Cell cycle, DNA, and replication
BIO…LIFE….
THINK ABOUT THIS: What do we do in our lifetime?
What are the major stages of our life?
What are the Major stages of physical development in our lives? What would it look likeif we put this into a piechart?
Imagine you are a bacteria:What are the major stages in your life?
TRY ME: What is A? B? C? What is D/E/F/G collectively
called? What is D? What is E? What is F? What is G?
The life of a cell Cells have a life cycle just like we do- born, grow, reproduce,
and die. They only spend part of their life cycle reproducing (M)- mitosis
Cell Cycle
1. Interphase (G1, S, G2) – cell grows, prepares to divide (G phases) and DNA replicates (S phase)
2. Mitosis: nucleus divides; each nuclei winds up with the same # and kind of chromosomes as the parent (P-M-A-T)
3. Cytokinesis: division of cytoplasm
COMING UP IN THIS CLASS… In the upcoming months, we will be analyzing what happens stages
in great detail. Which stage do you think the following upcoming material will focus on?
Topics to cover:- Cell cycle and events- DNA structure and replication?- DNA structure - Cell reproduction (asexual- bacteria)?- Cell reproduction (growth- multicellular)?- DNA and making proteins- Proteins and regulation of the cell cycle- What happens when things go wrong….
NUCLEIC ACIDS: The 4th category of Biomolecules
What were the 4 macromolecules/biomolecules? What are monomers? Polymers? What is the name of the process that builds monomers to
polymers called? What is the reverse process called?
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Nucleic Acids are the chemical link between generations dating back to the beginning of life on earth.
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A nucleic acid is a complex macromolecule that stores information in cells in the form of a code.
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Terminology: What is the difference and relationship between the following:
- DNA -nucleus- Chromosomes - chromatid- Genes - chromatin- Centromere -histones- Nucleotides - telomere
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WHAT IS THE “STUFF” OF HEREDITY?WHAT IS ITS STRUCTURE?The following scientists helped to answer these questions. GriffithAveryHershey-ChaseWatson, Crick Wilkins and FranklinChargaff
I. GRIFFITH’S EXPERIMENT 1928A. - make a vaccine against harmful S. pneumoniae bacteria 1. virulent S strain (S. pneumoniae) a. virulent means disease causing b. capsule around the bacteria provides protection from body defenses 2. non virulent R strain (no capsule) a. destroyed by body(can not cause disease)
B. PROCEDURE and RESULTS
1. mouse injected with R cells2. mouse injected with S cells 3. mouse injected with heat
killed S cells
4. mouse injected with killed S cells mixed with live R cells
mouse lives
mouse dies
mouse lives
mouse dies
Results of Griffith’s Experiment
C. C - Heat-killed S bacteria release hereditary material that makes R strain bacteria virulent
HOW??? 1.Principle of Transformation a. transfer of genetic material (DNA) from one organism to
another b. DNA for making a capsule was transferred from the S strain to
the R strain making it virulent
II. AVERY’S EXPERIMENTS (early 1940’s)A – Is the transforming agent protein, RNA or DNA?B. PROCEDURE – (Three Experiments) 1. destroy 3 different molecules in the heat-killed S strain bacteria and mix with R strain bacteria a. destroy protein (protease enzyme) b. destroy RNA (RNase enzyme) c. destroy DNA (DNase enzyme)
C. Results1. Missing protein a. transforms R cells to S cells (mouse dies)
2. Missing RNA a. transforms R cells to S cells) (mouse dies)
3. Missing DNA a. did not transform R cells to S cells (mouse lives)
Oswald Avery
D. Conclusion – DNA is responsible for the transforming principle
III. HERSHEY-CHASE EXPERIMENT1952 (Martha Chase and Alfred Hershey)– Is the hereditary material in viruses protein or
DNA? B. PROCEDURE 1. Label protein and DNA in a phage with
radioactive isotopes (S-35 and P-32)
a. a phage is a virus that attacks bacteria b. S-35 labels protein and P-32 labels DNA
Martha Chase and Alfred Hershey usedPhage Viruses for Their Experiment
B. Procedure
2. Allow protein-labeled and DNA- labeled phage (virus) to infect E. coli bacteria 3. remove and separate phage (virus) from the bacteria (E. coli)
Hershey-Chase Experiment
- all viral DNA and a small amount of protein entered the bacteria
D. CONCLUSION - DNA is the hereditary molecule in viruses
IV. Watson and Crick (1953) /Wilkins and FranklinA. Watson and Crick 1. double helix model of DNA based on the work of other scientistsB. Maurice Wilkins and Rosalind Franklin 1. x-ray diffraction photographs of DNA helped Watson and Crick develop their model 2. Watson, Crick and Wilkins received Nobel Prize in l962 (Franklin died in 1958 and could not be named for the award)
X-ray Diffraction Photo Rosalind Franklinof DNA) and Maurice Wilkens
DNA Double Helix Watson and Crick
What are chromosomes???29Nucleotides make up DNA
DNA winds into ChromatinChromatin condenses into Chromosomes are composed of chromatids held together at the centromereChromosomes contain GenesGenes are sections of DNADNA is made of nucleotides
Chromosomes contain Instructions for making YOU!!!
Chromosome - DNA Chromosome- Chromatid
Where is it located in the cell? NUCLEUS! How is it arranged?
Figure 9-4 Chromosome structure
DNA double helix
histone proteins
DNA woundaround histoneproteins
Loops attachedto a protein scaffold;this stage of partialcondensation typicallyoccurs in a nondividingcell
Coiled DNA/histone beads
protein scaffold
Foldedchromosome,fully condensedin a dividing cell
NUCLEIC ACID What is the monomer of nucleic acids called? What components does it have? What are the 2 major nucleic acids?
What do they do? What ways are they similar in structure? What 3 ways do they differ in structure?
THEME….how is the structure related to their function?
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MONOMER: Nucleic acids are made of long chains of nucleotides.
Nucleotides are made of three components:
1. sugar2. phosphate group3. nitrogen base
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Examples of nucleic acids are :1. DNA2. RNA
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DNA = deoxyribonucleic acid its components are:
1. deoxyribose (sugar)2. phosphate group3. nitrogen base
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Purpose? To code for everything in your body...genetic blueprint!
The Components and Structure of DNA
There are four kinds of bases in in DNA:
adenine guanine cytosine thymine
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Adenine (A) – Thymine (T)Guanine (G) – Cytosine (C)
A and G are purines (AGgies eat Purina)C and T are pyrimidines
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The paired nitrogen bases formed two long strands of nucleotides that compliment each other.
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Nitrogen Bases are connected between sugars and phosphates
They declared, “This structure is a “double helix”
The structure is antiparallel (upsidedown).This causes a problem in replicationBecause replication is a one way direction.
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DNA Double Helix 41
DNA forms chromosomes, units of genetic information which pass from parent to offspring.
DNA is wound into structures called chromosomes during cell division
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If you unraveled all your chromosomes from all of your cells and laid out the DNA end to end, the strands would stretch from the Earth to the Moon about 6,000 times.
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RNA has a different sugar than DNA RNA = ribonucleic acid
It’s components are :1. ribose (sugar)2. phosphate group 3. nitrogen base
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It also has different bases than DNA
adenine --- uracilcytosine --- guanine
RNA is also single stranded, not double stranded like DNA.
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DNA RNA
- Double stranded - Single stranded
- Sugar = deoxyribose
- Sugar = ribose
- Adenine pairs with Thymine
- Adenine pairs with Uracil
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I. Why Must DNA Replicate? Every time a cell divides, it must first
make a copy of it’s chromosomes. Therefore, each cell can have a complete setof chromosomes.
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Without replication, species could not survive and individuals could not successfully grow and reproduce.
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II. How DNA Replicates
DNA is a molecule composed of TWO strands, each consisting of a sequence of nucleotides.
The order of the nitrogen bases on one strand mandates the sequence of bases on the complementary strand.
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If you know the bases on one strand, you can predict which bases will occur on the complementary strand.
A ----- G -----T -----C -----C -----C -----T -----
During Replication each strand serves as a template to create a new strand.
TCAGGGA
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III. Steps In Replication
1) Helicase break down the hydrogen bonds between the two DNA strands, unzipping the molecule
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DNA Replication
1. Helicase break the hydrogen bonds between the bases so the chains of DNA can separate or unwind
2) As the DNA unzips,
SSB (single strand binding protein holds the strands down.
3) Primase(RNA) makes start platforms
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4) DNA polymerase adds nucleotides (from surroundings in the nucleus) bond to the single strands by base pairing (A-T, G-C)
SEMI- CONSERVATIVE REPLICATION:** The result of this process is the formation of TWO
DNA molecules, each identical to the original molecule- with one old strand and one new strand.
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2. Other enzymes add new nucleotides, which form new hydrogen bonds with their complimentary nucleotide.
Red = original strandBlue = new strand
DNA Replication
DNA Replication
Results in 2 semi-conservative double stranded molecules
WHAT IS THE ROLE OF:
Helicase-
SSB-
Replication fork-
DNA Polymerase-
Ligase-
Leading strand-Lagging strand-
ANIMATIONS OF DNA REPLICATION
http://www.bioteach.ubc.ca/TeachingResources/MolecularBiology/DNAReplication.swf
http://www.mcb.harvard.edu/Losick/images/TromboneFINALd.swf
http://highered.mcgraw-hill.com/sites/0072556781/student_view0/chapter11/animation_quiz_2.html
http://www.sinauer.com/cooper/4e/animations0601.html
AMEOBA SISTERS:https://www.youtube.com/watch?v=5qSrmeiWsuc&index=1&list=PLwL0Myd7Dk1F1pp-DaLx3ygO_7xA-yyd4
1. What are the two types of nucleic acids?2. What are the three components of a nucleotide?
3. What are the similarities between DNA and RNA? What are the differences?
4. Describe the process of DNA replication.5. Why does a DNA molecule undergo replication?
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