Cavite State University - CCAT Campus - Library catalog › Details for: Chromosome Engineering in Plants : Genetics, Breeding, Evolution /

Normal view MARC view ISBD view

Chromosome Engineering in Plants : Genetics, Breeding, Evolution / edited by Carlos Tello Lacal.

Contributor(s): Lacal, Carlos Tello , editor Material type: Text

TextPublisher: Oakville, Ontario : Arcler Press, c2018Description: xxviii, 261 pages : color illustrationsISBN: 9781984609304 (e-book)Subject(s): Plant cytogenetic | Crops -- Cytogenetic | Plant chromosomes | Plant genetic engineering | Crops -- Genetic engineering | Plant breedingLOC classification: EBOP QK 981.35 | C47 2018Online resources: Electronic Resources https://www.bibliotex.com/pdfreader/chromosome-engineering-in-plants-genetics-breeding-evolution50102712 https://www.bibliotex.com/pdfreader/chromosome-engineering-in-plants-genetics-breeding-evolution50102712

Contents:

Chapter 1: Chromosome Segregation in Plant Meiosis Chapter 2: Meiotic Transmission of an in Vitro-Assembled Autonomous Maize Minichromosome Chapter 3: Genome Editing in Plants Via Designed Zinc Finger Nucleases Chapter 4: Crispr-Based Tools and Their Improvements: New Opportunities in Understanding Plant-Pathogen Interactions for Better Crop Protection Chapter 5: Molecular Tools for Exploring Polyploid Genomes in Plants Chapter 6: Advances in Bac-Based Physical Mapping and Map Integration Strategies in Plants. Chapter 7: Chromosomes of Brachypodium Chapter 8: The Molecular Cloning and Clarification of a Photorespiratory Mutant, Oscdm1, Using Enhancer Trapping Chapter 9: Tilling By Sequencing to Identify Induced Mutations in Stress Resistance Genes of Peanut (Arachis Hypogaea) Chapter 10: Interspecific and Intergeneric Hybridization and Chromosomal Engineering of Brassicaceae Crops Chapter 11: CENH3: An Emerging Player in Haploid Induction Technology Chapter 12: Improved Efficiency of Doubled Haploid Generation in Hexaploid Triticale By in Vitro Chromosome Doubling Chapter 13: Comparative Mapping in the Poaceae Family Reveals Translocations in the Complex Polyploid Genome of Sugarcane Chapter 14: Genome Evolution in Alpine Oat-Like Grasses Through Homoploid Hybridization and Polyploidy Chapter 15: Different Autosomes Evolved Into Sex Chromosomes in the Sister Genera of Salix and Populus Chapter 16: Evolution by Gene Duplication of Medicago Truncatula Pistillata-Like Transcription Factors Chapter 17: The Arabidopsis Thaliana Mobilome and its Impact at the Species Level Chapter 18: Atypical Centromeres in Plants

Summary: Chromosome engineering is the controlled generation of chromosomal deletions, inversions, or translocations with defined endpoints. This book surveys the entire range of general aspects of chromosome research on plants, and deals with the cytogenetics of plant materials including legumes, vegetable and oil crops, sugar crops, forage crops, fiber crops, medicinal crops and ornamentals.

List(s) this item appears in: Newly Acquired E-Books

Tags from this library: No tags from this library for this title. Log in to add tags.

Average rating: 0.0 (0 votes)

Holdings ( 1 )
Title notes ( 5 )
Comments ( 0 )
Images

Item type	Current location	Collection	Shelving location	Call number	Copy number	Status	Date due	Barcode
E-Books	Cavite State University - CCAT Campus	Electronic Resources	ER	EBOP QK 981.35 C47 2018 (Browse shelf)	1 copy	Available		EBOP0000064

To access the E-Book : https://www.bibliotex.com/ (Log-in/Register is required).

Includes index.

Chapter 1: Chromosome Segregation in Plant Meiosis
Chapter 2: Meiotic Transmission of an in Vitro-Assembled Autonomous Maize Minichromosome
Chapter 3: Genome Editing in Plants Via Designed Zinc Finger Nucleases
Chapter 4: Crispr-Based Tools and Their Improvements: New Opportunities in Understanding Plant-Pathogen Interactions for Better Crop Protection
Chapter 5: Molecular Tools for Exploring Polyploid Genomes in Plants
Chapter 6: Advances in Bac-Based Physical Mapping and Map Integration Strategies in Plants.
Chapter 7: Chromosomes of Brachypodium
Chapter 8: The Molecular Cloning and Clarification of a Photorespiratory Mutant, Oscdm1, Using Enhancer Trapping
Chapter 9: Tilling By Sequencing to Identify Induced Mutations in Stress Resistance Genes of Peanut (Arachis Hypogaea)
Chapter 10: Interspecific and Intergeneric Hybridization and Chromosomal Engineering of Brassicaceae Crops
Chapter 11: CENH3: An Emerging Player in Haploid Induction Technology
Chapter 12: Improved Efficiency of Doubled Haploid Generation in Hexaploid Triticale By in Vitro Chromosome Doubling
Chapter 13: Comparative Mapping in the Poaceae Family Reveals Translocations in the Complex Polyploid Genome of Sugarcane
Chapter 14: Genome Evolution in Alpine Oat-Like Grasses Through Homoploid Hybridization and Polyploidy
Chapter 15: Different Autosomes Evolved Into Sex Chromosomes in the Sister Genera of Salix and Populus
Chapter 16: Evolution by Gene Duplication of Medicago Truncatula Pistillata-Like Transcription Factors
Chapter 17: The Arabidopsis Thaliana Mobilome and its Impact at the Species Level
Chapter 18: Atypical Centromeres in Plants

Chromosome engineering is the controlled generation of chromosomal deletions, inversions, or translocations with defined endpoints. This book surveys the entire range of general aspects of chromosome research on plants, and deals with the cytogenetics of plant materials including legumes, vegetable and oil crops, sugar crops, forage crops, fiber crops, medicinal crops and ornamentals.

In English text.

There are no comments on this title.

to post a comment.

Click on an image to view it in the image viewer