A.P. Biology Eukaryotic vs. Prokaryotic Cell Factory Analogy
... Your task is to create an analogy of a factory using the parts that are found within plant and animal cells. This is a REVIEW assignment (reminding you of what you learned in Biology 2 years ago). Instead of drawing exactly what each cell part looks like, you will be creating buildings, roads, and f ...
... Your task is to create an analogy of a factory using the parts that are found within plant and animal cells. This is a REVIEW assignment (reminding you of what you learned in Biology 2 years ago). Instead of drawing exactly what each cell part looks like, you will be creating buildings, roads, and f ...
Cell Membrane Activity - Blair Community Schools
... do you think the pencil or paper clip must be coated with soap solution in order to pass through the membrane? ____________________________________________________ ____________________________________________________ Demonstration 4: Membrane Proteins In a cell membrane, small molecules, such as wat ...
... do you think the pencil or paper clip must be coated with soap solution in order to pass through the membrane? ____________________________________________________ ____________________________________________________ Demonstration 4: Membrane Proteins In a cell membrane, small molecules, such as wat ...
Cell Structure I
... APOPTOSIS: Programmed cell death. Energy requiring process. Helps remove injurious cells from an organ. Complex pathways can be activated ultimately resulting in a compacted (pyknotic) nucleus, specific cleavage of the chromatin, blebbing of the plasma membrane. No rupture of the PM to release intra ...
... APOPTOSIS: Programmed cell death. Energy requiring process. Helps remove injurious cells from an organ. Complex pathways can be activated ultimately resulting in a compacted (pyknotic) nucleus, specific cleavage of the chromatin, blebbing of the plasma membrane. No rupture of the PM to release intra ...
Investigating the effectiveness of antibacterial soaps
... “first seed” (single cells that do not contain a nucleus, or membrane bound organelles). ...
... “first seed” (single cells that do not contain a nucleus, or membrane bound organelles). ...
The Cell Overview
... into two major categories: The Kingdom Eubacteria and the Kingdom Archaebacteria. Eubacteria are common types that occur all around us, usually in they are, on surfaces and in the soil. You can only find Archaebacteria in extreme environments, like hot sulfur springs. Archaebacteria are thought to b ...
... into two major categories: The Kingdom Eubacteria and the Kingdom Archaebacteria. Eubacteria are common types that occur all around us, usually in they are, on surfaces and in the soil. You can only find Archaebacteria in extreme environments, like hot sulfur springs. Archaebacteria are thought to b ...
Figure 11-1 The stereochemical relationships, shown in Fischer
... A structural motif similar to that of cellulose: thus, similar physical properties (structure-function correlations) ...
... A structural motif similar to that of cellulose: thus, similar physical properties (structure-function correlations) ...
Coloring of cell membrane diffusion osmosis transport
... This is the hydrophilic area of the phospholipid molecule. It is the “head” There are many carbohydrates attached to the membrane. Carbohydrates are made out of sugars (six-carbon ring shaped molecules). These usually serve as receptors that identify what kind of cell the cell is. These are proteins ...
... This is the hydrophilic area of the phospholipid molecule. It is the “head” There are many carbohydrates attached to the membrane. Carbohydrates are made out of sugars (six-carbon ring shaped molecules). These usually serve as receptors that identify what kind of cell the cell is. These are proteins ...
Bacteria
... ¾ Plasmid = extra chromosome that can replicate separately from the main chromosome ...
... ¾ Plasmid = extra chromosome that can replicate separately from the main chromosome ...
Cell Project - Brandywine School District
... One should resemble a plant cell and one should resemble an animal cell. Develop a legend or key to label each organelle (part) of the cell. (You must include all of the organelles that we have identified in our notes.)This legend should also include the function of each part of the cell (refer to y ...
... One should resemble a plant cell and one should resemble an animal cell. Develop a legend or key to label each organelle (part) of the cell. (You must include all of the organelles that we have identified in our notes.)This legend should also include the function of each part of the cell (refer to y ...
Chemotherapeutic and Chemical Agents
... Drugs that interfere with bacterial cell metabolism They produce a bacteriocidal or bacteriostatic effect on prokaryote cells ...
... Drugs that interfere with bacterial cell metabolism They produce a bacteriocidal or bacteriostatic effect on prokaryote cells ...
All in-class activities_Colonization
... In science models are a set of ideas that, together, are used to try to explain how natural phenomena might work. A model may be a graph, a diagram, a set of ideas set down in words, or anything that can be used to represent the phenomenon. For example, a drawing of a cell is not a real cell, but he ...
... In science models are a set of ideas that, together, are used to try to explain how natural phenomena might work. A model may be a graph, a diagram, a set of ideas set down in words, or anything that can be used to represent the phenomenon. For example, a drawing of a cell is not a real cell, but he ...
Poster
... • β-lactamases, enzymes produced by certain bacteria, are accountable for the bacteria’s resistance to β-lactam antibiotics. • β -lactamases most likely evolved as chemicals interfere among bacteria. ...
... • β-lactamases, enzymes produced by certain bacteria, are accountable for the bacteria’s resistance to β-lactam antibiotics. • β -lactamases most likely evolved as chemicals interfere among bacteria. ...
Plant/Animal Cell Info
... Centrioles also give rise to basal bodies that control the origin of cilia and flagella in motile cells of protists. In cross section, flagella and cilia have 9 sets of microtubule doublets surrounding a pair of single microtubules in the center (9 + 2 pattern). This characteristic pattern also occu ...
... Centrioles also give rise to basal bodies that control the origin of cilia and flagella in motile cells of protists. In cross section, flagella and cilia have 9 sets of microtubule doublets surrounding a pair of single microtubules in the center (9 + 2 pattern). This characteristic pattern also occu ...
Cytoskeleton and Extracellular Matrix
... • Gives the cell some structural support • Plays a role in cell movement – Movement of organelles, and cell itself – Needed for muscle contraction • Regulates cellular activity ...
... • Gives the cell some structural support • Plays a role in cell movement – Movement of organelles, and cell itself – Needed for muscle contraction • Regulates cellular activity ...
TITLE: CELL ANALOGIES COLLAGE
... PROCEDURE: Define analogy: "A comparison between two things which are similar in some respects, but otherwise are different. An explaining of something by comparing it point by point with something else." -- Webster's Discuss the difference between structure and function, and structural and function ...
... PROCEDURE: Define analogy: "A comparison between two things which are similar in some respects, but otherwise are different. An explaining of something by comparing it point by point with something else." -- Webster's Discuss the difference between structure and function, and structural and function ...
7 Cell Parts Packet
... Organization of the Human Body The human body can be organized into a series of levels: cells, tissues, organs, and organ systems. In the first column, fill in the correct level of organization. Then, number the levels in order from simplest (1) to most complex (4) in the last column. ...
... Organization of the Human Body The human body can be organized into a series of levels: cells, tissues, organs, and organ systems. In the first column, fill in the correct level of organization. Then, number the levels in order from simplest (1) to most complex (4) in the last column. ...
UNIT 1 - Colegio Nuestra Señora del Prado
... 1.- In which group would you classify these living things? 1. cocci 2. red algae 3. diatoms 4. mushroom 5. yeast 6. amoebae ...
... 1.- In which group would you classify these living things? 1. cocci 2. red algae 3. diatoms 4. mushroom 5. yeast 6. amoebae ...
AP Bio Ch 4
... Golgi - enzymes in cisternae modify ER products as they move from cis to trans face - each cisterna has unique enzymes - products move from cisterna to cisterna in transport vesicles some examples of what the Golgi does to ER products: alters some membrane phospholipids alters oligosaccharide portio ...
... Golgi - enzymes in cisternae modify ER products as they move from cis to trans face - each cisterna has unique enzymes - products move from cisterna to cisterna in transport vesicles some examples of what the Golgi does to ER products: alters some membrane phospholipids alters oligosaccharide portio ...
Cell Simile Project
... 2. Choose a human built structure to serve as the basis for your cell similes. The title of your presentation will be “A Cell is like a…………..”. In the blank space you will put the name of your human built structure such as a/an airport, football game, circus, shopping mall, etc. The presentation wil ...
... 2. Choose a human built structure to serve as the basis for your cell similes. The title of your presentation will be “A Cell is like a…………..”. In the blank space you will put the name of your human built structure such as a/an airport, football game, circus, shopping mall, etc. The presentation wil ...
Types of micro-organisms
... sometimes classified as microorganisms. Viruses are much smaller than common microbes. They are made of a DNA molecule covered with a protein shell called a capsid. Retroviruses are made of an RNA molecule covered with a capsid. Capsids can take many shapes. Viruses cannot reproduce outside the host ...
... sometimes classified as microorganisms. Viruses are much smaller than common microbes. They are made of a DNA molecule covered with a protein shell called a capsid. Retroviruses are made of an RNA molecule covered with a capsid. Capsids can take many shapes. Viruses cannot reproduce outside the host ...
Cell Biology
... • Water disassociates into H+ and OH• Imbalance of H+ and OH- give rise to “acids and bases” - Measured by the pH • pH influence charges of amino acid groups on protein, causing a ...
... • Water disassociates into H+ and OH• Imbalance of H+ and OH- give rise to “acids and bases” - Measured by the pH • pH influence charges of amino acid groups on protein, causing a ...
Prokaryotic
... Six characteristics that all cells have in common: 1. Surrounded by a cell membrane. 2. Have ribosomes (make proteins) 3. Contain DNA 4. Have the ability to reproduce 5. Maintain homeostasis 6. Respond to stimuli Write this in the “BOTH” column! ...
... Six characteristics that all cells have in common: 1. Surrounded by a cell membrane. 2. Have ribosomes (make proteins) 3. Contain DNA 4. Have the ability to reproduce 5. Maintain homeostasis 6. Respond to stimuli Write this in the “BOTH” column! ...
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.