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3033107
DNA structure and replication
Description
Mind Map of Topic 7.1 DNA Structure and Replication of IB Biology Chapter 7 Nucelic Acids (AHL)
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dna structure and replication
nucleic acids (ahl)
ib biology
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Resource summary
DNA structure and replication
The Watson and Crick model suggested semi-conservative replication
DNA structure suggested replication mechanism
knowledge of DNA structure
molecular modelling by Linus Pauling
X-ray diffraction patterns by Rosalind Franklin
DNA helix tightly packed
bases fit together; strands not too far apart
base composition studies by Erwin Chargaff
their 1st model - sugar-phosphate strands wrapped around one another with nitrogen bases facing outwards
Rosalind Franklin countered this
nitrogen bases more hydrophobic than sugar-phosphate backbone, so would face inwards
tightly packed if:
pyrimidine paired with purine
bases 'upside down' in relation to one another
adenine and thymine both structurally and electrically (charges) compatible
adenine and guanine paired; 3 hydrogen bonds = structural stability
model of complementary base pairing lead to theory
The role of nucleosomes in DNA packing
help supercoil DNA
Nucelosomes - structures of DNA packaged by histones
central core of 8 histone proteins (octane) with DNA coiled around them
2 copies of 4 diff types of histones
connected by 'linker' DNA
bound to core by histone molecule, H1
bind to form 30nm fiber; assists packing
facilitates packing of large genomes of eukaryotes
association of histones contributes to supercoiling pattern
supercoiling allows great length of DNA to be packed in small space in nucleus
The leading strand and the lagging strand
leading
continuous replication
continuously following the fork
lagging
discontinuous replication
fragments moving away from the replication fork
Okazaki fragements - new fragments created on lagging strand as fork exposed more template strand
arranged in anti-parallel fashion
Proteins involved in replication
replication carried out by complex enzyme system
helicase unwinds DNA at the fork
topoisomerase releases strain that develops ahead of helicase
replication
formation and movement of replication fork
synthesis of leading and lagging strands
single stranded binding proteins keep strands apart long enough for template strand to be copied
RNA primer needed to start replication
created by DNA primase
necessary to initiate DNA polymerase activity
many primers on lagging strand; only one on leading strand
DNA polymerase
responsible for covalently linking deoxyribonucleotide monophosphate for the 3' end of the growing strand
diff. kinds with diff. functions
proof-reading
polymerization
removal or RNA primers once not needed
DNA ligase connects the gaps between the fragments
The direction of replication
DNA polymerase can only add nucleotides to the 3' end of the primer
begins at site called origin of replication
occurs in both directions away from origin
five carbons of deoxyribose sugar have a number
phosphate group added to 3' of the deoxyribose of the nucleotide at the end of the chain
replications occurs in a 5' to 3' direction
Non-coding regions of DNA have important functions
cellular machinery operates according to genetic code
coding sequeneces - DNA sequences used to produce polypeptides
used as guide to produce tRNA and rRNA
enhancers and silencers regulate gene expression
most genome non-coding in eukaryotes
repetitive sequences common
moderately
highly
satellite DNA
5-60% (60% in humans)
one occurs on the ends of eukaryotic chromosomes; telomere
protects cells from losing genes that cannot replicate during interphase
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