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WARM-UP #7. DNA (Deoxyribonucleic Acid) A HISTORY OF DNA DNA double helixDiscovery of the DNA double helix A. Frederick Griffith – Discovers that a factor.

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Presentation on theme: "WARM-UP #7. DNA (Deoxyribonucleic Acid) A HISTORY OF DNA DNA double helixDiscovery of the DNA double helix A. Frederick Griffith – Discovers that a factor."— Presentation transcript:

1 WARM-UP #7

2 DNA (Deoxyribonucleic Acid)

3 A HISTORY OF DNA DNA double helixDiscovery of the DNA double helix A. Frederick Griffith – Discovers that a factor in diseased bacteria can transform harmless bacteria into deadly bacteria (1928) B.Rosalind Franklin - X-ray photo of DNA. (1952) C.Watson and Crick - described the DNA molecule from Franklin’s X-ray. (1953)

4 What is it, where is it? What does it do? Macromolecule (super duper ginormous) Located in the nucleus, and it never gets to leave the nucleus Controls all cellular function, and thus all body function – all from inside the nucleus AMAZING!!!

5 Central Dogma of DNA This is HOW it controls all cellular function DNA makes RNA RNA makes proteins Proteins construct everything else Basically, DNA has the code (directions) to tell which proteins to make and when, and that is how it controls all function in the cell, by encoding for proteins – cool, huh?!

6 Genetic material of cells… GENES – segments of DNA material that CODES FOR A SPECIFIC TRAITGENES – segments of DNA material that CODES FOR A SPECIFIC TRAIT One of TWO types of NUCLEIC ACIDSOne of TWO types of NUCLEIC ACIDS –DNA and RNA are the two nucleic acids DNA is made up of repeating molecules called NUCLEOTIDESDNA is made up of repeating molecules called NUCLEOTIDES

7 Nucleotides – Monomers of DNA, a.k.a the repeating units that make up the DNA molecule A deoxyribose sugar, a 5 carbon monosacharide. monosacharide A phosphate: PO 4 3- molecule A base which can either be adenine, thymine, guanine or cytosine (more on these below).

8 Nucleotide

9 DNA Nucleotide O O=P-O OPhosphate Group Group N Nitrogenous base (A, G, C, or T) (A, G, C, or T) CH2 O C1C1 C4C4 C3C3 C2C2 5 Sugar Sugar(deoxyribose)

10 Nucleotides

11 Watson & Crick proposed… DNA had specific pairing between the nitrogen bases:DNA had specific pairing between the nitrogen bases: ADENINE – THYMINE CYTOSINE - GUANINE DNA is made of 2 long strands of nucleotides arranged in a specific way called the “Complementary Rule”DNA is made of 2 long strands of nucleotides arranged in a specific way called the “Complementary Rule”

12 DNA Double Helix Nitrogenous Base (A,T,G or C) “Rungs of ladder” “Legs of ladder” Phosphate & Sugar Backbone

13 DNA Double Helix P P P O O O 1 2 3 4 5 5 3 3 5 P P P O O O 1 2 3 4 5 5 3 5 3 G C TA

14 Nitrogenous Bases PURINESPURINES Adenine (A) 1.Adenine (A) Guanine (G) 2.Guanine (G) PYRIMIDINESPYRIMIDINES Thymine (T) 3.Thymine (T) Cytosine (C) 4.Cytosine (C) T or C A or G

15 Chargaff’s Rule Adenine ThymineAdenine must pair with Thymine GuanineCytosineGuanine must pair with Cytosine about the sameTheir amounts in a given DNA molecule will be about the same. G C TA

16 BASE-PAIRINGS CG H-bonds T A

17 Genetic Diversity… Different arrangements of NUCLEOTIDES in a nucleic acid (DNA) provides the key to DIVERSITY among living organisms.Different arrangements of NUCLEOTIDES in a nucleic acid (DNA) provides the key to DIVERSITY among living organisms.

18 The Code of Life… The “code” of the chromosome is the SPECIFIC ORDER that bases occur.The “code” of the chromosome is the SPECIFIC ORDER that bases occur. A T C G T A T G C G G…

19 DNA is wrapped tightly around histones and coiled tightly to form chromosomes See p. 297

20 DNA Replication DNA must be copiedDNA must be copied The DNA molecule produces 2 IDENTICAL new complementary strands following the rules of base pairing:The DNA molecule produces 2 IDENTICAL new complementary strands following the rules of base pairing: A-T, G-C Each strand of the original DNA serves as a template for the new strand See p. 298Each strand of the original DNA serves as a template for the new strand See p. 298

21 DNA Replication Semiconservative Model:Semiconservative Model: Watson and Crick showed: 1.Watson and Crick showed: the two strands of the parental molecule separate, and each functions as a template for synthesis of a new complementary strand.. Parental DNA DNA Template New DNA

22 1. Why is replication necessary? 2. When does replication occur? 3. Describe how replication works. 4.Use the complementary rule to create the complementary strand: A--- ? G--- ? C--- ? T--- ? A--- ? G--- ? A--- ? G--- ? C--- ? A--- ? G--- ? T--- ? Replication Quiz

23 1. Why is replication necessary? So both new cells will have the correct DNA 2. When does replication occur? During interphase (S phase). 3. Describe how replication works. Enzymes unzip DNA and complementary nucleotides join each original strand. 4. Use the complementary rule to create the complementary strand: A--- T G--- C C--- G T--- A A--- T G--- C A--- T G--- C C--- G A--- T G--- C T--- A Replication Quiz

24 (1961) Watson & Crick proposed… …DNA controlled cell function by serving as a template for PROTEIN structure.…DNA controlled cell function by serving as a template for PROTEIN structure. 3 Nucleotides = a triplet or CODON3 Nucleotides = a triplet or CODON (which code for a specific AMINO ACID) See p.303 AMINO ACIDS are the building blocks of proteins.AMINO ACIDS are the building blocks of proteins.

25 DNA Transcription DNA can “unzip” itself and RNA nucleotides match up to the DNA strand.DNA can “unzip” itself and RNA nucleotides match up to the DNA strand. Both DNA & RNA are formed from NUCLEOTIDES and are called NUCLEIC acids.Both DNA & RNA are formed from NUCLEOTIDES and are called NUCLEIC acids. See p.301

26 DNA Translation The cell uses information from “messenger” RNA to produce proteinsThe cell uses information from “messenger” RNA to produce proteins See p.304-305 We will discuss details of this on a later date

27 Transcription/Translation Quiz 1.Why is transcription necessary? 2.Describe transcription. 3.Why is translation necessary? 4.Describe translation. 5.What are the main differences between DNA and RNA. 6.Using the chart on page 303, identify the amino acids coded for by these codons: UGGCAGUGC

28 1. Why is transcription necessary? Transcription makes messenger RNA (MRNA) to carry the code for proteins out of the nucleus to the ribosomes in the cytoplasm. 2. Describe transcription. RNA polymerase binds to DNA, separates the strands, then uses one strand as a template to assemble MRNA. 3. Why is translation necessary? Translation assures that the right amino acids are joined together by peptides to form the correct protein.

29 4. Describe translation. The cell uses information from MRNA to produce proteins. 5. What are the main differences between DNA and RNA. DNA has deoxyribose, RNA has ribose; DNA has 2 strands, RNA has one strand; DNA has thymine, RNA has uracil. 6.Using the chart on page 303, identify the amino acids coded for by these codons: UGGCAGUGC tryptophan-glutamine-cysteine

30 AMAZING DNA FACTS… DNA from a single human cell extends in a single thread for almost 2 meters long!!!DNA from a single human cell extends in a single thread for almost 2 meters long!!! It contains information equal to some 600,000 printed pages of 500 words each!!!It contains information equal to some 600,000 printed pages of 500 words each!!! (a library of about 1,000 books)

31 LET’S REVIEW DNA… LM p.44 1.List the conclusions Griffith & Avery, Hershey & Chase drew from their experiments. 2.Summarize the relationship between genes & DNA. 3.Describe the overall structure of the DNA molecule. 4.What are the 4 kinds of bases?

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