Nervous System and Senses - Avon Community School Corporation
... Potentials spread along the axon like a wave Unmyelinated axons- wave continues uninterrupted; relatively slow Myelinated axons- wave goes through saltatory conduction (jump from one node to the next); very fast ...
... Potentials spread along the axon like a wave Unmyelinated axons- wave continues uninterrupted; relatively slow Myelinated axons- wave goes through saltatory conduction (jump from one node to the next); very fast ...
poly=many
... As polysaccharides, saccharide means sugar, poly means many. So polysaccharides means many sugars, and ...
... As polysaccharides, saccharide means sugar, poly means many. So polysaccharides means many sugars, and ...
SMicroChapter5
... Fermentation-occurs when cellular respiration pathways are blocked, usually resulting from the lack of a final electron receptor. -pyruvic acid is the starting point for fermentation ...
... Fermentation-occurs when cellular respiration pathways are blocked, usually resulting from the lack of a final electron receptor. -pyruvic acid is the starting point for fermentation ...
Cell Transport
... concentration gradient) except particles require the use of a transport protein to cross cell membrane ...
... concentration gradient) except particles require the use of a transport protein to cross cell membrane ...
Plant Cell Foldable
... recycles old organelles so that the ribosomes always have more protein building blocks. ...
... recycles old organelles so that the ribosomes always have more protein building blocks. ...
PARTS OF ALL CELLS: PARTS OF PLANT CELLS ONLY:
... Q2. Name the three facts of the cell theory. Q3. What is the difference between the shape of an animal cell and the shape of a plant cell? Q4. Name the two parts that a plant cell has that an animal cell does NOT. Q5. What is the function of the cell wall? Q6. Describe the function of the chloroplas ...
... Q2. Name the three facts of the cell theory. Q3. What is the difference between the shape of an animal cell and the shape of a plant cell? Q4. Name the two parts that a plant cell has that an animal cell does NOT. Q5. What is the function of the cell wall? Q6. Describe the function of the chloroplas ...
Biology: Macromolecule Review Worksheet
... can be joined with other monomers to form larger units (polymers). They can be divided into four groups: carbohydrates (sugars for energy and structure), lipids (fats for membranes and energy storage), nucleic acids (information bearers) and proteins (the molecular machines of the cells). Even if yo ...
... can be joined with other monomers to form larger units (polymers). They can be divided into four groups: carbohydrates (sugars for energy and structure), lipids (fats for membranes and energy storage), nucleic acids (information bearers) and proteins (the molecular machines of the cells). Even if yo ...
Plant Cell - wlhs.wlwv.k12.or.us
... recycles old organelles so that the ribosomes always have more protein building blocks. ...
... recycles old organelles so that the ribosomes always have more protein building blocks. ...
Unit 2
... 4. Describe the structure and function of the nucleus, and briefly explain how the nucleus controls protein synthesis in the cytoplasm. The nucleus controls most of the genes that control the cell. Within the nucleus is chromatin, consisting of DNA and protein. Figure 7.9 pg. 119 5. Describe the str ...
... 4. Describe the structure and function of the nucleus, and briefly explain how the nucleus controls protein synthesis in the cytoplasm. The nucleus controls most of the genes that control the cell. Within the nucleus is chromatin, consisting of DNA and protein. Figure 7.9 pg. 119 5. Describe the str ...
A Cell
... the club. The Mitochondria’s job in the cell is to produce energy or ATP, the cell runs off of these this energy. The things in a club that bring in profit are like the mitochondria because it produces the money, ATP, the club functions off of. ...
... the club. The Mitochondria’s job in the cell is to produce energy or ATP, the cell runs off of these this energy. The things in a club that bring in profit are like the mitochondria because it produces the money, ATP, the club functions off of. ...
EXPLORING PROTEIN STRUCTURE
... its structure, function and the organism it comes from using the skills you learned today and website resources. You can explore a number of proteins using Cn3D. Go to the following ...
... its structure, function and the organism it comes from using the skills you learned today and website resources. You can explore a number of proteins using Cn3D. Go to the following ...
03_Membrane rest potential. Generation and radiation action
... move across the membrane. They are transmembrane proteins, with fixed topology. An example is the GLUT1 glucose carrier, in plasma membranes of various cells, including erythrocytes. GLUT1 is a large integral protein, predicted via hydropathy plots to include 12 transmembrane a-helices. ...
... move across the membrane. They are transmembrane proteins, with fixed topology. An example is the GLUT1 glucose carrier, in plasma membranes of various cells, including erythrocytes. GLUT1 is a large integral protein, predicted via hydropathy plots to include 12 transmembrane a-helices. ...
GTAC bioinformatics task 4 presentation
... its structure, function and the organism it comes from using the skills you learned today and website resources. You can explore a number of proteins using Cn3D. Go to the following ...
... its structure, function and the organism it comes from using the skills you learned today and website resources. You can explore a number of proteins using Cn3D. Go to the following ...
cell structure packet
... 2. Describe how a lysosome is created. 3. Describe the four functions of a lysosome. ...
... 2. Describe how a lysosome is created. 3. Describe the four functions of a lysosome. ...
HONORS BIO Progress Assessment 2 Review
... 1. What is systematics? Who is the “Father of Taxonomy”? 2. What is binomial nomenclature? Which classification categories are included in a scientific name? What is the modern definition of a “species”? 3. Know the seven classification categories in order. 4. Know basic characteristics for each of ...
... 1. What is systematics? Who is the “Father of Taxonomy”? 2. What is binomial nomenclature? Which classification categories are included in a scientific name? What is the modern definition of a “species”? 3. Know the seven classification categories in order. 4. Know basic characteristics for each of ...
Eukaryotic Origins
... contain their own circular DNA contain their own ribosomes (similar to bacterial ribosomes) reproduce independently similar to binary fission Many other metabolic and structural similarities Some algae contain a chloroplast with a peptidoglycan containing cell wall ...
... contain their own circular DNA contain their own ribosomes (similar to bacterial ribosomes) reproduce independently similar to binary fission Many other metabolic and structural similarities Some algae contain a chloroplast with a peptidoglycan containing cell wall ...
cells
... Several types of integral proteins are embedded in the plasma membrane: Transport Proteins —moves substances across the membrane Receptor Proteins —recognize and bind to substances outside the cell Recognition Proteins —glycoproteins with carbohydrate chains that act as cell-surface markers and ide ...
... Several types of integral proteins are embedded in the plasma membrane: Transport Proteins —moves substances across the membrane Receptor Proteins —recognize and bind to substances outside the cell Recognition Proteins —glycoproteins with carbohydrate chains that act as cell-surface markers and ide ...
Cell Structure and Function
... Cell Junctions Tight junctions – membrane proteins seal neighboring cells so that water soluble substances cannot cross between them ...
... Cell Junctions Tight junctions – membrane proteins seal neighboring cells so that water soluble substances cannot cross between them ...
Cells Practice Test Questions ANSWER KEY
... 37. What particle initially absorbs the sunlight energy in photosynthesis and becomes “excited?” Electron in the chlorophyll molecules 38. During the light reactions of photosynthesis, the energy absorbed from the sun is temporarily stored in TWO molecules. Which ones? ATP and NADPH ...
... 37. What particle initially absorbs the sunlight energy in photosynthesis and becomes “excited?” Electron in the chlorophyll molecules 38. During the light reactions of photosynthesis, the energy absorbed from the sun is temporarily stored in TWO molecules. Which ones? ATP and NADPH ...
Title: Synthetic Rigidin Analogues as Anticancer Agents, Salts, Solvates and... . Thereof, and Method of Producing Same
... bind another site (the taxol site). The utility of vinca and taxane drugs is limited by the fact that many cancer cells overexpress the P-glycoprotein (Pgp) drug efflux pump, and expel the chemotherapeutic. However, drugs that bind to the colchicine site tend to not be expunged by the Pgp drug efflu ...
... bind another site (the taxol site). The utility of vinca and taxane drugs is limited by the fact that many cancer cells overexpress the P-glycoprotein (Pgp) drug efflux pump, and expel the chemotherapeutic. However, drugs that bind to the colchicine site tend to not be expunged by the Pgp drug efflu ...
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.