DNA Structure Replication Chapter 5 Discovery of DNA
- Slides: 20
DNA Structure & Replication Chapter 5
Discovery of DNA as genetic material � 1869 a compound found in the nucleus � 1920’s the chemical components of nuclein determined � 1930’s experiments on single celled algae �Experiment 1 stalk removed, and regrew, therefore the DNA can not be in the stalk �Experiment 2 foot remove, and did NOT regrow, therefore DNA must be in foot. �Foot contained nucleus, so nucleus must contain genetic material 1
Rosalind Franklin (1920 -1958) : -X-ray diffraction photograph of the DNA double helix in 1951 -determined DNA must be a corkstrew
Watson and Crick • James Watson & Francis Crick • Described DNA as a double helix in 1953 • Nobel Prize for Physiology in 1962
DNA Structure �DNA consists of two molecules that are arranged into a ladder-like structure called a Double Helix. �A molecule of DNA is made up of millions of tiny subunits called Nucleotides. �Each nucleotide consists of: 1. 2. 3. Phosphate group Pentose sugar Nitrogenous base
Nucleotide Phosphate Pentose Sugar Nitrogenous Base
Nucleotides �The phosphate and sugar form the backbone of the DNA molecule, whereas the bases form the “rungs”. �There are four types of nitrogenous bases.
Nucleotides A Adenine C Cytosine T Thymine G Guanine
Nucleotides �Each base will only bond with one other specific base. �Adenine (A) �Thymine (T) Form a base pair. �Cytosine (C) �Guanine (G) Form a base pair.
“The Code of Life” • Nitrogenous Bases • Purines: Adenine & guanine Double-ringed double bonds • Pyrimidines: Thymine & cytosine Single-ringed Triple bonds
DNA Structure �Because of this complementary base pairing, the order of the bases in one strand determines the order of the bases in the other strand.
Anti-Parallel Strands
DNA STRUCTURE https: //www. youtube. com/watch ? v=qy 8 dk 5 i. S 1 f 0
DNA SEMICONSERVATIVE REPLICATION • The process of copying a double-stranded DNA molecule • DNA strands are antiparallel and complementary • Each strand serves as a template for the reproduction of the opposite strand • one strand of the newly formed DNA molecule is “conserved” from the original parent strand.
The process of DNA Semiconservative Replication Continued: • The 2 nucleotide chains unwind and unzip from each other. • Each old chain base pairs with new nucleotides forming 2 identical DNA molecules that are identical to the original DNA molecule. • The 2 old chains determine the sequence of the new chains since we know A pairs with T and C pairs with G.
DNA structure and Replication https: //www. youtube. com/w atch? v=8 k. K 2 zwj. RV 0 M
http: //www. sinauer. com/cooper/4 e/animations 0601. html http: //highered. mcgrawhill. com/olcweb/cgi/pluginpop. cgi? it=swf: : 535: : /sites/dl/free/0072437316/120076/micro 04. swf: : DNA Replication Fork
BIOFACT If extended a single human DNA molecule would be ~ 6 cm long, that is 1000 s times longer than the diameter of the nucleus. This chromosome and another 45 chromosomes can fit into the nucleus because of efficient chromatin packing.
ANOTHER BIOFACT !! If you arrange all of the DNA strands in your body end-to-end, their total length would stretch 2 x 1010. . . That is well over 100 times the distance between the earth and the sun !!!!
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- Nature of dna replication
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- 3-5 exonuclease vs 5-3 exonuclease
- Okazaki fragments
- Polyribosomes
- Major enzymes in dna replication
- Antiparallel in dna replication
- Dna replication jeopardy
- 3 models of dna replication
- Dna replication vs pcr
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- Dna replication transcription and translation