Organic Compounds Powerpoint
... 1. The building blocks of Proteins are amino acids. 2. There are three parts to an amino acids: 1. Amino Group (NH2 or NH3+) acts as a base (accepts H+) 2. Carboxyl Group (COOH or COO-) acts as an acid (donates H+) ...
... 1. The building blocks of Proteins are amino acids. 2. There are three parts to an amino acids: 1. Amino Group (NH2 or NH3+) acts as a base (accepts H+) 2. Carboxyl Group (COOH or COO-) acts as an acid (donates H+) ...
peak glossary of terms
... The sensation felt by marathon runners when they deplete their body's glycogen stores and begin running primarily on stored body fat. Homeostasis The tendency of the body to maintain an internal equilibrium. Hyaluronic acid The principal glycosaminoglycan in proteoglycan. Hydrogenation The process i ...
... The sensation felt by marathon runners when they deplete their body's glycogen stores and begin running primarily on stored body fat. Homeostasis The tendency of the body to maintain an internal equilibrium. Hyaluronic acid The principal glycosaminoglycan in proteoglycan. Hydrogenation The process i ...
QUIZ #7 NUCLEOTIDE METABOLISM
... a. is utilized in the synthesis of the purine ring b. is required for the salvage of purine bases c. converts hypoxanthine to guanine d. is inhibited by methotrexate e. is required to convert purines to uric acid ...
... a. is utilized in the synthesis of the purine ring b. is required for the salvage of purine bases c. converts hypoxanthine to guanine d. is inhibited by methotrexate e. is required to convert purines to uric acid ...
BIOANALYTICAL/CLINICAL ANALYSIS
... T3 and T4 Important-Assayed by Immunology,old method RadioImmunoassay,Now Enzyme Immunoassay with Antibodies ...
... T3 and T4 Important-Assayed by Immunology,old method RadioImmunoassay,Now Enzyme Immunoassay with Antibodies ...
Anaerobic Fermentation
... NADH drops off electrons onto pyruvate pyruvate is converted to Lactic acid ...
... NADH drops off electrons onto pyruvate pyruvate is converted to Lactic acid ...
Chapters 4 and 5 Mrs. Svencer CP Biology 4.1 Life Requires About
... Saturated Fat vs. Unsaturated Fat ...
... Saturated Fat vs. Unsaturated Fat ...
Lecture 11: Take your Vitamins! Enzyme Cofactors Reference
... bind by electrostatic bonds to active site residues 3. For each coenzyme listed in Table 7-1 (slide 8), list the vitamin source of the cofactor (if there is one) and provide the metabolic role of each cofactor. This will be very important for the nutrition class also. ...
... bind by electrostatic bonds to active site residues 3. For each coenzyme listed in Table 7-1 (slide 8), list the vitamin source of the cofactor (if there is one) and provide the metabolic role of each cofactor. This will be very important for the nutrition class also. ...
acetyl CoA
... • Also called the Krebs cycle (after the German-British researcher Hans Krebs, who worked out much of this pathway in the 1930s) • completes the oxidation of organic molecules • generates many NADH and FADH2 molecules. • the two-carbon group of acetyl CoA is added to a ...
... • Also called the Krebs cycle (after the German-British researcher Hans Krebs, who worked out much of this pathway in the 1930s) • completes the oxidation of organic molecules • generates many NADH and FADH2 molecules. • the two-carbon group of acetyl CoA is added to a ...
Energy Releasing Pathways
... stream and is transported to liver where it is converted back into pyruvic acid. Used to make cheese and yogurt ...
... stream and is transported to liver where it is converted back into pyruvic acid. Used to make cheese and yogurt ...
metabolism of lipids
... precipitant when lead sulfide is formed Bismuth sulfite medium Iron-high agar Agar turns black when H2S +, no color change when H2S – E.g. Salmonella sp; some Proteus sp. ...
... precipitant when lead sulfide is formed Bismuth sulfite medium Iron-high agar Agar turns black when H2S +, no color change when H2S – E.g. Salmonella sp; some Proteus sp. ...
Fatty acid
... vertebrate blood, transports oxygen from the lungs to other parts of the body. Other proteins transport molecules across cell membranes. ...
... vertebrate blood, transports oxygen from the lungs to other parts of the body. Other proteins transport molecules across cell membranes. ...
Respiration
... thylakoid space intermembrane space matrix What molecule acts as the final electron acceptor at the end of the ETC during cellular respiration? * oxygen water carbon dioxide glucose All of the following are products of the Citric Acid cycle EXCEPT * ATP NADH NADPH FADH2 CO2 ...
... thylakoid space intermembrane space matrix What molecule acts as the final electron acceptor at the end of the ETC during cellular respiration? * oxygen water carbon dioxide glucose All of the following are products of the Citric Acid cycle EXCEPT * ATP NADH NADPH FADH2 CO2 ...
Jordan University of Science and Technology Faculty of Medicine
... b. How is the 6-carbon glucose converted to the 3-carbon glyceraldehydes-3-phosphate? c. How is glyceraldehydes-3-phosphate converted to pyruvate? d. How is pyruvate metabolized anaerobically? e. How much energy can be produced by glycolysis? ...
... b. How is the 6-carbon glucose converted to the 3-carbon glyceraldehydes-3-phosphate? c. How is glyceraldehydes-3-phosphate converted to pyruvate? d. How is pyruvate metabolized anaerobically? e. How much energy can be produced by glycolysis? ...
1 acetyl CoA - WordPress.com
... dehydrogenase is an enzyme that oxidizes a substrate by transferring one or more hydrides to an acceptor, NAD or FAD ...
... dehydrogenase is an enzyme that oxidizes a substrate by transferring one or more hydrides to an acceptor, NAD or FAD ...
123 biochemistry - Jordan University of Science and Technology
... b. How is the 6-carbon glucose converted to the 3-carbon glyceraldehydes-3-phosphate? c. How is glyceraldehydes-3-phosphate converted to pyruvate? d. How is pyruvate metabolized anaerobically? e. How much energy can be produced by glycolysis? ...
... b. How is the 6-carbon glucose converted to the 3-carbon glyceraldehydes-3-phosphate? c. How is glyceraldehydes-3-phosphate converted to pyruvate? d. How is pyruvate metabolized anaerobically? e. How much energy can be produced by glycolysis? ...
123 - Jordan University of Science and Technology
... b. How is the 6-carbon glucose converted to the 3-carbon glyceraldehydes-3-phosphate? c. How is glyceraldehydes-3-phosphate converted to pyruvate? d. How is pyruvate metabolized anaerobically? e. How much energy can be produced by glycolysis? ...
... b. How is the 6-carbon glucose converted to the 3-carbon glyceraldehydes-3-phosphate? c. How is glyceraldehydes-3-phosphate converted to pyruvate? d. How is pyruvate metabolized anaerobically? e. How much energy can be produced by glycolysis? ...
5 Metabolism - bloodhounds Incorporated
... ATPsynthase stored energy is converted into chemical-bond energy • The ATPsynthase transfers KE to the highenergy phosphate bond of ATP • A portion of this energy transfer is released as heat and absorbed into the blood ...
... ATPsynthase stored energy is converted into chemical-bond energy • The ATPsynthase transfers KE to the highenergy phosphate bond of ATP • A portion of this energy transfer is released as heat and absorbed into the blood ...
Biochemistry Lect 4 – N.42 – Lipid metabolism
... dietary lipids are carried to liver. From the liver, they are transported to cell in bound form with albumin. (b) Endogenous sources As mentioned above, free fatty acids formed from body TG are used for energy production. Though the plasma free fatty acid level is lower than blood glucose level they ...
... dietary lipids are carried to liver. From the liver, they are transported to cell in bound form with albumin. (b) Endogenous sources As mentioned above, free fatty acids formed from body TG are used for energy production. Though the plasma free fatty acid level is lower than blood glucose level they ...
Slide 1
... mRNA makes a copy of the DNA strand! Adenine Base Pairs with Thymine Uracil Base Pairs with Adenine Guanine Base Pairs with Cytosine Cytosine Base Pairs with Guanine ...
... mRNA makes a copy of the DNA strand! Adenine Base Pairs with Thymine Uracil Base Pairs with Adenine Guanine Base Pairs with Cytosine Cytosine Base Pairs with Guanine ...
Media Supplements - Formulation - Sigma
... designed for cell cultures in which media without sodium pyruvate are used. Fatty Acid-Albumin - complexes have been employed as alternative sources of lipids in the development of serum-free media. Fatty acids bind to serum proteins in high proportions. Such proteins may release beneficial fatty ac ...
... designed for cell cultures in which media without sodium pyruvate are used. Fatty Acid-Albumin - complexes have been employed as alternative sources of lipids in the development of serum-free media. Fatty acids bind to serum proteins in high proportions. Such proteins may release beneficial fatty ac ...
Simulating Biological and Chemical Processes of
... Anaerobic digestion is a highly complex process containing numerous biological and chemical reactions taking place simultaneously. The stability of an anaerobic digestion system depends on the composition of the substrates and how microorganisms themselves convert the given substrates. Feedstock Lip ...
... Anaerobic digestion is a highly complex process containing numerous biological and chemical reactions taking place simultaneously. The stability of an anaerobic digestion system depends on the composition of the substrates and how microorganisms themselves convert the given substrates. Feedstock Lip ...
Chemistry in Biology - Welcome to teachers.olatheschools.com!
... and polypeptides form proteins. • Functions: – structural components of cells – catalyzing chemical reactions (enzymes) – transporting substances within cells – messenger molecules (hormones) ...
... and polypeptides form proteins. • Functions: – structural components of cells – catalyzing chemical reactions (enzymes) – transporting substances within cells – messenger molecules (hormones) ...
Fatty Acid Biosynthesis Pathways in Methylomicrobium buryatense
... acid/phospholipid synthesis protein, 3-oxoacyl-ACP synthase III, malonyl-CoA-ACP transacylase, 3-oxoacyl-ACP reductase, acyl carrier protein (ACP), and 3-oxoacyl-ACP synthase II. The cluster also includes a hypothetical protein and a 50S ribosomal protein L32 gene upstream of plsX. The organization ...
... acid/phospholipid synthesis protein, 3-oxoacyl-ACP synthase III, malonyl-CoA-ACP transacylase, 3-oxoacyl-ACP reductase, acyl carrier protein (ACP), and 3-oxoacyl-ACP synthase II. The cluster also includes a hypothetical protein and a 50S ribosomal protein L32 gene upstream of plsX. The organization ...
BIOCHEMISTRY Class Notes Summary Table of Contents 1.0
... and corn. Cellulose is also produced by plants. Cellulose gives plant strength, support and rigidity. Remember plants don’t have skeletons. Cellulose enables a plant to stand upright. Cellulose are long straight chains of carbon. Note, humans can not digest cellulose. To do so we would need an extra ...
... and corn. Cellulose is also produced by plants. Cellulose gives plant strength, support and rigidity. Remember plants don’t have skeletons. Cellulose enables a plant to stand upright. Cellulose are long straight chains of carbon. Note, humans can not digest cellulose. To do so we would need an extra ...
biochem 37 [4-20
... 9. How is the transport of glucose different from Amino Acid tranpsort? only intestinal and kidney cells use the Na+ system when transporting glucose 10. Describe the ubiquitin-proteasome pathway (4 stages). How is its specificity modified? Can you give some examples? For which AAs is the pathway ...
... 9. How is the transport of glucose different from Amino Acid tranpsort? only intestinal and kidney cells use the Na+ system when transporting glucose 10. Describe the ubiquitin-proteasome pathway (4 stages). How is its specificity modified? Can you give some examples? For which AAs is the pathway ...
Fatty acid synthesis
Fatty acid synthesis is the creation of fatty acids from acetyl-CoA and malonyl-CoA precursors through action of enzymes called fatty acid synthases. It is an important part of the lipogenesis process, which – together with glycolysis – functions to create fats from blood sugar in living organisms.