Structure and Function of Large Bio Molecules
... The chemical mechanisms which cells use to make and break polymers are similar for all classes of macromolecules. These processes are facilitated by enzymes, specialized macromolecules (catalyst) that speed up chemical reactions in cells. ...
... The chemical mechanisms which cells use to make and break polymers are similar for all classes of macromolecules. These processes are facilitated by enzymes, specialized macromolecules (catalyst) that speed up chemical reactions in cells. ...
Mechanism of Succinyl
... Citrate Synthase is an enzyme that catalyzes the first step in the citric acid cycle. Oxaloacetate and acetyl-CoA bind to Citrate Synthase, which then catalyzes the reaction which joins the two compounds together In eukaryotes, Citrate Synthase is a dimer, meaning that it is a protein which is compo ...
... Citrate Synthase is an enzyme that catalyzes the first step in the citric acid cycle. Oxaloacetate and acetyl-CoA bind to Citrate Synthase, which then catalyzes the reaction which joins the two compounds together In eukaryotes, Citrate Synthase is a dimer, meaning that it is a protein which is compo ...
Summary of fatty acid synthesis
... 3. Enzymes present in the ER (mixed-function oxidases) are responsible for desaturating fatty acids using NADPH as a cofactor ...
... 3. Enzymes present in the ER (mixed-function oxidases) are responsible for desaturating fatty acids using NADPH as a cofactor ...
Chapter 4 General metabolism
... the case of glucose leads to glucose-6-phosphate. This molecule is a central key for diverse aspects of the cell, since it is the precursor both of the pentose phosphate pathway and for synthesis of oligo and polyssacharides. Usually, glucose, fructose and mannose are phosphorylated by hexokinases. ...
... the case of glucose leads to glucose-6-phosphate. This molecule is a central key for diverse aspects of the cell, since it is the precursor both of the pentose phosphate pathway and for synthesis of oligo and polyssacharides. Usually, glucose, fructose and mannose are phosphorylated by hexokinases. ...
(A6103) - Datasheet - Sigma
... agents like 2-mercaptoethanol.5 Due to its compact tertiary structure, aprotinin is relatively stable against denaturation due to high temperature, organic solvents, or proteolytic degradation (See Table 2). Only thermolysin has been found capable of degrading ...
... agents like 2-mercaptoethanol.5 Due to its compact tertiary structure, aprotinin is relatively stable against denaturation due to high temperature, organic solvents, or proteolytic degradation (See Table 2). Only thermolysin has been found capable of degrading ...
nucleicacidmetabolism
... We’ve already seen the carbamoyl phosphate synthesis back in chapter 17 via carbamoyl ...
... We’ve already seen the carbamoyl phosphate synthesis back in chapter 17 via carbamoyl ...
The Effect of Arsenic on Liver Tissue of Experimental Animals
... are mainly caused by the use of the pesticides, industrial activities and mining operations. One of them is arsenic that accumulates in the liver tissue to toxic levels and cause changes in the activities of several liver enzymes and cellular damage. Enzymes like aspartate aminotransferase and alani ...
... are mainly caused by the use of the pesticides, industrial activities and mining operations. One of them is arsenic that accumulates in the liver tissue to toxic levels and cause changes in the activities of several liver enzymes and cellular damage. Enzymes like aspartate aminotransferase and alani ...
Glycogen Metabolism
... Symptoms in addition to excess glycogen storage: When a genetic defect affects mainly an isoform of an enzyme expressed in liver, a common symptom is hypoglycemia, relating to impaired mobilization of glucose for release to the blood during fasting. When the defect is in muscle tissue, weakness ...
... Symptoms in addition to excess glycogen storage: When a genetic defect affects mainly an isoform of an enzyme expressed in liver, a common symptom is hypoglycemia, relating to impaired mobilization of glucose for release to the blood during fasting. When the defect is in muscle tissue, weakness ...
Glycogen Metabolism
... Symptoms in addition to excess glycogen storage: When a genetic defect affects mainly an isoform of an enzyme expressed in liver, a common symptom is hypoglycemia, relating to impaired mobilization of glucose for release to the blood during fasting. When the defect is in muscle tissue, weakness ...
... Symptoms in addition to excess glycogen storage: When a genetic defect affects mainly an isoform of an enzyme expressed in liver, a common symptom is hypoglycemia, relating to impaired mobilization of glucose for release to the blood during fasting. When the defect is in muscle tissue, weakness ...
The PRT protein family Sangita C Sinha* and Janet L Smith
... The closed-loop structures, in particular, provide a remarkably consistent picture of Mg•PRPP binding. Mg•PRPP binds in a virtually identical manner in these structures, despite the absence of invariant residues among the enzyme members of the PRT family. The structural snapshots are consistent with ...
... The closed-loop structures, in particular, provide a remarkably consistent picture of Mg•PRPP binding. Mg•PRPP binds in a virtually identical manner in these structures, despite the absence of invariant residues among the enzyme members of the PRT family. The structural snapshots are consistent with ...
Pacing Guide
... Fermentation reactions (lactic acid fermentation and ethyl alcohol fermentation), Role of accessory pigments and evidence for their existence, Aspects of Autumn coloration in trees, Leaf cross-sectional anatomy and function of these structures, Light dependent reactions and role of reactants and pro ...
... Fermentation reactions (lactic acid fermentation and ethyl alcohol fermentation), Role of accessory pigments and evidence for their existence, Aspects of Autumn coloration in trees, Leaf cross-sectional anatomy and function of these structures, Light dependent reactions and role of reactants and pro ...
The Brazilian technology of fuel ethanol fermentation
... The feeding process of the wort, and withdrawal of the product is quite variable and depends on each plant. As already mentioned it can be use Continuous or Fed-batch process for fuel ethanol production, but a mixture of these two processes is also done. For example, the wort is initially fermented ...
... The feeding process of the wort, and withdrawal of the product is quite variable and depends on each plant. As already mentioned it can be use Continuous or Fed-batch process for fuel ethanol production, but a mixture of these two processes is also done. For example, the wort is initially fermented ...
PowerCut™ Dicer
... • That the buyer’s sole remedy shall be to obtain replacement of the product free of charge from Finnzymes Oy; and • That this remedy is in lieu of all other remedies or claims for damages, consequential or otherwise, which the buyer may have against Finnzymes Oy. Exclusive terms of sale Finnzym ...
... • That the buyer’s sole remedy shall be to obtain replacement of the product free of charge from Finnzymes Oy; and • That this remedy is in lieu of all other remedies or claims for damages, consequential or otherwise, which the buyer may have against Finnzymes Oy. Exclusive terms of sale Finnzym ...
The Role of Nucleoside Diphosphate Kinase in Plant Mitochondria
... nucleoside triphosphate pools. It has become recognized that as well as having the kinase activity, NDPK proteins have additional or different roles. This study concerns an NDPK isoform located in plant mitochondria that supports the eversurprising functions of the protein. There is increasing evide ...
... nucleoside triphosphate pools. It has become recognized that as well as having the kinase activity, NDPK proteins have additional or different roles. This study concerns an NDPK isoform located in plant mitochondria that supports the eversurprising functions of the protein. There is increasing evide ...
4. AMINO ACIDS
... because it reacts with the basic amino group to form zwitterions that are not decomposed completely at the end of alkaline indicators (phenolphthalein, thymolphtahalein). • But when formaldehyde is added to the solution of an amino acid it binds to the amino group as dimethylol and the amino acid ca ...
... because it reacts with the basic amino group to form zwitterions that are not decomposed completely at the end of alkaline indicators (phenolphthalein, thymolphtahalein). • But when formaldehyde is added to the solution of an amino acid it binds to the amino group as dimethylol and the amino acid ca ...
27. biosynthesis of amino acids
... varies, although in at least one instance, the ultimate source of electrons is pyruvate, as shown in the figure. Two important characteristics of the nitrogenase complex are: (a) The ATP seems to play a catalytic role, rather than thermodynamic. It may be recalled that ATP, besides contributing chem ...
... varies, although in at least one instance, the ultimate source of electrons is pyruvate, as shown in the figure. Two important characteristics of the nitrogenase complex are: (a) The ATP seems to play a catalytic role, rather than thermodynamic. It may be recalled that ATP, besides contributing chem ...
metabolic pathways - MPG Systems Biology Forum
... indeed realized in Clusia minor (Borland et al, 1994). • Interestingly, (almost) pure elementary modes are realized here, although this should reduce robustness S. Schuster, D.A. Fell: Modelling and simulating metabolic networks. In: Bioinformatics: From Genomes to Therapies (T. Lengauer, ed.) Wiley ...
... indeed realized in Clusia minor (Borland et al, 1994). • Interestingly, (almost) pure elementary modes are realized here, although this should reduce robustness S. Schuster, D.A. Fell: Modelling and simulating metabolic networks. In: Bioinformatics: From Genomes to Therapies (T. Lengauer, ed.) Wiley ...
Protein Structure and Interactions
... In mammals small heat-shock proteins (sHsp) comprises 10 members, many of which are considered as molecular chaperones based on demonstrated in vitro activity. Whether these proteins behave as chaperones in vivo remains unclear. Here, we investigated the effect of HspB8 on the expression of Htt43Q, ...
... In mammals small heat-shock proteins (sHsp) comprises 10 members, many of which are considered as molecular chaperones based on demonstrated in vitro activity. Whether these proteins behave as chaperones in vivo remains unclear. Here, we investigated the effect of HspB8 on the expression of Htt43Q, ...
Enzyme
Enzymes /ˈɛnzaɪmz/ are macromolecular biological catalysts. Enzymes accelerate, or catalyze, chemical reactions. The molecules at the beginning of the process are called substrates and the enzyme converts these into different molecules, called products. Almost all metabolic processes in the cell need enzymes in order to occur at rates fast enough to sustain life. The set of enzymes made in a cell determines which metabolic pathways occur in that cell. The study of enzymes is called enzymology.Enzymes are known to catalyze more than 5,000 biochemical reaction types. Most enzymes are proteins, although a few are catalytic RNA molecules. Enzymes' specificity comes from their unique three-dimensional structures.Like all catalysts, enzymes increase the rate of a reaction by lowering its activation energy. Some enzymes can make their conversion of substrate to product occur many millions of times faster. An extreme example is orotidine 5'-phosphate decarboxylase, which allows a reaction that would otherwise take millions of years to occur in milliseconds. Chemically, enzymes are like any catalyst and are not consumed in chemical reactions, nor do they alter the equilibrium of a reaction. Enzymes differ from most other catalysts by being much more specific. Enzyme activity can be affected by other molecules: inhibitors are molecules that decrease enzyme activity, and activators are molecules that increase activity. Many drugs and poisons are enzyme inhibitors. An enzyme's activity decreases markedly outside its optimal temperature and pH.Some enzymes are used commercially, for example, in the synthesis of antibiotics. Some household products use enzymes to speed up chemical reactions: enzymes in biological washing powders break down protein, starch or fat stains on clothes, and enzymes in meat tenderizer break down proteins into smaller molecules, making the meat easier to chew.