Powerpoint history - Social Circle City Schools
... • Makes proteins • The “free” ribosomes in cytoplasm make proteins for the cell that they are INSIDE of. • Ribosomes that are attached to ER make proteins for OUTSIDE OF CELL. ...
... • Makes proteins • The “free” ribosomes in cytoplasm make proteins for the cell that they are INSIDE of. • Ribosomes that are attached to ER make proteins for OUTSIDE OF CELL. ...
Prokaryotic cells
... •Theoretically, a collection of bacterial cells, all of which share an overall similar pattern of traits and 70%–80% of their genes •Members of given species can show variations - subspecies, strain, or type are terms used to designate bacteria of the same species that have ...
... •Theoretically, a collection of bacterial cells, all of which share an overall similar pattern of traits and 70%–80% of their genes •Members of given species can show variations - subspecies, strain, or type are terms used to designate bacteria of the same species that have ...
Name
... http://programs.northlandcollege.edu/biology/Biology1111/animations/flagellum.html During this tutorial, read the information provided about cell movement and answer the following questions. At any time, if the slide moves too fast, click on the BACK button and click PAUSE. Feel free to click PAUSE ...
... http://programs.northlandcollege.edu/biology/Biology1111/animations/flagellum.html During this tutorial, read the information provided about cell movement and answer the following questions. At any time, if the slide moves too fast, click on the BACK button and click PAUSE. Feel free to click PAUSE ...
Study Guide
... 1. The process of maintaining balance inside a cell 2. A boundary between a cell and its environment 3. The feature of the plasma membrane that keeps ...
... 1. The process of maintaining balance inside a cell 2. A boundary between a cell and its environment 3. The feature of the plasma membrane that keeps ...
Name
... 1. The process of maintaining balance inside a cell 2. A boundary between a cell and its environment 3. The feature of the plasma membrane that keeps ...
... 1. The process of maintaining balance inside a cell 2. A boundary between a cell and its environment 3. The feature of the plasma membrane that keeps ...
animal cells
... enzymes. This is where the digestion of cell nutrients takes place. mitochondrion - spherical to rod-shaped organelles with a double membrane. The inner membrane is infolded many times, forming a series of projections (called cristae). The mitochondrion converts the energy stored in glucose into ATP ...
... enzymes. This is where the digestion of cell nutrients takes place. mitochondrion - spherical to rod-shaped organelles with a double membrane. The inner membrane is infolded many times, forming a series of projections (called cristae). The mitochondrion converts the energy stored in glucose into ATP ...
the discovery of cells
... - Organisms with a cell that lacks internal structures surrounded by membranes - Most are single celled organisms Eukaryote/ Eukaryotic: - Organisms that have cells containing internal, membrane bound structures - Organelles = a structure that has a membrane surrounding it. - Organelles isolate the ...
... - Organisms with a cell that lacks internal structures surrounded by membranes - Most are single celled organisms Eukaryote/ Eukaryotic: - Organisms that have cells containing internal, membrane bound structures - Organelles = a structure that has a membrane surrounding it. - Organelles isolate the ...
Name
... molecule _____________________ and are used for cell recognition. 15. The cell membrane can rearrange itself if it is disturbed because the tiny parts that make up the bilayer are ______________, which pull them back into place. 16. ________________________diffusion uses a protein to help large mole ...
... molecule _____________________ and are used for cell recognition. 15. The cell membrane can rearrange itself if it is disturbed because the tiny parts that make up the bilayer are ______________, which pull them back into place. 16. ________________________diffusion uses a protein to help large mole ...
MICROBIOLOGY LECTURE TITLE: Measuring Bacterial Growth
... Membrane Filtration • ________ __________ can also be used to determine the ________ _______________ • In this method ______ _____ ___________ onto membrane filter which is then placed over a ________ ______ __________. ...
... Membrane Filtration • ________ __________ can also be used to determine the ________ _______________ • In this method ______ _____ ___________ onto membrane filter which is then placed over a ________ ______ __________. ...
cell notes organizer answers1
... Name _____________________________ Hour _____ Date___________________________ Sp ______ ...
... Name _____________________________ Hour _____ Date___________________________ Sp ______ ...
Cell Membranes
... Another name for the plasma membrane. This term means to “see little things”. The measurement used to measure the size of cells. Molecule that is repeated in a cell membrane. Another name for the Cytoplasmic membrane. The water loving part of the phospholipid molecule. A Red Blood Cell (RBC) is abou ...
... Another name for the plasma membrane. This term means to “see little things”. The measurement used to measure the size of cells. Molecule that is repeated in a cell membrane. Another name for the Cytoplasmic membrane. The water loving part of the phospholipid molecule. A Red Blood Cell (RBC) is abou ...
3D CELL Model Project Rubric
... You are required to make a 3-D model of a plant or animal cell. You should try to make your cell model look like the pictures we have seen in class and are in your book. Use your book and other resources to help you design the cell organelles. You may choose either an animal cell or a plant cell, bu ...
... You are required to make a 3-D model of a plant or animal cell. You should try to make your cell model look like the pictures we have seen in class and are in your book. Use your book and other resources to help you design the cell organelles. You may choose either an animal cell or a plant cell, bu ...
Lecture 4 - Harford Community College
... – Mitochondrial DNA (mtDNA) has unique genes in their DNA that are lacking in nuclear DNA ...
... – Mitochondrial DNA (mtDNA) has unique genes in their DNA that are lacking in nuclear DNA ...
Chapter 7: Tour of the Cell 1. Distinguish between magnification and
... 2. Describe the principles, advantages, and limitations of the light microscope, transmission electron microscope, and scanning electron microscope. 3. Distinguish between prokaryotic and eukaryotic cells. 4. Describe the structure and function of the nucleus. 5. Describe the structure and function ...
... 2. Describe the principles, advantages, and limitations of the light microscope, transmission electron microscope, and scanning electron microscope. 3. Distinguish between prokaryotic and eukaryotic cells. 4. Describe the structure and function of the nucleus. 5. Describe the structure and function ...
CELL ORGANELLES
... • Controls cell activities • Keeps DNA out of the cytoplasm, but allows RNA to move through the nuclear pores and ribosomes • Cell reproduction starts here ...
... • Controls cell activities • Keeps DNA out of the cytoplasm, but allows RNA to move through the nuclear pores and ribosomes • Cell reproduction starts here ...
origin of life - UniMAP Portal
... PROTOCELL – cell-like structure with a lipid-protein membrane developed from coacervate droplets. Coacervate droplets – are complex spherical units formed spontaneously when concentrated mixtures of macromolecules (like RNA, DNA, amino acids, phospholipids, clay etc.) are held at the right temperatu ...
... PROTOCELL – cell-like structure with a lipid-protein membrane developed from coacervate droplets. Coacervate droplets – are complex spherical units formed spontaneously when concentrated mixtures of macromolecules (like RNA, DNA, amino acids, phospholipids, clay etc.) are held at the right temperatu ...
classkingdomsppt
... It is not always an easy thing to tell the difference between living, dead, and non-living things. Prior to the 1600's many people believed in Spontaneous Generation. ...
... It is not always an easy thing to tell the difference between living, dead, and non-living things. Prior to the 1600's many people believed in Spontaneous Generation. ...
How Cells Are Put Together
... slide in a specific direction Microtubules or microfilaments can shunt organelles to different parts of cell ...
... slide in a specific direction Microtubules or microfilaments can shunt organelles to different parts of cell ...
Nerve activates contraction
... Cells are not all the same but all cells share general structures and some functions Metabolism Reproduction Irritability Mobility Ability to Grow ...
... Cells are not all the same but all cells share general structures and some functions Metabolism Reproduction Irritability Mobility Ability to Grow ...
(a) Gram-positive bacteria
... 1) Bacteria is stained by using crystal violet solution and followed by iodine solution. 2) Crystal violet-iodine complex which is purple in colour is formed at the cell wall stains the peptidoglycan of cell wall 3) Then alcohol is used to rinse the staining. Staining again with a red dye. ...
... 1) Bacteria is stained by using crystal violet solution and followed by iodine solution. 2) Crystal violet-iodine complex which is purple in colour is formed at the cell wall stains the peptidoglycan of cell wall 3) Then alcohol is used to rinse the staining. Staining again with a red dye. ...
Overview of Cells
... Facilitated diffusion and active transport can be very selective processes ...
... Facilitated diffusion and active transport can be very selective processes ...
EK 2.Bc3 LO 2.14 EK 2.Bc3 LO 2.14 Notes Prokaryoti
... materials (proteins, fats, polysaccharides, nucleic acids). These enzymes work best in a low pH. The lysosome pumps H+ into the interior. So if one breaks open, the high pH of the cell will denature these enzymes, but if a number of them break open, the cell will die. Lysosomes are used in ...
... materials (proteins, fats, polysaccharides, nucleic acids). These enzymes work best in a low pH. The lysosome pumps H+ into the interior. So if one breaks open, the high pH of the cell will denature these enzymes, but if a number of them break open, the cell will die. Lysosomes are used in ...
holiday home work std-ix - Gouri Sankar Residential English
... a. Osmosis b. Diffusion c. Active transport d. Exocytosis e. Phagocytosis 15. Give reasons why mitochondria are called power house of the cells and ATP as energy currency of the cell. 16. (a) Draw a plant cell and label seven important organelle found in it. (b) Name one organelle that can make some ...
... a. Osmosis b. Diffusion c. Active transport d. Exocytosis e. Phagocytosis 15. Give reasons why mitochondria are called power house of the cells and ATP as energy currency of the cell. 16. (a) Draw a plant cell and label seven important organelle found in it. (b) Name one organelle that can make some ...
Fluid Mosaic Model
... cell membrane only allows certain substances to pass through it. (Phospholipid bilayer) ...
... cell membrane only allows certain substances to pass through it. (Phospholipid bilayer) ...
File
... • Site of cellular respiration (Provides energy to the cell) • Muscle cells have many mitochondria because they use a lot of energy Energy demand ...
... • Site of cellular respiration (Provides energy to the cell) • Muscle cells have many mitochondria because they use a lot of energy Energy demand ...
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.