simple basic metabolism
... absorbed into the cells of our body. As these molecules of glucose, fatty acids, and amino acids are broken down further, energy is released. This energy is used in the cells to synthesize high—energy compounds such as adenosine triphosphate (ATP). Our cells utilize ATP energy when they do work such ...
... absorbed into the cells of our body. As these molecules of glucose, fatty acids, and amino acids are broken down further, energy is released. This energy is used in the cells to synthesize high—energy compounds such as adenosine triphosphate (ATP). Our cells utilize ATP energy when they do work such ...
Chemistry/Biochemistry Review
... 17. Many monomers joined together 18. Many sugars linked together 19. Monomer for carbohydrates 20. Monomer for lipids 21. Monomer for nucleic acids 22. Monomer for proteins 23. Single units/building blocks of polymers 24. Type of lipid that is solid at room temperature 25. Supply main/primary sourc ...
... 17. Many monomers joined together 18. Many sugars linked together 19. Monomer for carbohydrates 20. Monomer for lipids 21. Monomer for nucleic acids 22. Monomer for proteins 23. Single units/building blocks of polymers 24. Type of lipid that is solid at room temperature 25. Supply main/primary sourc ...
CHAP Twenty-Five - Foothill College
... ii) Edman Degradation: N terminus iii) DNFB to identify N-terminus iv) Chymotripsin at C-terminus v) With cyanogen bromide BrCN at methionine C terminus vi) With chymotripsin at C end of phe, tyr, trp vii) With Tripsin at C end of lys, arg D) Separation and Identification of aa fragments via Gel ele ...
... ii) Edman Degradation: N terminus iii) DNFB to identify N-terminus iv) Chymotripsin at C-terminus v) With cyanogen bromide BrCN at methionine C terminus vi) With chymotripsin at C end of phe, tyr, trp vii) With Tripsin at C end of lys, arg D) Separation and Identification of aa fragments via Gel ele ...
Organic Compounds
... insoluble in water. • Mostly contain C and H atoms. • Secondary functions of lipids are as structural components (the major building block in cell membranes) and as "messengers" (hormones) that play roles in communications within and between cells. ...
... insoluble in water. • Mostly contain C and H atoms. • Secondary functions of lipids are as structural components (the major building block in cell membranes) and as "messengers" (hormones) that play roles in communications within and between cells. ...
2 Sep - Presentation
... skeleton (except the carboxyl carbon) carries 2 H atoms (the maximum number of hydrogens). In contrast, unsaturated fats contain double bonds and less than the maximum number of hydrogens possible. ...
... skeleton (except the carboxyl carbon) carries 2 H atoms (the maximum number of hydrogens). In contrast, unsaturated fats contain double bonds and less than the maximum number of hydrogens possible. ...
4. DIGESTION AND ABSORPTION OF LIPIDS
... carried via the blood to the heart and skeletal muscles, which absorb and oxidize free fatty acids as major fuel. ...
... carried via the blood to the heart and skeletal muscles, which absorb and oxidize free fatty acids as major fuel. ...
Representations of 3D Structures
... Important: NMR gives you a number of possible solutions (all almost identical, rmsd <1Å), This can range from 5-20 models X-ray crystallography give one average structure NMR structures can be averaged to give one average structure as well ...
... Important: NMR gives you a number of possible solutions (all almost identical, rmsd <1Å), This can range from 5-20 models X-ray crystallography give one average structure NMR structures can be averaged to give one average structure as well ...
CM 65% IL red
... Lipids are large, nonpolar (won't dissolve in water) molecules. Phospholipids make up cell membranes. Lipids also serve as waxy coverings (cuticle) on plants, pigments (chlorophyll), and steroids. Lipids have more carbon and hydrogen atoms than oxygen atoms. Fats are made of a glycerol (alcohol) an ...
... Lipids are large, nonpolar (won't dissolve in water) molecules. Phospholipids make up cell membranes. Lipids also serve as waxy coverings (cuticle) on plants, pigments (chlorophyll), and steroids. Lipids have more carbon and hydrogen atoms than oxygen atoms. Fats are made of a glycerol (alcohol) an ...
Lipids General function
... Secretion of lipids from intestine mucosal cell: A disease called chyle= leakage of the lipid rich lymph into: a.abdominal cavity (chylo abdomen) b.pleural cavity (chylo thorax) c. urine cavity (chyluria) result from obstruction to transportation in the lymphatics intestinal resynthesis of triglycer ...
... Secretion of lipids from intestine mucosal cell: A disease called chyle= leakage of the lipid rich lymph into: a.abdominal cavity (chylo abdomen) b.pleural cavity (chylo thorax) c. urine cavity (chyluria) result from obstruction to transportation in the lymphatics intestinal resynthesis of triglycer ...
2-3 Notes B
... D. Disaccharides (di means 2!) 1. Two monosaccharaides joined together by dehydration a. Lactose = glucose + galactose b. Sucrose = glucose + fructose c. Maltose = glucose + glucose ...
... D. Disaccharides (di means 2!) 1. Two monosaccharaides joined together by dehydration a. Lactose = glucose + galactose b. Sucrose = glucose + fructose c. Maltose = glucose + glucose ...
essential fatty acids
... Provide triglycerides, cholesterol, and phospholipids for cells Build new membranes Make hormones or other ...
... Provide triglycerides, cholesterol, and phospholipids for cells Build new membranes Make hormones or other ...
LIPID OF BIOLOGICAL IMPORTANCE
... Conjugated lipids) Phospholipids: Lipids containing, in addition to fatty acids and an alcohol, a phosphoric acid residue. ...
... Conjugated lipids) Phospholipids: Lipids containing, in addition to fatty acids and an alcohol, a phosphoric acid residue. ...
17 The Citric Acid Cycle: The latabolism of Acetyl
... Is. The acetyl residues are in the form of acetyli(CH3-CO~S-CoA, active acetate), an ester of izyme A. Co A contains the vitamin panto thenic ...
... Is. The acetyl residues are in the form of acetyli(CH3-CO~S-CoA, active acetate), an ester of izyme A. Co A contains the vitamin panto thenic ...
Fatty Acid Biosynthesis
... degraded to Acetyl CoA Acetyl CoA provides biologic energy Excess acetyl CoA is stored as Fatty Acids (FA’s) FA’s are assembled into more complex lipids like triglycerides (TG’s) ...
... degraded to Acetyl CoA Acetyl CoA provides biologic energy Excess acetyl CoA is stored as Fatty Acids (FA’s) FA’s are assembled into more complex lipids like triglycerides (TG’s) ...
Lecture 9 Fatty Acid Synthesis
... Occurs in the endoplasmic reticulum &mitochondria Uses NADPH as reductant Lengthens a fatty acid by using malonyl CoA as acetyl donor Fatty acid lengthens by 2 carbons Brain-Elongation capibilities-Very long chain fatty acids(24 C) – Synthesis of Brain lipids ...
... Occurs in the endoplasmic reticulum &mitochondria Uses NADPH as reductant Lengthens a fatty acid by using malonyl CoA as acetyl donor Fatty acid lengthens by 2 carbons Brain-Elongation capibilities-Very long chain fatty acids(24 C) – Synthesis of Brain lipids ...
Chem331 Lect 13 Lipids - University of San Diego Home Pages
... • Limit protein (gluten) cross-linking in pastries (that’s why fats is called shortening) • Used to transfer heat – but chain length can burn (smoke point) Properties of fatty acids •Fatty acids are alkyl chains with carboxyl group •Free fatty acids are found associated with carrier proteins such as ...
... • Limit protein (gluten) cross-linking in pastries (that’s why fats is called shortening) • Used to transfer heat – but chain length can burn (smoke point) Properties of fatty acids •Fatty acids are alkyl chains with carboxyl group •Free fatty acids are found associated with carrier proteins such as ...
Macromolecules Vocabulary and Concepts
... Glycerol + 3 fatty acids Ester Linkage joins fatty acids to the glycerol molecule ? What is the difference between saturated and unsaturated fats? o Phospholipid Glycerol, 2 fatty acids, 1 phosphate Amphipathic Cell membranes ? How does the degree of saturation of fatty acids in a cell mem ...
... Glycerol + 3 fatty acids Ester Linkage joins fatty acids to the glycerol molecule ? What is the difference between saturated and unsaturated fats? o Phospholipid Glycerol, 2 fatty acids, 1 phosphate Amphipathic Cell membranes ? How does the degree of saturation of fatty acids in a cell mem ...
word
... Describe basic TCA cycle: what goes in, what initial product, what is formed (GTP, NADH, FAD(2H), CO2 and how many of each; what final product. (Fig. 3) Describe other functions of the intermediates in the cycle – biosynthesis, breakdown of amino acids, fatty acids, etc; many fuels feed into Acetyl ...
... Describe basic TCA cycle: what goes in, what initial product, what is formed (GTP, NADH, FAD(2H), CO2 and how many of each; what final product. (Fig. 3) Describe other functions of the intermediates in the cycle – biosynthesis, breakdown of amino acids, fatty acids, etc; many fuels feed into Acetyl ...
CH5 Lipids - mcdowellscience
... • The major function of fats is energy storage. – A gram of fat stores more than twice as much energy as a gram of a polysaccharide. – Plants use starch for energy storage when mobility is not a concern but use oils when dispersal and packing is important, as in seeds. – Humans and other mammals st ...
... • The major function of fats is energy storage. – A gram of fat stores more than twice as much energy as a gram of a polysaccharide. – Plants use starch for energy storage when mobility is not a concern but use oils when dispersal and packing is important, as in seeds. – Humans and other mammals st ...
Macromolecules
... How does variation in molecular building blocks provide cells with a wider range of functions? ...
... How does variation in molecular building blocks provide cells with a wider range of functions? ...
Ketogenesis (Biosynthesis of ketone bodies)
... 1- 3-hydroxy butyrate is oxidized to acetoacetate by 3hydroxy butyrate dehydrogenase, producing NADH. 2- Acetoacetate receives a coenzyme A from succinyl CoA by the action of succinyl CoA - acetoacetate CoA transferase [succinyl CoA transferase] present in all tissues except the liver ? its absence ...
... 1- 3-hydroxy butyrate is oxidized to acetoacetate by 3hydroxy butyrate dehydrogenase, producing NADH. 2- Acetoacetate receives a coenzyme A from succinyl CoA by the action of succinyl CoA - acetoacetate CoA transferase [succinyl CoA transferase] present in all tissues except the liver ? its absence ...
Fatty Acids: The lipid building blocks: The common building block for
... (Hydrophobic) while the Carboxyl "head" is a little polar (Hydrophillic). Fatty acids can be saturated (meaning they have as many hydrogens bonded to their carbons as possible) or unsaturated (with one or more double bonds connecting their carbons, hence fewer hydrogens). A fat is a solid at room te ...
... (Hydrophobic) while the Carboxyl "head" is a little polar (Hydrophillic). Fatty acids can be saturated (meaning they have as many hydrogens bonded to their carbons as possible) or unsaturated (with one or more double bonds connecting their carbons, hence fewer hydrogens). A fat is a solid at room te ...
Biochemistry: Monomers and Polymers
... • Lipids have several different functions. They are: – broken down as a source of energy (triglycerides). – make up cell membranes (phospholipids) – used to make hormones (see structure below). ...
... • Lipids have several different functions. They are: – broken down as a source of energy (triglycerides). – make up cell membranes (phospholipids) – used to make hormones (see structure below). ...
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.