Homology Modeling via Protein Threading
... of all closely related proteins is created. These proteins are combined into a general "profile" sequence, which summarises significant features present in these sequences. A query against the protein database is then run using this profile, and a larger group of proteins is found. This larger group ...
... of all closely related proteins is created. These proteins are combined into a general "profile" sequence, which summarises significant features present in these sequences. A query against the protein database is then run using this profile, and a larger group of proteins is found. This larger group ...
NoroTec formulation
... ensures that they are absorbed intact. In fact, true amino acid chelates behave very similar to dipeptides (a pair of two amino acids). As a result, these chelates tend to be absorbed more like a dipeptide rather than a free mineral, and intestinal dipeptide absorption is known to be very efficient. ...
... ensures that they are absorbed intact. In fact, true amino acid chelates behave very similar to dipeptides (a pair of two amino acids). As a result, these chelates tend to be absorbed more like a dipeptide rather than a free mineral, and intestinal dipeptide absorption is known to be very efficient. ...
Authors Title Year Keywords Journal/Proceedings Emile Bol
... Abstract: The oxidation of L-cysteine by the outer-sphere oxidants [Fe(bpy)2(CN)2]+ and [Fe(bpy)(CN)4]- in anaerobic aqueous solution is highly susceptible to catalysis by trace amounts of copper ions. This copper catalysis is effectively inhibited with the addition of 1.0 mM dipicolinic acid for th ...
... Abstract: The oxidation of L-cysteine by the outer-sphere oxidants [Fe(bpy)2(CN)2]+ and [Fe(bpy)(CN)4]- in anaerobic aqueous solution is highly susceptible to catalysis by trace amounts of copper ions. This copper catalysis is effectively inhibited with the addition of 1.0 mM dipicolinic acid for th ...
ch_02_Chemical Organization
... accepted by a chlorine (Cl) atom. 2 Because the sodium ion (Na+) and chloride ion (Cl−) have opposite charges, they are attracted to one another. 3 The association of sodium and chloride ions forms the ionic compound sodium chloride. ...
... accepted by a chlorine (Cl) atom. 2 Because the sodium ion (Na+) and chloride ion (Cl−) have opposite charges, they are attracted to one another. 3 The association of sodium and chloride ions forms the ionic compound sodium chloride. ...
Overview of Metabolism Chapter
... produced in glycolysis, fermentation regenerates NAD+, which can take part in glycolysis once again to produce more ATP. The muscle regenerates NAD+ from NADH, an oxidation reaction, by reduction of pyruvate. The fermentation pathway produces the NAD+ necessary to accept electrons from glucose, allo ...
... produced in glycolysis, fermentation regenerates NAD+, which can take part in glycolysis once again to produce more ATP. The muscle regenerates NAD+ from NADH, an oxidation reaction, by reduction of pyruvate. The fermentation pathway produces the NAD+ necessary to accept electrons from glucose, allo ...
Urea cycle
... • Dietary intake is primarily proteins much urea (amino acids are used for fuel) • Prolonged starvation breaks down of muscle proteins much urea also • The rate of synthesis of four urea cycle enzymes and carbamoyl phosphate synthetase I (CPS-I) in the liver is regulated by changes in demand f ...
... • Dietary intake is primarily proteins much urea (amino acids are used for fuel) • Prolonged starvation breaks down of muscle proteins much urea also • The rate of synthesis of four urea cycle enzymes and carbamoyl phosphate synthetase I (CPS-I) in the liver is regulated by changes in demand f ...
The activity reaction core and plasticity of metabolic networks
... tetrahydrofolte biosynthesis. Both pathways are present in H. pylori and E. coli. ...
... tetrahydrofolte biosynthesis. Both pathways are present in H. pylori and E. coli. ...
Cell Respiration RG
... Cellular Respiration Reading guide (Pgs 171-189) 1. Define the two catabolic pathways: a. Fermentation b. Cellular respiration ...
... Cellular Respiration Reading guide (Pgs 171-189) 1. Define the two catabolic pathways: a. Fermentation b. Cellular respiration ...
ATP
... •Food molecules are the $1000 dollar bills of energy storage •Food molecules function as fuel molecules, storing large quantities of energy in a stable form over long periods of time! They are the long-term energy currency of the cell. •For “pocket change”, cells require a molecule that stores much ...
... •Food molecules are the $1000 dollar bills of energy storage •Food molecules function as fuel molecules, storing large quantities of energy in a stable form over long periods of time! They are the long-term energy currency of the cell. •For “pocket change”, cells require a molecule that stores much ...
Genes affecting starch biosynthesis exert pleiotropic effects on the
... mutant lines have modi®ed protein contents. Preliminary data have indicated that the protein content for some of these lines was different from wild-type, but this was determined as total nitrogen multiplied by 6.25.6 Since their protein and nitrogen compositions might be variable, their total prote ...
... mutant lines have modi®ed protein contents. Preliminary data have indicated that the protein content for some of these lines was different from wild-type, but this was determined as total nitrogen multiplied by 6.25.6 Since their protein and nitrogen compositions might be variable, their total prote ...
Observation of back-donation in 3d metal cyanide complexes
... are of fundamental importance in coordination chemistry for obtaining a detailed understanding of the transition metal–ligand bonding [1,2]. The 3dp– *Corresponding author. Tel.: 17-812-428-4352; fax: 17-812428-7240. E-mail address: [email protected] (A.S. Vinogradov). ...
... are of fundamental importance in coordination chemistry for obtaining a detailed understanding of the transition metal–ligand bonding [1,2]. The 3dp– *Corresponding author. Tel.: 17-812-428-4352; fax: 17-812428-7240. E-mail address: [email protected] (A.S. Vinogradov). ...
![K m + [S]](http://s1.studyres.com/store/data/008289247_1-97eed219b6e242b1a447e591c5c01f05-300x300.png)
K m + [S]
... Proximity effect and orientation arrange: For a biochemical reaction to occur, the substrate must come into close proximity to catalytic functional groups (side chain groups involved in a catalytic mechanism ) within the active site. In addition, the substrate must be precisely, spatially oriented t ...
... Proximity effect and orientation arrange: For a biochemical reaction to occur, the substrate must come into close proximity to catalytic functional groups (side chain groups involved in a catalytic mechanism ) within the active site. In addition, the substrate must be precisely, spatially oriented t ...
Advanced Higher Chemistry Learning Outcomes
... Compounds containing metals in high oxidation states tend to be oxidising agents whereas compounds with metals in low oxidation states are often reducing agents. ...
... Compounds containing metals in high oxidation states tend to be oxidising agents whereas compounds with metals in low oxidation states are often reducing agents. ...
METABOLISM CATABOLISM AND ANABOLISM ATP MOLECULE
... Biological oxidation involves the loss of electron and a proton (hydrogen atom) dehydrogenation reactions require coenzymes to transfer hydrogen atoms to another compound li i cells ll th common coenzymes off living thatt carry H H+ ...
... Biological oxidation involves the loss of electron and a proton (hydrogen atom) dehydrogenation reactions require coenzymes to transfer hydrogen atoms to another compound li i cells ll th common coenzymes off living thatt carry H H+ ...
Chemistry of METALS
... 2.Aluminium is obtained from the ore with the formula Al2O3. 2H2O. The ore is first heated and refined to obtain pure aluminium oxide (Al2O3). The oxide is then electrolysed to get Aluminium and oxygen gas using carbon anodes and carbon as cathode. Give the common name of the ore from where alumini ...
... 2.Aluminium is obtained from the ore with the formula Al2O3. 2H2O. The ore is first heated and refined to obtain pure aluminium oxide (Al2O3). The oxide is then electrolysed to get Aluminium and oxygen gas using carbon anodes and carbon as cathode. Give the common name of the ore from where alumini ...
CELL METABOLISM
... 4. Oxygen, which has gained electrons, combines with H+ (lost electrons) to form H2O. 5. Energy released by electrons is captured by ATP synthase. 6. ATP synthase converts ADP & Phosphate into ATP. By going through a series of electron transport rxs at least 32 ATP molecules are obtained for each gl ...
... 4. Oxygen, which has gained electrons, combines with H+ (lost electrons) to form H2O. 5. Energy released by electrons is captured by ATP synthase. 6. ATP synthase converts ADP & Phosphate into ATP. By going through a series of electron transport rxs at least 32 ATP molecules are obtained for each gl ...
Amines and Amides
... • Fourth most common atom in living systems. • Important component of the structure of nucleic acids, DNA, and RNA • Essential to the structure and function of proteins – enzymes and antibodies ...
... • Fourth most common atom in living systems. • Important component of the structure of nucleic acids, DNA, and RNA • Essential to the structure and function of proteins – enzymes and antibodies ...
Biochemistry Study Guide NITROGEN METABOLISM
... 2 ATP are required. Basically these are used to "charge" or "activate" ammonia with a highenergy phosphate bond, before we subsequently start urea synthesis. N-Acetylglutamate is absolutely required as a cofactor. This compound also serves a regulatory role in urea synthesis. The rate of carba ...
... 2 ATP are required. Basically these are used to "charge" or "activate" ammonia with a highenergy phosphate bond, before we subsequently start urea synthesis. N-Acetylglutamate is absolutely required as a cofactor. This compound also serves a regulatory role in urea synthesis. The rate of carba ...
Chapter 5 Capturing and releasing Energy
... carbon atoms enter these reactions (in two molecules of pyruvate), and six leave (in six CO2). Two ATP form and ten coenzymes accept electrons and hydrogen ions. ...
... carbon atoms enter these reactions (in two molecules of pyruvate), and six leave (in six CO2). Two ATP form and ten coenzymes accept electrons and hydrogen ions. ...
cell metabolism
... 4. Oxygen, which has gained electrons, combines with H+ (lost electrons) to form H 2O. 5. Energy released by electrons is captured by ATP synthase. 6. ATP synthase converts ADP & Phosphate into ATP. By going through a series of electron transport rxs at least 32 ATP molecules are obtained for each g ...
... 4. Oxygen, which has gained electrons, combines with H+ (lost electrons) to form H 2O. 5. Energy released by electrons is captured by ATP synthase. 6. ATP synthase converts ADP & Phosphate into ATP. By going through a series of electron transport rxs at least 32 ATP molecules are obtained for each g ...
Lec.4 AA Metabolism Glucogenic and Ketogenic Amino Acids
... 1. Transamination: Removal of the amino groups of all three A.A is catalyzed by a single, vit.B6-requiring enzyme, branched-chain αamino acid aminotransferase. 2. Oxidative decarboxylation: Removal of the carboxyl group of the αketo acids derived from leucine, valine, and isoleucine is catabolized ...
... 1. Transamination: Removal of the amino groups of all three A.A is catalyzed by a single, vit.B6-requiring enzyme, branched-chain αamino acid aminotransferase. 2. Oxidative decarboxylation: Removal of the carboxyl group of the αketo acids derived from leucine, valine, and isoleucine is catabolized ...
Metalloprotein
Metalloprotein is a generic term for a protein that contains a metal ion cofactor. A large number of all proteins are part of this category.