Page 1 - csfcbiology
... more resistant to changes in pH and washing conditions variable/ works in alkaline pH and washing powders alkaline; mark awarded for indicating aspect of effect of pH and advantage of this in terms of washing powder and conditions in wash. ...
... more resistant to changes in pH and washing conditions variable/ works in alkaline pH and washing powders alkaline; mark awarded for indicating aspect of effect of pH and advantage of this in terms of washing powder and conditions in wash. ...
Kevin Ahern's Biochemistry Course (BB 350) at Oregon State University
... instead of CoA. Fatty acid biosynthesis begins with formation of a three carbon molecule called malony-CoA. This comes about from addition of a carboxyl group (biotin is a required coenzyme). Malonyl-CoA is readily converted to malonyl-ACP. 6. The enzyme responsible for making malonyl-CoA is acetyl- ...
... instead of CoA. Fatty acid biosynthesis begins with formation of a three carbon molecule called malony-CoA. This comes about from addition of a carboxyl group (biotin is a required coenzyme). Malonyl-CoA is readily converted to malonyl-ACP. 6. The enzyme responsible for making malonyl-CoA is acetyl- ...
Week 2
... As the polypeptide chain begins to fold up, it eventually forms the three dimensional protein. Proteins have four levels of structure. 1) The first level is called the primary structure and simple comprised of the sequence in which the amino acids occur. The other structures levels results due to th ...
... As the polypeptide chain begins to fold up, it eventually forms the three dimensional protein. Proteins have four levels of structure. 1) The first level is called the primary structure and simple comprised of the sequence in which the amino acids occur. The other structures levels results due to th ...
Gene Expression - Biology Department | Western Washington
... • prokaryotic mRNA synthesis described so far requires little, or no further modification prior to translation into proteins, • eukaryotic mRNA requires extensive modifications. ...
... • prokaryotic mRNA synthesis described so far requires little, or no further modification prior to translation into proteins, • eukaryotic mRNA requires extensive modifications. ...
Chapter 3 Chemistry of Life Modern Biology Textbook Holt
... 7. simple sugars : carbohydrates :: amino acids : A. lipids B. proteins C. nucleic acids D. amino acids ...
... 7. simple sugars : carbohydrates :: amino acids : A. lipids B. proteins C. nucleic acids D. amino acids ...
Johnson, H. N. Purification of
... inal volume of Buffer A. This solution is made pH 4.0 by the addition of I M citric acid and allwed to stand in the cold for 8 hn. The precipitate is centrifuged out and the supernatant is dialyzed against dirtilled water for 6 hn. The dialyzed rupernatant from centrifugation is ...
... inal volume of Buffer A. This solution is made pH 4.0 by the addition of I M citric acid and allwed to stand in the cold for 8 hn. The precipitate is centrifuged out and the supernatant is dialyzed against dirtilled water for 6 hn. The dialyzed rupernatant from centrifugation is ...
2.3: Carbon-Based Molecules
... • Contain an amino group and a carboxyl group • Interact to give a protein its shape and function • Peptide bonds form between amino acids to ...
... • Contain an amino group and a carboxyl group • Interact to give a protein its shape and function • Peptide bonds form between amino acids to ...
File - Biology
... functions carried out by carbohydrates are that they are used as the main source of energy in organisms, and they are used for structural purposes. If you didn’t already know, carbohydrates are sugar or starch. Simple sugars made of one carbohydrate are called monosaccharides. Complex sugars (starch ...
... functions carried out by carbohydrates are that they are used as the main source of energy in organisms, and they are used for structural purposes. If you didn’t already know, carbohydrates are sugar or starch. Simple sugars made of one carbohydrate are called monosaccharides. Complex sugars (starch ...
questions for lipids
... ___________________________________________________________________ endproduct (show structures) ___________________________________________________________________ substrate (show structures) ___________________________________________________________________ describe regulation (give enzymes and a ...
... ___________________________________________________________________ endproduct (show structures) ___________________________________________________________________ substrate (show structures) ___________________________________________________________________ describe regulation (give enzymes and a ...
Organic Macromolecule Notes
... i) examples: Starch, Sugar, Cellulose (Plants cell wall) c) Types of Carbohydrates i) Starch is a long chain of glucose molecules found in plants ii) Glycogen is a long chain of glucose molecules found in animals d) Carbohydrates & Energy i) Where does the energy come from? ...
... i) examples: Starch, Sugar, Cellulose (Plants cell wall) c) Types of Carbohydrates i) Starch is a long chain of glucose molecules found in plants ii) Glycogen is a long chain of glucose molecules found in animals d) Carbohydrates & Energy i) Where does the energy come from? ...
Chapter 17. Amino Acid Oxidation and the Production of Urea
... share similar strategies of fatty acid oxidation. • Leu is finally converted to acetyl-CoA and acetoacetate; Val to propionyl-CoA; Ile to acetylCoA and propionyl-CoA. • The propionyl-CoA produced is converted to succinyl-CoA via carboxylation and intramolecular rearrangement involving free radicals ...
... share similar strategies of fatty acid oxidation. • Leu is finally converted to acetyl-CoA and acetoacetate; Val to propionyl-CoA; Ile to acetylCoA and propionyl-CoA. • The propionyl-CoA produced is converted to succinyl-CoA via carboxylation and intramolecular rearrangement involving free radicals ...
English Version
... (2) Fatty acids Are Oxidazed Acetyl-CoA, NADH, and FADH2 by β- Oxidation (3) The Liver Converts Excess Fatty Acids to Ketone Bodies (4) G1ycerol May Enter Cellular Glyco1ysis or Gluconeogenesis for Metabolism ...
... (2) Fatty acids Are Oxidazed Acetyl-CoA, NADH, and FADH2 by β- Oxidation (3) The Liver Converts Excess Fatty Acids to Ketone Bodies (4) G1ycerol May Enter Cellular Glyco1ysis or Gluconeogenesis for Metabolism ...
29_Metabolism of amino acids. Digestion of proteins
... lactation and convulascence Negative nitrogenous balance – the amount of nitrogen removed from the organism is more than amount of nitrogen entered the organism. It occurs in senile age, destroying of malignant tumor, vast combustions, poisoning by some toxins. High loss of tissue proteins in wastin ...
... lactation and convulascence Negative nitrogenous balance – the amount of nitrogen removed from the organism is more than amount of nitrogen entered the organism. It occurs in senile age, destroying of malignant tumor, vast combustions, poisoning by some toxins. High loss of tissue proteins in wastin ...
Chapter 2 Molecules to enzymes Short Answer
... b. A-U and C-G in RNA; c. complementary base pairing in replication ensures identical nucleotide sequence of new complementary strands; d. semi-conservative replication; e. transcription produces RNA sequence complementary to the DNA sequence (of the gene); f. triplets of nucleotides on mRNA are cod ...
... b. A-U and C-G in RNA; c. complementary base pairing in replication ensures identical nucleotide sequence of new complementary strands; d. semi-conservative replication; e. transcription produces RNA sequence complementary to the DNA sequence (of the gene); f. triplets of nucleotides on mRNA are cod ...
carbonyl group
... This group is always on a terminal C – so no need to specify location by number Condensed it is symbolized by a -CHO group at the end of the formula Aldehydes have characteristic scents and tastes – Cinnamon, bannana, apple, raspberry flavors are ...
... This group is always on a terminal C – so no need to specify location by number Condensed it is symbolized by a -CHO group at the end of the formula Aldehydes have characteristic scents and tastes – Cinnamon, bannana, apple, raspberry flavors are ...
Gene regulation I Biochemistry 302
... protease activity of LexA. – LecA inactivates itself by catalyzing its own cleavage at a specific Arg-Gly bond in the middle of the protein. Lehninger Principles of Biochemistry, 4th ed., Ch 28 ...
... protease activity of LexA. – LecA inactivates itself by catalyzing its own cleavage at a specific Arg-Gly bond in the middle of the protein. Lehninger Principles of Biochemistry, 4th ed., Ch 28 ...
Episode 11 - Science Of Ultra
... harm kidneys are NOT supported by data. If you are putting in extreme mileage or time-on-feet, then a little more protein (for example, 2.0+ g/kg/d) might be useful, but we don’t have much data on these athletes. The amino acids from protein are used to make many molecules and structures throughout ...
... harm kidneys are NOT supported by data. If you are putting in extreme mileage or time-on-feet, then a little more protein (for example, 2.0+ g/kg/d) might be useful, but we don’t have much data on these athletes. The amino acids from protein are used to make many molecules and structures throughout ...
The Macromolecule Worksheet
... 14. How many amino acids are there? 15. How many amino acids can your body make? Where do you get the rest of them? 16. Name the special bond that holds proteins together. 17. What determines a protein’s structure and function? 18. How are hydrogen bonds involved in the structure of a protein? Nucle ...
... 14. How many amino acids are there? 15. How many amino acids can your body make? Where do you get the rest of them? 16. Name the special bond that holds proteins together. 17. What determines a protein’s structure and function? 18. How are hydrogen bonds involved in the structure of a protein? Nucle ...
Nitrogen Assimilation
... Each inhibits Glutamine Synthetase (Favors boosting cell energy or shutting down a pathway requiring glutamine ) AMP ...
... Each inhibits Glutamine Synthetase (Favors boosting cell energy or shutting down a pathway requiring glutamine ) AMP ...
Exam 4, 2015 - Biochemistry at CSU, Stanislaus
... 3. Which of the following glycolysis steps occurs provides substrate level phosphorylation of ADP to make ATP. A. the conversion of phosphoenolpyruvate to pyruvate B. the conversion of fructose 6-phosphate to fructose 1,6-biphosphate C. the conversion of 1,3 bisphosphoglycerate to 3- phosphoglycerat ...
... 3. Which of the following glycolysis steps occurs provides substrate level phosphorylation of ADP to make ATP. A. the conversion of phosphoenolpyruvate to pyruvate B. the conversion of fructose 6-phosphate to fructose 1,6-biphosphate C. the conversion of 1,3 bisphosphoglycerate to 3- phosphoglycerat ...
Urea cycle
... • Increased concentration of ammonia in the blood and other biological fluids → ammonia difuses into cells, across blood/brain barrier → increased synthesis of glutamate from -ketoglutarate, increased synthesis of glutamine -ketoglutarate is depleted from CNS → inhibition of TCA cycle and produc ...
... • Increased concentration of ammonia in the blood and other biological fluids → ammonia difuses into cells, across blood/brain barrier → increased synthesis of glutamate from -ketoglutarate, increased synthesis of glutamine -ketoglutarate is depleted from CNS → inhibition of TCA cycle and produc ...
protein
... delivered to the cells by the blood vessels. Inside the cells, they are used for anabolism (building) of proteins or undergo deamination (removal of the amine functional group) for ATP production in cellular respiration. ...
... delivered to the cells by the blood vessels. Inside the cells, they are used for anabolism (building) of proteins or undergo deamination (removal of the amine functional group) for ATP production in cellular respiration. ...