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RNA & Protein Synthesis

RNA & Protein Synthesis. DNA Determines Protein Structure. The genetic information that is held in the molecules of DNA ultimately determines an organism’s traits. DNA achieves this control by determining the structure of proteins. DNA is the blueprint for protein synthesis.

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RNA & Protein Synthesis

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  1. RNA & Protein Synthesis

  2. DNA Determines Protein Structure • The genetic information that is held in the molecules of DNA ultimately determines an organism’s traits. • DNA achieves this control by determining the structure of proteins. • DNA is the blueprint for protein synthesis.

  3. All actions depend on proteins called enzymes. • Enzymes are critical for an organism’s function because they control the chemical reactions needed for life. • Within the structure of DNA is the information for the complete instructions for manufacturing all the proteins for an organism.

  4. Proteins fold into complex, three- dimensional shapes to become key cell structures and regulators of cell functions called enzymes. • In fact, enzymes control all the chemical reactions of an organism. • Thus, by encoding the instructions for making proteins, DNA controls cells.

  5. You learned earlier that proteins are polymers of amino acids. • The sequence of nucleotides in each gene contains information for assembling the string of amino acids that make up a single protein.

  6. RNA • RNA like DNA, is a nucleic acid. RNA structure differs from DNA structure in three ways. • First, RNA is single stranded—it looks like one-half of a zipper —whereas DNA is double stranded.

  7. The sugar in RNA is ribose; DNA’s sugar is deoxyribose. • Both DNA and RNA contain four nitrogenous bases, but rather than thymine, RNA contains a similar base called uracil (U). • Uracil forms a base pair with adenine in RNA, just as thymine does in DNA.

  8. There are three types of RNA that help build proteins. • Messenger RNA (mRNA), brings instructions from DNA in the nucleus to the cell’s factory floor, the cytoplasm. • On the factory floor, mRNA moves to the assembly line, a ribosome. • The ribosome, made of ribosomal RNA (rRNA), binds to the mRNA and uses the instructions to assemble the amino acids in the correct order.

  9. Transfer RNA (tRNA) is the supplier. Transfer RNA delivers amino acids to the ribosome to be assembled into a protein. http://www.youtube.com/watch?v=B6O6uRb1D38

  10. Transcription • In the nucleus, enzymes make an RNA copy of a portion of a DNA strand in a process called transcription. http://www.youtube.com/watch?v=erOP76_qLWA

  11. Transcription • The main difference between transcription and DNA replication is that transcription results in the formation of one single-stranded RNA molecule rather than a double-stranded DNA molecule. • The mRNA then leaves the nucleus and travels to the ribosome.

  12. Translation: From mRNA to Protein • The process of converting the information in a sequence of nitrogenous bases in mRNA into a sequence of amino acids in protein is known as translation. • Translation takes place at the ribosomes in the cytoplasm.

  13. Translation: From mRNA to Protein • In eukaryotic cells, mRNA is made in the nucleus and travels to the cytoplasm. • In cytoplasm, a ribosome attaches to the strand of mRNA like a clothespin clamped onto a clothesline.

  14. The role of transfer RNA • For proteins to be built, the 20 different amino acids dissolved in the cytoplasm must be brought to the ribosomes. • This is the role of transfer RNA.

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