chapter 11 dna and its role in heredity biology 101 tri-county technical college pendleton, sc
TRANSCRIPT
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Chapter 11 DNA and Its Role in Heredity
Biology 101
Tri-County Technical College
Pendleton, SC
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Start with a Review
Generic nucleotide contains 5-carbon sugar, one of four nitrogenous bases, and a phosphate groupDNA has deoxyribose and ATGCRNA has ribose and AUGCNumbering carbons in ringed sugar…“At the Grand Canyon” will save your sack lunch more times than you care to count…
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Dr. Ruth is right on…Remember how to manipulate the mnemonic device and pairing and size will not be a problem
Chalk talk time on ATGC
Purines are double-ringed nitrogenous compounds
Pyrimidines are single-ringed nitrogenous compounds
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World will never be the same…
Griffin’s transformation experimentsHershey & Chases bacteriophage workWatson and Crick**Chargaff’s RuleStrands always equidistant; 2 H bonds between A & T, and 3 H bonds between G & CKnown as “complementary base pairing”Specific pairing is KEY to replicating genetic material
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DNA Visual
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Structure of DNADNA is double-stranded helix
Right-handed; twists to the right
Stands are antiparallel
Covalent bonds link sugar, base, and phosphate
Hydrogen bonds holds strands together
Remember, H bonds NOT very strong, but DNA has so many, it is quite stable
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DNA ReplicationStrands separate and each strand serves at template (mold) for making new complementary strand
When replication is over…there will be TWO molecules of DNA
Each molecule will be composed of one old strand and one new strand
Meselson and Stahl’s work confirmed semiconservative replicaiton is correct model
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Replication Requirements
DNA must act as template for complementary base pairingFour deoxyribonucleoside triphosphates (dATP, dTTP, dGTP, dCTP), must be presentDNA polymerase needed to bring substrates to template and catalyze reactionSource of chemical energy needed
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Process of Replication
Occurs in two stagesDNA locally denatured (unwound)
New nucleotides linked by covalent bonding to each growing strand
Current model suggests huge protein replication complex and DNA moves through the complex
All chromosomes have at least one sequence of nucleotides recognized by replication complex
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Process, cont.Sequence called origin of replication
Forms replication bubble with 2 replication forks
DNA helicase opens up double helix
Single-stranded binding proteins keep two strands separated
RNA primase makes primer strand needed to get replication underway
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Process, cont.
DNA polymerase III adds nucleotides to primer, proofreads the DNA, and repairs it
Leading/lagging strands and Okazaki fragments
DNA Polymerase I responsible for removing RNA primer and replacing it with DNA
DNA ligase responsible for linking Okazaki fragments together and for linking any repaired strands back together
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Replication Visual
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Replication Forks Visual
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Lagging Strand Visual
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Proofreading and RepairDNA polymerase(s) “proofs” each nucleotide as it is added to growing strandRepair enzymes designed for 2 basic functionsMismatch repair (should be AT and is AC for example)Excision repair works for mismatched pairs, chemically modified bases, or points where strand has more bases than the other
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Proofreading, cont.Cuts out errors, DNA polymerase and DNA ligase synthesize and seal up new piece to replace the excised one
DNA ligase responsible for linking segments of strand back together after repairs are made
Error rate of one base in 106; after repair, the error rate reduced to one base in 109
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Proofreading Visual