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What we did this week so far: 1. 2. 3. 4. DNA vs. RNA Transcription The genetic code Translation (Protein Synthesis) DNA vs. RNA • What is RNA? ▫ Ribonucleic Acid: a copy of DNA that goes out to the cytoplasm to tell the cell what to do in order to stay alive! • How many strands does DNA have? ▫2 • How many strands does RNA have? ▫1 DNA vs. RNA • DNA – • Deoxyribonucleic acid • RNA – • Ribonucleic acid DNA vs. RNA • DNA has a deoxyribose sugar… but RNA has a… • The 4 bases for RNA are: ▫ RIBOSE SUGAR!!! • The 4 bases for DNA are: ▫ ▫ ▫ ▫ *Thymine (T) Adenine (A) Guanine (G) Cytosine (C) ▫ ▫ ▫ ▫ *Uracil (U) Adenine (A) Guanine (G) Cytosine (C) Transcription • are segments of DNA that are templates to produce RNA molecules ▫ For example: ATG (DNA) UAC (RNA) • Location: ▫ in the nucleus, because it can be destroyed in the cytoplasm! Transcription Transcription • RNA is made from 1 gene in DNA • mRNA or Messenger RNA: ▫ sends a message from DNA to the cytoplasm that codes for a protein • RNA polymerase: joins the bases together, unzips the strand, and only begins at the promoter region • It stops when a new RNA molecule is completed Promoter • a DNA segment that allows a gene to be transcribed • Helps RNA polymerase where to find where a gene starts. • An operator is a DNA segment that turns a gene “on or off” • Interacts with proteins to speed up or block transcription The RNA editors • Exons ▫ RNA sequences in the primary transcript that are found in the mRNA • Introns ▫ RNA sequences between exons that are removed by splicing Introns and Exons The Genetic Code • Code that matches codons in mRNA to amino acids on the tRNA • Polypeptides: long chain of amino acids connected to each other • Start codon? ▫ AUG - methionine • Stop codons? ▫ UAA, UAG, and UGA Translation • Process that coverts or “translates” an mRNA message into a polypeptide (amino acid) • One or more polypeptides make up a protein • The process consists of 4 steps…3 of which repeats… Translation process… • 1) mRNA leaves the nucleus cytoplasm • 2) mRNA attaches to the ribosome where the mRNA codon pairs with the tRNA anticodon ▫ “AUG” is the start codon! Translation process… Translation process… • 3) the ribosome forms a peptide bond between the first two amino acids and the tRNA detaches Translation process… • 4) the ribosome pulls the mRNA strand and then everything is shifted to the next 3 codons ▫ tRNA leaves and returns to the cytoplasm to be charged with another amino acid Translation ribosome Polypeptide chain tRNA molecule mRNA codon anticodon What it looks like! nucleus cytoplasm
