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Transcript
Review for Benchmark 1 Goals 1.1, 1.2, 3.1 Goal 1.1 Cells 1. Some cells in our bodies secrete proteins such as: protein enzymes that digest our food proteins that help our blood to clot protein hormones (e.g. insulin). If you think of a cell as a factory that makes proteins and ships them out, which parts of the cell accomplish each of the necessary functions? Factory Function What part of the cell accomplishes this function? Management -- sends out instructions (DNA -- > RNA) Step in protein synthesis: Workbench -- makes products (proteins) Step in protein synthesis: Processing and Distribution -- prepares products to leave factory/cell Structure and Transport -- moves proteins around in factory/cell Security Fence with Gates -- controls what comes into and leaves the factory/cell Powerhouse -- provides energy in a form the factory/cell can use (ATP) Cleanup crew -- disposes of old and worn out products and equipment 2. Cells also function as recycling plants that are constantly breaking down damaged organelles and molecules and using the components to make replacement organelles and molecules. For example, several organelles work together to dispose of and replace damaged protein molecules. To explain how the cell recycles proteins, fill in each blank below with one of the following: lysosome mitochondria nucleus ribosome. The damaged protein is brought to a _________________ where enzymes digest the protein into amino acids which can be used to synthesize new proteins. A new protein to replace the damaged protein is synthesized by a ___________________ . The instructions for making the replacement protein are provided by a gene in the ____________________ . The ATP molecules needed to provide the energy for protein synthesis are produced by the ____________________ . 3. In order for a cell to carry out its many functions, the molecules in the cell are constantly moving. The first list below describes some ways that molecules move in cells, and the second list includes several important types of molecules found in cells. Match each item in the first list with a type of molecule from the second list; you may use each match more than once. Carried in vesicles from the rough ER to the Golgi apparatus to the plasma membrane ____ Diffuses out of mitochondria where it is synthesized ____ Emerges from ribosomes where it is synthesized ____ Moves out of nucleus to ribosomes ____ a. ATP (energy) b. DNA c. protein d. RNA 5. Describe 3 differences between the animal and plant cell below. 6. Draw a prokaryotic cell and describe 3 differences between it and the eukaryotic cells above. 7. How do cells in an embryo differentiate into specialized cells? Why do they go through this process? 8. Put the following levels of organization in order from smallest to largest: tissue, organ system, organ, cell, organism. Goal 1.2.1 Homeostasis 9. Match the following descriptions with the methods of homeostasis: ____ Blood glucose levels rise and fall a. temperature ____ Too much water moves into a protist b. ADH ____ Blood vessels constrict or dialate c. insulin and glucagon ____ Kidneys are told to conserve water d. Contractile vacuole ____ Blood becomes too acidic or basic e. buffers 10. Draw a small section of the plasma membrane and label the phospholipid bilayer and carrier proteins. 11. Label the terms below as either active or passive transport. Movement of materials from high to low concentration Movement of materials from low to high concentration Diffusion Osmosis Facilitated Diffusion Energy required No Energy Required Carrier protein always required 12. A saltwater euglena cell is placed in freshwater. What will happen to that cell? Why? 13. A freshwater plant is placed in a marine environment. What will happen to that cell? Why? 14. Describe how an amoeba eats. Goal 1.2.2 Mitosis 15. Draw the cell cycle and label G1, S, G2, M, and Interphase. 16. Put the following pictures of mitosis in order and describe what is happening in each. 17. What happens when mitosis is out of control? Goal 1.2.3 Cellular Adaptations 18. Name each picture of protist below and write 2 adaptations that each has. How will each help them to survive? 3 Goal 3.1 DNA and Protein Synthesis 19. On the picture label a nucleotide, sugar, phosphate, nitrogen base, backbone and hydrogen bonds. 20. Describe DNA replication. 21. Label the following as DNA or RNA: Deoxyribose sugar ribose sugar 1 strand 2 strands Uracil replication Thymine transcription G-C found in nucleus A-U found all over cell A-T stores codes to make proteins 22. CCG TAG ACC GCT Replicate Transcribe Translate Find tRNA 23. Label Transcription, Translation, nucleus, ribosome, DNA, mRNA, tRNA, amino acid, polypeptide. 24. From the sequence in 22 show a substitution (point) mutation and a frameshift mutation. How are the proteins of each affected? 4