1 / 45

Protein Synthesis: Transcription

Protein Synthesis: Transcription. Objectives. What is the Central Dogma of biology? What are the steps of transcription?. Recall. Why do we need proteins? Muscles, hair, nails cartilage, tendons, ligaments Enzymes Hemoglobin Antibodies. Central Dogma. What are proteins made of?.

aseyler
Download Presentation

Protein Synthesis: Transcription

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Protein Synthesis: Transcription

  2. Objectives What is the Central Dogma of biology? What are the steps of transcription?

  3. Recall • Why do we need proteins? • Muscles, hair, nails cartilage, tendons, ligaments • Enzymes • Hemoglobin • Antibodies

  4. Central Dogma

  5. What are proteins made of? • Amino Acids are the individual building blocks • Together to make one Protein • There are 20 types of amino acids, some • There are infinite combinations of amino acids • These long chains are called polypeptide chains

  6. Protein Synthesis • Protein synthesis is the process in which a cell makes protein based on the message contained within its DNA. • However: • DNA is only found in the nucleus • Proteins are only made outside the nucleus – in the cytoplasm.

  7. Protein Synthesis • How do the many different messages within the DNA molecule get to the many ribosomes outside the nucleus? • A molecular cousin of DNA – RNA – is used to carry these messages.

  8. Ribonucleic Acids - RNA • The job of RNA (ribonucleic acid) is to carry messages from the DNA (in the nucleus) to the ribosomes (in the cytoplasm).

  9. DNA Double-stranded Deoxyribose sugar group Nitrogen Base Pairs A-T, C-G RNA Single Stranded Ribose sugar group Nitrogen Base Pairs A-U, C-G Differences between RNA and DNA

  10. Types of RNA • mRNA: carries the message from the DNA to the cytoplasm • tRNA: transports amino acids to the mRNA to make the protein • rRNA: make up the ribosomes, which help make the protein

  11. Protein Synthesis Process • Occurs in TWO steps: • Transcription – the genetic information from a strand of DNA is copied into a strand of mRNA • Translation

  12. Steps of Transcription • 1. DNA unwinds • Enzymes help split apart base pairs to open the DNA double helix. • Transcription complex: RNA polymerase and proteins • Uses one strand as a template • 2. Bases line up • Free nucleotides in the cell find their complementary base pairs on the DNA template strand • What will be different??

  13. Steps of Transcription • 3. RNA formed • The growing RNA strand hands greely as it is transcribed. • DNA strand must close back up • 4. The completed RNA strand separates from the DNA template

  14. Steps of Transcription http://www.stolaf.edu/people/giannini/flashanimat/molgenetics/transcription.swf

  15. Try It!What will the RNA Strand be? TACGCATGGCATGCAA

  16. Try It!What will the RNA Strand be? TACGCATGGCATGCA AUGCGUACCGUACGU

  17. Think, Pair, Share 1. What is the purpose of Protein Synthesis? 2. List 2 differences between DNA and RNA 3. Where in the cell does the process of transcription occur? 4. What enzyme completes the process of transcription? 5. What molecule is produced from transcription? 6. Where does this molecule go after it is made?

  18. Introns and Exons • The DNA that is copied contains both… • Introns: sequences of nucleotides not involved in coding for proteins. AND • Exons: DNA sequences that code for proteins

  19. Objectives By the end of the day today you should: • Know the steps of translation • Identify the differences in transcription and translation

  20. Translation • Now that the mRNA has been made, the next step is for its’ message to be made into a protein • Translation: the mRNA, with the help of the ribosome, forms a chain of amino acids (eventually forming a protein) based on the information contained on the mRNA. • Occurs in the cytoplasm on the ribosome

  21. Proteins • Proteins are made of amino acids • 20 different amino acids total • Adult humans can only make 12 out of the 24 amino acids • How do we attain the other 8 amino acids?

  22. Translation • One Problem • There are 20 amino acids • There are 4 RNA bases • How can just four nucleotides—A, U, C, G—be translated into so many different amino acids?

  23. Language of RNA • Just like the alphabet, 26 letters can make more than 26 words • Letters of RNA are put together in different ways. • Codon: three nucleotide sequence which codes for the insertion of a unique amino acid • Language of the genetic code • Multiple codons for the same amino acid • Anticodon: on one end of tRNAcomplementary to a specific mRNA codon • tRNA molecules carry different amino acids

  24. Genetic Code • Start Codon – signals the start of translation (AUG- Methionine) • Stop codon – signal the end of the amino acid chain (3 total)

  25. Translation • Before translation begins, a ribosome will be assembled from two ribosomal subunits (large and small). The ribosome contains three attachment sites for tRNA molecules. • On the large subunit: E site, A site and P site • On the small subunit: mRNA joins

  26. Step 1: mRNA attaches to the small ribosomal unit. The large subunit attaches to the small subunit. The first codon is aligned at the P site.

  27. Step 2: A tRNA carrying the amino acid methionine attaches to the start codon, AUG, on the mRNA. This happens at the P site on the large ribosome

  28. Step 3: Attachment of the first amino acid carrying tRNA to A binding site.

  29. Step 4: The ribosome forms a peptide bond between the two amino acids and breaks the bond between the first tRNA and its amino acid.

  30. Step 5: The ribosome pulls the mRNA the length of one codon. The tRNA and polypeptide chain move to the P site. The first tRNA is shifted to the E site.

  31. Step 6: tRNA is ejected from the E binding site and returns to the cytoplasm. The A site is now open for another tRNA.

  32. Step 7: This process continues to translate the mRNA strand until it reaches a stop codon. The protein is released and the large and small ribosome disassemble.

  33. st. olaf transcription animation • whfreeman animation • http://www.stolaf.edu/people/giannini/flashanimat/molgenetics/translation.swf

  34. Mutations

  35. Objectives What are different types of mutations that can occur during protein synthesis?

  36. Mutations • Mutations are changes in the DNA sequence • DNA damage from environmental agents: • UV Light • Chemicals • Mistakes that occur when DNA is copied before cell division • Point Mutation: a change in a single base pair of a gene

  37. No Mutation: • DNA Sequence: TACAAG • mRNA Sequence: AUGUUC • Amino Acid Chain: Met – Phen • Point Mutation: • DNA Sequence: TACATG • mRNA Sequence: AUGUAC • Amino Acid Chain: Met – Tyr

  38. Other Types of Mutations • Substitution • change a codon to one that encodes the same amino acid and causes no change in the protein produced. • change a codon to one that encodes a different amino acid and cause a small change in the protein produced

  39. Other Types of Mutations • Insertions • mutations in which extra base pairs are inserted into a new place in the DNA

  40. Other Types of Mutations • Deletion • mutations in which a section of DNA is lost, or deleted.

More Related