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Transcript
Chp: 12 Transcription & Translation Genes and Proteins Proteins function as Enzymes, build and repair cells, transport proteins Genes code for proteins (genetic code) Proteins are built from amino acids Each nucleotide is composed of 3 nitrogen bases representing an amino acid called a codon There are 64 different codons in the genetic code Genetic code was figured out by studying E. coli. Codons represent the same amino acids in all organisms. Transcription RNA differs from DNA in that it is only a single strand, contains a different sugar (ribose), and contains Uracil instead of Thymine In RNA A binds with U How to read the Amino Acid chart Transcription Enzymes make an RNA copy of a DNA strand. Results in the formation of a single stranded RNA molecule Messenger RNA (mRNA)- the RNA copy that carries the information from DNA out into the cytoplasm of the cells Carries info to the ribosomes so that proteins can be synthesized Ribosomal RNA (rRNA)- portion of the DNA code for the RNA that makes up ribosomes Helps to produce enzymes needed to bond amino acids together during protein synthesis Steps in transcription 1. DNA helicases (enzymes) unzip DNA 2. Free RNA nucleotides pair with the complementary DNA by using RNA polymerases 3. When the base pairing is complete, mRNA breaks away from the DNA strand, leaves the nucleus, and enters the cytoplasm, then ribosome 4. If the DNA strand is AGC TAG CGA the RNA strand would be UCG AUC GCU Translation The process of converting the information in a sequence of nitrogen bases in mRNA into a sequence of amino acids that make up a protein Occurs on the ribosomes Transfer RNA (tRNA)- brings amino acids to the ribosomes so they can be assembled into proteins Each mRNA codon (3 letters) joins w/the anticodons of tRNA End result of translation is the production of proteins Steps in translation 1. The 1st codon of the mRNA strand attaches to the ribosome. The tRNA approaches the ribosome, the anticodon from tRNA binds w/the codon on mRNA. 2. The first codon of mRNA is AUG (start codon for protein synthesis), mRNA slides along the ribosome to the next codon 3. A new tRNA carrying an amino acid will pair w/the mRNA codon 4. When the 1st and 2nd amino acids are in place an enzyme will join them. 5. A chain of amino acids is formed until the ribosome reaches the stop codon on the mRNA (UAA) 6. The bond that holds the amino acids together is called a Peptide Bond.
