CELL CYCLE ANIMATIONS Cell Cycle Mitosis
Causes of Cancer
AP BIO question 16 First Column = Interphase or phase of mitosis Second Column = identify labeled structure(s)
Stages of mitosis id: slide #1
2 and 3
4 and 5
6 and 7
8 and 9
10 11
Onion cell 2n = 16. How many chromosomes are in cells #10 and # 11?
Duplicated Chromosome
10, 11, 12
13, 14, 15
16, 17, 18
The Cell Cycle
Mitosis in Animals
Searching for the “Secret of Life” What is the fundamental unit of all living things? The cell What evidence supports this answer? All living things are made of cells, are the small independently functioning structures that possess all the characteristics of life. How is this fundamental unit controlled? Which cellular structure is responsible? By the nucleus
How do we know the nucleus controls the cell? When we remove the nucleus the cell cannot reproduce and dies? When we remove other organelles this does not happen. What is this structure composed of? DNA and protein How did scientist determine the composition of this structure? Chemical analysis after using centrifugation to separate the nuclei from other cellular components. Feulgen stain indicated that all nuclei contained DNA, and several test indicated that protein was present in all nuclei.
Molecular Structure for Heredity What properties must the hereditary material possess? It must be able to pass information from parent to offspring and therefore must be very large to carry all of that information. It must be able to self replicate with each cell division, and this should happen with very few mistakes or offspring would not resemble the parents. It must be very stable in order to last the life of the cell and the organism. When a mistake does occur, it must be copied faithfully otherwise there would be no variations and no evolution.
Griffith’s Transformation Experiment
Bacteria and Bacteriophages
Hershey and Chase
Hershey/Chase http://highered.mcgraw-hill.com/classware/ala.do?isbn=0072464631&alaid=ala_661237&showSelfStudyTree=true CONCLUSION
IV. What is the chemical composition of DNA? Levine determine that DNA was made out of repeating units we now call nucleotides. Nucleotides have three parts: A nitrogenous base A sugar A phosphate group
The nitrogenous bases (page 227) The Purines Why are these called nitrogenous bases?
The nitrogenous bases (page 227) The Pyrimidines How are the pyrimidines different from the purines?
The sugar The phosphate Ribose Deoxyribose The phosphate
Four different Nucleotides
Chargaff’s Rules The amounts of A, T, G, and C in DNA: Identical in identical twins Varies between individuals of a species Varies more from species to species In each species, there are equal amounts of: A & T G & C All this suggests DNA uses complementary base pairing to store genetic info Human chromosome estimated to contain, on average, 140 million base pairs Number of possible nucleotide sequences 4,140,000,000
X-Ray Diffraction of DNA
Some important scientific history Dark lady of DNA
Figure 13.6
Watson and Crick Model Watson and Crick, 1953 Constructed a model of DNA Double-helix model is similar to a twisted ladder Sugar-phosphate backbones make up the sides Hydrogen-bonded bases make up the rungs Received a Nobel Prize in 1962
Semiconservative Replication of DNA
Meselson and Stahl’s DNA replication experiment
Meselson and Stahl http://highered.mcgraw-hill.com/classware/ala.do?isbn=0072464631&alaid=ala_661238&showSelfStudyTree=true CONCLUSION
The process of replication
Just prior to cell division, promoter proteins are produced Just prior to cell division, promoter proteins are produced. These proteins bind to DNA at several sites. Enzymes called helicase are produced and attach to DNA, where the promoter proteins are located. These enzymes break the hydrogen bonds linking the bases and the helix opens up at many sites along the DNA molecule. Now another enzyme, RNA primase reads the exposed nucleotides and produces a RNA primer (about 10 nucleotides long).
DNA polymerase now starts to replicate the DNA (base pairing) forming the new strand in the 5’ - 3’ direction. So it reads the parent DNA in which direction? There is a directional problem! One molecule of DNA polymerase produces a continuous (leading) strand of DNA. The problem is that DNA polymerase only forms DNA in the 5’-3’ direction.
So what happens on the other side of the molecule? Page 232
On the lagging strand, new primers have to form at many sites and DNA polymerase forms many small (Okazaki) fragments (1,000- 2,000 long in prokayotes and 100 - 200 long in eukaryotes). This process occurs at many sites (replication bubbles) along the DNA molecule. A.Why not just start at one end and go to the other end? Takes too much time. In humans, DNA polymerase only incorporates 50 nucleotides per second and prokaryotes 500 per second.
When DNA polymerase reaches the 5’ end of the RNA primer it is released and other enzymes remove the RNA primers and replace them with DNA nucleotides. 1. Next, DNA ligase joins together all of the large leading fragments and the many Okazaki fragments to form the two new daughter strands.
DNA polymerase also checks and corrects any mistakes in base pairing. A better understanding of this enzyme could lead to better treatments for certain disease. Any ideas?
Topoisomerase prevents kinks as the parent DNA is unzipped Topoisomerase prevents kinks as the parent DNA is unzipped. See it again
Reforming into chromatin
Animation from text http://highered.mcgraw-hill.com/classware/ala.do?isbn=0072464631&alaid=ala_661235&showSelfStudyTree=true
Figure 3.19c Figure 3.19c
Figure 3.20 Figure 3.20
Figure 3.21 Figure 3.21
Figure 3.21a Figure 3.21a
Figure 3.21b Figure 3.21b
CELL CYCLE ANIMATIONS Cell Cycle Mitosis
Causes of Cancer
The Cell Cycle
Duplicated Chromosome
Mitosis in Animals