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TOPIC 2: CELLS Cells may have different shape. List the properties of living things Is a river living organism? Why? Is a TV living organism? Why? Is a mushroom living thing? Why? Metabolism Response Growth Characteristics of life Reproduction Nutrition Excretion Types of microscope Light microscope can magnify objects about 1000 times. Electron microscope (EM): focuses beam of electrons through specimen or onto its surface. a. Scanning EM: it is used to study of detailed structure of the surface of the cell. b. Transmission EM: is used to study details of internal structure of the cell. Different techniques in microscope • Scanning electron microscope 580X • Light microscope • 230X Different techniques in microscope • Differential interference contrast micrograph 380X • Transmission electron micrograph 9,375X Organization of Life Arrange the following words from largest structure to smallest structure: Atom Protein Plant Cell Molecule Virus Mitochondria Bacteria Nucleus Long Nerve Cell Chicken Egg Grain of rice Cell size and scales http://learn.genetics.utah.edu/content/begin/cells/scale/ THE CELL THEORY 1. All living things are composed of cells 2. The cell is the smallest unit of life 3. All cells come from pre-existing cells HOW CAN WE GROUP CELLS ACCORDING TO THEIR TYPE? PROKARYOTIC CELLS EUKARYOTIC CELLS PROKARYOTIC CELL (DEFINITION) - No true nucleus - No membrane-bound organelles - Ex. Bacteria EUKARYOTIC CELL (DEFINITION) - True nucelus - Membrane bound organelles - Ex. Animal cell, plant cell • Bacterial colony at the tip of a needle. CELL MEMBRANE Parts of PROKARYOTIC CELLS 1. Cell membrane 2. Cytoplasm 3. Nucleoid (genetic material) 4. Cell wall 5. Ribosomes Parts of PROKARYOTIC CELLS 6. Capsule 7. Pili 8. Flagella 9. Plasmid What does the term “bacterial growth” mean? What are the conditions for bacterial growth? Is there any bacterium in your body? Are all bacteria harmfull? Classification of Bacteria • According to shape Eukaryotic cells What are these cells? Is it an animal cell or plant cell? Why? What are the parts that you can identify? EUKARYOTIC CELLS 1. 2. 3. 4. 5. 6. 7. 8. Cell membrane Cytoplasm Nucleus Ribosomes Rough endoplasmic reticulum Smooth endoplasmic reticulum Golgi apparatus Mitochondria What are the diffreneces between the cell in slide 4 and this cell? EUKARYOTIC CELLS Plants 9. Cell wall 10. Chloroplast 11. Vacuoles 12. Cytoskeleton Animals 9. Lysosome 10. Centrioles 11. Vacuoles 12. Cytoskeleton 13. Cilia 14. Flagella What does the eukaryotic cell cytoplasm contain? Explain. • Organelle name: Nucleus • Structure: • Function: • Label the parts of the nucleus. Structure: Nucleus is made of double membranes with pores. It contains genetic material (chromatin) What is the function of the nucleus? to cotrol all cellular activities. E.g: protein synthesis • Why are there pores on the nuclear membrane? To allow molecules to enter and exit the nucleus. These molecules carry messages to the organelles. • Define chromatin. It is eukaryotic genetic material which consists of DNA and protein. • Organelle name: rough endoplasmic reticulum (rER) and smooth endoplasmic reticulum (sER) • Structure: It has flattened membranous structure which has ribosome on the membrane. • Function of rER: produce proteins and transport them to Golgi body. • Structure-function relation: folded membranes have more surface area, more protein syntheis takes place. sER • It produces lipid and transport these proteins to the Golgi body. • It has role in the synthesis of cell membrane. Why? • It stores Ca2+ in the muscle cell Golgi body • Organelle name: Lysosome • Structure: Membrane bound vesicle. • Function: a. To digest old organelles, harmful chemicals, bacteria b. Autolysis during development of embryo • Organelle name: • Vacuole • Structure: Mebrane bound vesicle Function: a. To store food or waste b. To pump out excess water from fresh water protist cells. • Organelle name: Mitochondria • Structure: Membrane bound organelle. It has double membranes, inner membrane has folded structure • Function: To supply energy (ATP) to the cell by breaking down of sugar. • Why is the inner • Organelle name: Chloroplast • Structure: It has double membranes, It contains chlorophyll (green pigments) • Function: to produce sugar by photosynthesis. • What is photosynthesis? Name the three things which are used in photosynthesis. • Name a similarity between nucleus, mitochondrion and chloroplast. • Do all cells of a plant have chloroplast? Justify your answer. • Name of the cell part: cell wall • Structure: cellulose • Function: to protect cell against water pressure in the plant cell. • Organelle name: Ribosome • Structure: Has two subunits, made of rRNA and proteins. • Function: to produce protein • What else do we need to produce protein? SKELETON OF THE CELL • Name of the cell part: cytoskeloton • Structure: protein fiber • Function: a. to give shape to animal cells. b. To transport organelles in the cell. Muscle fibers for movement • Organelle name: centrosome • Structure: protein fibers • Function: have role in cell division. • They are found only in animal cells. • Name of the cell part: flagella • Structure: protein fiber • Function: movement HOW CAN WE GROUP ORGANISMS IN TERMS OF CELL NUMBER? 1- Unicellular organisms (one celled organism) Ex. Bacteria and protisits 2- Multicellular organisms (many celled organism) Ex. Plants, animals, fungi EVOLUTION CONNECTION: Secondary endosymbiosis is the key to much of protist diversity The endosymbiont theory explains the origin of mitochondria and chloroplasts. • Eukaryotic cells evolved when prokaryotes established residence within other, larger prokaryotes. • This theory is supported by present-day mitochondria and chloroplasts that – have structural and molecular similarities to prokaryotic cells and – replicate and use their own DNA, separate from the nuclear DNA of the cell. © 2012 Pearson Education, Inc. Evolution of eukaryotic cell Stem cell It is an unspecialized cell that can produce an identical daughter cell and a more specialized cell that undergoes differentiation. Stem cells can be used for therapeutic purpuses. Therapeutic cloning can produce stem cells with great medical potential When grown in laboratory culture, stem cells can • divide indefinitely and • give rise to many types of differentiated cells. Adult stem cells can give rise to many, but not all, types of cells. Embryonic stem cells are considered more promising than adult stem cells for medical applications. The ultimate aim of therapeutic cloning is to supply cells for the repair of damaged or diseased organs. © 2012 Pearson Education, Inc. Embryo /fetus has stem cells (ES). Umblical cord has stem cells. Adult tissues have stem cells . Development of adult stem cells is limited. Example: Stem cell from the bone tissue may develop into heart muscle cell, heart muscle and nerve tissue. © 2012 Pearson Education, Inc. Figure 11.15 Blood cells Adult stem cells in bone marrow Nerve cells Cultured embryonic stem cells Heart muscle cells Different culture conditions Different types of differentiated cells Cell size surface area volume ratio • When surface area volume ratio is small, that means surface area of the cell is not enough and cell will divide. Emergent properties Group of cells can perform more complex function than a single cell. This property is called emergent property.