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Carbohydrates , lipids, and proteins
... You should learn to recognize the structures of common molecules BUT you do not need to draw them (yea!) Wait till organic chemistry … ...
... You should learn to recognize the structures of common molecules BUT you do not need to draw them (yea!) Wait till organic chemistry … ...
Aerobic Respiration - East Muskingum Schools
... • Summary Rewind: Did I fully understand what we just learned? • Do you see the “biochemical pathway” that exists between the ...
... • Summary Rewind: Did I fully understand what we just learned? • Do you see the “biochemical pathway” that exists between the ...
Functional Groups
... • Main energy source for living things • Breakdown of sugars supplies immediate energy for cell activities • Plants store extra sugar as complex carbohydrates called starches ...
... • Main energy source for living things • Breakdown of sugars supplies immediate energy for cell activities • Plants store extra sugar as complex carbohydrates called starches ...
digestion
... *in case of protein glycogenic amino-acid could be used in energy , if insufficient CHO . *in case of fat broken to fatty acid &glycerol ,glycerol converted to glycogen in the liver . -the process of production of glucose from protein or fat is called gluconeogenesis. ...
... *in case of protein glycogenic amino-acid could be used in energy , if insufficient CHO . *in case of fat broken to fatty acid &glycerol ,glycerol converted to glycogen in the liver . -the process of production of glucose from protein or fat is called gluconeogenesis. ...
Internal Medicine Morning Report
... fasting and starvation • Stimulate gluconeogensis • Decrease tissue use of glucose • Initial plasma glucose-lowering effect similar to growth hormone ...
... fasting and starvation • Stimulate gluconeogensis • Decrease tissue use of glucose • Initial plasma glucose-lowering effect similar to growth hormone ...
shortmolecular-model-build-lab
... 4. Model successfully built: (teacher initials must be on each) Sucrose _______ 5. What is a disaccharide?_______________________________________________________________ 6. What is dehydration synthesis?________________________________________________________ 7. What is hydrolysis?__________________ ...
... 4. Model successfully built: (teacher initials must be on each) Sucrose _______ 5. What is a disaccharide?_______________________________________________________________ 6. What is dehydration synthesis?________________________________________________________ 7. What is hydrolysis?__________________ ...
Station #2: Biomolecules, Enzymes, Photosynthesis and Respiration
... 3. Cells require energy to build _________________that they require for cellular functions. a. proteins b. carbohydrates c. lipids/fats d. All of the above 4. The following molecule regulates the transfer of chemical energy found in food to ATP a. DNA b. enzymes c. transfer proteins d. peroxisomes 5 ...
... 3. Cells require energy to build _________________that they require for cellular functions. a. proteins b. carbohydrates c. lipids/fats d. All of the above 4. The following molecule regulates the transfer of chemical energy found in food to ATP a. DNA b. enzymes c. transfer proteins d. peroxisomes 5 ...
insulin resistance
... This leads to long term tissue damage, especially of blood vessels, nerves, heart, kidney and eyes Due to insulin deficiency or insulin resistance. However, there are many causes of both deficiency and resistance ...
... This leads to long term tissue damage, especially of blood vessels, nerves, heart, kidney and eyes Due to insulin deficiency or insulin resistance. However, there are many causes of both deficiency and resistance ...
glucose, faKy acids, amino acids
... (anaerobic -‐ no O2 needed) 2) Citric Acid (Krebs) cycle (2 ATP) (aerobic -‐ O2 needed) 3) Electron transport chain (32-‐34 ATP) (aerobic) *steps 2 and 3 happen inside mitochondria ...
... (anaerobic -‐ no O2 needed) 2) Citric Acid (Krebs) cycle (2 ATP) (aerobic -‐ O2 needed) 3) Electron transport chain (32-‐34 ATP) (aerobic) *steps 2 and 3 happen inside mitochondria ...
Presentation
... The Pasteur Effect • Under anaerobic conditions the conversion of glucose to pyruvate is much higher than under aerobic conditions (yeast cells produce more ethanol and muscle cells accumulate lactate) • The Pasteur Effect is the slowing of glycolysis in the presence of oxygen • More ATP is produce ...
... The Pasteur Effect • Under anaerobic conditions the conversion of glucose to pyruvate is much higher than under aerobic conditions (yeast cells produce more ethanol and muscle cells accumulate lactate) • The Pasteur Effect is the slowing of glycolysis in the presence of oxygen • More ATP is produce ...
Biological Molecules - Princeton High School
... White bread is a simple carbohydrate (little nutritional value, digested more quickly, converted to fat more quickly) Whole grain bread is a complex carbohydrate (high in fiber, vitamins and minerals, provide more energy, digested slowly) ...
... White bread is a simple carbohydrate (little nutritional value, digested more quickly, converted to fat more quickly) Whole grain bread is a complex carbohydrate (high in fiber, vitamins and minerals, provide more energy, digested slowly) ...
Chemistry of Life biochemistry CHS
... Denaturaton The loss of protein conformation What causes the denaturation? Physical & Environmental alteration such as pH, temperature, salt concentration ...
... Denaturaton The loss of protein conformation What causes the denaturation? Physical & Environmental alteration such as pH, temperature, salt concentration ...
GLYCOLYSIS (1).
... completely on glucose as their metabolic fuel and metabolize it anaerobically. ...
... completely on glucose as their metabolic fuel and metabolize it anaerobically. ...
1.2 organic molecules supplemental worksheet
... common elements found in carbohydrates, lipids, organisms and describes how proteins, and nucleic acids and very few elements make up relates their structures to the structure of biological functions ...
... common elements found in carbohydrates, lipids, organisms and describes how proteins, and nucleic acids and very few elements make up relates their structures to the structure of biological functions ...
carbohydrate metabolism
... ferricyanide solution. These methods give 10-20 mg higher values because in the blood there are other reducing substances (gluthathion, ascorbic acid). Colorimetric methods are rapid and based on the reaction between the glucose and a chromogen (o-toluidine, anthrone). • Enzymatic methods are the mo ...
... ferricyanide solution. These methods give 10-20 mg higher values because in the blood there are other reducing substances (gluthathion, ascorbic acid). Colorimetric methods are rapid and based on the reaction between the glucose and a chromogen (o-toluidine, anthrone). • Enzymatic methods are the mo ...
Chapter 6, Section 3
... Organic: contains carbon ◦ All living things contain carbon (C), hydrogen (H), oxygen (O), nitrogen (N), and phosphorus (P) Monomer: created when C,H,O, N, P bond together to form small molecules Polymer: large compounds that are formed by joining monomers together ...
... Organic: contains carbon ◦ All living things contain carbon (C), hydrogen (H), oxygen (O), nitrogen (N), and phosphorus (P) Monomer: created when C,H,O, N, P bond together to form small molecules Polymer: large compounds that are formed by joining monomers together ...
Properties of the Major Biological Molecules
... Glucose is made of 6 carbon atoms, 12 hydrogens, and 6 oxygens. In what foods would I find glucose? Many foods have glucose or some form of similar sugar. These include fruits, milk, juices, candies, and anything with table sugar. Where does the glucose in all food originally come from? All gluc ...
... Glucose is made of 6 carbon atoms, 12 hydrogens, and 6 oxygens. In what foods would I find glucose? Many foods have glucose or some form of similar sugar. These include fruits, milk, juices, candies, and anything with table sugar. Where does the glucose in all food originally come from? All gluc ...
Cellular Respiration - Peoria Public Schools
... breakdown of glucose in the absence of O2 • Where does it occur? cytoplasm ...
... breakdown of glucose in the absence of O2 • Where does it occur? cytoplasm ...
Chapter 3 Biological Molecules
... Carbon atoms are versatile and can form up to four bonds (single, double, or triple) and rings Functional groups in organic molecules confer chemical reactivity and other characteristics ...
... Carbon atoms are versatile and can form up to four bonds (single, double, or triple) and rings Functional groups in organic molecules confer chemical reactivity and other characteristics ...
Nucleic Acids
... removes a water molecule in the process. • Hydrolysis: reaction breaks down a disaccharide by adding a water molecule to satisfy the exposed bonding sites on the two new monosaccharides. ...
... removes a water molecule in the process. • Hydrolysis: reaction breaks down a disaccharide by adding a water molecule to satisfy the exposed bonding sites on the two new monosaccharides. ...
Week 4 met 2 kin 310
... 1. Describe the activation and translocation of free fatty acids into skeletal muscle that is required prior to metabolism as fuel. (do not include the regulation of translocation in your answer). 2. Describe the mobilization, circulation and uptake of free fatty acids during exercise. Why do resear ...
... 1. Describe the activation and translocation of free fatty acids into skeletal muscle that is required prior to metabolism as fuel. (do not include the regulation of translocation in your answer). 2. Describe the mobilization, circulation and uptake of free fatty acids during exercise. Why do resear ...
Midterm Exam Key
... 23) __I___ this enzyme phosphorylates glucose 24) __H__ membranes containing this molecule will be more fluid than membranes which do not contain this molecule 25) __C__ the only protein of the electron transport chain that is not a proton pump 26) __J___ the activity of this enzyme can be allosteri ...
... 23) __I___ this enzyme phosphorylates glucose 24) __H__ membranes containing this molecule will be more fluid than membranes which do not contain this molecule 25) __C__ the only protein of the electron transport chain that is not a proton pump 26) __J___ the activity of this enzyme can be allosteri ...
Glucose
![](https://commons.wikimedia.org/wiki/Special:FilePath/Alpha-D-glucopyranose-2D-skeletal.png?width=300)
Glucose is a sugar with the molecular formula C6H12O6. The name ""glucose"" (/ˈɡluːkoʊs/) comes from the Greek word γλευκος, meaning ""sweet wine, must"". The suffix ""-ose"" is a chemical classifier, denoting a carbohydrate. It is also known as dextrose or grape sugar. With 6 carbon atoms, it is classed as a hexose, a sub-category of monosaccharides. α-D-glucose is one of the 16 aldose stereoisomers. The D-isomer (D-glucose) occurs widely in nature, but the L-isomer (L-glucose) does not. Glucose is made during photosynthesis from water and carbon dioxide, using energy from sunlight. The reverse of the photosynthesis reaction, which releases this energy, is a very important source of power for cellular respiration. Glucose is stored as a polymer, in plants as starch and in animals as glycogen.