Spectrum biology

(Axel Boer) #1
Pro cess of DNA Rep li ca tion
The process of DNA replication occur in nucleus of the cell. It begins at the
origin of replication with a nick or incision made by endonuclease on one
strand of DNA. Further opening/unzipping of more nucleotides takes place
by helicase. It leads to the formation of replication fork. DNA replication
occurs in 5 ′→ 3 ′ direction. It is continuous on one strand called leading
strand and in form of small fragments, by forming loop (trombone loop) at
another strand (lagging strand).

Sense and Antisense Strands
Both the strands of DNA do not take part in controlling heredity and metabolism. Only
one of them does so. The DNA strand which function as template for RNA synthesis is
known as template strand or minus (−) strand or antisense strand or non-coding
strand. Its complementary strand is named non-template strand or plus ( )+ strand or
sense strand or coding strand.

Following are the different enzymes with its
function in DNA replication:
Enzymes for DNA replication and their
functions

Enzymes Functions
DNA helicase The enzyme that is responsible for the
unwinding of the double helix by disrupting
the hydrogen bonds between the
antiparallel strands.
DNA gyrase An enzyme that relieves any form of
tension that’s produced after the DNA
double helix is unwound.
SSB (Single
Stranded
Binding)
proteins

The proteins that bind to the outside of the
two single template strands and prevent
the separated strands of DNA from
re-anneling.
Primase An enzyme that builds RNA primers and
assembles them at the origin of replication
site.
DNA
polymerase-III

An enzyme that creates complementary
strands of DNA during replication.
Attaches to RNA primer, can only add
nucleotides to a 3 ′-end of a DNA strand.
DNA
polymerase-I

The enzyme that removes RNA primers
and replaces them with the appropriate
DNA nucleotides.
DNA ligase The enzyme that joins DNA fragments
together by phosphodiester bonds.

Note RNA primer is composed of multiple bases that
get attached (through hydrogen bonds) to the
template strand to initiate the DNA replication.

RNA


The other nucleic acid present in cell is RNA,
i.e. ribonucleic acid. It is present predominantly
in cytoplasm and mostly in the form of single
strand. The pyrimidine, i.e. thymine of DNA is
replaced by uracil in RNA. All normal RNA
chains begin with adenine or guanine. The RNA
can be of following types
RNA Types Func tions
mRNA (messenger
RNA)

Carries information specifying
amino acid sequences of proteins
from DNA to ribosomes.
tRNA (transfer RNA) Transfer amino acids to the protein
synthesis machinery to produce
proteins.
rRNA (ribosomal
RNA)

It is a part of protein synthesis
machinery. Plays structural and
catalytic roles in ribosomes.
siRNA (small
interfering RNA)

Used for gene regulation.

snRNA (small
nuclear RNA)

Used to edit mRNA, regulate gene
expression and maintain
chromosome tips (telomeres).

Leading strandOrigin of replication

Lagging strand

5 ′^3 ′

3 ′^5 ′

Template
DNA HelicasesThe enzyme which unwind the
double helical DNA for its replication.

Primase
The enzyme which synthesise
the RNA primer.
It is removed by DNA
polymerase-I, before DNA-
ligase joins these fragments.

Lagging/Discontinuous Strand
(Trombone Loop)
As this strand is already 5′– 3′,
the parallel synthesis cannot
take place (DNA
replication always takes place in
5 ′–3′ direction)

5 ′

Priming site
RNA Primer
These are small (10-60 bp) RNA
fragments, synthesised by
primase, acts as receptor for
primary nucleotides.

Single Stranded
Binding Protein
The protein complex
which maintain the
single stranded DNA,
It prevent the
recoling of DNA.

DNA Polymerase
The enzyme DNA-
polymerase was
discovered by
Kornberg in 1957.
The DNA
polymerase-III
catalyze DNA
replication in
prokaryotes, in
eukaryotes it is
done by DNA
polymerase δ and ε
DNA polymerase α.


Leading/Continuous Strand
The strand with the direction 3′– 5′,
on which the continuous synthesis
of new strand takes place in 5′– 3′ direction.

Okazaki Fragments
Small 200 bp segments
synthesised by
DNA polymerase-III at
lagging strand.

3 ′^5 ′

3 ′

Machinery of DNA replication showing the trombone loop
Free download pdf