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DNA and Protein Synthesis

DNA and Protein Synthesis. 1)DNA is capable of replicating itself. Every time a cell divides, each DNA strand makes an exact copy of itself. 2)DNA directs the production of proteins in the cell. DNA contains the instructions on how to make proteins. DNA Does 2 Important Things in a Cell:.

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DNA and Protein Synthesis

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  1. DNA and Protein Synthesis

  2. 1)DNA is capable of replicating itself. Every time a cell divides, each DNA strand makes an exact copy of itself. • 2)DNA directs the production of proteins in the cell. DNA contains the instructions on how to make proteins. DNA Does 2 Important Things in a Cell:

  3. Proteins are the workhorses of the cell. They build all of the important structures and carry on most of the important cellular functions. • What types of proteins are made determine everything about the organism and how it functions. The Importance of Proteins

  4. Proteins are large polymers made of long chains of amino acids. • Amino Acids bind together with peptide bonds. • A protein’s final shape determines its function. This shape is determined by its amino acid sequence. Review of Protein Structure

  5. Proteins are made by ribosomes. • Amino acids are put together in a long chain which then folds and bends to determine the final shape. • Remember: Shape equals function! • So, it is VERY important that the amino acid sequence is correct! Protein Structure

  6. The DNA in a cell determines the sequence of amino acids in a protein. • The DNA sequence is a code that determines which amino acid is first, which is second, etc. DNA determines protein: What determines the correct amino acid sequence in a protein?

  7. The DNA in a cell’s nucleus determines the sequence of amino acids that are put together at the ribosome. • Yet, the DNA never leaves the nucleus! • How does the DNA do this? DNA leads from afar…..

  8. Chromosomes to Genes

  9. DNA is able to “tell” the ribosome how to build the protein by sending a messenger…. • This comes in the form of an RNA molecule. • Therefore, this is called messenger RNA, or mRNA. Messenger RNA (mRNA)

  10. Protein Synthesis has 2 main processes: • 1) Transcription (“to write”) –making a mRNA molecule • 2) Translation – (“to read”) making the protein, using the mRNA as a guide. • Together, these are called Gene Expression From DNA to Protein

  11. Three types of RNA are used in protein building • mRNA=messenger RNA (made in nucleus—carries the genetic code) • tRNA=transfer RNA (brings amino acids to the ribosome) • rRNA=ribosomal RNA (what ribosomes are made of) Ribonucleic Acid RNA: A Major Player

  12. RNA differs from DNA in 3 ways: • RNA is single-stranded; DNA is double-stranded • RNA has Ribose; DNA has Deoxyribose • RNA has Uracil; DNA has Thymine Uracil is found in RNA only RNA Vs. DNA

  13. RNA Vs. DNA

  14. During transcription, the information in a particular segment of DNA (a gene) is copied into mRNA • Step 1: • RNA polymerase binds to a specific sequence of bases on the DNA called the Promoter. This is the start code. Transcription: Reading the Gene

  15. Step 2: Helicases unwind the DNA strand in front of the promoter region. • Step 3: RNA polymerase adds and links complementary RNA bases on one side of the DNA, following base pairing rules. (Exception: Adenine in DNA bonds to Uracil) Transcription: Reading the Gene

  16. The RNA polymerase eventually reaches a “stop” location in the DNA. • This stop signal is a sequence of bases that marks the end of each gene. • The result is a single strand of RNA Transcription

  17. To make a correct protein, the amino acids must be put in the proper sequence. • Each segment of 3 nucleotides in DNA codes for 1 amino acid. • Each triplet of DNA bases makes a triplet of mRNA bases—called a Codon. The Genetic Code

  18. Codons of mRNA What amino acid comes from the code AUC? GGG? CGA?

  19. Translation is the process of converting the “language” of RNA into the “language” of proteins (amino acid sequences.) • Translation involves mRNA, tRNA, and rRNA. Translation: RNA to Proteins

  20. Each tRNA is folded into a compact shape. • There are 2 important places on each tRNA: • Terminal end—has 3 bases which match up to mRNA. This is the Anticodon. • Amino Acid attachment site tRNA: Transfer RNA

  21. After leaving the nucleus, the mRNA joins with a ribosome and tRNA. • The mRNA start codon, AUG, signals the beginning of a protein. • The tRNA carrying Methionine binds to the start codon. Translation, Step 1: Start Codon

  22. A new tRNA arrives and binds to the next codon on the mRNA. • A peptide bond forms between the first amino acid and the second amino acid. • The first tRNA detaches and leaves its amino acid behind. Translation Step 2:A new tRNA arrives.

  23. The ribosome moves one codon down the mRNA strand. • Because the anticodon (on the tRNA) is attached to the codon, they move together as a unit. • The amino acid chain grows as each new one binds. The Ribosome Moves down the mRNA

  24. The process ends when a stop codon is reached. • The amino acid chain is released, the ribosome complex and mRNA strand fall apart. Translation, Step 3: Releasing the protein

  25. http://bioweb.uwlax.edu/genweb/molecular/theory/translation/trans1.swfhttp://bioweb.uwlax.edu/genweb/molecular/theory/translation/trans1.swf • http://www.youtube.com/watch?v=983lhh20rGY&feature=related • http://www.youtube.com/watch?NR=1&feature=endscreen&v=Ikq9AcBcohA Protein Synthesis Animations

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