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" Temporal and Spatial Regulation of Plant Genes "
edited by Desh Pal S. Verma, Robert B. Goldberg.
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BL
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| Record Number
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726307
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b546039
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| Main Entry
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edited by Desh Pal S. Verma, Robert B. Goldberg.
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| Title & Author
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Temporal and Spatial Regulation of Plant Genes\ edited by Desh Pal S. Verma, Robert B. Goldberg.
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| Publication Statement
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Vienna: Springer Vienna, 1988
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| Series Statement
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Plant Gene Research, Basic Knowledge and Application.
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| Page. NO
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(xiii, 344 pages 55 illustrations).
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| ISBN
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3211820469
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: 370916950X
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: 9783211820469
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: 9783709169506
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| Contents
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1 Arabidopsis as a Tool for the Identification of Genes Involved in Plant Developmen --;I. Introduction --;II. Phytohormone Mutants --;III. Environmental Regulation of Growth and Development --;IV. Conclusions and Future Directions --;V. References --;2 Regulation of Gene Expression During Seed Germination and Postgerminative Developmen --;I. Introduction --;II. Differential Gene Expression Underlies Seed Germination --;III. Spatial Regulation of Postgermination-Abundant Genes --;IV. Activation of Postgermination-Abundant Genes --;V. Future Directions --;VI. References --;3 Genes Involved in the Patterns of Maize Leaf Cell Divisio --;I. Introduction --;II. The Shoot Apical Meristem as a Self-Regulating Unit --;III. Heterochrony --;IV. Maize Leaf Mesophyll and Epidermis Lineage Maps --;V. Leaf Vascularization and Development Compartments --;VI. The Importance of Periclinal Divisions --;VII. Strict Versus Loose Programming of Epidermal Cell Division --;VIII. Alternative Models Involving the Programming of Cell Division --;IX. The Ligule and Mutants that Affect It --;X. Kn 1: Neomorphic Mutants that Induce the Epidermis to Divide --;XI. Conclusions About Leaf and Ligule Development Derived from Mutant Analyses, and the Concept of Cell Age Identity --;XII. Where Are the Molecules --;XIII. References --;4 Molecular Analysis of Genes Determining Spatial Patterns in Antirrhinum majus --;I. Introduction --;II. Cis-Acting Mutations --;III. Trans-Acting Mutations --;IV. Mutations Which Act Both in cis and trans --;V. Conclusions --;VI. References --;5 Isolation of Differentially Expressed Genes from Tomato Flower --;I. Introduction --;II. Screening for Floral-Specific cDNAs --;III. Organ and Temporal Specificity of Floral Clones --;IV. Tissue Specificity of Floral Clones --;V. Discussion --;VI. References --;6 Anther- and Pollen-Expressed Gene --;I. Introduction --;II. Gene Expression in the Anther --;III. Gene Expression in the Developing Male Gametophyte --;IV. References --;7 Self-Incompatibility Genes in Flowering Plant --;I. Introduction --;II. Homomorphic Incompatibility --;III. Heteromorphic Incompatibility --;IV. Nature of the Self-Incompatibility Reaction --;V. Nature of the S-Gene Products --;VI. Studies of the Molecular Basis of Self-Incompatibility --;VII. Concluding Comments --;VIII. References --;8 Regulatory Circuits of Light-Responsive Gene --;I. Introduction --;II. Multiplicity of Light Effects --;III. Effectors of Photoreception --;IV. Conclusions --;V. References --;9 Regulation of Gene Expression by Ethylen --;I. Introduction --;II. Analysis of Ethylene-Inducible Gene Expression --;III. Discussion --;IV. References --;10 Root Nodule Symbiosis: Nodulins and Nodulin Gene --;I. Introduction --;II. An Overview of Legume Nodulation --;III. Induction of Plant Genes Coding for Nodulins --;IV. Rapid Evolution of Legume-Rhizobium Symbiosis --;V. References --;11 Structure and Expression of Plant Genes Encoding Pathogenesis-Related Protein --;I. Introduction --;II. Characteristics of PR mRNAs and Genes --;III. General Conclusion --;IV. References --;12 Proteinase Inhibitor Gene Families: Tissue Specificity and Regulatio --;I. Introduction --;II. Developmentally Regulated Proteinase Inhibitor Genes in Seeds, Tubers, and Fruit --;III. Wound-Inducible Proteinase Inhibitor Genes in Leaves --;IV. Summary --;V. References --;13 Cell Wall Extensin Gene --;I. Cell Walls --;II. Extensin Networks --;III. Extensin Genes --;IV. Prospects --;V. References --;14 The Expression of Heat Shock Genes — A Model for Environmental Stress Respons --;I. Introduction --;II. Molecular Biology of Heat Shock Genes --;III. General Conclusions --;IV. References --;15 Protein Transport in Plant Cell --;I. Introduction --;II. The Secretory Pathway --;III. Post-Translational Transport --;IV. Conclusions --;V. References --;16 Genetic Engineering of Herbicide Resistance Gene --;I. Introduction --;II. Identification and Engineering of Herbicide Resistance Genes --;III. Conclusions --;IV. References --;17 Virus Cross-Protection in Transgenic Plant --;I. Introduction --;II. Genetic Transformation to Produce Virus Resistant Plants --;III. Field Testing of Virus Protection in Transgenic Plants --;IV. Conclusions --;V. References.
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| Abstract
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First attempts to isolate plant genes were for those genes that are abun- dantly expressed in a particular plant organ at a specific stage of devel- opment.
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| Subject
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Agriculture.
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Biotechnology.
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Life sciences.
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| LC Classification
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QK981.4E358 1988
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| Added Entry
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Desh Pal S Verma
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Robert B Goldberg
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