DNA: The Genetic Material Chapter 9 DNA: The Genetic Material
Identifying The Genetic Material What is your genetic information made of? Proteins or DNA Griffith’s work Discovery of “Transformation” or a change in the genes by taking in foreign information Avery’s work Demonstrated that DNA contains the genetic information Hershey and Chase’s work Used bacteria to prove DNA is where the genetic information is, not proteins.
The structure of DNA Watson and Crick receive credit for creating the first DNA model Double helix: two strands twisted around each other, like a winding stair case. Each strand is linked nucleotides which is made up of 3 parts. Phosphate group, five carbon sugar, and a nitrogen base Five carbon sugar is called deoxyribose (hence DNA= deoxyribonucleic acid) Nitrogen bases: Purines: 2 ringed molecules; Adenine and Guanine Pyrimidines: single ringed molecules; thymine and cytosine
Used all of the above in development of their model Chargaff’s observations: The amount of adenine always equals the amount of Thymine The amount of guanine always equals the amount of Cytosine Wilkins and Franklin Used X-ray diffraction to study the structure of DNA Successfully imaged a DNA Watson and Crick (again) Used all of the above in development of their model Determined base-pairing rules: Purine always matches to a pyrimidine Adenine (A) pairs with Thymine (T) via 2 hydrogen bonds Cytosine (C) pairs with Guanine (G) via 3 hydrogen bonds Termed complementary base pairs
So therefore, complimentary base pair rules: G- C-
DNA Replication: the process of making a “new” strand of DNA (occurs during the S phase) Steps: DNA unwinds (DNA helicases are the enzymes responsible for this), other enzymes hold them apart, at replication forks. DNA polymerases attach at replication forks adding new nitrogen bases to the exposed base Upon completion, DNA polymerase detaches, two new strands are present, each being part new and part of the old strand.
Genes to Protein (this is found in chapter 10) RNA (ribonucleic Acid) single strand, made from the genetic information found on DNA NO THYMINE, instead thymine is replaced with Uracil (which is a pyrimidine) Two main stages in creating proteins, transcription and translation. Transcription: info is transferred from DNA to an RNA. Steps: RNA polymerase binds to a specific spot on the DNA (the “start” spot) Unwinds a specific area of DNA RNA polymerase adds and links complimentary RNA nucleotides as it “reads” the DNA Continues until it reaches the “stop” spot New strand that is created is modified and becomes mRNA (“messenger” RNA)
The Genetic Code (the three letter words) Codons: are three letter words, sequences, that “code” for information on the RNA All are listed below, and no you don’t have to memorize it. I will give to you. BUT you should be able to read it.
Translation: the synthesis of the proteins. Steps: mRNA leaves nucleus and travels (in the cytoplasm) to a Ribosome There it joins the ribosome, and it starts to read the mRNA In the ribosome, reading begins with “start codon” at the P site Transfers to the A site and continues tRNA (or transfer RNA) has anti codons (or opposite of the codon found on the mRNA) which as a specific amino acid attached to it. The amino acids are joined together, forming the protein.