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Download 11/01 Molecular genetic analysis and biotechnology
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19.1 Techniques of Molecular Genetics Have Revolutionized Biology • Recombinant DNA Technology—Genetic Engineering—Biotechnology: • Locating, isolating, altering, and studying DNA segments • Biotechnology: • Using recombinant DNA technology to develop new biological products 19.2 Molecular Techniques Are Used to Isolate, Recombine, and Amplify Genes Cutting and Joining DNA Fragments • Restriction enzymes: recognizing and cutting DNA at specific nucleotide sequences – Palindromic sequences – Immune system of bacteria • Type II restriction enzyme: most useful enzyme • By adding methyl groups to the recognition sequence to protect itself from being digested by its own enzyme in bacteria Cutting and Joining DNA Fragments • Cohesive ends: fragments with short, singlestranded overhanging ends • Blunt ends: even-length ends from both single strands Viewing DNA Fragments • Gel electrophoresis-separation of DNA fragments by size through a gel medium • Smaller fragments migrate faster Viewing DNA Fragments • Locating DNA fragments with Southern blotting and probes • Probe: DNA or RNA with a base sequence complementary to a sequence in the gene of interest • Is usually labeled for easy detection • Radioactive P32 • Fluorescent tag Cloning Genes • Gene cloning: amplifying a specific piece of DNA via a bacteria cell • Cloning vector: a replicating DNA molecule attached with a foreign DNA fragment to be introduced into a cell – Has features that make it easier to insert DNA and select for presence of vector in cell. • Origin of replication • Antibiotic resistance gene • Cloning site Cloning Genes • Plasmid vectors • Linkers: synthetic DNA fragments containing restriction sites • Transformation of host cells with plasmids • Selectable markers are used to confirm whether the cells have been transformed or not. Amplifying DNA fragments with the polymerase chain reaction (PCR) • Taq polymerase: stable DNA polymerase at high temperature • Researcher designs specific oligonucleotide primers that serve as the ends of the amplified fragment • Very similar to replication 19.3 Molecular Techniques Can Be Used to Find Genes of Interest Gene Libraries • Gene library: a collection of clones containing all the DNA fragments from one source • Creating a genomic DNA library • cDNA library: consisting only of those DNA sequences that are transcribed into mRNA • Creating a cDNA library Gene Libraries • Screening DNA libraries • Plating clones of the library • Probing plated colonies or plaques In Situ Hybridization • DNA probes used to determine the chromosomal location and to visualize a gene while it is in a cell • May also be used to detect localization of mRNA expression in multicellular organisms. • Positional Cloning • Isolating genes on the basis of their position on a genetic map 19.4 DNA Sequences Can Be Determined and Analyzed • Restriction Fragment Length Polymorphisms (RFLPs) • Some DNA fragments have different restriction sites due to mutation for the same restriction enzyme, which causes polymorphisms within a population. DNA Sequencing • Sanger’s dideoxy-sequencing method • Dideoxyribonucleoside triphosphate (ddNTP) lacks a 3′-oh group, which terminates DNA synthesis. DNA Fingerprinting (DNA Profiling) • Microsatellites: variable number of copies of repeat sequences possessed by many organisms, which can be amplified by PCR Combined with RFLP analysis to form more thorough fingerprint 19.5 Molecular Techniques Are Increasingly Used to Analyze Gene Function • Forward genetics: – Begins with a phenotype to a gene that encodes the phenotype • Reverse genetics: – Begins with a gene of unknown function, first inducing mutations and then checking the effect of the mutation on the phenotype 19.5 Molecular Techniques Are Increasingly Used to Analyze Gene Function • Site-directed mutagenesis • Reverse genetics: creating mutation in particular DNA sequences, and then studying the effects of these mutation on the organisms 19.5 Molecular Techniques Are Increasingly Used to Analyze Gene Function • Silencing genes with RNAi • Using RNAi for the treatment of human disease: lowering ApoB with RNAi • Model Genetic Organism • The mouse, Mus musculus 19.6 Biotechnology Harnesses the Power of Molecular Genetics • Pharmaceuticals • Human insulin • Specialized bacteria • Agricultural products • Oligo nucleotide drugs • Genetic testing • Gene therapy • Direct transfer of genes into humans to treat disease