1 / 16

Chapter 13

Chapter 13. DNA, RNA, and Proteins. Standard 3. Students know and understand the characteristics and structure of living things, the processes of life, and how living things interact with each other and their environment . Vocabulary. DNA polymerase RNA Gene expression Transcription

talasi
Download Presentation

Chapter 13

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. Chapter 13 DNA, RNA, and Proteins

  2. Standard 3 • Students know and understand the characteristics and structure of living things, the processes of life, and how living things interact with each other and their environment.

  3. Vocabulary • DNA polymerase • RNA • Gene expression • Transcription • Translation • Codon • Videos approximately 51 minutes. • Gene • DNA • Nucleotide • Purine • Pyrimidine • DNA replication • DNA helicase

  4. The Structure of DNA: A double helix • DNA is the primary material that causes recognizable, inheritable characteristics in related groups of organisms. • It’s made of two parallel strands of linked subunits called nucleotides. • Each nucleotide is made up of: • A phosphate group • A 5-carbon sugar molecule called deoxyribose • A nitrogen-containing base DNA Song (2:00)

  5. Information in DNA(20:00) • Information in DNA is contained in the order of the bases. • Base-pairing allows information to be copied. • The sugar and phosphate molecules are the same in every DNA molecule BUT there are four nitrogenous bases: • The purines are adenine (A) and guanine (G) • The pyrimidines are thymine (T) and cytosine (C) • They only pair together as: • A—T and C—G or T—A and G—C

  6. Nucleotide sequencing • The genetic code consists of 64 triplets of nucleotides called codons. • With three exceptions, all of these codons encodes for one of 20 amino acids. • Example: TTA codes for leucine and ATT codes for Isoleucine. • The exceptions are the START and STOP codons. • STOP codons include: TAA, TAG and TGA

  7. DNA Replication (1:15) • When DNA replicates, it copies itself. • The DNA molecule unwinds, and the two sides split. Then, new nucleotides are added to each side until two identical sequences result. • Step 1: Unwind and DNA strands separate to form Y-shaped replication forks. • Step 2: Add Complementary Bases • Step 3: Formation of Two Identical DNA Molecules

  8. Replication proteins • DNA helicases unwind the DNA • DNA polymerases catalyze the formation of the DNA molecule at the replication fork. They also “proofread” to make sure the replication is perfect. If not, they can go back and remove the incorrect nucleotide, replacing it with the correct one.

  9. Prokaryotic vs. Eukaryotic Replication • Prokaryotes usually have a single DNA molecule or chromosome that is in a closed loop. Two replication forks begin at a single site, known as the origin of replication. Replication occurs in opposite directions until the forks meet on the other side of the loop. • Eukaryotic cell replication starts at many sites along the chromosome.

  10. Transcription and Translation • Translation occurs as the second stage of gene expression when the RNA translates information to form specific proteins. • Transcription occurs at the first stage of gene expression where the genetic information is transferred from the DNA to the RNA.

  11. RNA • RNA is ribonucleic acid. • It is usually a single strand. • Nucleotides contain 5-carbon sugar, ribose rather than deoxyribose. • Instead of thymine, it has the nitrogenous base, uracil. • Uracil (U) with adenine (A).

  12. 3 Types of RNA: mRNA • START codon: AUG • STOP codons: UAA, UGA • Messenger RNA (mRNA) is the type of RNA produced when DNA is transcribed into RNA. • It carries instructions for making a protein from a gene. • Like DNA, each 3-nucleotide sequence is called a codon which is matched to 1 of 20 amino acids. • The genetic code is based on codons that represent a specific amino acid.

  13. tRNA • Transfer RNA (tRNA) reads the mRNA sequence then turns it into a specific sequence of protein subunits called amino acids. • It decodes and matches the amino acid sequences and places them on growing chains of proteins. • One end of tRNA is an amino acid, the other end has an anticodon which is a 3-nucleotide sequence complementary to an mRNA codon. Here’s how it works

  14. Ribosomal RNA • Protein production takes place on the ribosomes which are made up of about 80 protein molecules and several large RNA molecules. rRNA is found on the ribosomes. • In eukaryotic cells, where are the ribosomes attached and what does that organelle do to the new proteins?

  15. Language of Life: Understanding the Genetic Code (27:39)

  16. Virtual DNA Extraction

More Related