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The Structure and Function of DNA

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Knew there was DNA in cells but not its role in heredity until much ... form bubbles in the DNA. Have many origins in each chromosome to speed the replication ... – PowerPoint PPT presentation

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Title: The Structure and Function of DNA


1
Chapter 10
  • The Structure and Function of DNA

2
DNA Structure and Replication
  • Knew there was DNA in cells but not its role in
    heredity until much later
  • Knew that chromosomes were made of DNA and
    protein
  • Figured out the structure of DNA after knowing
    the atoms that it was made of

3
Remember the DNA/RNA
  • DNA has deoxyribose
  • RNA has ribose
  • Both are nucleic acid and made of nucleotides
  • Many combinations of 4 nucleotides
  • Joined between sugar of 1st nucleotide and
    phosphate of 2nd nucleotide by phosodiester bond
  • Bases hang off like ribs on spine

4
Nucleotides
  • Made up of sugar, phosphate and nitrogenous base
  • Can function as an acid (phosphate) or as a base
    (nitrogen base)
  • C and T are single ring structure, as is U in RNA
  • A and G are double ringed structure

5
Discoverers of DNA Structure
  • Watson and Crick used the information from the
    X-ray crystallography of Franklin and wire models
    to figure out structure
  • Needed to keep the sugar phosphate backbone
    parallel so had to have A pair with T and G with C

6
DNA
See the DNA in several different types of
models Ribbon model shows the anti-parallel
nature of DNA
No restriction in order of nucleotides
countless sequences
7
DNA Replication
  • Uses existing DNA as a template using
    complementary base pairing
  • Parent strand separates and then makes the copy
    that stays linked to parent strand

8
DNA Polymerase
  • DNA polymerase is an enzyme that links the
    nucleotides together
  • Concept is simple but process is actually very
    complex
  • requires dozen enzymes and other proteins
  • Polymerase adds nucleotides very rapidly and very
    accurately 50 nt/sec with 1 in 1 billion
    mistakenly added nucleotide
  • most mistakes get corrected before process is done

9
DNA Damage
  • DNA polymerase and other proteins can correct
    damage done to DNA before starting replication
  • UV light and X-ray can cause damage to DNA

10
Origin of Replication
  • DNA replication machinery opens the DNA and
    starts to add nucleotides at places called the
    origin of replication
  • form bubbles in the DNA
  • Have many origins in each chromosome to speed the
    replication
  • Eventually has 2 new strands that are joined at
    the centromere
  • Now cell can undergo mitosis or meiosis

11
Flow of Genetic Information
  • Moves from DNA which is the directions to RNA
    which carries out the mission and then to protein
    which carries out the wishes of DNA
  • Genotype produces phenotype
  • genotype is the nucleotides that are in the
    allele that is the gene
  • phenotype is the specific trait that is caused by
    the proteins

12
DNA Directs Proteins
  • Not a direct relationship must go thru a RNA
    intermediate
  • DNA to RNA is transcription
  • RNA to protein is translation

13
DNA History
  • Early 1900s a doctor hypothesized that inherited
    diseases were caused by defective enzymes
    wasnt proved correct until years later
  • all metabolism is dictated by enzymes miss one
    enzyme and you wont be able to complete the
    pathway
  • 1940 found bread mold that couldnt grow on
    usual media that they were missing a gene that
    made a specific enyme
  • hypothesized that 1 gene makes 1 enzyme
  • now know that the gene encodes 1polypeptide as
    many enzymes have multiple subunits

14
Nucleotides to Amino Acids
  • Nucleic acids can be thought of as a 4 letter
    language
  • DNA A G C T
  • RNA A G C U
  • Proteins are a 20 alphabet language
  • amino acids must be able to be made from the
    nucleic acid alphabet

15
Translation
  • Genes consists of 1000 of nucleotides
  • Many genes per DNA molecule
  • Transcribe DNA to RNA
  • transcribe because same language (nucleic acid)
  • Translate from RNA to protein
  • translate because going between 2 languages)

16
RNA is a Messenger
  • DNA dictates the polypeptide sequence but uses
    RNA as a messenger between the 2
  • Use 3 RNA nucleotides to write 1 amino acid
  • 64 different combinations of 3 nucleotides to
    make all 20 amino acids
  • 3 nucleotides per amino acid alphabet is a codon
  • word for amino acid

17
Genetic Code
  • Nucleotides to amino acid code
  • Codon dictionary to make translation between
    nucleic acid and amino acids
  • 4 special codons
  • start codon AUG, all proteins start with Met
  • 3 STOP codons UAA, UAG and UGA tells the
    ribosome that the protein is done
  • Code is redundant all amino acids but Met and
    Trp have more than 1 codon but not 1 codon
    defines 2 different amino acids

18
Transcription DNA to RNA
  • DNA separates near place where gene is located
  • Use only one strand as template for RNA
  • Nucleotides add 1 at a time complementary to the
    DNA sequence
  • H-bonds as in DNA
  • RNA polymerase is the enzyme that adds the
    nucleotides

19
3 Step Process
  • Initiation use special sequence in DNA to know
    where to start promoter attach RNA polymerase
    and start synthesis
  • RNA elongation RNA grows and separates from the
    DNA and DNA recoils
  • Termination polymerase reaches another special
    signal in DNA template called the terminator
    end of gene, complex falls apart and releases RNA

20
RNA Processing
  • In prokaryotic cells the RNA can act as the
    message for translation without processing
  • In eukaryotic cells the RNA must be modified
    before leaving the safety of the nucleus to the
    harsh environment of the cytoplasm
  • add a cap and a tail to prevent the message from
    being destroyed in cytoplasm
  • must remove non-coding sequence to actually make
    the message (mRNA)
  • non-coding are called introns and coding are
    called exons

21
mRNA
  • Once remove introns in a process called RNA
    splicing, the RNA is now a message and ready to
    move out of the nucleus and into cytoplasm

22
Translation
  • Translation requires additional machinery because
    we are going from 1 language to another language
  • Need 3 things to do the conversion
  • mRNA made during transcription and RNA
    processing
  • tRNA transfer RNA the link between nucleic
    acid language to amino acid language
  • ribosomes the organelle for protein synthesis

23
tRNA
  • Job is to recognize the codons in the mRNA and
    brings in the right amino acid
  • 2 functions of tRNA
  • pick up appropriate amino acids available in the
    cytoplasm
  • recognize the codon by the anti-codon in the tRNA
    which is complementary to mRNA codon

24
Ribosome
  • Combines mRNA and tRNA together to make the
    protein with all additional molecules necessary
  • Ribosome is made of 2 subunits made up of
    proteins and rRNA (ribosomal RNA)
  • large subunit is where the peptide is formed
  • 2 sites A site is where incoming amino acid
    comes in and the P site where the growing protein
    chain is held
  • small subunit is where the mRNA is held

25
Translation
  • 3 phases like in transcription
  • Initiation brings in the mRNA and 1st tRNA into
    the small subunit and then the large subunit
  • Remember, the mRNA is longer than needed for
    protein contains the sequences that alert the
    ribosome that this message must be translated

26
Elongation
  • Adding 1 amino acid at a time
  • 3 steps involved in elongation
  • codon recognition by incoming tRNA
  • peptide bond formation by adding the peptide from
    the tRNA in P site to the amino acid in the A
    site bond made by the large subunit
  • translocation tRNA in P site leaves and the
    ribosome moves done the mRNA to expose the next
    codon and A site
  • repeat

27
Termination
  • Elongation continues until a STOP codon ends up
    in the A site
  • Once the STOP codon is recognized, the ribosome
    releases the message, the protein and the tRNAs
  • ribosome dissociates until it finds another mRNA

28
Summary
  • Starts in nucleus with transcription and
    processing of RNA
  • Moves to cytoplasm to make protein that then will
    fold into its 3-D structure
  • Each step has control mechanisms to make sure
    that we really want the protein made

29
Mutations
  • Describe heritable differences in molecular terms
  • say in sickle cell disease traced back to 1
    nucleotide changed that resulted in altered amino
    acid that makes the protein not function normally
  • Other diseases also have this type of underlying
    issue change in the DNA sequence mutation

30
2 Types of Mutations
  • Base substitution replace 1 base with another
    base
  • Base insertion or deletion have a nucleotide
    removed or inserted by some mechanism

31
Base Substitution
  • 3 possible outcomes
  • no change to the protein redundant code may
    allow for a nucleotide change that doesnt cause
    an amino acid change
  • change may be insignificant
  • may be crucial to the function of protein
  • 2 and 3 are called missense mutations
  • Nonsense mutations nucleotide change introduces
    a STOP codon and protein is prematurely terminated

32
Base Insertion/Deletions
  • Often have more disastrous effects
  • Changes the codon sequence and after the
    insertion or deletion the amino acids will be
    different disrupts proteins function
  • AAG UUU GGC GCA AAG UUG GCG CA
  • lys phe gly ala lys leu ala
    -

33
Mutagens
  • Mutations arising during DNA synthesis or
    recombination are called spontaneous mutations
  • Others come from physical/chemical agents called
    mutagens
  • physical UV light or X-rays
  • chemical many different ones
  • Scientists use mutations to study the function of
    proteins and other molecules in the cell
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