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CHAPTER 1 INTRODUCTION TO RECOMBINANT DNA TECHNOLOGY MISS NUR SHALENA SOFIAN 1-1 A Brief History • What is molecular biology? – The attempt to understand biological phenomena in molecular terms – The study of gene structure and function at the molecular level • Molecular biology is a melding of aspects of genetics and biochemistry • Aims to provide understanding between various systems of a cell: – Interrelation between DNA, RNA and protein 1-2 – Regulations of these interactions Biological Science in Relation to Molecular Scale • Combinations of techniques from genetics, biochemistry and biophysics • Biochemistry – study of chemical substances and their vital processes in living organisms • Genetics – study of the effect of genetic differences in organisms • Molecular biology – study of molecular emphasizing the process of replication, transcription and translation of genetic material 1-3 1.1 Transmission Genetics • Transmission genetics deals with the transmission of traits from parental organisms to their offspring • Chemical composition of genes not known until 1944 – Gene – Phenotype 1-4 Mendel’s Laws of Inheritance • A gene can exist in different forms called alleles • One allele can be dominant over the other, recessive, allele • The first filial generation (F1) contains offspring of the original parents • If each parent carries two copies of a gene, the parents are diploid for that gene 1-5 Mendel’s Gene Transmission • Heterozygotes have one copy of each allele • Parents in 1st mating are homozygotes, having 2 copies of one allele • Sex cells, or gametes, are haploid, containing only 1 copy of each gene • Heterozygotes produce gametes having either allele • Homozygotes produce gametes having only one allele 1-6 The Chromosome Theory of Inheritance • Chromosomes are discrete physical entities that carry the genes • Thomas Hunt Morgan used the fruit fly, Drosophila melanogaster, to study genetics • Autosomes occur in pairs in a given individual • Sex chromosomes are identified as X and Y – Female has two X chromosomes – Male has one X and one Y chromosome 1-7 Hypothetical Chromosomes • Every gene has its place, or locus, on a chromosome • Genotype is the combination of alleles found in an organism • Phenotype is the visible expression of the genotype – Wild-type phenotype is the most common or generally accepted standard – Mutant alleles are usually recessive – Example? 1-8 1-9 Genetic Recombination and Mapping • In early experiments genes on separate chromosomes behaved independently • Genes on the same chromosome behaved as if they were linked • This genetic linkage is not absolute • Offspring show new combinations of alleles not seen in the parents when recombination occurs 1-10 Recombination • During meiosis, gamete formation, crossing over can occur resulting in the exchange of genes between the two homologous chromosomes • The result of the crossing-over event produces a new combination of alleles • This process is called recombination 1-11 Genetic Mapping • Morgan proposed that the farther apart two genes are on a chromosome, the more likely they are to recombine • If two loci recombine with a frequency of 1%, they are said to be separated by a map distance of one centimorgan (named for Morgan) • This mapping observation applies both to bacteria and to eukaryotes 1-12 Physical Evidence for Recombination • Microscopic examination of maize chromosome provided direct physical observation of recombination using easily identifiable features of one chromosome • Similar observations were made in Drosophila – example? • Recombination was detected both physically and genetically in both animals and plants 1-13 1.2 Molecular Genetics • The Discovery of DNA: The general structure of nucleic acids were found by the end of the 19th century – Long polymers or chains of nucleotides – Nucleotides are linked by sugars through phosphate groups • Composition of Genes: In 1944, Avery and his colleagues demonstrated that genes are composed of nucleic acids 1-14 The Relationship between Genes and Proteins • Experiments have shown that a defective gene gives a defective or absent enzyme • These lead to the proposal that one gene is responsible for making one enzyme • Proposal not quite correct 1. Enzyme may have several polypeptides, each gene codes for only one polypeptide 2. Many genes code for non-enzyme proteins 3. End products of some genes are not polypeptides, but RNAs 1-15 Activities of Genes Genes perform three major roles • Replicated faithfully • Direct the production of RNAs and proteins • Accumulate mutations thereby allowing evolution 1-16 Replication • Franklin and Wilkins produced x-ray diffraction data on DNA, Watson and Crick proposed that DNA is double helix – Two DNA strands wound around each other – Strands are complementary – know the sequence of one, automatically know the sequence of the other • Semiconservative replication keeps one strand of the parental double helix conserved in each of the daughter double helices 1-17 Genes Direct the Production of Polypeptides • Gene expression is the process by which a gene product is made • Two steps are required – Transcription: copy of DNA is transcribed into RNA – Translation: the RNA copy is read or translated to assemble a protein – Codon: a sequence of 3 nucleic acid bases that stand for one amino acid 1-18 Genes Accumulate Mutations Genes change in several ways • Change one base to another • Deletions of one base up to a large segment • Insertions of one base up to a large segment • As the change is more drastic, it is more likely that the gene or genes involved will be totally inactivated 1-19