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Nucleosome Positioning Histones and DNA Bending

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Page 1: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Nucleosome Positioning

Histones and DNA Bending

Page 2: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

DNA packaging

• 3 X 109 base pairs in human genome• ~1 m if unraveled• Compacted into nucleus

– 100 m in diamter

Page 3: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Histones

Page 4: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Histones

Page 5: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

PDBID = 1KX3

Page 6: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Nucleosome Arrays

Dorigo B, et al. Science. 2004 306(5701):1571-3.

Page 7: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Current Opinion in Structural Biology 2006, 16:336–343

Page 8: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

http://www2.kenyon.edu/Depts/BioEllipse/courses/biol114/Chap01/chrom1.gif

Page 9: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Histones vs. DNA

• Histones fold DNA• DNA sequence determines histone

binding– Does histone bind sequence?

• Absence of direct sequence specific recognition

– Bending flexibility of DNA determines affinity for complementary protein surface

Page 10: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

DNA as a Rod

Page 11: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Twist

Bend

Page 12: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in
Page 13: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Flexibility

• Torsional Flexibility– Angle between base pairs

• Bending Flexibility– Properties of individual base steps

• Flexibility of DNA is a Sequence-dependent property

Page 14: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Flexibility determinants

• Hydrogen bonds• Electronic configuration of base pairs• Base Pair Stacking energy• Exocyclic groups in major and minor

grooves

Page 15: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Base Pairing

http://en.wikipedia.org/wiki/Base_pair

Page 16: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Base Pairing

Page 17: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Base Stacking

http://researchnews.osu.edu/archive/dna_base_stacking.jpg

Page 18: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Base Stacking

Richmond & Davey 2003

Page 19: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Electrostatics

Philos. Transact. A Math Phys. Eng. Sci. 2004 Jul 15;362(1820):1423-38.

Page 20: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in
Page 21: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Sequence-directed positioning

Widlund et al. 1997• Mouse Genome• Micrococcal nuclease• 146 bp DNA fragments• DNA seq added to end• Amplify using PCR• 10 rounds cycles

– competitive nucleosome assembly

Chromatin: Structure and Function Alan P. Wolffe

Page 22: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Intrinsically curved DNA sequences

• Oligo(dA).oligo(dT) tracts (4-6bp)– Phased with a periodicity similar to that

of DNA helix

• TATA boxes repeated every 10 bp• CA and CTG di/tri-nucleotide repeats

Page 23: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Energy Landscape

Page 24: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Matrix Method

• Nucleotide phasing of 10bp repeats influences bending of DNA

Page 25: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Periodic occurrence of A/T & GC

• A/T & G/C out of phase

• A/T narrow minor groove

• G/C wide minor groove

Satchwell et al. J. Mol. Biol. 1986 191:659-75

Page 26: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in
Page 27: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in
Page 28: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in
Page 29: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in
Page 30: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Minor Groove bending facilitated by Arg side chain into minor groove when it faces histone octamer

Major groove narrows to ~9Å

Minor groove narrows to ~3Å

Page 31: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Structure of DNA in Nucleosome

• Discontinuous curvature

Richmond & Davey 2003

Page 32: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Summary

Ong, Richmond & Davey 2007

• Major Gray• Minor White

Page 33: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Unusual DNA conformation parameters induced by histone

binding• Implicates sequence-dependent

– protein recognition– nucleosome positioning– nucleosome mobility

• Can we predict DNA:Nucleosome binding based on sequence?

Page 34: Nucleosome Positioning Histones and DNA Bending. DNA packaging 3 X 10 9 base pairs in human genome ~1 m if unraveled Compacted into nucleus –100 m in

Chromatinization of Escherichia coli with archaeal histones · archaeal histones Maria Rojec1,2 ... histones became established as global repressive regulators during the evolution

The nucleosome: the fundamental unit of chromosomal packaging of DNA with histones DNA does not coil smoothly DNA does not coil smoothly Base sequences

Chromosomes & The Cell Cycle. Chromatin & Chromosome Composition Made of: DNA Protein - histones Chromosome Structure (after replication): 2 chromatids

DNA from the Beginningcolinbrowne/TrendsBiotechnology... · 2018. 2. 27. · the DNA. individually purified the histones from the DNA. - H2A and H2B stick together, H3 and H4 stick

Nanopores: A journey towards DNA sequencingmethods and assays, the details unraveled by single-molecule techniques have already shed light on enigmatic topics such as DNA replication,

DNA in the Cell Inside the nucleus are chromosomes, which house DNA Chromosome made from proteins + histones. Coils DNA so it can fit into a cell Each

Chapter 13 Section 2: DNA Replication - Quia · PDF fileChapter 13 Section 2: DNA Replication Supplementary Words . Histones Remember: Long molecules of DNA are ... Review Questions

Faith Unraveled Sample

a. DNA is a double helix molecule. b. DNA coils around proteins called histones (similar to spools of thread). c. DNA supercoils itself (like a telephone

Chromosomes and Cell Reproduction Chromosome Structure Chromosomes are the coiled up version of DNA. They consist of DNA and proteins: histones and nonhistones

Cells - Creightonchemistry.creighton.edu/~jksoukup/lec2-cellsSTUD.pdf · Eukaryotic Cell Nucleus Chromosomes = 2 chromatids Chromatin mass = 50% DNA, 50% histones DNA of single human

The nucleosome: the fundamental unit of chromosomal packaging of DNA with histones

Edinburgh Research Explorer...Histones are the most abundant proteins associated with DNA in eukaryotic chromosomes. The core histones H2A, H2B, H3 and H4 wind the DNA into bead-like

b Rod shaped structure Made of a single DNA molecule and proteins called histones –Histones maintain shape of chromosomes –Aids in tight packing of

Chromosomes and chromatin. Chromosomes organize and package genes inside cells Bind packaging proteins to DNA to make it more compact. –Histones +DNA

ChIP-chip Data. DNA-binding proteins Constitutive proteins (mostly histones) –Organize DNA –Regulate access to DNA –Have many modifications Acetylation,

DNA Continued (Deoxyribonucleic Acid). DNA is wrapped tightly around histones and coiled tightly to form chromosomes See p. 332

Control of Eukaryotic Genes - mrschassardsbiology.com · Histone acetylation Acetylation of histones unwinds DNA loosely wrapped around histones enables transcription genes turned

Epigenetics: Histone Modification I. Nucleosome A packaging unit for DNA (=H3/H4 tetramer + two sets of H2A/H2B dimer) DNA (- charge) and histones (+

Gene Regulation 8/24/2015. DNA Binding Proteins Histones Sequence specific DNA major grove Homodimeric Inverted repeats 8/24/2015

Arginine-Phosphate Salt Bridges Between Histones and DNA

LA DUPLICACIÓ DEL DNA i LA BIOSÍNTESI DE PROTEÏNEScosmolinux.no-ip.org/...aula/...DNA_mecanismes.pdf · Com el DNA eucariota es troba força associat a histones, durant la replicació:

CHAPTER 6 Interactions of Histones with DNA: Nucleosome ... · CHAPTER 6 Interactions of Histones with DNA: Nucleosome Assembly, Stability, Dynamics, and Higher Order Structure

Chromatin is formed of strands of DNA and proteins called histones

Chromatin Structure - New Jersey Medical Schoolnjms.rutgers.edu/sgs/olc/core1/prot/2008/Chromatin...Chromatin Composition • Complex of DNA and histones in 1:1 mass ratio • Histones

The LTE Subscriber: Unraveled

9 - The Cell...Eukaryotic Chromosomes chromatin - DNA and proteins uncoiled chromosomes - DNA wrapped around histones and coiled ... 9-3 The Cell Cycle and Cancer cancer - cellular

Live cinema unraveled

All the cells in the organism have the same DNA DNA is packed together with histones and other proteins into chromatin. Chromatin is a highly dynamic

RNA STRUCTURE · DNA ORGANIZATION IN EUKARYOTE 1. DNA in the form of double helix 2. DNA is tightly associated with proteins histones producing nucleosomes- 10nm fibrils 3. Nucleosomes

Rod shaped structure Made of a single DNA molecule and proteins called histones –Histones maintain shape of chromosomes –Aids in tight packing of

Mitosis & Meiosis. Chromosome Structure Chromatin – Thin, uncoiled strands of DNA & proteins (histones) Chromosomes – Rod-shaped structures composed

Eukaryotic Gene Control - AP BIOLOGY · Histone acetylation Acetylation of histones unwinds DNA loosely wrapped around histones enables transcription genes turned on attachment of

Cisplatin Resistance Associated with PARP Hyperactivationture (e.g., histones, topoisomerases I and II), factors that stimulate DNA synthesis and repair (e.g., XRCC1, DNA polymerases

Eukaryotic Gene Regulation. Chromatin Structure DNA & protein 1) Nucleosomes DNA & histones (proteins) DNA wrapped around 8-piece histone bead