Lecture #9 Date______ Chapter 21~ The Genetic Basis of Development.

Slides:

Advertisements

Similar presentations

12 The Genetic Control of Development. Gene Regulation in Development Key process in development is pattern formation = emergence of spatially organized.

Advertisements

Differential Gene Expression

Embryonic Cell Development Studying embryonic development helps scientists understand the concept of cell differentiation during embryogenesis. Scientists.

2.E.1 timing and coordination

Developmental Genetics. Three Stages of Development division morphogenesis differentiation.

Warm up 1.Are there some cells in your body that look different? 2.Do you think your brain cells do the same job as your stomach cells? 3.How do you think.

Chapter 21 Reading Quiz 1. When cells become specialized in structure & function, it is called … 2. Name 2 of the 5 “model organisms”. 3. What does it.

21.1 – 1 As you learned in chapter 12, mitosis gives rise to two daughter cells that are genetically identical to the parent cell. Yet you, the product.

Embryonic Development

Chapter 21 The Genetic Basis of Development. Model Organisms.

Chapter 19 Cellular Mechanisms of Development

The Genetic Basis of Development

10.3 Regulating the Cell Cycle 10.4 Cell Differentiation

AP Biology Development. AP Biology Big Questions: 1. How does a multicellular organism develop from a zygote? 2. How is the position of the parts of an.

Chapter 21: The Genetic Basis of Development

Chapter 11 Table of Contents Section 1 Control of Gene Expression

CHAPTER 21 THE GENETIC BASIS OF DEVELOPMENT Section A: From Single Cell to Multicellular Organism 1.Embryonic development involves cell division, cell.

Genetics and Development

Chapter 21 The Genetic Basis of Development. Introduction The development of a multicellular organism from a single cell is one of the most fascinating.

Chapter 21 The Genetic Basis of Development. Zygote and Cell Division F When the zygote divides, it undergoes 3 major changes: F 1. Cell division F 2.

Chapter 21 The Genetic Basis of Development “Embryology is to me by far the strongest single class of facts in favor of change of forms, and not one, I.

The Genetic Basis of Development

Lecture #9 Date______ Chapter 21~ The Genetic Basis of Development.

Concept 18.4: A program of differential gene expression leads to the different cell types in a multicellular organism.

Ch. 21 The Genetic Basis Of Development. Eye on antennae.

Genetics and Development

Development and Genes Part 1. 2 Development is the process of timed genetic controlled changes that occurs in an organism’s life cycle. Mitosis Cell differentiation.

Cellular Mechanisms of Development Chapter 19. Developement Growth (cell division) Differentiation Pattern Formation Morphogenesis.

Development Links - Biology. Components of Development Growth - The process of a multicellular increasing its number of cells, becoming larger. (i.e.

Genes and Development Chapter 16. Development All the changes that occur during an organism’s lifetime Cell specialization: Cell determination: specific.

Chapter 21: The Genetic Basis of Development Model organisms for study of development.

Patterns in Development Pattern formation must be established via induction prior to morphogenesis. The pattern formation is related to the body plan (its.

Chapter 19 Biology Sixth Edition Raven/Johnson (c) The McGraw-Hill Companies, Inc.

IP 28: Organisms Development EK 2E1: Timing and coordination of specific events are necessary for the normal development of an organism, and these events.

Cell Specialization.

Ch What do I want to be when I grow up??. Development 1 cell changes into different forms ANIMAL DEVELOPMENT: egg Zygote Fertilization of Gametes.

Chapter 21 The Genetic Basis of Development “Embryology is to me by far the strongest single class of facts in favor of change of forms, and not one, I.

Embryonic Development of Animals

Genetic Basis of Embryonic Development

Cell Differentiation.

Cell Differentiation Chapter 10.4.

Chapter 21 Reading Quiz When cells become specialized in structure & function, it is called … Name 2 of the 5 “model organisms”. What does it mean to be.

Development, Stem Cells, and Cancer

Molecular Genetics: Part 2B Regulation of metabolic pathways:

Development Chapter 47.

Genes and Development CVHS Chapter 16.

Summary of Eukaryotic Gene Expression

Chapter 21 The Genetic Basis of Development.

Embryonic Development of Multicellular Organisms

Development, Stem Cells, and Cancer

Genetics and Development

SGN24 The Genetic Basis of Development

Ch. 15 Warm-Up Compare DNA methylation and histone acetylation.

Embryonic Development of Multicellular Organisms

Observable cell differentiation results from the expression of genes for tissue-specific proteins. Re-write the sentence above in your own words.

Lecture #9 Date______ Chapter 21~ The Genetic Basis of Development.

Genetics and Development

The Genetic Basis of Development

The Genetic Basis of Development

Agenda 3/24 Development Quick Lecture

Transcription Initiation:

CHAPTER 11 The Control of Gene Expression

Describe how Dolly the sheep was cloned.

Genetics of Development

Reproduction & Development

Assist.Prof.Dr. Baydaa H.Abdullah

Cell Growth and Division

Cell Growth and Division

Presentation transcript:

Lecture #9 Date______ Chapter 21~ The Genetic Basis of Development

From fertilized egg to multicellular organism Cell Division: increase in cell number Differentiation: cells becoming specialized in structure and function Morphogenesis; physical processes giving an organism shape

Morphogenesis: plants vs. animals movements of cells and tissues are necessary for 3-D form of the organism ongoing development in adults restricted to differentiation of cells continually replenished throughout lifetime Plants: morphogenesis and growth of overall size occur throughout lifetime of plant; apical meristems (perpetually embryonic regions), responsible for plant’s continual growth

Embryonic development

Differential gene expression Differences between cells come from differences in gene expression (genes turned on or off), not from differing genomes. Evidence: 1- Genomic equivalence: all the cells of an organism have the same genes 2- Totipotency: cells that can retain the zygote’s potential to form all parts of the mature organism (plant cells; cloning) 3- Determination: restriction of developmental potential causing the possible fate of each cell to become more limited as the embryo develops; noted by the appearance of mRNA

Determination--->Differentiation Determination: as the embryo develops the possible fate of each cell becomes more limited Differentiation: specialization of cells dependent on the control of gene expression Induction: the ability of one group of embryonic cells to influence the development of another; cytoplasmic determinants that regulate gene expression Homeotic genes: genes that control the overall body plan of animals by controlling the developmental fate of groups of cells

Genetic cell death Apoptosis programmed cell death (“suicide genes”) 1. Programmed cell death is as needed for proper development as mitosis is. Ex: Reabsorption of the tadpole tail; formation of the fingers and toes of the fetus requires the removal of the tissue between them; sloughing off of the endometrium at the start of menstruation; formation of the proper connections (synapses) between neurons in the brain requires that surplus cells be eliminated.

Apoptosis, Pt. II 2. Programmed cell death is needed to destroy cells that represent a threat to the integrity of the organism. Ex: Cells infected with viruses; waning cells of the immune system; cells with DNA damage; cancer cells