482774
Description
Mind Map by Lydia Buckmaster, updated more than 1 year ago
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Created by Lydia Buckmaster
almost 11 years ago
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Introduction to DNA
- DNA molecule
- Two long
polynucleotide
chains
- Run
antiparallel
- Held together by
Hydrogen bonds between
complementary bases on
opposing strands
- Run
antiparallel
- Each strand
made of
nucleotides
- 5 carbon
sugar
- Ribose in RNA
- Deoxyribose
in DNA
- Ribose in RNA
- Nitrogenous
base
- Pyrimidine
- Cytosine
- Thymine
- Single-ringed
base
- Cytosine
- Purine
- Adenine
- Guanine
- Two-ringed
base
- Adenine
- A to T and C to G
ensures that each base
pair is of a similar size,
allowing efficient packing
in the centre of the helix
- Pyrimidine
- One or more
phosphate
groups
- Covalently joined in
a sugar-phosphate
backbone
- 5' phosphate
group to 3' OH
group on sugar
- Phosphodiester
bonds
- Nucleotides added
to the 3' end on
lengthening
- Molecule of
pyrophosphate is
released, which is
cleaved to pull the
reaction forward
- Molecule of
pyrophosphate is
released, which is
cleaved to pull the
reaction forward
- 5' phosphate
group to 3' OH
group on sugar
- Wind around each
other in double helix,
with a complete turn
every 10 base pairs
- 5 carbon
sugar
- Double
helix
- Joined together
by H bonds in the
base (centre), with
sugar-phosphate
backbone around
the outside
- Joined together
by H bonds in the
base (centre), with
sugar-phosphate
backbone around
the outside
- Two long
polynucleotide
chains
- Prokaryotic genes
- Transcription
- Starts at a promoter
- Ends at a terminator
- No further processing
of mRNA transcripts
- They are translated by
the ribosomes as
transcription prgresses
- They are translated by
the ribosomes as
transcription prgresses
- Starts at a promoter
- Transcription
- Eukaryotic genes
- Transcription
- Starts at a promoter
- Ends at a terminator
- Primary mRNA transcript
is processed, splicing out
introns and adding a 5' cap
and a 3' polyA tail
- This is then translated by the
ribosomes into a protein
- Different introns can be
spliced out, and some can
be left, creating multiple
RNA transcripts from a
single section of DNA
- This means that
the same gene
can code for
multiple proteins
- This means that
the same gene
can code for
multiple proteins
- This is then translated by the
ribosomes into a protein
- Starts at a promoter
- Transcription
- Recombinant
DNA
technology
- Common
cloning
strategy
- Target DNA from a donor
organism is extracted, cut with
a restriction endonuclease and
ligated using a cloning vector
and compatible restriction
endonucleases
- Recombinant constructs are
transferred to a host cell, where
cells which do not take up the
construct are eliminated using
selection protocol
- Recombinant constructs are
transferred to a host cell, where
cells which do not take up the
construct are eliminated using
selection protocol
- Restriction endonucleases
- Cut DNA in two ways
- Sticky ends cuts the
strands slightly differently,
leaving overhangs
- Blunt ends leaves
strands cut at the
same position
- Sticky ends cuts the
strands slightly differently,
leaving overhangs
- Many different
enzymes, each of
which cuts DNA
at a different
recognition site,
and leaving a
different type of
cut end
- Cut DNA in two ways
- Target DNA from a donor
organism is extracted, cut with
a restriction endonuclease and
ligated using a cloning vector
and compatible restriction
endonucleases
- Annealing
- Sticky ends
have a tendency
to rejoin (anneal)
- Target gene is cut with
the same restriction
endonuclease as the
cloning vector, giving the
same sticky ends
- If mixed, target DNA can
anneal itself into the cloning
vector
- Vectors can still seal shut
without the new DNA,
creating a mixture of
vectors
- Some with
the new DNA,
some without
- Some with
the new DNA,
some without
- Vectors can still seal shut
without the new DNA,
creating a mixture of
vectors
- If mixed, target DNA can
anneal itself into the cloning
vector
- DNA ligase
promotes
annealing
- Sticky ends
have a tendency
to rejoin (anneal)
- Vectors
- Cloning vectors
are usually
plasmids (circles
of DNA) or phages
- Plasmids are useful as
they have an origin of
replication, selectable
markers to identify uptake
of the new DNA and
useful cloning sites
- e.g. Restriction
endonucleases can be
used that insert the
DNA into a section of
the plasmid that codes
for resistance to a
certain bacteria
- This way, the cells that
have taken up
recombinant plasmids
lose their resistance
and can be detected.
- Other
plasmid
vectors are
available with
LacZ and
LacI genes
- This way, the cells that
have taken up
recombinant plasmids
lose their resistance
and can be detected.
- e.g. Restriction
endonucleases can be
used that insert the
DNA into a section of
the plasmid that codes
for resistance to a
certain bacteria
- Plasmids are useful as
they have an origin of
replication, selectable
markers to identify uptake
of the new DNA and
useful cloning sites
- Vectors are
usually purified
and cut open
with restriction
endonucleases
- Cloning vectors
are usually
plasmids (circles
of DNA) or phages
- Common
cloning
strategy
- DNA Library
- Collection of portions
of a larger genetic
element or genome
- Created by partially
digesting genomic DNA
with restriction
endonucleases, and then
by cloning the fragments
into vectors, such as
plasmids or phages
- To create the
fragments, the cell
is lysed, and the
DNA extracted
- DNA then undergoes a
partial random cleavage by
restriction endonucleases,
to create more than one
series of identical fragments
- Different sizes
can be identified
and retrieved after
different times
- Different sizes
can be identified
and retrieved after
different times
- To clone the fragments,
homogenous replicons
are ligated to the ends,
containing origins of
replication
- These are injected
into vectors, which
are taken up by host
cells. Some of which
are transformed
- These are injected
into vectors, which
are taken up by host
cells. Some of which
are transformed
- DNA then undergoes a
partial random cleavage by
restriction endonucleases,
to create more than one
series of identical fragments
- To identify a target
sequence of interest, a cell
is lysed, its DNA extracted
and probes attached,
which are complementary
to the target sequence
- These can be DNA
or RNA, and are
usually over 100bp
- A fluorescently
labelled marker
is also inserted
- Can be detected once
the marker has bound
to the target sequence
- Can be detected once
the marker has bound
to the target sequence
- These can be DNA
or RNA, and are
usually over 100bp
- Created by partially
digesting genomic DNA
with restriction
endonucleases, and then
by cloning the fragments
into vectors, such as
plasmids or phages
- Collection of portions
of a larger genetic
element or genome
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