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Assignment # Carbohydrates
... I. Proteins are compounds made of carbon, hydrogen, nitrogen, and oxygen ...
... I. Proteins are compounds made of carbon, hydrogen, nitrogen, and oxygen ...
Chem*4570 Applied Biochemistry Lecture 7 Overproduction of lysine
... internally by acting as N-donor in lysine synthesis. The α-ketoglutarate so produced can be converted into the aspartate needed to start the lysine pathway. Lysine overproducing strains are genetically defecting at three stages: 1) Aspartate kinase is insensitive to lysine 2) DHP synthase is insensi ...
... internally by acting as N-donor in lysine synthesis. The α-ketoglutarate so produced can be converted into the aspartate needed to start the lysine pathway. Lysine overproducing strains are genetically defecting at three stages: 1) Aspartate kinase is insensitive to lysine 2) DHP synthase is insensi ...
PowerPoint Presentation - No Slide Title
... mutations in it moves the transposon into the coding sequence or regulatory regions of a gene. ...
... mutations in it moves the transposon into the coding sequence or regulatory regions of a gene. ...
LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034
... 5. Mention the role of Ammonium persulphate and SDS in protein denaturation studies. 6. Normal human blood plasma contains all the amino acids required for the synthesis of body proteins, but not in equal concentrations. Alanine and glutamine are present in much higher concentrations than any other ...
... 5. Mention the role of Ammonium persulphate and SDS in protein denaturation studies. 6. Normal human blood plasma contains all the amino acids required for the synthesis of body proteins, but not in equal concentrations. Alanine and glutamine are present in much higher concentrations than any other ...
Exam 3
... 10. The splitting of glucose commonly occurs by many organisms using the Embden-Myerhof pathway of glycolysis; however, it is not the only way. Bacteria such as Pseudomonas, Azotobacter and Rhizobium use another glycolytic pathway called ________ to yield 2 pyruvates, 1NADH, 1NADPH, and a net 1 ATP. ...
... 10. The splitting of glucose commonly occurs by many organisms using the Embden-Myerhof pathway of glycolysis; however, it is not the only way. Bacteria such as Pseudomonas, Azotobacter and Rhizobium use another glycolytic pathway called ________ to yield 2 pyruvates, 1NADH, 1NADPH, and a net 1 ATP. ...
Prezentace aplikace PowerPoint
... A serious disease results from the inability to oxidize phenylalanine by a defective phenylalanine hydroxylase. This results in high levels of phenylpyruvate developing (phenylpyruvate is the result of transamination of phenylalanine with an amino acid). The disease is phenylketonuria (PKU), and res ...
... A serious disease results from the inability to oxidize phenylalanine by a defective phenylalanine hydroxylase. This results in high levels of phenylpyruvate developing (phenylpyruvate is the result of transamination of phenylalanine with an amino acid). The disease is phenylketonuria (PKU), and res ...
10/31
... Sulfate is activated by the formation of phosphoadenosine5-phosphosulfate Sulfate is then reduced to sulfite (SO32) then to hydrogen sulfide (H2S) ...
... Sulfate is activated by the formation of phosphoadenosine5-phosphosulfate Sulfate is then reduced to sulfite (SO32) then to hydrogen sulfide (H2S) ...
Fatty Acid Spiral
... • Two carbons at a time are cleaved from a fatty acyl-CoA as acetyl-CoA. • This cleavage continues until the entire fatty acid has been converted into acetyl-CoA. ...
... • Two carbons at a time are cleaved from a fatty acyl-CoA as acetyl-CoA. • This cleavage continues until the entire fatty acid has been converted into acetyl-CoA. ...
Document
... • Two carbons at a time are cleaved from a fatty acyl-CoA as acetyl-CoA. • This cleavage continues until the entire fatty acid has been converted into acetyl-CoA. ...
... • Two carbons at a time are cleaved from a fatty acyl-CoA as acetyl-CoA. • This cleavage continues until the entire fatty acid has been converted into acetyl-CoA. ...
Aromatic Amino Acid Metabolism
... This section appears identical in editions 4 and 5 except for page numbers. In this section, ignore the information on the synthesis of tryptophan from chorismate (Figs. 2217 and 22-18). Focus only on synthesis of phenylalanine and tyrosine (Figs. 22-16 and 22-19). General Principles • Amino acids a ...
... This section appears identical in editions 4 and 5 except for page numbers. In this section, ignore the information on the synthesis of tryptophan from chorismate (Figs. 2217 and 22-18). Focus only on synthesis of phenylalanine and tyrosine (Figs. 22-16 and 22-19). General Principles • Amino acids a ...
Biosynthesis of Amino Acids
... for other amino acids are shown in yellow. The nine essential amino acids are shown in boldface. The carbon skeletons come from intermediates of glycolysis, the pentose phosphate pathway and the citric acid cycle. On the basis of the starting points the 20 amino acids can be group into 6 categories ...
... for other amino acids are shown in yellow. The nine essential amino acids are shown in boldface. The carbon skeletons come from intermediates of glycolysis, the pentose phosphate pathway and the citric acid cycle. On the basis of the starting points the 20 amino acids can be group into 6 categories ...
Protein mteabolism
... Clinical significance of aminotransferases: Aminotransferases are normally intracellular enzymes, and found only in low levels in plasma. The presence of elevated plasma levels of aminotransferases indcates damage of cells rich in these enzymes. e.g. ALT and AST are present in liver, so their elevat ...
... Clinical significance of aminotransferases: Aminotransferases are normally intracellular enzymes, and found only in low levels in plasma. The presence of elevated plasma levels of aminotransferases indcates damage of cells rich in these enzymes. e.g. ALT and AST are present in liver, so their elevat ...
Quiz 2
... - RNA – transcription and sequences of amino acides during translation – segment of DNA (genes) 2. Proteins are polymers with important roles both in structure and metabolism. Describe important aspects of this macromolecule. - Functions: Enzymes, Defensive, Hormonal and regulatory, receptors, stora ...
... - RNA – transcription and sequences of amino acides during translation – segment of DNA (genes) 2. Proteins are polymers with important roles both in structure and metabolism. Describe important aspects of this macromolecule. - Functions: Enzymes, Defensive, Hormonal and regulatory, receptors, stora ...
Proteins - RMC Science Home
... Contain hydrogen, oxygen, carbon and nitrogen The main function of proteins is to build and maintain tissues. Can also be used for energy but ONLY if carbohydrate and fat stores are depleated. ...
... Contain hydrogen, oxygen, carbon and nitrogen The main function of proteins is to build and maintain tissues. Can also be used for energy but ONLY if carbohydrate and fat stores are depleated. ...
Metabolic fate of amino acid
... (aminotransferases) can function both in amino acid catabolism and biosynthesis. • Pyridoxal phosphate resides at the catalytic site of all transaminases. • Alanine-pyruvate transaminase (alanine transaminase) and glutamate a -ketoglutarate transaminase (glutamate transaminase), present in most anim ...
... (aminotransferases) can function both in amino acid catabolism and biosynthesis. • Pyridoxal phosphate resides at the catalytic site of all transaminases. • Alanine-pyruvate transaminase (alanine transaminase) and glutamate a -ketoglutarate transaminase (glutamate transaminase), present in most anim ...
L21_Protein
... – High if full mixture of essential amino acids are present • If one amino acid is missing, then proteins contain that amino acid cannot be made – cannot make ½ a protein! It’s all or nothing. – Compromises pool of the other amino acids ...
... – High if full mixture of essential amino acids are present • If one amino acid is missing, then proteins contain that amino acid cannot be made – cannot make ½ a protein! It’s all or nothing. – Compromises pool of the other amino acids ...
CHNOPS Lab
... place. The code, in DNA or mRNA, specifies the order in which the amino acids are joined together to form a polypeptide. As the code carried by mRNA is “read” on a ribosome, the amino acids are added to the growing polypeptide chain (protein) . The process by which the information from DNA is transf ...
... place. The code, in DNA or mRNA, specifies the order in which the amino acids are joined together to form a polypeptide. As the code carried by mRNA is “read” on a ribosome, the amino acids are added to the growing polypeptide chain (protein) . The process by which the information from DNA is transf ...
Document
... B. Regulation of synthesis C. NTP dNTP D. NMP NTP E. Difference between plants & animals ...
... B. Regulation of synthesis C. NTP dNTP D. NMP NTP E. Difference between plants & animals ...