DNA Replication

Discovering the structure of DNA

• DNA = Deoxyribose nucleic acid

• Made out of sugars (deoxyribose), phosphates

and nitrogen bases

Discovering the structure of DNA

• Structure was discovered in 1953 by James

Watson and Francis Crick

Others contributed to the discovery of DNA

Rosalind Franklin: DNA image through X-ray technology

Erwin Chargaff found that number of bases were approximately equal to their bonding partner

A = T & C = G

Cell division – why DNA replicates!

• Cells divide

Growth, Repair, Replacement

• Before cells divide they have to double cell

structures, organelles and their genetic

information

DNA replication

DNA REPLICATION

the process by which DNA makes a copy of itself (cell division)

SEMI-CONSERVATIVE - half of the old strand is saved

DNA replication

Replication: 1st step

• Unwind DNA– helicase enzyme

• unwinds part of DNA helix• stabilized by single-stranded binding proteins

single-stranded binding proteins replication fork

helicase

DNA replication

DNA replication

DNAPolymerase III

Replication: 2nd step

But…We’re missing something!What?

Where’s theENERGYfor the bonding!

Build daughter DNA strand add new

complementary bases DNA polymerase III

energy

ATPGTPTTPCTP

Energy of ReplicationWhere does energy for bonding usually come from?

ADPAMPGMPTMPCMPmodified nucleotide

energy

We comewith our ownenergy!

And weleave behind anucleotide!

YourememberATP!Are there other waysto get energyout of it?

Are thereother energynucleotides?You bet!

DNA replication

DNA replication

Original DNA strands

DNA replication

Newly assembled DNA strands

DNA replication

Semi-conservative replication

Figure 11.8 Schematic representation of DNA Polymerase IIIFigure 11.8 Schematic representation of DNA Polymerase III

Structure resembles a human right hand

Template DNA thread through the palm;

Thumb and fingers wrapped around the DNA

DNA polymerases• DNA polymerase III

– 1000 bases/second!– main DNA builder

• DNA polymerase I– 20 bases/second– editing, repair & primer removal

DNA polymerase III enzyme

Arthur Kornberg1959

Roger Kornberg2006

Editing & proofreading DNA

• 1000 bases/second = lots of typos!

• DNA polymerase I – proofreads & corrects typos

– repairs mismatched bases

– removes abnormal bases• repairs damage

throughout life

– reduces error rate from 1 in 10,000 to 1 in 100 million bases

Replication fork

3’

5’

3’

5’

5’

3’

3’ 5’

helicase

direction of replication

SSB = single-stranded binding proteins

primase

DNA polymerase III

DNA polymerase III

DNA polymerase I

ligase

Okazaki fragments

leading strand

lagging strand

SSB

http://www.youtube.com/watch?v=hfZ8o9D1tus

The next part of the process

• Use a strand of DNA to make RNA

• RNA is then used to make proteins– happens at ribosomes– proteins control everything about the

organism

DNA -->  RNA -->  Protein

Proteins are the building blocks of the organism (traits)

Transcription -  process where RNA is made from DNA

Translation - process where proteins are made from RNA

http://www.youtube.com/watch?v=zr_O8aJKHnI