cell city project - Byron High School
... the trash? In this project, you are going to compare the organelles in a cell to the jobs needed to run a city (or theme park, store, school, factory, etc.). GOAL: Create a 3-D model & video that: o Shows metaphors comparing each of the organelles in a cell to other structures in a city (or theme ...
... the trash? In this project, you are going to compare the organelles in a cell to the jobs needed to run a city (or theme park, store, school, factory, etc.). GOAL: Create a 3-D model & video that: o Shows metaphors comparing each of the organelles in a cell to other structures in a city (or theme ...
Membrane Notes
... • Water is so small and there is so much of it the cell can’t control it’s movement through the cell membrane. ...
... • Water is so small and there is so much of it the cell can’t control it’s movement through the cell membrane. ...
Cellular Ultrastructure
... Cell Wall. Made of murein (not cellulose), which is a glycoprotein (i.e. a protein/carbohydrate complex, also called peptidoglycan). There are two kinds of cell wall, which can be distinguished by a Gram stain: Gram positive bacteria have a thick cell wall and stain purple, while Gram negative bacte ...
... Cell Wall. Made of murein (not cellulose), which is a glycoprotein (i.e. a protein/carbohydrate complex, also called peptidoglycan). There are two kinds of cell wall, which can be distinguished by a Gram stain: Gram positive bacteria have a thick cell wall and stain purple, while Gram negative bacte ...
Notes Unit 2 Part 3 POWERPOINT
... high concentration to an area of low area of _____ concentration through a selectively _____________ membrane permeable ___________ energy because it is – requires no _______ diffusion _________ – occurs in solutions when the solute is too ______ large to pass through the membrane so the water will ...
... high concentration to an area of low area of _____ concentration through a selectively _____________ membrane permeable ___________ energy because it is – requires no _______ diffusion _________ – occurs in solutions when the solute is too ______ large to pass through the membrane so the water will ...
7.2 cell structure worksheet answers
... tricks! Hope I help :)) Video Rating: / 5. Click Here - Movie Star Planet. for a biology II test on cell function and organelles. Gives the cell shape, protection, and regulates movement of substances into and out of cell. Free Cell Biology review questions for your success in AP Biology and other e ...
... tricks! Hope I help :)) Video Rating: / 5. Click Here - Movie Star Planet. for a biology II test on cell function and organelles. Gives the cell shape, protection, and regulates movement of substances into and out of cell. Free Cell Biology review questions for your success in AP Biology and other e ...
ANIMAL CELL PLANT CELL
... Kingdoms are Prokaryota (bacteria) and Protoctista (algae and protozoa). Many people confuse fungi with plants but there are several key differences between the two cell types. How are they different to plants? One of the main ways in which they differ is in their mode of nutrition. Plants are prima ...
... Kingdoms are Prokaryota (bacteria) and Protoctista (algae and protozoa). Many people confuse fungi with plants but there are several key differences between the two cell types. How are they different to plants? One of the main ways in which they differ is in their mode of nutrition. Plants are prima ...
Week of 100316 Lesson Plan
... Higher Order Why are mitosis and meiosis important to cell theory? Question(s) How do sexual and asexual reproduction compare? How is a plant cell different from an animal cell in structure and function? Which organelles are most important to a cell? Why is the nucleus important? Why is cytoplasm im ...
... Higher Order Why are mitosis and meiosis important to cell theory? Question(s) How do sexual and asexual reproduction compare? How is a plant cell different from an animal cell in structure and function? Which organelles are most important to a cell? Why is the nucleus important? Why is cytoplasm im ...
Looking Inside the Cell
... Physical Description: Looks like flattened sacs and tubes. Job Description: The cell’s mailroom. It packages proteins with other materials and distibute them throughout the cell. Chloroplasts Physical Description: ________________________________ ...
... Physical Description: Looks like flattened sacs and tubes. Job Description: The cell’s mailroom. It packages proteins with other materials and distibute them throughout the cell. Chloroplasts Physical Description: ________________________________ ...
Incredible Cell Project - Streetsboro City Schools
... an explanation of something by comparing it with something else. For this project option, you will need: poster paper, text with an illustration of either a plant or animal cell to refer to, as well as: scissors, glue, colored pencils/markers, magazines, and/or ...
... an explanation of something by comparing it with something else. For this project option, you will need: poster paper, text with an illustration of either a plant or animal cell to refer to, as well as: scissors, glue, colored pencils/markers, magazines, and/or ...
Eukaryotic Cell Analogy Project
... E. Golgi apparatus: place for modifying, inspecting, packing, and shipping product F. Mitochondria: energy source G. Vacuole: storage or waste area (for water reserves or trash) H. Protein: what you are making or producing. Here are organelles that you can include for extra credit (1 point each): I. ...
... E. Golgi apparatus: place for modifying, inspecting, packing, and shipping product F. Mitochondria: energy source G. Vacuole: storage or waste area (for water reserves or trash) H. Protein: what you are making or producing. Here are organelles that you can include for extra credit (1 point each): I. ...
Plasma Membrane - Rapid City Area Schools
... Review: Name as many different parts of the inside of a cell as possible Learning Targets: How osmosis and diffusion worked in the egg lab, different cells in the body, plant vs. animal cells ...
... Review: Name as many different parts of the inside of a cell as possible Learning Targets: How osmosis and diffusion worked in the egg lab, different cells in the body, plant vs. animal cells ...
Slayt 1 - benanbiology
... 4. Controls the movement of substances into and out of the cell (selective permeability) 5.Cell membrane is very flexible and semipermeable. Large molecules as protein can’t pass through it but small molecules as water can pass (*Neutral molecules, lipid soluble molecules can pass more easily than t ...
... 4. Controls the movement of substances into and out of the cell (selective permeability) 5.Cell membrane is very flexible and semipermeable. Large molecules as protein can’t pass through it but small molecules as water can pass (*Neutral molecules, lipid soluble molecules can pass more easily than t ...
Chapter 7: Cells and Their Environment
... Cell Membrane cont. 3. Forms non-polar interior zone (middle layer) - Polar molecules (glucose, amino acids [AA], ions, cell wastes) can’t pass through b/c repelled by non-polar tails *** Advantage: Forms good barrier! - Problem: If cell membranes were made only of lipids, most substances could not ...
... Cell Membrane cont. 3. Forms non-polar interior zone (middle layer) - Polar molecules (glucose, amino acids [AA], ions, cell wastes) can’t pass through b/c repelled by non-polar tails *** Advantage: Forms good barrier! - Problem: If cell membranes were made only of lipids, most substances could not ...
6-8 Lesson Plan 5 - Delaware Access Project
... E1: Create a multi-step investigation to explore a hypothesis. E2: Follow a multi-step investigation to explore a hypothesis. E3: Given a multi-step investigation, identify materials that are needed. Nature and Application of Science and Technology 8.3 Accurately collect data through the selection a ...
... E1: Create a multi-step investigation to explore a hypothesis. E2: Follow a multi-step investigation to explore a hypothesis. E3: Given a multi-step investigation, identify materials that are needed. Nature and Application of Science and Technology 8.3 Accurately collect data through the selection a ...
Cell Size and Movement
... 2. What are some things that cannot pass through a window screen? Why is it important to keep these things from moving through the screen? 3. The cell is surrounded by a cell membrane, which regulates what enters and leaves the cell. Why is it important to regulate what moves into and out of a cell? ...
... 2. What are some things that cannot pass through a window screen? Why is it important to keep these things from moving through the screen? 3. The cell is surrounded by a cell membrane, which regulates what enters and leaves the cell. Why is it important to regulate what moves into and out of a cell? ...
BioFlix Study Sheet for Membrane Transport Part I
... B. is found just inside the plasma membrane. C. regulates the composition of the cytoplasm. D. is a protective structure made of cellulose fibrils. E. makes food by converting light energy to chemical energy. ____3. Which of the following is a function of the central vacuole? A. Separating the cell ...
... B. is found just inside the plasma membrane. C. regulates the composition of the cytoplasm. D. is a protective structure made of cellulose fibrils. E. makes food by converting light energy to chemical energy. ____3. Which of the following is a function of the central vacuole? A. Separating the cell ...
The Cell Wall of Prokaryotes: Peptidoglycan and Related Molecules
... Gram + bacteria very sensitive to the action of penicillin and lysosome • Penicilin interferes with the final linking of the peptidoglycan rows by a peptide cross-bridge • Lysozyme is an enzyme found in tears and saliva that breaks the b-1,4-glycosidic bonds between NAM and NAG • Gram + cell wall i ...
... Gram + bacteria very sensitive to the action of penicillin and lysosome • Penicilin interferes with the final linking of the peptidoglycan rows by a peptide cross-bridge • Lysozyme is an enzyme found in tears and saliva that breaks the b-1,4-glycosidic bonds between NAM and NAG • Gram + cell wall i ...
Cell Transport
... Sodium ions inside the cell bind to the carrier protein which changes shape and releases sodium ions outside the cell membrane As a result a phosphate group is released from the pump, returning the channel protein to its original shape, and releasing potassium ions inside the cell For every three so ...
... Sodium ions inside the cell bind to the carrier protein which changes shape and releases sodium ions outside the cell membrane As a result a phosphate group is released from the pump, returning the channel protein to its original shape, and releasing potassium ions inside the cell For every three so ...
LEARNING GOALS: To identify cell parts from a diagram
... 3. DNA is found in this structure. nucleus 4. The general location of where a protein is made endoplasmic reticulum 5. This organelle is analogous to a post office because it sorts, modifies, and packages newly membrane proteins. Golgi HINT: Golgi, Endoplasmic Reticulum, DNA, Nucleus, Ribosome ...
... 3. DNA is found in this structure. nucleus 4. The general location of where a protein is made endoplasmic reticulum 5. This organelle is analogous to a post office because it sorts, modifies, and packages newly membrane proteins. Golgi HINT: Golgi, Endoplasmic Reticulum, DNA, Nucleus, Ribosome ...
Endosymbiotic Theory
... The Endosymbiotic Theory of Eukaryote Evolution (Symboitic Theory) was first proposed by former Boston University Biologist Lynn Margulis in the 1960's and officially in her 1981 book "Symbiosis in Cell Evolution". Although now accepted as a plausible theory, both she and her theory were ridiculed b ...
... The Endosymbiotic Theory of Eukaryote Evolution (Symboitic Theory) was first proposed by former Boston University Biologist Lynn Margulis in the 1960's and officially in her 1981 book "Symbiosis in Cell Evolution". Although now accepted as a plausible theory, both she and her theory were ridiculed b ...
Cell Structure & Function
... • Cytoplasm: jelly-like substance that contains all parts of the cell. • Organelles: structures within a cell that are specialized to perform certain functions. ...
... • Cytoplasm: jelly-like substance that contains all parts of the cell. • Organelles: structures within a cell that are specialized to perform certain functions. ...
Cell wall
The cell wall is a tough, flexible and sometimes rigid layer that surrounds some types of cells. It surrounds the cell membrane and provides these cells with structural support and protection. In addition, the cell wall acts as a filtering mechanism. A major function of the cell wall is to act as a pressure vessel, preventing over-expansion when water enters the cell. Cell walls are found in plants, fungi and prokaryotic cells but not in mycoplasmas.The composition of the cell wall varies between species and may depend on cell type and developmental stage. The primary cell wall of land plants is composed of the polysaccharides cellulose, hemicellulose and pectin. In bacteria, peptidoglycan forms the cell wall. Archaean cell walls have various compositions, and may be formed of glycoprotein S-layers, pseudopeptidoglycan, or polysaccharides. Fungi possess cell walls made of the glucosamine polymer chitin, and algae typically possess walls made of glycoproteins and polysaccharides. Unusually, diatoms have a cell wall composed of biogenic silica. Often, other accessory molecules are found anchored to the cell wall.