Chapter 19 Nucleosomes 莘大
Chapter 19 Nucleosomes
19.1 Introduction 19.2 The nucleosome is the subunit of all chromatin 19.3 dNA is coiled in arrays of nucleosomes 19.4 Nucleosomes have a common structure 19.5 DNA structure varies on the nucleosomal surface 19.6 Supercoiling and the periodicity of DNA 19. The path of nucleosomes in the chromatin fiber 19.8 Organization of the histone octamer 19.9 Histones are modified 19 10 Reproduction of chromatin requires assembly of nucleosomes 19.11 Do nucleosomes lie at specific positions? 9 12 Are transcribed genes organized in nucleosomes? 19 13 Histone octamers are displaced by transcription 19 14 DNAase hypersensitive sites change chromatin structure 19.15 Domains define regions that contain active genes 19.16 Heterochromatin propagates from a nucleation event 19 17 Heterochromatin depends on interactions with histones 19.18 X chromosomes undergo global changes 19.19 Chromosome condensation is caused by condensins 19.20 Methylation is perpetuated by a maintenance methylase 19.21 Methylation is responsible for imprinting 19.22 Epigenetic effects can be inherited 19.23 Yeast prions show unusual inheritance 19.24 Prions cause diseases in mammal 消当
19.1 Introduction 19.2 The nucleosome is the subunit of all chromatin 19.3 DNA is coiled in arrays of nucleosomes 19.4 Nucleosomes have a common structure 19.5 DNA structure varies on the nucleosomal surface 19.6 Supercoiling and the periodicity of DNA 19.7 The path of nucleosomes in the chromatin fiber 19.8 Organization of the histone octamer 19.9 Histones are modified 19.10 Reproduction of chromatin requires assembly of nucleosomes 19.11 Do nucleosomes lie at specific positions? 19.12 Are transcribed genes organized in nucleosomes? 19.13 Histone octamers are displaced by transcription 19.14 DNAase hypersensitive sites change chromatin structure 19.15 Domains define regions that contain active genes 19.16 Heterochromatin propagates from a nucleation event 19.17 Heterochromatin depends on interactions with histones 19.18 X chromosomes undergo global changes 19.19 Chromosome condensation is caused by condensins 19.20 Methylation is perpetuated by a maintenance methylase 19.21 Methylation is responsible for imprinting 19.22 Epigenetic effects can be inherited 19.23 Yeast prions show unusual inheritance 19.24 Prions cause diseases in mammals
19.1 Introduction Histones are conserved dNa-binding proteins of eukaryotes that form the nucleosome. the basic subunit of chromatin Nucleosome is the basic structural subunit of chromatin, consisting of 200 bp of dna and an octamer of histone proteins 消当
Histones are conserved DNA-binding proteins of eukaryotes that form the nucleosome, the basic subunit of chromatin. Nucleosome is the basic structural subunit of chromatin, consisting of ~200 bp of DNA and an octamer of histone proteins. 19.1 Introduction
19.Introduction Centromere Figure 18.9 The sister chromatids of a mitotic pair each consI ist of a fiber(30 nm in diameter) compactly folded into the chromosome. Photograph kindly provided by e J DuPraw 消当
Figure 18.9 The sister chromatids of a mitotic pair each consist of a fiber (~30 nm in diameter) compactly folded into the chromosome. Photograph kindly provided by E. J. DuPraw. 19.1 Introduction
19.2 The nucleosome is the subunit of all chromatin Micrococcal nuclease is an endonuclease that cleaves dna: in chromatin. dna is cleaved preferentially between nucleosomes 消当
Micrococcal nuclease is an endonuclease that cleaves DNA; in chromatin, DNA is cleaved preferentially between nucleosomes. 19.2 The nucleosome is the subunit of all chromatin
19.2 The nucleosome EwA is the subunit of all chromatin Figure 19.1 Chromatin spilling out of lysed nuclei consists of a compactly organized series of particles The bar is 100 nm Photograph kindly provided by pierre cham bon 消当
Figure 19.1 Chromatin spilling out of lysed nuclei consists of a compactly organized series of particles. The bar is 100 nm. Photograph kindly provided by Pierre Chambon. 19.2 The nucleosome is the subunit of all chromatin
19.2 The nucleosome is the subunit of all chromatin Figure 19.2 Individual nucleosomes are released by digestion of chromatin with micrococca nuclease. The bar is 100 nm. Photograph kindly provided by Pierre chambon 消当
Figure 19.2 Individual nucleosomes are released by digestion of chromatin with micrococcal nuclease. The bar is 100 nm. Photograph kindly provided by Pierre Chambon. 19.2 The nucleosome is the subunit of all chromatin
19.2 The nucleosome is the subunit of all chromatin M OO H2AX 2=28 KE 0oH2Bx2=28 Figure 19. 3 The H3×2=30k nucleosome consists of ●H4x2=22k 200 bp DNA= 130 KD Total protein =108 KD approximately equal Length=67 nm masses of dNa and histones(including H1) The predicted mass of the H1=24 KD nucleosome is 262 KD 6 nm 11 nm 消当
Figure 19.3 The nucleosome consists of approximately equal masses of DNA and histones (including H1). The predicted mass of the nucleosome is 262 kD. 19.2 The nucleosome is the subunit of all chromatin
19.2 The nucleosome is the subunit of all chromatin Figure 19.4 The DNA"leaves nucleosome may be a cylinder with DNA organized DNA"enters Into two turns around the surface 消当
Figure 19.4 The nucleosome may be a cylinder with DNA organized into two turns around the surface. 19.2 The nucleosome is the subunit of all chromatin
19.2 The AXis of symmetry nucleosome Protein =3.2 nm is the subunit Radius of gyration of all DNA=5.2nm chromatin Figure 19.5 The two turns of dna on the nucleosome 2 turns of dNA, each 2 nm diameter lie close together occupy most of height(6 nm) 消当
Figure 19.5 The two turns of DNA on the nucleosome lie close together. 19.2 The nucleosome is the subunit of all chromatin
