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Transcript
Drosophila timescales (at 25°C): 3 hrs: cellular blastoderm with 5000 cells with all cells’ identities specified 24 hrs: embryo hatches as feeding larva Movies: • QT Drosophila Development -different views: embryogenesis –SEM morph – QT Drosophila embryogenesis – QT Drosophila Cleavage: following Histone-GFP – QT Drosophila Gastrulation: following Histone-GFP – Drosophila – 2 lectures (½ – 1- ½ ) • Cleavage • View -gastrulation, organogen. frame metamorph. • Once we know the embryo, meet the molecules • Because this is a largely ‘solved’ system • Because these genes have key roles in all metazoans • EVERY one of 5000 cleavage state cell has a D/V and A/P ‘molecular address’, and is therefore specified. First to AnteriorPosterior Axis (A-P) Both axes defined in Drosophila A-P: -Termini -Segmented body Acron and Telson are ‘TERMINAL’ structures To overview Movie: “Embryo genesis” Bicoid mRNA Bicoid mRNA-binding protein 1. Bicoid RNA ‘caught’ at the ‘entrance’ 2. Unanchored Bicoid RNA returned to the anterior side by dynein on MTs Show: Bcd-gastrulation Gastrulation-dorsal In syncitium For control of Hunchback protein – Bicoid is a transcription factor, but Nanos . . . Nanos is an RNA binding protein that PREVENTS Hunchback Translation Gap genes are turned on in broad stripes by maternal genes, each other. ALL TFs. Hunchback Gt Kr kn hb (later) Gt Kr kn hb (later) Gap genes are turned on in broad stripes by maternal genes, each other Pair rule genes are turned on in 7 stripes each, harder to conceptualize Each stripe of the P-R gene has its Own enhancer. Even-skipped gene – 7 stripes. Each stripe has its own enhancer, responding to a different combinatorial of Gap and Maternal proteins Gap genes are turned on in broad stripes by maternal genes, each other Pair rule genes are all Trascription Factors too – turn on Segment Polarity gene expression hh hh hh hh Two morphogens/ligands/organizers in adjacent cells Active No The embryo Now has two Adjacent organizers Which release a Morphogen From syncitium with Gradient of 1 (or 2) Morphogens, to series Of segments, each With 2 morphogens 2 Apposing DEVELOPMENTAL ORGANIZERS http://bcs.whfreeman.com/thelifewire/content/chp19/1902003.html Both axes defined in Drosophila, every cell of 5000. Now to D/V After the activity of four different pathways, the D/V patterning of the ectoderm Is controlled by a conserved Ser/Thr receptor that is dependent on the gradient of its ligand dpp and dpp’s interactors D/V: An evolutionarily Conserved mechanism dpp/BMP-4 Figure 23.14 Homologous Pathways Specifying Neural Ectoderm in Protostomes (Drosophila) and Deuterostomes (Xenopus) D/V Gastrulation - Drosophila http://www.flybase.org/data/images/Animation/ AND Course Site (Movies) 4 STAGES OF ESTABLISHING DORSAL/VENTRAL – 4 SEQUENTIAL PATHWAYS + STAGE PATHWAY PATHWAY OUTCOME I. RTK pathway Sets follicle cell D/V state II. Proteolytic cascade Sets embryos’ cell D/V state III. Toll/Cactus/Doral Sets nuclear D/V state IV. Dorsal TF thresholds Diff. pathway per D/V address 4 STAGES OF ESTABLISHING DORSAL/VENTRAL – 4 SEQUENTIAL PATHWAYS + STAGE PATHWAY PATHWAY OUTCOME I. RTK pathway Sets follicle cell D/V state II. Proteolytic cascade Sets embryos’ cell D/V state III. Toll/Cactus/Doral Sets nuclear D/V state IV. Dorsal TF thresholds Diff. pathway per D/V address Dorsal fate determined in oocyte, through signaling between oocyte and somatic follicle cells Gurken protein on future dorsal side of oocyte, facing cells which become dorsal Human blood clotting cascade – Also a series of (extracellular) proteolytic cleavages Ventral fates dictated by NUCLEAR presence of the protein Dorsal Dorsalized Ventralized Gradient of Nuclear Dorsal protein imparts D-V IDs to cells Twist Protein specifies mesoderm Lateral inhibition in neurectoderm to specify neruogenesis: Notch mediated All Rhomboid expressing cells express Notch, then undergo a stochastic process for ¼ cells to become neuronal Lateral inhibition in neurectoderm to specify neruogenesis: Notch mediated TGF-Beta family Key factor for D-V identities in Vertebrates Key factor for Dorsal identities in Drosophila After the activity of four different pathways, the D/V patterning of the ectoderm Is controlled by a conserved Ser/Thr receptor that is dependent on the gradient of its ligand dpp and dpp’s interactors D/V: An evolutionarily Conserved mechanism dpp/BMP-4 Figure 23.14 Homologous Pathways Specifying Neural Ectoderm in Protostomes (Drosophila) and Deuterostomes (Xenopus) D/V The course primarily addresses development of urbilaterian descendents. All reflect on the ancestor-differences are details. msh, ind, and sog mark specific D/V cells/coordinates So now we’ve defined both axes in Drosophila, including every cell of 5000. Subsequent to A/P specification through segmentation gene action, the Homeotic genes then allow unique functions for each segment. Stopped here All animals have related developmental histories out in evert Figure 6.16 Scanning Electron Micrograph of a Compound Eye in Drosophila Eye disc patterning controlled by ‘reuse’ of the pathways seen in general axis specification Figure 6.17 Differentiation of Photoreceptors in the Drosophila Compound Eye Figure 6.18 Major Genes Known to be Involved in the Induction of Drosophila Photoreceptors
