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Tree Transgenesis: Recent Developments

Matthias Fladung ; Dietrich Ewald (eds.)

Resumen/Descripción – provisto por la editorial

No disponible.

Palabras clave – provistas por la editorial

Tree Biology; Plant Genetics & Genomics; Genetic Engineering; Plant Ecology; Plant Physiology; Ecotoxicology

Disponibilidad
Institución detectada Año de publicación Navegá Descargá Solicitá
No detectada 2006 SpringerLink

Información

Tipo de recurso:

libros

ISBN impreso

978-3-540-32198-9

ISBN electrónico

978-3-540-32199-6

Editor responsable

Springer Nature

País de edición

Reino Unido

Fecha de publicación

Información sobre derechos de publicación

© Springer Berlin Heidelberg 2006

Tabla de contenidos

Field Trials with Transgenic Trees – State of the Art and Developments

Marcel Robischon

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part A - Transgenic Trees in the World | Pp. 3-23

Transgenic Forest Trees in China

Dietrich Ewald; Jianjun Hu; Minsheng Yang

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part A - Transgenic Trees in the World | Pp. 25-45

Modification of Perennial Fruit Trees

Xiuxin Deng; Yanxin Duan

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part A - Transgenic Trees in the World | Pp. 47-66

Genetic Transformation of Some Tropical Trees, Shrubs, and Tree-like Plants

Shuchishweta V. Kendurkar; Vaishali B. Naik; Rajani S. Nadgauda

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part A - Transgenic Trees in the World | Pp. 67-102

Environmental Aspects of Lignin Modified Trees

Hely HÄggman; Karoliina Niemi; Heidi Tiimonen; Tiina Ylioja; Vincent Chiang

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part B - Wood and other Traits | Pp. 105-122

Modification of Cellulose in Wood

Matthias Fladung

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part B - Wood and other Traits | Pp. 123-136

Heavy Metal Resistance and Phytoremediation with Transgenic Trees

Andreas D Peuke; Heinz Rennenberg

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part B - Wood and other Traits | Pp. 137-155

Transgenic Approaches to Engineer Nitrogen Metabolism

Francisco M CÁNovas; Fernando Gallardo; Zhong Ping Jing; MarÍa BelÉn Pascual

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part B - Wood and other Traits | Pp. 157-178

Virus Resistance Breeding in Fruit Trees

Margit Laimer

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part C - Biotic and Abiotic Resistances | Pp. 181-199

The Use of Genetic Transformation Procedures to Study the Defence and Disease Resistance Traits of Trees

Trevor M Fenning

The ‘industry-strength’ data models are complex to use and tend to obscure the fundamental issues. Going back to the original proposal of Chen for Entities and Relationships, I describe here a reduced data model with Objects and Relations. It is mathematically well founded in the category of relations and has been implemented to demonstrate that it is viable. An example how this is used to structure data and load data is shown.

Part C - Biotic and Abiotic Resistances | Pp. 201-234