microbes cause disease!!
... Show symptoms = your body’s response to disease (fever, vomiting, joint pain, skin condition, diarrhea, etc.) Can be infectious/communicable OR ...
... Show symptoms = your body’s response to disease (fever, vomiting, joint pain, skin condition, diarrhea, etc.) Can be infectious/communicable OR ...
Chapter 7
... 19. Describe the components of the cell’s cytoskeleton. How could each be used in the cell? a. Microfilaments: b. Microtubules: 20. In some eukaryotic cells, specialized microtubules are used to control the movement of cilia and flagella. Describe the functional difference between cilia and flagella ...
... 19. Describe the components of the cell’s cytoskeleton. How could each be used in the cell? a. Microfilaments: b. Microtubules: 20. In some eukaryotic cells, specialized microtubules are used to control the movement of cilia and flagella. Describe the functional difference between cilia and flagella ...
Prokaryotic Cells
... – Providing for cell movement – Providing for organelle movement, including vesicle endo- and exocytosis – Facilitating cell division in chromosome movements and cytokinesis ...
... – Providing for cell movement – Providing for organelle movement, including vesicle endo- and exocytosis – Facilitating cell division in chromosome movements and cytokinesis ...
Cell Organelle Powerpoint
... 1. What are the 2 main types of cells? Which Domains do they consist of? 2. List 3 ways that eukaryotes differ from prokaryotes. ...
... 1. What are the 2 main types of cells? Which Domains do they consist of? 2. List 3 ways that eukaryotes differ from prokaryotes. ...
Intro to Cells - Ms. Fuller's Biology Class
... Flagellum – move the bacterium in a fluid medium Cytoplasm – a semifluid medium that make up the majority of the cell Ribosomes – responsible for making proteins Nucleiod – where the DNA is located Capsule – gelationous sheath called a slime layer that surrounds the cell wall Cell Well – gives the c ...
... Flagellum – move the bacterium in a fluid medium Cytoplasm – a semifluid medium that make up the majority of the cell Ribosomes – responsible for making proteins Nucleiod – where the DNA is located Capsule – gelationous sheath called a slime layer that surrounds the cell wall Cell Well – gives the c ...
221_ exam_1_2004
... _____ Antiviral drug therapy ideally should target viral activities that are unique to the virus. One of these targets is the process or attachment. A fairly new anti-influenza drug targets _____ a protein on the surface of the influenza virus which is associated with the attachment process. A. B. C ...
... _____ Antiviral drug therapy ideally should target viral activities that are unique to the virus. One of these targets is the process or attachment. A fairly new anti-influenza drug targets _____ a protein on the surface of the influenza virus which is associated with the attachment process. A. B. C ...
lysosome - Tara Duffy
... A flagellum propels a cell by an undulating, whiplike motion Cilia, however, work more like the oars of a crew boat Although differences exist, flagella and cilia have a common structure and mechanism of movement ...
... A flagellum propels a cell by an undulating, whiplike motion Cilia, however, work more like the oars of a crew boat Although differences exist, flagella and cilia have a common structure and mechanism of movement ...
Chapter 3
... – hairlike appendages that are shorter, straighter, and thinner than flagella – consist of a protein called pilin arranged helically around a central core ...
... – hairlike appendages that are shorter, straighter, and thinner than flagella – consist of a protein called pilin arranged helically around a central core ...
Jezequel_Inside the Cell Notes-1gh2ogo
... organism that lacks a membranebound nucleus • Lack other cell organelles • Example: bacteria, blue-green algae ...
... organism that lacks a membranebound nucleus • Lack other cell organelles • Example: bacteria, blue-green algae ...
Cell Biology
... movement) found in amoebae and phagocytes (white blood cells). • Cleavage furrow formation. • Maintenance and changes in cell shape. ...
... movement) found in amoebae and phagocytes (white blood cells). • Cleavage furrow formation. • Maintenance and changes in cell shape. ...
TEST REVIEW: Microscope, Cell, Viruses, Monera and
... 4. How does a chemotroph, photoautotroph, heterotroph, and saprotrophs obtain glucose and create ATP energy? 5. Describe the great oxidation event and its importance. 6. Describe how bacteria are beneficial to ecosystems and individual organisms. Protists: 1. Describe the three types of protists, wh ...
... 4. How does a chemotroph, photoautotroph, heterotroph, and saprotrophs obtain glucose and create ATP energy? 5. Describe the great oxidation event and its importance. 6. Describe how bacteria are beneficial to ecosystems and individual organisms. Protists: 1. Describe the three types of protists, wh ...
• Cells and Tissues o Introduction to cell organelles and tissue types
... o Network of protein structures that extend throughout the cytoplasm o Provides the cell with an internal framework o Three different types of elements o Microfilaments (largest) o Intermediate filaments o Microtubules (smallest) Centrioles o Rod-shaped bodies made of microtubules o Direct the forma ...
... o Network of protein structures that extend throughout the cytoplasm o Provides the cell with an internal framework o Three different types of elements o Microfilaments (largest) o Intermediate filaments o Microtubules (smallest) Centrioles o Rod-shaped bodies made of microtubules o Direct the forma ...
Ch 4 quiz - TESADVBiology
... a. phospholipid bilayer b. peripheral proteins c. integral proteins d. carbohydrates ____ 11.Which of the following helps plant cells remain rigid? a. plasma membrane b. nucleus c. chloroplast d. central vacuole ____ 12.Which of the following organelles enables plants to make carbohydrates from carb ...
... a. phospholipid bilayer b. peripheral proteins c. integral proteins d. carbohydrates ____ 11.Which of the following helps plant cells remain rigid? a. plasma membrane b. nucleus c. chloroplast d. central vacuole ____ 12.Which of the following organelles enables plants to make carbohydrates from carb ...
Amoeba Sisters Video Recap: Prokaryotes and Eukaryotes
... ______ Animal Cell ______ Plant Cell ______ Bacterial Cell ______ Fungus Cell ...
... ______ Animal Cell ______ Plant Cell ______ Bacterial Cell ______ Fungus Cell ...
osb Week02 Organelles
... Proteinaceous microfilaments composed of actin, microtubules composed of tubulin, and intermediate filaments ...
... Proteinaceous microfilaments composed of actin, microtubules composed of tubulin, and intermediate filaments ...
Name - Humble ISD
... the cell membrane. Color and label the cell membrane PINK. Along the surface of some bacteria are structures called pili (pilussingular) that help bacteria adhere to surfaces. Color and label all the pili LIGHT GREEN. Some bacteria are motile (can move). Many of these bacteria have long, whip like s ...
... the cell membrane. Color and label the cell membrane PINK. Along the surface of some bacteria are structures called pili (pilussingular) that help bacteria adhere to surfaces. Color and label all the pili LIGHT GREEN. Some bacteria are motile (can move). Many of these bacteria have long, whip like s ...
Exam 1
... 21. All of the following are true statements about prokayotic outer membrane Except: a. They are composed of only a phosopholipid bilayer. b. They are found only in Gram negative bacteria. c. They contain endotoxin. d. The contain transport proteins. e. The contain lipopolysaccharide. 22. All of the ...
... 21. All of the following are true statements about prokayotic outer membrane Except: a. They are composed of only a phosopholipid bilayer. b. They are found only in Gram negative bacteria. c. They contain endotoxin. d. The contain transport proteins. e. The contain lipopolysaccharide. 22. All of the ...
Monerans, Viruses & Protists
... organisms • Identify similarities and differences among living organisms ...
... organisms • Identify similarities and differences among living organisms ...
Chapter 4: General Features of Cells
... Golgi side near the ER is termed ______, the membrane side near the plasma membrane is termed ______. Material is transported through stacks of flatten membrane by vesicles. When material reaches trans side, the material in package in ______ _______. - (materials leaving cell) secretory vesicl ...
... Golgi side near the ER is termed ______, the membrane side near the plasma membrane is termed ______. Material is transported through stacks of flatten membrane by vesicles. When material reaches trans side, the material in package in ______ _______. - (materials leaving cell) secretory vesicl ...
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.