Adv Biology: DNA and RNA Study Guide

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Adv Biology: DNA and RNA Study Guide Chapter 12 Vocabulary -Notes What experiments led up to the discovery of DNA being the hereditary material? o The discovery that DNA is the genetic code involved many experiments. Experiments by Griffith, Avery, Hershey and Chase, Watson and Crick. o Proteins thought to be genetic material before discovery. Know what the following scientists did: Griffith, Avery, Hershey and Chase, Watson and Crick, and Rosalind Franklin

Know the scientists and what they did to determine that DNA was the heredity molecule and the scientists that discovered the structure of DNA.

Bacteriophage used in Griffith s experiment Nucleotides: the different kinds for DNA and RNA o There are 4 different kinds of nucleotides the only difference is the type of nitrogenous base: thymine, adenine, cytosine, and guanine. In RNA there is Uracil instead of thymine. What are the base-pairing rules? o DNA Adenine pairs with Thymine Guanine pairs with Cytosine o RNA no Thymine, but Uracil Adenine pairs with Uracil Guanine pairs with Cytosine Hydrogen bonding: double and triple bonds o Adenine pairs with Thymine forming a double hydrogen bond o Cytosine pairs with Guanine forming a triple hydrogen bond o What is the structure of DNA? o DNA 3 parts Phosphate group Sugar (dexoyribose) Nitrogenous bases (A,T, G, and C) How does the structure of DNA enable it to reproduce itself accurately? o Each strand acts as a template for building a new identical strand of DNA with the help of many enzymes. Semi-conservative only half of the original DNA molecule is conserved in each new strand. In DNA replication there are two identical copies (strands) of DNA, Each new molecule consists of a new and original strand. How does replication occur? What are the steps? Main Idea DNA replicated by making a strand that is complementary to each original strand.

Helicase and ligase o Helicase unwinds the DNA Double Helix and breaks the hydrogen bonds between each nitrogenous base this splitting the molecule into two. The splitting region is called the replication fork (origin of replication). Since DNA is so big, multiple origins of replication (helicase) are formed to speed up replication. o Ligase an enzyme that bonds or glues segments (Okazaki fragments) together Okazaki fragments In DNA replication, one strand, the leading strand, is made continuosly, the other is built in fragments called Okazaki fragments, which are bonded by ligase. DNA orientation (5 and 3 ) DNA polymerase always moves along the original DNA in the 3 to 5 direction.

DNA replication DNA polymerase In DNA replication, 2 enzymes of DNA polymerase attatch to each strand and move along the molecule, base by base, adding the appropriate nitrogenous bases each time (A w/t and C w/ G). Prokaryotic replication - RNA polymerase transcription requires this enzyme, which is similar to DNA polymerase. During transcription, RNA polymerase binds to DNA and separates the DNA strands. RNA polymerase then uses one strand of DNA as a template from which nucleotides are assembled into a strand of RNA. Central Dogma Transcription Translation o DNA RNA Protein Replication Introns and exons o Introns the DNA of eukaryotic cells contain these gene sequences of nucleotides, which are not involved in the coding for proteins. o Exons the DNA sequence that code for proteins, because they are expressed in proteins. What are the differences between DNA and RNA? 1. RNA has ribose, while DNA has Dexoyribose. 2. RNA has Uracil, while DNA has Thymine. 3. RNA is a single stranded nucleic acid, while DNA DNA is double stranded.

What are the steps involved in protein synthesis? (See Below) What are the different kinds of mutations? o Gene mutations changes in single genes: Point mutations changes that involve one or few nucleotides because they occur at a single point in the DNA.

Substitutions one base changed to another bases in the DNA sequences Frameshift mutations shift the reading frame of the DNA. They can then change every amino acid that follows the point of the muatuon and change the protein that is produced. Insertions base inserted in the DNA seqence. Deletions - base removed from the DNA seqence. o Chromosomal in whole chromosomes: Translocation part of chromosome breaks off and attaches to another chromosome. Duplications produces an extra copy of part of a chromosone. Deletion loss of a part of a chromosome. Inversion reverses the direction of part of a chromosome. What are the effect of different kinds of mutations on cells and organisms? o Substitutions usually affect one amino acid, while insertions and deletions have much more drastic effects b/c They could affect more than one amino acid. Stop codon is still correct in substitution. Maybe the same amino acid might result

Double helix the structure of DNA, a twisted ladder shape, formed by two strands of nucleotides twisted around each other. Purines and Pyrimidines Because a pyrimidine (Single ring) pairs with a purine (double ring), the helix has a uniform width. (T w/ A and C w/ G) o Purine double ring o Pyrimide sing ring Structure of a nucleotide

RNA: o Messenger (mrna) contains the instructions for assembling amino acids into proteins. It is the copy of DNA that goes to the ribosome. o Ribosomal (rrna) makes up ribosomes. o Transfer (trna) transfers each amino acid to the ribosomes during the construction of a protein. Transcription and translation o Transcription the process by which RNA is made from DNA. It occurs in the nucleus. It requires RNA polymerase. Example TAC becomes TUG. o Translation the decoding of an mrna message into a polypeptide/protein. It takes place in the ribosome. mrna has to attach to the ribosome which is located in the cytoplasm of the cell. Translation happens when the mrna molecule attached to the ribosome, as each of the codons is read the proper amino acid is brought to the ribosome by trna. Example AUG: Amino Acid Sequence Met, trna anticodon UAC. Codons and anticodons o Codon the genetic code is read three letters at a time. Each three-letter combination called a codon. Each codon specifies a single amino acid that is to be added to the polypeptide. o Anticodon trna has three unpaired bases called anticodons in additon to one amino acid. Anticodons are complementary to one mrna codon. Ex. Codon: AUG Anticodon: UAC Mutagens substances which cause mutations such as chemicals and radiation mutations. DNA RNA Protein Central Dogma

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