Inducible Gene Expression in Plants
Description
Reviews
Inducible Gene Expression in Plants
Edited by P H S Reynolds, The Horticulture and Food Research Institute of New Zealand, Palmerston North, New Zealand
Pub Date: March 1999
Hardback
256 pages
Readership
Essential reading for biotechnologists and will be of interest to all researchers and graduate students in plant genetics and molecular biology
Key Features
• Written by international experts in the field from North America, New Zealand, Europe and Japan
• Covers a rapidly developing area of plant molecular biological research
• Reviews and analyses the latest information in the field
• Looks at future developments in this area
Main Description
The use of inducible gene expression systems is a rapidly developing area of plant molecular biological research. There is considerable interest in the use of these systems as research tools, not only because they allow expression of genes which may be, for example, developmentally lethal, but also because they allow for controlled experiments to be performed in a true isogenic background. They also have the potential to provide a means by which desired characters are expressed in field-based systems in the future.
Main Contents
• Inducible Control of Gene Expression: An Overview, P H S Reynolds
• Use of the TN10-Encoded Tetracycline Repressor to Control Gene Expression, C Gatz, Universitδt Gφttingen, Germany
• Ecdysteroid Agonist-inducible Control of Gene Expression in Plants, A Martinez and I Jepson, Zeneca Agrochemicals, Bracknell, UK
• Glucocorticoid-inducible Gene Expression in Plants, T Aoyama, Institute for Chemical Research, Kyoto University, Japan
• Tissue-specific, Copper-controllable Gene Expression in Plants, V L Mett and P H S Reynolds, The Horticulture and Food Research Institute of New Zealand
• Nitrate Inducibility of Gene Expression Using the Nitrite Reductase Gene Promoter, S J Rothstein and S Sivasankar, University of Guelph, Canada
• Use of Heat Shock Promoters to Control Gene Expression in Plants, R T Nagao, University of Georgia, USA and
W B Gurley, University of Florida, USA
• Wound-inducible Genes in Plants, L Zhou and R Thornburg, Iowa State University, USA
• Developmental Targeting of Gene Expression by the Use of a Senescence-specific Promoter,
S Gan, University of Kentucky, USA and R M Amasino, University of Wisconsin, Madison, USA
• Abscisic Acid- and Stress-induced Promoter Switches in the Control of Gene Expression, Q Shen, Monsanto Company, Chesterfield, USA and T-H D Ho, Washington University, St. Louis, USA
• Potential Use of Hormone Responsive Elements to Control Gene Expression in Plants, T J Guilfoyle and G Hagen, University of Missouri, Columbia
Essential reading for biotechnologists and will be of interest to all researchers and graduate students in plant genetics and molecular biology
Key Features
• Written by international experts in the field from North America, New Zealand, Europe and Japan
• Covers a rapidly developing area of plant molecular biological research
• Reviews and analyses the latest information in the field
• Looks at future developments in this area
Main Description
The use of inducible gene expression systems is a rapidly developing area of plant molecular biological research. There is considerable interest in the use of these systems as research tools, not only because they allow expression of genes which may be, for example, developmentally lethal, but also because they allow for controlled experiments to be performed in a true isogenic background. They also have the potential to provide a means by which desired characters are expressed in field-based systems in the future.
Main Contents
• Inducible Control of Gene Expression: An Overview, P H S Reynolds
• Use of the TN10-Encoded Tetracycline Repressor to Control Gene Expression, C Gatz, Universitδt Gφttingen, Germany
• Ecdysteroid Agonist-inducible Control of Gene Expression in Plants, A Martinez and I Jepson, Zeneca Agrochemicals, Bracknell, UK
• Glucocorticoid-inducible Gene Expression in Plants, T Aoyama, Institute for Chemical Research, Kyoto University, Japan
• Tissue-specific, Copper-controllable Gene Expression in Plants, V L Mett and P H S Reynolds, The Horticulture and Food Research Institute of New Zealand
• Nitrate Inducibility of Gene Expression Using the Nitrite Reductase Gene Promoter, S J Rothstein and S Sivasankar, University of Guelph, Canada
• Use of Heat Shock Promoters to Control Gene Expression in Plants, R T Nagao, University of Georgia, USA and
W B Gurley, University of Florida, USA
• Wound-inducible Genes in Plants, L Zhou and R Thornburg, Iowa State University, USA
• Developmental Targeting of Gene Expression by the Use of a Senescence-specific Promoter,
S Gan, University of Kentucky, USA and R M Amasino, University of Wisconsin, Madison, USA
• Abscisic Acid- and Stress-induced Promoter Switches in the Control of Gene Expression, Q Shen, Monsanto Company, Chesterfield, USA and T-H D Ho, Washington University, St. Louis, USA
• Potential Use of Hormone Responsive Elements to Control Gene Expression in Plants, T J Guilfoyle and G Hagen, University of Missouri, Columbia