Review
... Unicellular, Heterotrophic or Autotrophic, Reproduce Sexual or Asexually, and Found everywhere (usually wet areas)? ...
... Unicellular, Heterotrophic or Autotrophic, Reproduce Sexual or Asexually, and Found everywhere (usually wet areas)? ...
Ch 27 Prokaryotes
... Essay Question: Answers must be in essay form. OUTLINE form is NOT acceptable. Labeled diagrams may be used to supplement discussion, but in no case will a diagram alone suffice. It is important that you read the question completely before you begin to write. 12 points. ...
... Essay Question: Answers must be in essay form. OUTLINE form is NOT acceptable. Labeled diagrams may be used to supplement discussion, but in no case will a diagram alone suffice. It is important that you read the question completely before you begin to write. 12 points. ...
1 Tripoli University Faculty of Science / Zoology Department Lecture
... The metabolic processes associated with life occur within cells. ...
... The metabolic processes associated with life occur within cells. ...
cell wall
... Mitochondria are organelles found in eukaryotic cells. They provide energy for the cell so it can perform its function. When you eat foods containing sugar or other organic compounds, mitochondria transform these compounds into other organic compounds that the cell uses for energy. ...
... Mitochondria are organelles found in eukaryotic cells. They provide energy for the cell so it can perform its function. When you eat foods containing sugar or other organic compounds, mitochondria transform these compounds into other organic compounds that the cell uses for energy. ...
hapter: Membrane Structure and Function You must know: 1. Why
... pass easily across the cell membrane by passive diffusion. In passive diffusion, a substance travels from where it is more concentrated to where it is less concentrated, diffusing down its concentration gradient. This type of diffusion requires that no work be done, and it relies only on the thermal ...
... pass easily across the cell membrane by passive diffusion. In passive diffusion, a substance travels from where it is more concentrated to where it is less concentrated, diffusing down its concentration gradient. This type of diffusion requires that no work be done, and it relies only on the thermal ...
Model Cell Rubric
... *Model is turned in on time *Obvious effort at creativity *Cell is not identified as plant or animal. *Model still shows effort at neatness *Model is turned in late. *Model shows obvious lack of effort toward neatness and/or completion. ...
... *Model is turned in on time *Obvious effort at creativity *Cell is not identified as plant or animal. *Model still shows effort at neatness *Model is turned in late. *Model shows obvious lack of effort toward neatness and/or completion. ...
MEMBRANE TRANSPORT (Reader 1) Passive Transport Simple
... any energy to pass through. This happens when a substance moves from an area where it is more concentrated to an area where it is less concentrated. Concentration is the number of particles of a substance in a given volume. Let's say you dissolve a teaspoon of salt in a cup of water. Then you dissol ...
... any energy to pass through. This happens when a substance moves from an area where it is more concentrated to an area where it is less concentrated. Concentration is the number of particles of a substance in a given volume. Let's say you dissolve a teaspoon of salt in a cup of water. Then you dissol ...
Fig. 4-1 - ISpatula
... Cell membrane, usually surrounded by a cell wall (different among doifferent type of bacteria) ex grab (+) & gram(-) Internal cytoplasm with ribosomes, nuclear region, and in some cases plasmid , granules and/or vesicles Capsules, flagella, and pili (external) ...
... Cell membrane, usually surrounded by a cell wall (different among doifferent type of bacteria) ex grab (+) & gram(-) Internal cytoplasm with ribosomes, nuclear region, and in some cases plasmid , granules and/or vesicles Capsules, flagella, and pili (external) ...
What are Prokaryotes?
... Bacteria occur in many shapes and sizes. Most bacteria have one of three basic shapes: rod-shaped, sphere-shaped, or spiral-shaped. Spiral shaped bacteria in the form of spirilla (singular, spirillum) or vibrio (comma like). Sphere-shaped bacteria are called cocci (singular, coccus). An example of c ...
... Bacteria occur in many shapes and sizes. Most bacteria have one of three basic shapes: rod-shaped, sphere-shaped, or spiral-shaped. Spiral shaped bacteria in the form of spirilla (singular, spirillum) or vibrio (comma like). Sphere-shaped bacteria are called cocci (singular, coccus). An example of c ...
Cell Analogy to Hospitals - APBiology2015-2016
... The smooth ER breaks down lipids and detoxifies toxic substances like how the IV bags in a hospital are used to help the rehydration of patients. ...
... The smooth ER breaks down lipids and detoxifies toxic substances like how the IV bags in a hospital are used to help the rehydration of patients. ...
Exam 1a - web.biosci.utexas.edu
... 4. (2 points) During Gram staining procedure if the slide is treated with alcohol for a very long time, gram – positive organisms will be stained ________________ and gram – negative organisms will be stained ________________. (Fill in the blanks.) 5. (2 points) True / False It is hard to stain orga ...
... 4. (2 points) During Gram staining procedure if the slide is treated with alcohol for a very long time, gram – positive organisms will be stained ________________ and gram – negative organisms will be stained ________________. (Fill in the blanks.) 5. (2 points) True / False It is hard to stain orga ...
Name: Date: Period Cells WebQuest (revised mgolenberke 2015
... 2. Which organelle is found within the nucleus that assembles ribosomes? (hint: from ribosomal RNA) ________________________________ 3. How can the nucleus access the cytoplasm? ________________________________________________________________________________________________ 4. What is the function o ...
... 2. Which organelle is found within the nucleus that assembles ribosomes? (hint: from ribosomal RNA) ________________________________ 3. How can the nucleus access the cytoplasm? ________________________________________________________________________________________________ 4. What is the function o ...
Chapter 7: Bacteria
... Make their own food used CO2, water, and energy from the sun Produce oxygen as a waste Contain chlorophyll and a blue pigment Known as blue-green bacteria Some are yellow, black or red ...
... Make their own food used CO2, water, and energy from the sun Produce oxygen as a waste Contain chlorophyll and a blue pigment Known as blue-green bacteria Some are yellow, black or red ...
Cell Organelles and Functions
... • protects the cell; performs active transport and passive transport to move materials in and out ...
... • protects the cell; performs active transport and passive transport to move materials in and out ...
CELL - Northern Highlands Regional HS
... Ribosomes – performing protein synthesis; smaller than eukaryotic ribosomes Flagellum – allows for movement (not made of microtubules). A cell may have multiple flagella arranged around it. ...
... Ribosomes – performing protein synthesis; smaller than eukaryotic ribosomes Flagellum – allows for movement (not made of microtubules). A cell may have multiple flagella arranged around it. ...
Cell Structure
... • Structures for locomotion – located on the outside of cells – Cilia – short, numerous , hair-like projections that move in wave-like motion – found in our airways – Flagella – longer projections that move in a whip-like motion – usually only one or very few – Both are used for movement of many uni ...
... • Structures for locomotion – located on the outside of cells – Cilia – short, numerous , hair-like projections that move in wave-like motion – found in our airways – Flagella – longer projections that move in a whip-like motion – usually only one or very few – Both are used for movement of many uni ...
Unit III Vocabulary
... 7. Deoxyribonucleic Genetic material which codes for all life, leads to cell specialization Acid (DNA) and expression of genetic traits 8. Chloroplasts Specialized structures within plant cells that allow for photosynthesis to occur 9. Mitochondria Energy producing organelles; contain inner membrane ...
... 7. Deoxyribonucleic Genetic material which codes for all life, leads to cell specialization Acid (DNA) and expression of genetic traits 8. Chloroplasts Specialized structures within plant cells that allow for photosynthesis to occur 9. Mitochondria Energy producing organelles; contain inner membrane ...
Cell Membrane - Red Hook Central Schools
... But need to control what gets in or out membrane needs to be semi-permeable sugar ...
... But need to control what gets in or out membrane needs to be semi-permeable sugar ...
Nucleus - Perry Local Schools
... • General name for little membranebound sacs that transport materials from place to place in the cell • Short-lived, they form and breakdown as needed • Example: after a protein is made in the ribosome, part of the ER will pinch off and form a vesicle to transport the protein to the golgi apparatus. ...
... • General name for little membranebound sacs that transport materials from place to place in the cell • Short-lived, they form and breakdown as needed • Example: after a protein is made in the ribosome, part of the ER will pinch off and form a vesicle to transport the protein to the golgi apparatus. ...
Chapter 7 Overview Genetic “exchange”in bacteria
... enter bacterial cells and integrate into the chromosome. • These methods of gene transfer generate partial diploids that allow study of genes. Chapter 7: Bacterial recombination ...
... enter bacterial cells and integrate into the chromosome. • These methods of gene transfer generate partial diploids that allow study of genes. Chapter 7: Bacterial recombination ...
CELL PARTS Chapter 4
... (… role of enzymes) recognize that different structures perform different functions identify DNA as the structure that carries the genetic code define homeostasis; ...
... (… role of enzymes) recognize that different structures perform different functions identify DNA as the structure that carries the genetic code define homeostasis; ...
Bacteria Keywords
... Bacteria Revision Here is a list of keywords that you will need in your study of bacteria. Match or drag each word to where it is best explained. ...
... Bacteria Revision Here is a list of keywords that you will need in your study of bacteria. Match or drag each word to where it is best explained. ...
CP Biology Cell Structure
... reticulum [ER], Golgi apparatus, cilia, flagella, cell membrane, nuclear membrane, cell wall, and cytoplasm). ...
... reticulum [ER], Golgi apparatus, cilia, flagella, cell membrane, nuclear membrane, cell wall, and cytoplasm). ...
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.