Cell Structure and Function Principles of Modern Cell Theory
... that use H+ for power to rotate at 20,000rpm. - The filament pushes through the membrane and assembles 20-30,000 protein subunits folding on the outside of the cell. ...
... that use H+ for power to rotate at 20,000rpm. - The filament pushes through the membrane and assembles 20-30,000 protein subunits folding on the outside of the cell. ...
Chapter 3
... Small internal spaces or compartments inside a cell surrounded by additional membrane Compensate plasma membrane Increases surface area Compartments maintain different environments for different types of reactions Perform own special functions Internal Membrane Systems ...
... Small internal spaces or compartments inside a cell surrounded by additional membrane Compensate plasma membrane Increases surface area Compartments maintain different environments for different types of reactions Perform own special functions Internal Membrane Systems ...
Glossary of Vocab Terms
... cell a membrane-bound structure that is the basic nit of life (69) cell membrane the lipid bilayer that forms the outer boundary of the cell (72) cell theory the theory that all living things are made up of cells, that cells are the basic units of organisms, and that cells come only from existing ce ...
... cell a membrane-bound structure that is the basic nit of life (69) cell membrane the lipid bilayer that forms the outer boundary of the cell (72) cell theory the theory that all living things are made up of cells, that cells are the basic units of organisms, and that cells come only from existing ce ...
Biological Macromolecules
... Unsaturated have double bonds that “kink” the molecule, liquid at room temperature ...
... Unsaturated have double bonds that “kink” the molecule, liquid at room temperature ...
View/Open
... Additional file 6: Figure S2. Enrichment of functional categories among DE genes in response to antibiotic treatment, hypoxia or growth in an artificial CF sputum. M. abscessus genes were classified according to the Clusters of Orthologous Groups (COG) annotation scheme. Bar plots show the proportio ...
... Additional file 6: Figure S2. Enrichment of functional categories among DE genes in response to antibiotic treatment, hypoxia or growth in an artificial CF sputum. M. abscessus genes were classified according to the Clusters of Orthologous Groups (COG) annotation scheme. Bar plots show the proportio ...
Cells
... Explain passive transport across membranes by simple diffusion and facilitated diffusion. Explain the role of protein pumps and ATP in active transport across membranes. Explain how vesicles are used to transport materials within a cell between the rough endoplasmic reticulum, Golgi apparatus and pl ...
... Explain passive transport across membranes by simple diffusion and facilitated diffusion. Explain the role of protein pumps and ATP in active transport across membranes. Explain how vesicles are used to transport materials within a cell between the rough endoplasmic reticulum, Golgi apparatus and pl ...
Cell Pats and Movement Across Memebranes
... Enclosed in double-layered nuclear envelope Nuclear Pores: protein channels for transport Nucleolus: small, dense body inside the nucleus Form ribosomes Chromatin: loosely coiled DNA ...
... Enclosed in double-layered nuclear envelope Nuclear Pores: protein channels for transport Nucleolus: small, dense body inside the nucleus Form ribosomes Chromatin: loosely coiled DNA ...
Slide 1
... Contains degradative enzymes for digesting foreign bodies, cellular wastes and other toxins. ...
... Contains degradative enzymes for digesting foreign bodies, cellular wastes and other toxins. ...
Abstract
... crosslinked, charged polymers, making it a viscous, gel-like structure that restricts diffusion, retains water and, like non-living hydrogels, may have distinct swelling properties. The gel-like nature of the cytoplasm has not been fully documented for mammalian cells, and its impact on cellular pro ...
... crosslinked, charged polymers, making it a viscous, gel-like structure that restricts diffusion, retains water and, like non-living hydrogels, may have distinct swelling properties. The gel-like nature of the cytoplasm has not been fully documented for mammalian cells, and its impact on cellular pro ...
Chapter 2: Eukaryotic Cell Structure
... Cells are filled with small structures that perform specific jobs. Just like organs do specific jobs for your body, organelles do specific jobs for your cells. *hand out organelle worksheet* ...
... Cells are filled with small structures that perform specific jobs. Just like organs do specific jobs for your body, organelles do specific jobs for your cells. *hand out organelle worksheet* ...
6 Active Transport 0809
... becomes a membrane bound organelle called a vesicle Vesicles can fuse with lysosomes to digests contents. Two kinds of Endocytosis: ...
... becomes a membrane bound organelle called a vesicle Vesicles can fuse with lysosomes to digests contents. Two kinds of Endocytosis: ...
Chapter 2, section 2
... Organisms get their food in different ways. • Some consumers get food by breaking down dead organisms or waste. They are • Decomposers ...
... Organisms get their food in different ways. • Some consumers get food by breaking down dead organisms or waste. They are • Decomposers ...
Study Guide Key
... Mitosis __Cell Division that creates 2 new daughter cells EXACTLY like the original cell__ Meiosis Cell Division that produces gametes (sex cells) that contain ½ the number of Chromosomes as the original cell What is the difference between an autotroph and heterotroph? Autotrophs can make their own ...
... Mitosis __Cell Division that creates 2 new daughter cells EXACTLY like the original cell__ Meiosis Cell Division that produces gametes (sex cells) that contain ½ the number of Chromosomes as the original cell What is the difference between an autotroph and heterotroph? Autotrophs can make their own ...
Review F14
... 14. Draw the process of exocytosis. 15. What is the difference between and permeable and semi permeable membrane? What kind is a cell membrane? 16. Why is it dangerous to have a really high fever? 17. What do plants need to accomplish photosynthesis? Draw a diagram showing how plants get the needed ...
... 14. Draw the process of exocytosis. 15. What is the difference between and permeable and semi permeable membrane? What kind is a cell membrane? 16. Why is it dangerous to have a really high fever? 17. What do plants need to accomplish photosynthesis? Draw a diagram showing how plants get the needed ...
Parts of a Cell
... In a plant cell, the membrane is JUST inside the cell wall. In animal cells, the membrane is the outermost layer Contains proteins, lipids and phospholipids Decides what goes in and out of the cellnutrients goes in, waste goes out Protects the cell from the outside environment ...
... In a plant cell, the membrane is JUST inside the cell wall. In animal cells, the membrane is the outermost layer Contains proteins, lipids and phospholipids Decides what goes in and out of the cellnutrients goes in, waste goes out Protects the cell from the outside environment ...
Ch. 2-Cells Lecture #1
... 2. Animal cells usually do NOT have vacuoles. If so, they are very small. 3. Plant cells usually have one large vacuole. ...
... 2. Animal cells usually do NOT have vacuoles. If so, they are very small. 3. Plant cells usually have one large vacuole. ...
Chapter 7 Cells Review Sheet Matching: On the lines provided
... a. cell specialization c. a tissue b. an organ system d. an organ ...
... a. cell specialization c. a tissue b. an organ system d. an organ ...
Organelles In Plant Cell
... -two primary functions: to control chemical reactions within the cytoplasm and to store information needed for cellular division. -Inside the nucleus is one or several nucleoli surrounded by a matrix called the nucleoplasm. The nucleoplasm is a liquid with a gel-like consistency (similar in this res ...
... -two primary functions: to control chemical reactions within the cytoplasm and to store information needed for cellular division. -Inside the nucleus is one or several nucleoli surrounded by a matrix called the nucleoplasm. The nucleoplasm is a liquid with a gel-like consistency (similar in this res ...
Signal transduction
Signal transduction occurs when an extracellular signaling molecule activates a specific receptor located on the cell surface or inside the cell. In turn, this receptor triggers a biochemical chain of events inside the cell, creating a response. Depending on the cell, the response alters the cell's metabolism, shape, gene expression, or ability to divide. The signal can be amplified at any step. Thus, one signaling molecule can cause many responses.