Cell - Thomas A. Stewart Secondary School
... Why are lipids well suited for long term energy storage? Contain ...
... Why are lipids well suited for long term energy storage? Contain ...
Nucleic acid
... Explain the building block idea of monomers and polymers Analyze how carbohydrate structure relates to its functions Explain the four levels of protein structure Analyze how protein structure relates to its functions ...
... Explain the building block idea of monomers and polymers Analyze how carbohydrate structure relates to its functions Explain the four levels of protein structure Analyze how protein structure relates to its functions ...
Dehydration Synthesis 2.cwk
... 3. Insert the tab (where the OH was taken off) into the slot (where the H was taken off). This joins two of your building blocks. Keep doing this until all of your building blocks are joined. 4. Now you have a macromolecule. Label the macromolecule with its name (lipid, carbohydrate, nucleic acid, p ...
... 3. Insert the tab (where the OH was taken off) into the slot (where the H was taken off). This joins two of your building blocks. Keep doing this until all of your building blocks are joined. 4. Now you have a macromolecule. Label the macromolecule with its name (lipid, carbohydrate, nucleic acid, p ...
Document
... • What type of bond connects Amino Acids? • What are lipids composed of? • What are three of the macromolecules of carbohydrates? What is the sugar ...
... • What type of bond connects Amino Acids? • What are lipids composed of? • What are three of the macromolecules of carbohydrates? What is the sugar ...
Biomolecules
... • What type of bond connects Amino Acids? • What are lipids composed of? • What are three of the macromolecules of carbohydrates? What is the sugar ...
... • What type of bond connects Amino Acids? • What are lipids composed of? • What are three of the macromolecules of carbohydrates? What is the sugar ...
Unit 1 Review
... permeable membrane. Facilitated diffusion carriers don’t use ATP. 29. (a) A is hypotonic, B is isotonic, C is hypertonic (b) They will burst because water will continue to enter the cells by osmosis. (c) Cells C may eventually shrivel up and die of dehydration (lack of water in their cytoplasm). 30. ...
... permeable membrane. Facilitated diffusion carriers don’t use ATP. 29. (a) A is hypotonic, B is isotonic, C is hypertonic (b) They will burst because water will continue to enter the cells by osmosis. (c) Cells C may eventually shrivel up and die of dehydration (lack of water in their cytoplasm). 30. ...
2.1 Molecules to metabolism
... Most monosaccharides form ring structures and can exist in different 3D configurations. ...
... Most monosaccharides form ring structures and can exist in different 3D configurations. ...
Most common elements in living things are carbon, hydrogen
... form four bonds. Carbon can form single bonds with another atom and also bond to other carbon molecules forming double, triple, or quadruple bonds. Organic compounds also contain hydrogen. Since hydrogen has only one electron, it can form only single bonds. Each small organic molecule can be a unit ...
... form four bonds. Carbon can form single bonds with another atom and also bond to other carbon molecules forming double, triple, or quadruple bonds. Organic compounds also contain hydrogen. Since hydrogen has only one electron, it can form only single bonds. Each small organic molecule can be a unit ...
design of energy metabolism
... - Stored lipids (triacylglycerol) mobilized by hormonally controlled triacylglycerol lipases; yields 3 long-chain fatty acids + glycerol. Glycerol is catabolized via glycolysis. Fatty acids broken down 2-C per cycle in -oxidation pathway and then enter Krebs Cycle via acetyl-CoA. (See Figs 6.11 and ...
... - Stored lipids (triacylglycerol) mobilized by hormonally controlled triacylglycerol lipases; yields 3 long-chain fatty acids + glycerol. Glycerol is catabolized via glycolysis. Fatty acids broken down 2-C per cycle in -oxidation pathway and then enter Krebs Cycle via acetyl-CoA. (See Figs 6.11 and ...
Macromolecules Notes File
... ____________________________________________________________ - oils. Liquid at room temperature. One or more double bonds between carbon atoms. 2 essential fats are oleic and linoleic acid. These cannot be synthesized by the body and must be in the diet. ...
... ____________________________________________________________ - oils. Liquid at room temperature. One or more double bonds between carbon atoms. 2 essential fats are oleic and linoleic acid. These cannot be synthesized by the body and must be in the diet. ...
Organic Compounds
... • These molecules are usually in the form of polymers, long chains of similar subunits. Because they are large, these molecules are called macromolecules. The subunits are called monomers. • The cell also contains water, inorganic salts and ions, and other small organic molecules. ...
... • These molecules are usually in the form of polymers, long chains of similar subunits. Because they are large, these molecules are called macromolecules. The subunits are called monomers. • The cell also contains water, inorganic salts and ions, and other small organic molecules. ...
Organic Molecules
... • Can also form chains or rings which allows for many different arrangements ...
... • Can also form chains or rings which allows for many different arrangements ...
18 April 2007 - Santa Fe Institute
... Accidents can matter “Any replay of the tape would lead evolution down a pathway radically different from the road actually taken.” ...
... Accidents can matter “Any replay of the tape would lead evolution down a pathway radically different from the road actually taken.” ...
Food and Feeding
... butter, oils, nuts, milk and general fatty foods. Contain the elements Carbon, Hydrogen and Oxygen but not in any given ratio unlike Carbohydrates. A unit of fat (called a triglyceride) is made up of one molecule of Glycerol with three fatty acids chemically attached. ...
... butter, oils, nuts, milk and general fatty foods. Contain the elements Carbon, Hydrogen and Oxygen but not in any given ratio unlike Carbohydrates. A unit of fat (called a triglyceride) is made up of one molecule of Glycerol with three fatty acids chemically attached. ...
Unit 1: Biology Review
... there are simply more bonds to break. You can form complex carbs through dehydration synthesis/reactions, removing water, and binding simpler mono/disaccharides. To break down the carbs, your body uses hydrolysis reactions to add water, and separate larger saccharides. Lipids are primarily used for ...
... there are simply more bonds to break. You can form complex carbs through dehydration synthesis/reactions, removing water, and binding simpler mono/disaccharides. To break down the carbs, your body uses hydrolysis reactions to add water, and separate larger saccharides. Lipids are primarily used for ...
Macs Notes
... that BREAK DOWN molecules.) Water is used during the process. Why? b/c now you have to break up one or more of the covalent links. This leaves unhappy atoms with electrons that need to be shared. So... ...water breaks up into –H and –OH and attaches to make each side happy. In the body these r ...
... that BREAK DOWN molecules.) Water is used during the process. Why? b/c now you have to break up one or more of the covalent links. This leaves unhappy atoms with electrons that need to be shared. So... ...water breaks up into –H and –OH and attaches to make each side happy. In the body these r ...
2 Biochemistry
... • Ions (charged particles) can be either atoms or molecules cations = positive charge anions = negative charge ...
... • Ions (charged particles) can be either atoms or molecules cations = positive charge anions = negative charge ...
Elements Found in Living Things
... can form single bonds with another atom and also bond to other carbon molecules forming double and triple bonds. This allows carbon based molecules to form single and double rings, chains, and branching chains. Most organic compounds are built primarily of carbon, hydrogen, and oxygen but in differe ...
... can form single bonds with another atom and also bond to other carbon molecules forming double and triple bonds. This allows carbon based molecules to form single and double rings, chains, and branching chains. Most organic compounds are built primarily of carbon, hydrogen, and oxygen but in differe ...
Organic Compounds: Carbohydrates
... All double sugars are too large to pass through cell membrane, must be broken down to be absorbed by process hydrolysis – water added to bond, bond breaks, then simple sugar is released ...
... All double sugars are too large to pass through cell membrane, must be broken down to be absorbed by process hydrolysis – water added to bond, bond breaks, then simple sugar is released ...
File
... activation energy needed for the reaction. – There are 2200 different types of enzymes that catalyze 2200 specific types of reactions – End in ‘ase: catalase, amylase, lipase are examples ...
... activation energy needed for the reaction. – There are 2200 different types of enzymes that catalyze 2200 specific types of reactions – End in ‘ase: catalase, amylase, lipase are examples ...
1. Introduction
... The TCA cycle works in a two-minicycles model interconnecting oxaloacetate and α-ketoglutarate and their transamination products (glutamate and aspartate). So TCA cycle flux appears also to be constricted at these two steps on the basis of the limited availability of these two substrates. Replenishm ...
... The TCA cycle works in a two-minicycles model interconnecting oxaloacetate and α-ketoglutarate and their transamination products (glutamate and aspartate). So TCA cycle flux appears also to be constricted at these two steps on the basis of the limited availability of these two substrates. Replenishm ...