Gibberellins: Regulators of Plant Height and Seed Germination

Slides:

Advertisements

Similar presentations

The Biological Role of Abscisic Acid in Precocious Seed Germination

Advertisements

DISCOVERY OF GIBBERELLINS

Prepare a 10’talk for Friday Feb 27 on plant defense responses or describe interactions between plants & pathogens or symbionts Plant defense responses.

Abscisic Acid and Its Role in Seed Dormancy

Control Systems in Plants

HORMONE PHYSIOLOGY AND SIGNAL TRANSDUCTION Huseyin Tombuloglu, Phd. GBE 304 Spring 2015.

HORMONE PHYSIOLOGY AND SIGNAL TRANSDUCTION Huseyin Tombuloglu, Phd. GBE 304 Spring 2015.

Skotomorphogenesis Seed germination Genes and enzymes Embryo and Seed development Plant life cycle.

Dark development Photosynthesis Nutrient uptake Respiration Dormancy Phytohormones Gene regulation Enzymes Long distance transport The Cell Membranes and.

Cell expansion plays a major role in growth Root cells expand their volume 50 times by expanding lengthwise but not widthwise.

Hormones: Gibberellic acids (GA) Bakanae: crazy seedling (rice) Gibberella fujikuroi (GA 3 ) rare in plants Increased plant height Reduced seed set and.

The Interactions of Plant Hormones and rop Genes By Malem Gutema Mentor Dr. John Fowler Dr. John Fowler Summer 2004.

Young Leaf Shoot Tip Axillary Bud Node Internode.

Dark development Photosynthesis Nutrient uptake Respiration Phytohormones Enzymes Gene regulation Long distance transport Membranes Cells and cell walls.

Chapter 20.  Found in both xylem and phloem  Appears to be source/sink  Free or conjugated? 2.

Testing a Role for Rop9 GTPase in Maize Pollen Tube Growth Lauren A. Osborn Dr. John Fowler Botany and Plant Pathology Summer 2005.

Regulation of Development: Vernalization

Growth regulators Auxins Cytokinins Gibberellins Abscisic Acid

Plant Reproduction BIOL /21/ /26/2008.

AP2/EREBP Transcription Factor Family

Plant hormone signaling I 1.What is a plant hormone? How to determine if a molecule functions as a hormone or not? Several criteria: 1) produced by plant.

Plant responses to hormones. What the spec says….

Ethylene responses Developmental processes

Chapter 20 Gibberellins: Regulators of plant height

Seeds Seeds are unique feature of plants. Seeds Seeds are unique feature of plants Plant dispersal units.

Chapter 3 Plant growth & Development. Growth Factors Chemical Energy  Photosynthesis  Respiration  Net Photosynthesis Temperature  Zone of tolerance.

Corn and mustard seedlings grown either in the light or the dark

Suggestions 1. Arabidopsis2. Fast plant 3. Sorghum4. Brachypodium distachyon 5. Amaranthus (C4 dicot)6. Quinoa 7. Kalanchoe8. Venus fly traps 9. C3 vs.

A root derived factor required for shoot growth in culture.

GA regulate its own metabolism  the level of active GA is kept within a narrow range (homeostasis) negative feedback regulation: depress biosynthesis.

Chapter 23.  One molecule!  Named on assumption of role in abscission of leaves and other tissues. 2.

Plants must be able to respond to ever-changing environment –How is growth regulated? –When should reproductive structures develop? –When should germination.

Phenotypic Characterization of lrb Mutants in Arabidopsis thaliana. Brandon D. Blaisdell 1, Matthew Christians 2, Derek J. Gingerich 1 1 Department of.

Ch 39: Plant Responses to Internal and External Signals

Chapter 26 Opener. Figure 26.1 Patterns of Early Shoot Development.

Plant Responses Chapter 39.

Arabidopsis basic leucine zipper transcription factors involved in an abscisic acid-dependent signal transduction pathway under drought and high- salinity.

MicroRNA 156 Presentation by: Ansuman sahoo Roll: y Plant Developmental Biology Class.

Prospecting for Genes that Fueled the Green Revolution

Plant Growth. Meristems What environmental factors affect plant growth?

22 In-Text Art, p. 650 Ethylene PP5e-ITA-22-p650-0.jpg.

Chapter 11 Opener. Figure 11.1 Potential Points for the Regulation of Gene Expression.

Seed dormancy is important for plant survival

Plant Growth Regulators

ABSCISIC ACID (ABA) A Seed Maturation and Antistress Signal (Naturally occurring, active form)(Inactive in stomatal closure) (Inactive, but interconvertible.

Growth regulators Auxins Cytokinins Gibberellins Abscisic Acid

Growth regulators Auxins Cytokinins Gibberellins Abscisic acid

Growth regulators Auxins Cytokinins Gibberellins Abscisic Acid

Plant Growth and Development

Other Plant Hormones.

Growth regulators Auxins Cytokinins Gibberellins Abscisic acid

Growth regulators Auxins Cytokinins Gibberellins Abscisic Acid

Regulators of Cell Expansion and Development

Growth regulators All are small organics: made in one part, affect another part Treating a plant tissue with a hormone is like putting a dime in a vending.

Internal Factors Affecting Plant Growth

Gibberellins Dr Abdul Latif Khan.

In rice GID1 (gibberellin insensitive dwarf 1) is a intracellular soluble GA receptor. After binding to GA it mediates the degradation of repressors of.

Plant hormones: Dissecting the gibberellin response pathway

Volume 9, Issue 5, Pages (May 2016)

Help needed for the Art & Science Day at the Chester Street Elementary school 110 Chester St, Kingston 12- 3:30 on Tuesday, March 22.

Sucrose Induction of Anthocyanin Biosynthesis Is Mediated by DELLA

Expanding Roles of PIFs in Signal Integration from Multiple Processes

Growth Hormones Syed Abdullah Gilani.

DELLA-Mediated Cotyledon Expansion Breaks Coat-Imposed Seed Dormancy

You have a reading quiz at the start of class.

Help needed for Chester Street Elementary School's STEAM Day

Volume 15, Issue 1, Pages (July 2008)

Lucie Camut, Jean-Michel Davière, Patrick Achard Molecular Plant

Presentation transcript:

Gibberellins: Regulators of Plant Height and Seed Germination GA levels in plants are correlated with stem length. Play role in seed germination, transition to flowering, and pollen development.

Figure 20.1 Effect of exogenous GA1 on wild-type and dwarf mutant maize PP5e-Fig-20-01-0.jpg

Figure 20.2 Cabbage can be induced to bolt and flower by applications of GA3 PP5e-Fig-20-02-0.jpg

Figure 20.3 Gibberellins induce conebud formation in juvenile conifers PP5e-Fig-20-03-0.jpg

Figure 20.4 Gibberellin induces growth in “Thompson Seedless” grapes PP5e-Fig-20-04-0.jpg

Ch. 20 In-Text Art, pp. 585–586 Gibberellin structures PP5e-ITA-20-p585&586-0.jpg

Figure 20.6 Phenotypes of wild-type and GA-deficient mutants of Arabidopsis PP5e-Fig-20-06-0.jpg

Figure 20.8 Histochemical analysis of Arabidopsis plants containing the GA1 promoter PP5e-Fig-20-08-0.jpg

Figure 20.24 Phenotypes of floral organs of gamyb mutants of rice PP5e-Fig-20-24-0.jpg

Figure 20.9 Phenotypes and genotypes of peas that differ in GA1 content of their vegetative tissue PP5e-Fig-20-09-0.jpg

Figure 20.10 Genetically engineered dwarf wheat plants PP5e-Fig-20-10-0.jpg

Figure 20.11 Impaired seed development in a GA-deficient mutant of pea PP5e-Fig-20-11-0.jpg

Figure 20.12 GA binding properties of GID1 (GA Insensitive Dwarf) PP5e-Fig-20-12-0.jpg

Figure 20.13 Phenotypes of gid1a, gid1b, and gid1c mutants of Arabidopsis (Part 1) PP5e-Fig-20-13-1.jpg

GA receptor mutants exhibit deficient anther development. Figure 20.13 Phenotypes of gid1a, gid1b, and gid1c mutants of Arabidopsis (Part 2) PP5e-Fig-20-13-2.jpg GA receptor mutants exhibit deficient anther development.

Figure 20.14 Structure of the GA3-GID1a-DELLA complex PP5e-Fig-20-14-0.jpg

Figure 20.15 Model of GA-induced change in the GID1 protein PP5e-Fig-20-15-0.jpg

Figure 20.16 Domain structures of the RGA and GAI repressor proteins PP5e-Fig-20-16-0.jpg

Figure 20.19 Degradation of the DELLA protein by the 26S proteasome PP5e-Fig-20-19-0.jpg

Figure 20.20 Integration of light and GA signaling in Arabidopsis seedlings PP5e-Fig-20-20-0.jpg

Figure 20.17 Opposite effects of two different mutations in the same SLN1 repressor gene GA signals the degradation of negative regulators, e.g. the degradation of DELLA proteins. Sln1c loss-of-function. Mutated in GRAS domain; unable to repress GA responsive genes even in the absence of GA. Sln1d gain-of-function. Mutation in DELLA domain prevents the repressor protein from being degraded. PP5e-Fig-20-17-0.jpg

Figure 20.21 Structure of barley grain and functions of tissues during germination PP5e-Fig-20-21-0.jpg

Figure 23.3 Precocious germination in the ABA-deficient vivipary 14 mutant of maize Ratio of GA:ABA affects early germination (vivipary). With high levels of ABA, seeds remain dormant. PP5e-Fig-23-03-0.jpg