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Chapter 22 Nucleic Acids and Protein Synthesis
22.1 Components of Nucleic Acids 22.2 Nucleosides and Nucleotides 22.3 Primary Structure of Nucleic Acids 22.4 DNA Double Helix: A Secondary Structure 22.5 DNA Replication
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Nucleic Acids Nucleic acids are:
Molecules that store information for cellular growth and reproduction. Deoxyribonucleic acid (DNA) and ribonucleic acid (RNA). Large molecules consisting of long chains of monomers called nucleotides.
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Nitrogen Bases The nitrogen bases in nucleic acids consist of the:
Pyrimidines C, T, and U And purines A and G.
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Pentose Sugars The pentose (five-carbon) sugar: In RNA is ribose.
In DNA is deoxyribose. Has carbon atoms numbered with primes to distinguish them from the nitrogen bases.
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Nucleosides A nucleoside:
Has a nitrogen base linked by a glycosidic bond to C1’ of a ribose or deoxyribose. Is named by changing the the nitrogen base ending to -osine for purines and –idine for pyrimidines HO
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Nucleotides A nucleotide:
Is a nucleoside that forms a phosphate ester with the C5’ OH group of ribose or deoxyribose. Is named using the name of the nucleoside followed by 5’-monophosphate.
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Names of Nucleosides and Nucleotides
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Nucleosides and Nucleotides with Purines
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Nucleosides and Nucleotides with Pyrimidines
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AMP, ADP, and ATP Adding phosphate groups to AMP forms the diphosphate ADP and the triphosphate ATP.
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Primary Structure of Nucleic Acids
In the primary structure of nucleic acids: Nucleotides are joined by phosphodiester bonds. The 3’-OH group of the sugar in one nucleotide forms an ester bond to the phosphate group on the 5’-carbon of the sugar of the next nucleotide.
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Primary Structure of Nucleic Acids
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Structure of Nucleic Acids
A nucleic acid polymer: Has a free 5’-phosphate group at one end and a free 3’-OH group at the other end. Is read from the free 5’-end using the letters of the bases. This example reads 5’—A—C—G—T—3’.
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Example of RNA In RNA, A, C, G, and U are linked by 3’-5’ ester bonds between ribose and phosphate.
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Example of DNA In DNA, A, C, G, and T are linked by 3’-5’ ester bonds between deoxyribose and phosphate.
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DNA Double Helix In DNA:
There are two strands of nucleotides that wind together in a double helix. Two hydrogen bonds form between the complementary base pairs A-T. Three hydrogen bonds form between the complementary base pairs G-C.
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DNA Double Helix Structure
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DNA Replication DNA replication involves: Unwinding the DNA
Pairing the bases in each strand with new bases to form new complementary strands. Producing two new DNA strands that exactly duplicate the original DNA.
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Hydrolysis Energy Energy from the hydrolysis of each nucleoside triphosphate adding to the complementary strand is used to form the phosphodiester bond.
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Direction of Replication
During replication, helicase unwinds the parent DNA at several sections. At each open DNA section called a replication fork, DNA polymerase catalyzes the formation of 5’-3’ester bonds of the leading strand. The lagging strand, which grows in the 3’-5’ direction, is synthesized in short sections called Okazaki fragments. The Okazaki fragments are joined by DNA ligase to give a single 3’-5’ DNA strand.
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Direction of Replication
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