Cell Organelle Notes A. Cell Wall
... 2. Break down lipids, carbohydrates, proteins (food) to be used by cell 3.Break down old organelles 4. Remove debris ...
... 2. Break down lipids, carbohydrates, proteins (food) to be used by cell 3.Break down old organelles 4. Remove debris ...
cell organelles and features
... GOLGI APPARATUS (GOHL-jee) (Figure 7-9) The Golgi Apparatus is the ________________, _________________ and _______________ Organelle of the ...
... GOLGI APPARATUS (GOHL-jee) (Figure 7-9) The Golgi Apparatus is the ________________, _________________ and _______________ Organelle of the ...
Waste Removal - Pro and Eukaryotes
... They also have a cell wall surrounding the cell membrane that helps with structure and support They do have ribosomes so they are able to make their own proteins from the DNA they have ...
... They also have a cell wall surrounding the cell membrane that helps with structure and support They do have ribosomes so they are able to make their own proteins from the DNA they have ...
Name Date_____________________ St. Mary School
... resting cells that form inside a bacterial cell when conditions are unfavorable During binary fission a bacterial cell duplicates its genetic material and then divides into two separate cells The cell produced are identical to each other as well as to the parent cell In bacteria, prior to binary fis ...
... resting cells that form inside a bacterial cell when conditions are unfavorable During binary fission a bacterial cell duplicates its genetic material and then divides into two separate cells The cell produced are identical to each other as well as to the parent cell In bacteria, prior to binary fis ...
cell analogies collage
... 5. Write the function (or main job) of each structure next to its name on the list above. (Read your book, check the glossary and class notes... Make sure you get this part right) 6. Find a magazine picture which has a similar function (or use) as each cell structure. Write an analogy (or simile) to ...
... 5. Write the function (or main job) of each structure next to its name on the list above. (Read your book, check the glossary and class notes... Make sure you get this part right) 6. Find a magazine picture which has a similar function (or use) as each cell structure. Write an analogy (or simile) to ...
BIOLOGY 1 TEST REVIEW SHEET
... across the membrane? How? 19. What is a concentration gradient? What does dynamic equilibrium mean? 20. What is the difference between passive and active transport? 21. What is an isotonic solution? 22. What is a hypertonic solution? Shrink or swell? 23. What is a hypotonic solution? Shrink of swell ...
... across the membrane? How? 19. What is a concentration gradient? What does dynamic equilibrium mean? 20. What is the difference between passive and active transport? 21. What is an isotonic solution? 22. What is a hypertonic solution? Shrink or swell? 23. What is a hypotonic solution? Shrink of swell ...
Study Guide Chapters 1
... Be able to explain the basic process of: phase contrast, fluorescence microscopy, and AFM. Are most bacteria found living alone? (why or why not?) Be ready to recognize any of the prokaryotic cellular structures discussed in the notes and be able to say a little about what each structure does. ...
... Be able to explain the basic process of: phase contrast, fluorescence microscopy, and AFM. Are most bacteria found living alone? (why or why not?) Be ready to recognize any of the prokaryotic cellular structures discussed in the notes and be able to say a little about what each structure does. ...
Anatomy of the Eukaryotic Cell
... • Flagella on eukaryotic cells are few in number (1 or ) and long. – Flagellar movement is wavelike, like cracking a whip. ...
... • Flagella on eukaryotic cells are few in number (1 or ) and long. – Flagellar movement is wavelike, like cracking a whip. ...
Active Reading Section: Introduction to Cells
... prokaryotes are enclosed by an additional layer. This layer is called the capsule. The capsule has a sticky surface area, so it allows prokaryotes to cling to surfaces, such as your skin and your teeth. Eukaryotic cells are more complex than prokaryotic cells. They all have a cell membrane, ribosome ...
... prokaryotes are enclosed by an additional layer. This layer is called the capsule. The capsule has a sticky surface area, so it allows prokaryotes to cling to surfaces, such as your skin and your teeth. Eukaryotic cells are more complex than prokaryotic cells. They all have a cell membrane, ribosome ...
Learning objectives
... 20. Identify the three functional compartments of a chloroplast. Explain the importance of compartmentalization in chloroplast function. 21. Describe the evidence that mitochondria and chloroplasts are semiautonomous organelles. 22. Explain the roles of peroxisomes in eukaryotic cells. The Cytoskele ...
... 20. Identify the three functional compartments of a chloroplast. Explain the importance of compartmentalization in chloroplast function. 21. Describe the evidence that mitochondria and chloroplasts are semiautonomous organelles. 22. Explain the roles of peroxisomes in eukaryotic cells. The Cytoskele ...
Chapter 6 learning objectives
... 20. Identify the three functional compartments of a chloroplast. Explain the importance of compartmentalization in chloroplast function. 21. Describe the evidence that mitochondria and chloroplasts are semiautonomous organelles. 22. Explain the roles of peroxisomes in eukaryotic cells. The Cytoskele ...
... 20. Identify the three functional compartments of a chloroplast. Explain the importance of compartmentalization in chloroplast function. 21. Describe the evidence that mitochondria and chloroplasts are semiautonomous organelles. 22. Explain the roles of peroxisomes in eukaryotic cells. The Cytoskele ...
Chapter Six
... 20. Identify the three functional compartments of a chloroplast. Explain the importance of compartmentalization in chloroplast function. 21. Describe the evidence that mitochondria and chloroplasts are semiautonomous organelles. 22. Explain the roles of peroxisomes in eukaryotic cells. The Cytoskele ...
... 20. Identify the three functional compartments of a chloroplast. Explain the importance of compartmentalization in chloroplast function. 21. Describe the evidence that mitochondria and chloroplasts are semiautonomous organelles. 22. Explain the roles of peroxisomes in eukaryotic cells. The Cytoskele ...
Unit 4: Cells Chapter 4 Distinguish between the detail seen and the
... 2. What limits how big a cell can be and how small? 3. What are the differences between a light microscope, a TEM, and an SEM? What are each used for? Be able to tell from a micrograph which type of microscope was the image taken from. 4. Be able to sketch the structure of the plasma membrane making ...
... 2. What limits how big a cell can be and how small? 3. What are the differences between a light microscope, a TEM, and an SEM? What are each used for? Be able to tell from a micrograph which type of microscope was the image taken from. 4. Be able to sketch the structure of the plasma membrane making ...
Cell City - We Heart Science
... A Report demonstrates an analysis of the function of the cell membrane, nucleus, vacuole, ribosomes, enzymes, E.R., lysosome, Golgi apparatus, chloroplast, and mitochondria. Able to apply knowledge of central dogma, and osmosis. Shows evidence of understanding of differences between eukaryotic c ...
... A Report demonstrates an analysis of the function of the cell membrane, nucleus, vacuole, ribosomes, enzymes, E.R., lysosome, Golgi apparatus, chloroplast, and mitochondria. Able to apply knowledge of central dogma, and osmosis. Shows evidence of understanding of differences between eukaryotic c ...
CELLS
... Nucleoplasm: similar to the cytoplasm, it is a semifluid substance in which the DNA and nucleolus are suspended ...
... Nucleoplasm: similar to the cytoplasm, it is a semifluid substance in which the DNA and nucleolus are suspended ...
Animal Plant
... I. B. Cell Theory The cell is the basic living unit of structure and function. – All organisms are composed of one or more cells. ...
... I. B. Cell Theory The cell is the basic living unit of structure and function. – All organisms are composed of one or more cells. ...
characteristics of prokaryotic and eukaryotic cells
... year by an exceptionally heavy rainy season that flooded the sprawling shantytowns in Freetown and Conakry, the capitals of Sierra Leone and neighboring Guinea. In both countries, about two-thirds of the population lack toilets, a potentially lethal threat in the rainy season because of the contamin ...
... year by an exceptionally heavy rainy season that flooded the sprawling shantytowns in Freetown and Conakry, the capitals of Sierra Leone and neighboring Guinea. In both countries, about two-thirds of the population lack toilets, a potentially lethal threat in the rainy season because of the contamin ...
Document
... affecting the nervous or gastrointestinal system. Also, when the bloom ends, phytoplankton cells die, then they sink to bottom waters and are decomposed by bacteria. These aerobic bacteria use oxygen in the water; sometimes the oxygen level is reduced so much that shellfish and ...
... affecting the nervous or gastrointestinal system. Also, when the bloom ends, phytoplankton cells die, then they sink to bottom waters and are decomposed by bacteria. These aerobic bacteria use oxygen in the water; sometimes the oxygen level is reduced so much that shellfish and ...
Name
... 2. A cell removes very large particles through a process called ____________________. 3. Plants use a process called _____________________ to make glucose. 4. During __________________, food molecules are broken down to form CO2 and H2O (using oxygen) to release large amounts of energy. 5. In eukary ...
... 2. A cell removes very large particles through a process called ____________________. 3. Plants use a process called _____________________ to make glucose. 4. During __________________, food molecules are broken down to form CO2 and H2O (using oxygen) to release large amounts of energy. 5. In eukary ...
Ribosome - Hartland High School
... Structure A membrane system composed of folded sacs and tunnels, can be joined to the nuclear envelope; covered with ribosomes (rough ER); or not covered with ribosomes (smooth ER); amounts can vary between cells Function An intracellular highway & as a storage area for proteins to be later exported ...
... Structure A membrane system composed of folded sacs and tunnels, can be joined to the nuclear envelope; covered with ribosomes (rough ER); or not covered with ribosomes (smooth ER); amounts can vary between cells Function An intracellular highway & as a storage area for proteins to be later exported ...
Flagellum
A flagellum (/fləˈdʒɛləm/; plural: flagella) is a lash-like appendage that protrudes from the cell body of certain prokaryotic and eukaryotic cells. The word flagellum in Latin means whip. The primary role of the flagellum is locomotion but it also often has function as a sensory organelle, being sensitive to chemicals and temperatures outside the cell. Flagella are organelles defined by function rather than structure. There are large differences between different types of flagella; the prokaryotic and eukaryotic flagella differ greatly in protein composition, structure, and mechanism of propulsion. However, both are used for swimming.An example of a flagellate bacterium is the ulcer-causing Helicobacter pylori, which uses multiple flagella to propel itself through the mucus lining to reach the stomach epithelium. An example of a eukaryotic flagellate cell is the mammalian sperm cell, which uses its flagellum to propel itself through the female reproductive tract. Eukaryotic flagella are structurally identical to eukaryotic cilia, although distinctions are sometimes made according to function and/or length.