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Genome Duplication

Melvin DePamphilis | Stephen Bell
€107.99
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a-form
A01=Melvin DePamphilis
A01=Stephen Bell
abbreviated mitotic cell cycle
adaptation
advanced genome duplication research
Age Group_Uncategorized
Age Group_Uncategorized
anaphase promoting complex
anti-cancer
antibiotic
antiviral
archaea
Author_Melvin DePamphilis
Author_Stephen Bell
automatic-update
b-form
bacteria
base pair
bent DNA
bidirectional replication
binary fission
biochemistry
Budding Yeast
c-form
C-value paradox
cancer biomarker
Category1=Non-Fiction
Category=PSAK
Category=PSD
Category=PSF
CDK Activity
Cell Cycle
cell division
cell proliferation
cellular replication mechanisms
chromatid
chromatin
chromatin assembly
chromatin disassembly
chromatin packaging
chromatin structure modification
chromosome
circularization
classical replicon model
cmposition
concatemer formation
conditional replicator
COP=United Kingdom
cruciform
damage checkpoint
damage response
Delivery_Delivery within 10-20 working days
Disease
DNA
DNA Helicase
DNA loop
DNA Molecule
DNA Polymerase
DNA polymerase I paradigm
DNA Primase
DNA Replication
DNA Synthesis
DNA synthesis regulation
DNA Unwinding
DNA-binding proteins
DNA2
DnaB
domains of life
Dps protein
Duplex DNA
dynamic processivity
EBV paradigm
epigenetic
episome
eq_bestseller
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
eukarya
eukaryote
Evolution
evolutionary molecular biology
family A
family B
family C
family D
FEN1
Fis protein
fossil record
functional redundency
gap filling
genetic complexity paradox
genetic mutation disorders
genome
Genome Duplication
genome size
genomics
gyrase
hand-off
helicase
helicase loader
helicase-primase paradox
heritable disease
heterochromatin
histone
host defense
iHF protein
immunology
Initiate DNA Replication
Initiate DNA Synthesis
initiation
initiator polymerase
Initiator Protein
internal replicator
jumping back
kinetochore
lagging strand synthesis
Lagging Strand Template
Language_English
last universal common ancestor
leading strand
leading strand synthesis
Leading Strand Template
ligase
ligation
loloenzyme
mapping
MCM
MCM Helicase
medicine
meiotic cell
Melvin L. DePamphilis
methylation
microbiology
mitochondrial DNA
mitotic cell cycle
molecular biology
multiple replication origins
Nascent DNA
Nascent DNA Strand
nicking
noncanonical
nucleosome
nucleosome assembly
nucleotide repeat disorder
nucleotide-associated protein
Okazaki fragment
Okazaki Fragments
origin
PA=Available
passive replicator
pharmacological agent
phylogeny
polymerase
polymerase fidelity
preRC Assembly
Price_€50 to €100
primary
primase
primer
primer excision
promoting complex
protein modification
protein-nucleotide primer
PS=Active
quadruplux
reinitiation
relaxation
repair
replication
replication checkpoint
replication checkpoint pathways
replication fork
Replication Forks
Replication Origins
replication protein
Replicative DNA Helicase
Replicative DNA Polymerase
replicator polymerase
replisome
restriction checkpoint
ringmaster
RNA-primed
rolling cycle
rotary engine
secondary
semi-conservative
sister chromatid
site-specificity
sliding clamp
sliding clamp loader
slipped-strand DNA
softlaunch
spindle assembly checkpoint
Stephen D. Bell
strand displacement
stringent response
structure
supercoil
superhelicity
synthesis
template
terminal replicator
termination
termination paradox
tertiary
topo
topoisomerase
topology
triplex
type iA
type IB
type II
unwinding
unwinding element
virology
Z-DNA

Product details

  • ISBN 9780415442060
  • Weight: 1000g
  • Dimensions: 219 x 276mm
  • Publication Date: 06 Oct 2010
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
  • Language: English
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Description

Genome Duplication provides a comprehensive and readable overview of the underlying principles that govern genome duplication in all forms of life, from the simplest cell to the most complex multicellular organism.

Using examples from the three domains of life - bacteria, archaea, and eukarya - Genome Duplication shows how all living organisms store their genome as DNA and how they all use the same evolutionary-conserved mechanism to duplicate it: semi-conservative DNA replication by the replication fork. The text shows how the replication fork determines where organisms begin genome duplication, how they produce a complete copy of their genome each time a cell divides, and how they link genome duplication to cell division.

Genome Duplication explains how mistakes in genome duplication are associated with genetic disorders and cancer, and how understanding genome duplication, its regulation, and how the mechanisms differ between different forms of life, is critical to the understanding and treatment of human disease.
About Melvin DePamphilis | Stephen Bell
DePamphilis, Melvin; Bell, Stephen

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