Bellwork: Agenda:
3.1a explain that enzymes are globular proteins that catalyze metabolic reactions 3.1b state that enzymes function inside cells (intracellular enzymes) and outside cells (extracellular enzymes) 3.1c explain the mode of action of enzymes in terms of an active site, enzyme/substrate complex, lowering of activation energy and enzyme specificity (lock and key hypothesis and the induced fit hypothesis should be included) Bellwork:
Agenda:
3.1a explain that enzymes are globular proteins that catalyze metabolic reactions 3.1b state that enzymes function inside cells (intracellular enzymes) and outside cells (extracellular enzymes) 3.1c explain the mode of action of enzymes in terms of an active site, enzyme/substrate complex, lowering of activation energy and enzyme specificity (lock and key hypothesis and the induced fit hypothesis should be included) Bellwork:
Cells and microscopy 1.1d, 1.1a, 1.1c Size and magnification calculations 1.1b, 1.1e Plant and animal cells 1.2b, 1.2c, 1.2a Bacteria 1.2d Prokaryotic versus eukaryotic cell structure 1.2e Viruses 1.2f Chapter 4 Cell membrane structure and function 4.1a, 4.1b, 4.1c Transport across membranes 4.2a(v), 4.2c, 4.2a(i), 4.2d, 4.2b, 4.2a(ii), 4.2a(iii), 4.2f, 4.2e, 4.2a(iv) Bellwork:
Agenda:
Objectives:
Cells and microscopy 1.1d, 1.1a, 1.1c Size and magnification calculations 1.1b, 1.1e Plant and animal cells 1.2b, 1.2c, 1.2a Bacteria 1.2d Prokaryotic versus eukaryotic cell structure 1.2e Viruses 1.2f Chapter 4 Cell membrane structure and function 4.1a, 4.1b, 4.1c Transport across membranes 4.2a(v), 4.2c, 4.2a(i), 4.2d, 4.2b, 4.2a(ii), 4.2a(iii), 4.2f, 4.2e, 4.2a(iv) Bellwork:
Agenda:
Objectives:
Cells and microscopy 1.1d, 1.1a, 1.1c Size and magnification calculations 1.1b, 1.1e Plant and animal cells 1.2b, 1.2c, 1.2a Bacteria 1.2d Prokaryotic versus eukaryotic cell structure 1.2e Viruses 1.2f Chapter 4 Cell membrane structure and function 4.1a, 4.1b, 4.1c Transport across membranes 4.2a(v), 4.2c, 4.2a(i), 4.2d, 4.2b, 4.2a(ii), 4.2a(iii), 4.2f, 4.2e, 4.2a(iv) Bellwork:
Cells and microscopy 1.1d, 1.1a, 1.1c Size and magnification calculations 1.1b, 1.1e Plant and animal cells 1.2b, 1.2c, 1.2a Bacteria 1.2d Prokaryotic versus eukaryotic cell structure 1.2e Viruses 1.2f Chapter 4 Cell membrane structure and function 4.1a, 4.1b, 4.1c Transport across membranes 4.2a(v), 4.2c, 4.2a(i), 4.2d, 4.2b, 4.2a(ii), 4.2a(iii), 4.2f, 4.2e, 4.2a(iv) Bellwork: Agenda:
Bellwork: Agenda:
Bellwork: Agenda:
Upcoming:
4.1a describe and explain the process of osmosis 4.1f explain the movement of water between cells and solutions with different water potentials and explain the different effects on plant and animal cells Bellwork: Agenda:
4.1a describe and explain the process of active transport and bulk transport Bellwork: Agenda:
Objectives: 4.2a describe and explain the processes of diffusion, facilitated diffusion 4.2b investigate simple diffusion using (plant tissue and) non-living materials, such as glucose solutions, Visking tubing (and agar) 4.2c calculate surface areas and volumes of simple shapes (e.g. cubes) to illustrate the principle that surface area to volume ratios decrease with increasing size Bellwork: Agenda:
4.1c outline the process of cell signaling involving the release of chemicals that combine with cell surface receptors on target cells, leading to specific responses Bellwork:
4.1a Describe and explain the fluid mosaic model of membrane structure, including an outline of the roles of phospholipids, cholesterol, glycolipids, proteins and glycoproteins 4.1b Outline the roles of cell surface membranes including references to carrier proteins, channel proteins, cell surface receptors and cell surface antigens Bellwork:
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Objective:
Bellwork: Agenda:
Objetive: Cells and microscopy 1.1d, 1.1a, 1.1c Size and magnification calculations 1.1b, 1.1e Plant and animal cells 1.2b, 1.2c, 1.2a Bacteria 1.2d Prokaryotic versus eukaryotic cell structure 1.2e Viruses 1.2f Bellwork: Agenda:
Objective: 1.2a describe and interpret electron micrographs and drawing of typical plant cells as seen with the electron microscope 1.2b recognize appropriate cell structures and outline their functions 1.2f outline the key features of viruses as non-cellular structures (limited to protein coat and DNA/RNA) Bellwork: Agenda:
Objective: 1.2b recognize the cell structures in an animal cell and outline their functions 1.2c state that ATP is produced in mitochondria and chloroplasts and outline the role of ATP in cells Bellwork:
Bellwork:
Agenda:
1.1d explain and distinguish between resolution and magnification, with reference to light and electron microscopy Bellwork: Agenda:
Objective: 1.1b calculate the linear magnifications of drawings, photomicrographs and electron micrographs 1.1d explain and distinguish between resolution and magnification, with reference to light and electron microscopy 1.1e calculate actual sizes of specimens from drawings, photomicrographs and electron micrographs |
Important InfoRemind 101 - text to 81010: Archives
April 2017
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