols for Table Grape Sugraone and Crimson Seedless
  • BookChapter: Plastid Transformation as an Expression Tool for Plant-Derived Biopharmaceuticals
  • BookChapter: Characterization of Rice Genes Using a Heterologous Full-Length cDNA Expression System
  • BookChapter: Selection of Transgenic Rice Plants Using a Herbicide Tolerant Form of the Acetolactate Synthase Gene
  • BookChapter: Use of Northern Blotting for Specific Detection of Small RNA Molecules in Transgenic Plants
  • BookChapter: Biolistic-Mediated Production of Transgenic Oil Palm
  • BookChapter: Exploiting MultiSite Gateway and pENFRUIT Plasmid Collection for Fruit Genetic Engineering
  • BookChapter: Production of a His-Tagged Canecystatin in Transgenic Sugarcane
  • BookChapter: Use of a Callus-Specific Selection System to Develop Transgenic Rice Seed Accumulating a High Level of Recombinant Protein
  • BookChapter: Enhanced Agrobacterium-Mediated Transformation of Embryogenic Calli of Upland Cotton
  • BookChapter: A Developmentally Regulated Cre-lox System to Generate Marker-Free Transgenic Brassica napus Plants
  • BookChapter: Targeted Biolistics for Improved Transformation of Impatiens balsamina
  • BookChapter: How to Grow Transgenic Arabidopsis in the Field
  • BookChapter: Cotton Pistil Drip Transformation Method
  • BookChapter: Efficient Modification of Floral Traits by Heavy-Ion Beam Irradiation on Transgenic Torenia
  • BookChapter: Targeting DNA to a Previously Integrated Transgenic Locus Using Zinc Finger Nucleases
  • BookChapter: Double-Strand Break-Induced Targeted Mutagenesis in Plants
  • BookChapter: A Protocol for Transformation of Torenia
  • BookChapter: Expression of Artificial MicroRNAs in Physcomitrella patens
  • BookChapter: Agrobacterium-Mediated Transformation of Sorghum bicolor Using Immature Embryos
  • BookChapter: A High-Efficiency Agrobacterium-Mediated Transformation System of Rice (Oryza sativa L.)
  • BookChapter: Split-Transgene Expression in Wheat
  • BookChapter: Marker-Free Gene Targeting by Recombinase-Mediated Cassette Exchange
  • BookChapter: Co-transformation of Grapevine Somatic Embryos to Produce Transgenic Plants Free of Marker Genes
  • BookChapter: Visual Selection in Rice: A Strategy for the Efficient Identification of Transgenic Calli Accumulating Transgene Products
  • BookChapter: A One-Time Inducible Transposon to Create Knockout Mutants in Rice
  • BookChapter: Transformation of Barley (Hordeum vulgare L.) by Agrobacterium tumefaciens Infection of In Vitro Cultured Ovules
  • BookChapter: Transformation of Oil Palm Using Agrobacterium tumefaciens
  • BookChapter: Agrobacterium-Mediated Transformation of Brachypodium distachyon


  • Life Sciences
  • Plant Sciences
  • Product-Market-Codes:L24027
  • Transgenics

  • How to use: Click on a object to move its position. Double click to open its homepage. Right click to preview its contents.

    Download the RDF metadata as:   json-ld nt turtle xml License info

    22 TRIPLES      18 PREDICATES      23 URIs      13 LITERALS

    Subject Predicate Object
    1 book-editions:bfe28be2e3d37fdddd2f233ad9eda3d3 sg:bookType Contributed volume
    2 sg:chapterCount 37
    3 sg:copyrightHolder Springer Science+Business Media, LLC
    4 sg:copyrightYear 2012
    5 sg:ddsId 134540
    6 sg:description <p>Provides access to the most up-to-date improvements being made for the production and analysis of transgenic plants</p><p>Provides step-by-step detail essential for reproducible results </p><p>Contains key notes and implementation advice from the experts</p>
    7 sg:editionNumber 2
    8 sg:hasContributingOrganization grid-institutes:grid.9435.b
    9 sg:hasContribution contributions:012a605b5b17576d1e42b18035d176f9
    10 contributions:267359e3fb824eac93d5378fa12ab449
    11 sg:hasProductMarketCode product-market-codes:L
    12 product-market-codes:L24000
    13 product-market-codes:L24027
    14 product-market-codes:L25025
    15 sg:language En
    16 sg:license
    17 sg:publisher Humana Press
    18 sg:scigraphId bfe28be2e3d37fdddd2f233ad9eda3d3
    19 sg:subtitle Methods and Protocols
    20 sg:title Transgenic Plants
    21 rdf:type sg:BookEdition
    22 rdfs:label BookEdition: Transgenic Plants

    JSON-LD is a popular JSON format for linked data.

    curl -H 'Accept: application/ld+json' ''

    N-Triples is a line-based linked data format ideal for batch operations .

    curl -H 'Accept: application/n-triples' ''

    Turtle is a human-readable linked data format.

    curl -H 'Accept: text/turtle' ''

    RDF/XML is a standard XML format for linked data.

    curl -H 'Accept: application/rdf+xml' ''

    Preview window. Press ESC to close (or click here)