Phoebus A. Levene
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Transcript Phoebus A. Levene
Oswald Avery
• Canadian
biologist (18771955)
• Discovered
DNA in 1944
with a team of
scientists.
Hershey and Chase
• 1952
• Attempted to solve
the debate on
whether DNA or
proteins are
responsible for
providing the
genetic material.
• They used a
bacteriophage (a
virus which
attacks bacteria)
to prove that
DNA was
definitely the
genetic material.
Phoebus A. Levene
• Russian born; immigrated to America,
•
1.
2.
3.
moves to Europe.
1920’s discovered nucleotides
(building blocks of DNA)
Sugar
Phosphate group
Nitrogenous base
Chargaff’s rules
• The relative amounts of adenine and
thymine are the same in DNA
• The relative amounts of cytosine and
guanine are the same.
• Named after Erwin Chargaff
Rosalind Franklin
• Used X-Ray
diffraction to get
information about the
structure of DNA:
Structure of DNA
• Discovered in 1953
by two scientists:
• James Watson
(USA)
• Francis Crick
(GBR)
• Known as the
double-helix model.
The double-helix
• A twisted ladder with two long chains of
alternating phosphates and sugars. The
nitrogenous bases act as the “rungs” joining
the two strands.
How long is the DNA molecule?
Chromosomes & DNA
replication
• The nucleus of one human cell contains
approximately 1 meter of DNA.
• Histones = DNA tightly wrapped around a
protein
• Nucleosome:
RNA
• Very similar to DNA.
• Exceptions:
1) Ribose is the 5-carbon sugar
2) Uracil replaces thymine
3) Single-stranded
mRNA (messenger)
• Copies genetic
code of DNA by
matching bases.
• Occurs in the
nucleus.
• DNA changing to
RNA
Practice
• On your paper, complete the missing DNA strand
by adding the complementary bases.
• AT C GTT G C CAT C
• TA G C AA C G G TA G
• Make the complementary RNA strand for the
single strand of DNA below:
• AAT C AT C A C G T T
• U U A G U A G U G C AA
TRANSCRIPTION
• DNA is copied into mRNA with
the aid of RNA polymerase.
• The RNA polymerase will bind to
promoters that act as signals in the
DNA sequence to make RNA.
Transcription continued:
Confusing genetic terms:
• Polypeptide = a chain of amino acids.
• Protein = a complex structure composed of
polypeptides
• Amino acids = smallest structural unit of a
polypeptide.
• Gene = a distinct unit of material found on a
chromosome
Reading the genetic code
• The genetic code is responsible for
building all the proteins in the body
using 20 different amino acids.
• How many 3 letter words can you
make from the letters A,T,G and C?
• Answer: 64
Codons
• A three letter “word” that specifies
an amino acid.
tRNA (transfer)
• approx. 80 nucleotides
•
•
•
•
in length.
Cross-like shape
At one end an amino
acid is attached
At the other end there
is an anticodon
Acts like a truck
Polypeptide assembly
• Translation = reading
or “translating” the
RNA code to form a
chain of amino acids.
• Known as protein
synthesis
• Occurs in the
cytoplasm. (p.304)
Mutations
• The source of variation in a genetic
sequence.
• Can be either gene or chromosomal
mutations.
• Point mutations = a change in a single
nucleotide in a sequence of DNA.
Frameshift Mutation
• Inserting an extra nucleotide which, in turn,
shifts the entire sequence one way or the
other.
Chromosomal mutations
• Involves a change in the number or
structure of the chromosomes.
• Deletion : when a piece of a chromosome
breaks off and is lost.
• Duplication : when a segment of a
chromosome is repeated
• Inversion : when a segment of a
chromosome is reversed.
More chromosomal mutations
• Translocation :
when part of a
chromosome
breaks off and is
attached to a nonhomologous
chromosome.
Control of gene expression
• Genes are often like light switches
that can be turned off and on.
• Operon = occur in prokaryotes.
(bacteria) different genes that work
together to activate gene functions
Eukaryotic gene expression
• Controlled by
complex
sequences of
DNA.
• Example:
“TATA box”
Factors:
• Overall gene control is more difficult
for eukaryotes because functional
genes may be on different
chromosomes.
• Environmental such as chemicals and
temperature.
Hox and Oncogenes
• Hox genes
• Genes that
actively control
embryonic
development.
• Oncogenes
• Genes known to
cause cancer.
• Usually these are
switched “off”, but
can be switched
“on” by a number
of factors.
Assignment:
• Pages 315-116
• 1-10, 13, 15, 19, 20, 23
• Transcribe this DNA sequence into RNA,
then translate the RNA into an amino acid
chain: TAGCCGACAGGCCTCTTTACT
• 1-12 page 317