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L IPIDS © 2015 Pearson Education, Inc.. 3.8 Fats are lipids that are mostly energy- storage molecules Lipids are water insoluble (hydrophobic, or water-

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Presentation on theme: "L IPIDS © 2015 Pearson Education, Inc.. 3.8 Fats are lipids that are mostly energy- storage molecules Lipids are water insoluble (hydrophobic, or water-"— Presentation transcript:

1 L IPIDS © 2015 Pearson Education, Inc.

2 3.8 Fats are lipids that are mostly energy- storage molecules Lipids are water insoluble (hydrophobic, or water- fearing), are important in long-term energy storage, consist mainly of carbon and hydrogen atoms linked by nonpolar covalent bonds. © 2015 Pearson Education, Inc.

3 3.8 Fats are lipids that are mostly energy- storage molecules We will consider three types of lipids: 1.fats 2.phospholipids 3.steroids A fat is a large lipid made from two kinds of smaller monomers: glycerol and fatty acids. © 2015 Pearson Education, Inc.

4 3.8 Fats are lipids that are mostly energy- storage molecules A fatty acid can link to glycerol by a dehydration reaction. A fat contains one glycerol linked to three fatty acids. © 2015 Pearson Education, Inc.

5 3.8 Fats are lipids that are mostly energy- storage molecules Some fatty acids contain one or more double bonds, forming unsaturated fatty acids. These double bonds cause kinks or bends in the carbon chain, preventing them from packing together tightly and solidifying at room temperature. Fats with the maximum number of hydrogens are called saturated fatty acids. © 2015 Pearson Education, Inc.

6 3.10 Phospholipids and steroids are important lipids with a variety of functions Phospholipids are the major component of all cell membranes. © 2015 Pearson Education, Inc.

7 3.10 Phospholipids and steroids are important lipids with a variety of functions Steroids are lipids in which the carbon skeleton contains four fused rings. Cholesterol is a common component in animal cell membranes and a starting material for making steroids, including sex hormones. © 2015 Pearson Education, Inc.

8 P ROTEINS © 2015 Pearson Education, Inc.

9 3.12 Proteins have a wide range of functions and structures Proteins are involved in nearly every dynamic function in your body and very diverse, with tens of thousands of different proteins, each with a specific structure and function, in the human body. Proteins are composed of differing arrangements of a common set of just 20 amino acid monomers. © 2015 Pearson Education, Inc.

10 3.12 Proteins have a wide range of functions and structures Probably the most important role for proteins is as enzymes, proteins that serve as catalysts and regulate virtually all chemical reactions within cells. © 2015 Pearson Education, Inc.

11 3.12 Proteins have a wide range of functions and structures The functions of different types of proteins depend on their individual shapes. A polypeptide chain contains hundreds or thousands of amino acids linked by peptide bonds. The amino acid sequence causes the polypeptide to assume a particular shape. © 2015 Pearson Education, Inc.

12 3.12 Proteins have a wide range of functions and structures Other types of proteins include transport proteins embedded in cell membranes, which move sugar molecules and other nutrients into your cells, defensive proteins, such as antibodies of the immune system, signal proteins such as many hormones and other chemical messengers that help coordinate body activities, receptor proteins, built into cell membranes, which receive and transmit signals into your cells, contractile proteins found within muscle cells, structural proteins such as collagen, which form the long, strong fibers of connective tissues, and storage proteins, which serve as a source of amino acids for developing embryos in eggs and seeds. © 2015 Pearson Education, Inc.

13 3.12 Proteins have a wide range of functions and structures If a protein’s shape is altered, it can no longer function. In the process of denaturation, a protein unravels, loses its specific shape, and loses its function. Proteins can be denatured by changes in salt concentration, changes in pH, or high heat. © 2015 Pearson Education, Inc.

14 3.13 Proteins are made from amino acids linked by peptide bonds Amino acids all have an amino group and a carboxyl group (which makes it an acid). An R group consist of polar/non-polar and acidic/basic functional groups that lead to different protein structures. © 2015 Pearson Education, Inc.

15 3.13 Proteins are made from amino acids linked by peptide bonds Amino acids are classified as either hydrophobic or hydrophilic. © 2015 Pearson Education, Inc.

16 3.13 Proteins are made from amino acids linked by peptide bonds Amino acid monomers are linked together in a dehydration reaction, joining the carboxyl group of one amino acid to the amino group of the next amino acid, and creating a peptide bond. A chain of amino acids called a polypeptide. © 2015 Pearson Education, Inc.

17 3.14 VISUALIZING THE CONCEPT: A protein’s functional shape results from four levels of structure A protein can have four levels of structure: 1.primary structure, 2.secondary structure, 3.tertiary structure, and 4.quaternary structure. © 2015 Pearson Education, Inc.

18 PRIMARY STRUCTURE: peptide bonding between amino acids

19 SECONDARY STRUCTURE: hydrogen bonding interactions

20 TERTIARY STUCTURE: interactions between R groups

21 QUATERNARY STRUCTURE: functional protein

22 © 2015 Pearson Education, Inc. Amino acids + H 3 N Amino end Peptide bonds connect amino acids. Alpha helix Secondary structures are maintained by hydrogen bonds between atoms of the backbone. Beta pleated sheet Tertiary structure is stabilized by interactions between R groups. TERTIARY STRUCTURE PRIMARY STRUCTURE Two types of SECONDARY STRUCTURES Polypeptides are associated into a functional protein. QUATERNARY STRUCTURE

23 N UCLEIC A CIDS © 2015 Pearson Education, Inc.

24 3.15 DNA and RNA are the two types of nucleic acids Genes consist of DNA (deoxyribonucleic acid), a type of nucleic acid. DNA is inherited from an organism’s parents. DNA provides directions for its own replication. DNA programs a cell’s activities by directing the synthesis of proteins. © 2015 Pearson Education, Inc.

25 3.15 DNA and RNA are the two types of nucleic acids DNA does not build proteins directly. DNA works through an intermediary, RNA (ribonucleic acid). © 2015 Pearson Education, Inc.

26 3.16 Nucleic acids are polymers of nucleotides DNA and RNA are composed of monomers called nucleotides. Nucleotides have three parts: 1.a five-carbon sugar called ribose in RNA and deoxyribose in DNA 2.a phosphate group 3.a nitrogenous base © 2015 Pearson Education, Inc.

27 3.16 Nucleic acids are polymers of nucleotides A nucleic acid polymer, a polynucleotide, forms from the nucleotide monomers when the phosphate of one nucleotide bonds to the sugar of the next nucleotide by dehydration reactions. This produces a repeating sugar-phosphate backbone with protruding nitrogenous bases. © 2015 Pearson Education, Inc.

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