DNA Replication PDF

Summary

This document provides a summary of DNA replication, transcription, and translation. It discusses different aspects of DNA replication in prokaryotes and eukaryotes, as well as the processes of epigenetics and telomere function. It also includes diagrams and illustrations.

Full Transcript

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Energy comes from the nucleoside
triphosphates.
E is released by the hydrolysis reaction
that cleaves 2 phosphates and the
formation of the creation of a
phosphodiester bond between the one
remaining phosphate and the hydroxyl
group on the 3’ carbon p285 fig. 5

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Replication, Replication is a duplicate of DNA for cell reproduction
Transcription and Transcribing DNA using RNA is transcription.
Translation This RNA is translated into proteins, translation.

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Ve 6 mins*

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 prokaryotes eukaryotes
Most of our knowledge of
DNA replication has come -smaller and circular -long and linear
from the study of bacteria. genomes
It is mostly the same in -usually only one -1000s of origins
eukaryotes but there are replication origin and and many replication
some genomic differences. only one replication bubbles (DNA is so
bubble long that only parts are
copied at a time)

-polymerases -polymerases more
varied

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DNA replication 3:30 mins*
worksheet

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DNA replication, transcription and translation:
simplified
Watch again at the end, after translation

10 mins 8
What is the order of the enzymes used in DNA replication?

DNA helicase Unwinds DNA helix
polymerase

DNA topoisomerase Smooths out the strand for replication.
polymerase

DNA RNA primase Places RNA primers on template strands
polymerase
DNA polymerase III Builds new DNA strands from nucleotides
Helicase
Fills in gaps in the lagging strand between Okazaki
DNA ligase DNA polymerase I
fragments; also proofreads final strand
RNA primase Catalyzes the formation of a phosphodiester bond
DNA ligase between 2 DNA strands and the Okazaki fragments
Topoisomerase
Repairs damage to DNA, including between
DNA polymerase II
replication events 9
Epigenetics Ted Ed 5 mins*
Genome: the complete set of DNA in a
cell
Epigenome: all the modifications that
regulate the activity (expression) of the
genes; these turn on or off genes and
so, influence the production of proteins
in cells. (epi = on top of)
Epigenetics, in modern terms, is the
study of how genes are expressed
without changing the DNA.

Cell differentiation in eukaryotes is a
form of epigenetics (from stem cells to
specific cells).

An epigenome may be short-lived or
permanent and inheritable.
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Unlike
genetic
changes,
epigenetic
changes are
reversible
and do not
change your
DNA
sequence,
but they can
change how
your body
reads a DNA
sequence.
(Centers for
Disease Control
and Prevention,
2022)

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How Does
Epigenetics
Work?

Loosely packed for
transcription.
Tightly packed
otherwise.

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Only on
cytosine

What type of enzyme
would add the
biochemical group;
methyl, acetyl,
phosphoryl?
Transferase

Repairs DNA among
other things

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Cannabis Use
Linked to Epigenetic
Changes 14
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Telomere: a repeating sequence of the same 6
nucleotides at the end of a chromosome that protects
coding regions from being lost during replication.

The RNA primer is removed but is not replaced with
DNA nucleotides. But the telomere is a nonsense
sequence so no essential coding is lost.
Fig. 4 p293

lost
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 Telomeres and aging A normal human cell divides about 50 times
Read p295-7 before stopping, Hayflick limit
A cell can no longer divide when telomeres are
too short, cell senescence = cell aging
It accumulates damage that it cannot repair and
dies.
We do not yet know whether telomere shortening
is a direct cause of aging, or just an indicator of
getting old.
We do know that lifestyle choices such as
smoking and UV exposure can speed up the rate
of degradation of the telomeres.

Healthy telomeres are looped at the end.
A change in this structure could cause
cell death.

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 Telomere length affects
Cancer is nonstop cell division. How does that happen? the longevity of a cell.
Cancer cells produce telomerase which is the enzyme that Allowing the telomere to
builds telomeres in egg and sperm cells shorten would allow the
Why would inhibiting the production of telomeres be a target of cell to die.
cancer research?
In theory, but then we might
create cancer cells
Could we use telomerase to make us immortal?

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