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4061 Molecular and Cellular Principles of Animal Development 4061 Molecular and Cellular Principles of Animal Development • Classic approaches to embryonic development • Molecular approach- genes take centre stage ‘genetic programs underlying development’ • ‘Programs executed by molecular networks of proteins operating within and between cells’ • ‘In order to understand development we need to understand the underlying genetic circuitry’ • ‘Moving from an organism-based approach towards molecular mechanisms’ Primary Question • How can a complex animal emerge from a single egg? Fourth century BC Aristotle dissected chicken’s eggs Principle of ‘epigenesis’- development a process of growth in size combined with increasing complexity and organization Descriptive Embryology • Development of microscope in seventeenth century Experimental Embryology • Wilhelm Roux- ‘empirical approach Manipulate frog embryo and observe consequences ‘embryonic induction’ • Developmental Genetics (70’s) Drosophila melanogaster – transmission of genetic traits • Genetics meets Molecular Biology Clone the developmental genes • Developmental Biology Fusion of Molecular Biology, genetics and morphology • Impact on Society In vitro fertilization (IVF) ‘Teratology’ effect of environmental agents (chemicals, viruses, radiation) on embryos Chromosomal basis of some human birth defects (amniocentesis) • Future Functional genomics - therapeutic targets - combinatorial chemistry Tissue repair - Stem cells - ex vivo tissue engineering - organogenesis Genetic engineering - ‘cloning’!!! Readings from Gilbert 10th edition • Chapter 1 p5-29 Comprehending Development- intro read for general interest (same pages in 9th edition) • Chapter 2 Differential Gene Expression p31-65 (p35- 67 in 9th Edition) The essence of embryonic development: • A regulated expansion in cell numbers, coordinated in space and time with an increase in cell diversity Primary Question How can a complex animal emerge from a single egg? Questions of Differentiation Questions of morphogenesis Questions of growth Questions of regeneration Questions of evolution Questions of environmental adaptation SC/BIOL 4061,SC/BCHM 4061 Molecular and Cellular Principles of Animal Development Winter term, 2016 OUTLINE Course Director: John McDermott PhD Office : 427b Life Sciences Building Office tel extension: 30344 Email address: [email protected] Web site: www.yorku.ca/jmcderm/ Scheduled Office hours: TBA (email for an appointment or to request an alternate time to meet) Topic outline 1) Introduction to Molecular Analysis of Development Descriptive embryology -Genetics and molecular biology 2) Programs and Regulatory Elements in DNA 3) Transcriptional Circuits- epigenetic regulation of gene expression- differential gene expression 4) Gastrulation and early development- axis specification and formation 5) Features of Major Model Organisms- Mouse, Chick, Drosophila 6) Techniques for the study of Mouse Development: gene targeting/editing technology 7) Receptors, Ligands 8) Cell-cell communication, Signaling Networks, Induction and Competence 9) Molecular Co-ordination of Cell Division and Differentiation ( Myogenesis) 10) Focus on Paraxial Mesoderm, Somitogenesis and Patterning 11) Cell Death in Development 12) Lineage Generation - Embryonic and Adult Stem cell properties and lineage commitment 13) Cell Type Specification, Induction of pluripotency in stem cells (iPS) and cell fate programming 14) Patterning in 1 and 2 Dimensions 15) Molecular and cellular basis of 3D Patterning- Heart development 16) Postembryonic development: Regeneration and Aging 17) Developmental mechanisms of evolutionary conservation and change Evaluation 1 Test (prior to Reading week -date: Tues 9th Feb) 30% 1 Essay (HARD COPY due date 24th March by 5pm ) 30% (In some cases students may be able to do a class presentation in lieu of the essay assignment on permission of the instructor) 1 Test (Final in exam period date -TBA) 40% Course Text: (10 th edition available in York bookstore) Developmental Biology Companion web site: www.devbio.com Scott F.Gilbert Sinauer Associates, Inc ISBN 0-87893-384-6 ZYGOTE CLEAVAGE GASTRULATION ectoderm endoderm mesoderm 4061 Comparative embryology snake tortoise Ernst Haeckel (4 edn 1903) chicken dolphin monkey The development of animal model systems. Nematode C.elegans The development of animal model systems V Fruit fly Drosophila A melanogaster P D The development of animal model systems, cont’d Frog Xenopus laevis The development of animal model systems, cont’d Zebrafish The development of animal model systems, cont’d Chick The development of animal model systems, cont’d Mouse Types of evidence • Correlative- weakest • Loss of function • Gain of function A few classical terms concerning cell migration during gastrulation Programs and regulatory elements in DNA and RNA Gilbert, Chapter 2 p35-67 Differential Gene Transcription DNA content and number of genes 21,733 17,000 24,189 21,000 DNA content and number of genes, cont’d Phylogenetic analysis Fundamental principles of development at the cellular level: a) Cell proliferation b) Continuous but regulated increase in cell diversity General pattern of regulatory sequences Model for assembly of the RNA polymerase II initiation complex on a TATA-containing promoter GENE mRNA 5` 3` TF Gene A (on) Gene B (on) mRNA mRNA Protein A Protein B Gene C (off) Gene D (on) mRNA Protein D Regulation of Transcription Factors Homeodomain Engrailed Ribbon Zinc Finger ZIF 268 Zinc Finger Gluc. Receptor Leucine Zipper GCN 4 GCN 4:DNA HLH-leucine zipper MAX Modular design of eukaryotic transcription factors Transcription factor x DNA b.d. Act.d C N CANNTG DNA b.d. unrelated protein C N DNA b.d. unrelated protein Act.d C N tgacgtca Control of CREB activity by cAMP R Nucleus cAMP R + P Ser 133 R CREB CREB OFF ON PKA holoenzyme PKA catalytic subunit Regulation of NFkB activity p50 I p65 P p50 I p65 P Nucleus Fig 2.8 Fusion of reporter genes to the enhancer region 13.5d Myf 5 LacZ reporter expressed in eye, facial limb muscles and segmented myotome GFP fused to a lens crystallin promoter in Xenopus tropicalis Epigenetic control of gene expression Nucleosome and chromatin structure 5.10 TAFII250, a TAF that binds TBP, can function as a histone acetyltransferase Figure 2.3 Nucleosome and chromatin structure (Part 3) What regulates the transcription factors ? Cell Signalling modification Protein functional protein interacting with other proteins RNA DNA Overview of RNA processing in eukaryotes using β-globin genes Alternative Splicing E1 I1 E2 E1 I2 E2 E1 E2 E3 E1 E3 gene E3 RNA1 mRNA1 E3 E1 E3 mRNA2 RNA2 Alternative Splicing E1 I1 E2 E1 I2 E2 E1 E2 E3 E1 E3 gene E3 RNA1 mRNA1 E3 E1 E3 mRNA2 RNA2