The in vitro reconstitution of nucleosome and its binding patterns with HMG1/2 and HMG14/17 proteins

被引:0
作者
SHU BING ZHANG JIAN HUANG HUI ZHAO YI ZHANG CHUN HuI HOU XIAO DONG CHENG CHU JIANG MIN QIAN LI JUN HU RUO LAN QIAN Group of Globin Gene Expression and Regulation State Key Laboratory of Molecular Biology Institute of Biochemistry and Cell Biology Shanghai Institutes for Biological Sciences Chinese Academy of Sciences Shanghai China Shanghai Institute of Nuclear Research Chinese Academy of Sciences Shanghai China [1 ,200031 ,2 ,201800 ]
机构
来源
CellResearch | 2003年 / 05期
关键词
atomic force microscopy; HMG proteins (HMG1/2 and HMG14/17); human β-globin gene; in vitro reconstitution; nucleosome;
D O I
暂无
中图分类号
Q75 [分子遗传学];
学科分类号
071007 ;
摘要
<正> Using atomic force microscopy (AFM), the dynamic process of the in vitro nucleosome reconstitution followed by slow dilution from high salt to low salt was visualized. Data showed that the histone octamers were dissociated from DNA at 1M NaCl. When the salt concentration was slowly reduced to 650 mM and 300 mM, the core histones bound to the naked DNA gradually. Once the salt concentration was reduced to 50 mM the classic "beads-on-astring" structure was clearly visualized. Furthermore, using the technique of the in vitro reconstitution of nucleosome, the mono- and di- nucleosomes were assembled in vitro with both HS2core (-10681 to -10970 bp) and NCR2 (-372 to -194 bp) DNA sequences in the 5'flanking sequence of human b-globin gene. Data revealed that HMG 1/2 and HMG 14/17 proteins binding to both DNA sequences are changeable following the assembly and disassembly of nucleosomes. We suggest that the changeable binding patterns of HMG 14/17 and HMG1/2 proteins with these regulatory elements may be criti
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页码:351 / 359
页数:9
相关论文
共 7 条
[1]  
The structure of the nucleosome core particle of chromatin in chicken erythrocytes visualized by using atomicforce microscopy[J]. ZHAO HUI;YI ZHANG;SHU BING ZHANG;CHUJIANG;QI YE HE;MIN QIAN LI;RUO LANQIAN( Shanghai Institute of Cell Biology, Chinese Academyof Sciences, Shanghai 200031, China)( Shanghai Institute of Nuclear Research, ChineseAcademy of Sciences, Shanghai 201800,.Cell Research. 1999(04)
[2]   HMG蛋白质与人ε-珠蛋白基因5′旁侧调控元件DNA相互作用 [J].
严志江 ;
陈雅娣 ;
钱若兰 .
生物化学与生物物理学报, 1998, (05) :59-64
[3]  
Visualization of chromatin folding patterns in chicken erythrocytes by atomic force microscopy (AFM)[J]. QIAN RUO LAN;ZHENG XIA LIU;MEI YUN ZHOU;HEN YUE XIE;CHU JIANG;ZHI JIANG YAN(Shanghai Institute of Cell Biology, Chinese Academy ofSciences, Shanghai 200031, China)LI MIN QIAN;YI ZHANG;JUN HU(Shanghai Institute of Nuclear Research, Chinese Academyof.Cell Research. 1997(02)
[4]   Developmental stage-specific factors in the mouse haematopoietic tissues binding to the 5'-flanking as-acting elements of humanε-globin gene [J].
严志江 ;
陈雅娣 ;
钱若兰 .
Science Bulletin, 1995, (09) :778-783
[5]   Interaction Between HMG Proteins (1+2) and the Negative Regulatory Region 1(NCR1) in the 5'-flanking Sequence of the Human β-globin Gene [J].
钱若兰 ;
陈雅娣 ;
胡玉龙 ;
李民乾 ;
王中怀 ;
徐耀良 .
Science China Chemistry, 1993, (08) :933-939
[6]  
Linker Histone Tails and N-Tails of Histone H3 Are Redundant: Scanning Force Microscopy Studies of Reconstituted Fibers[J] . Sanford H. Leuba,Carlos Bustamante,Kensal van Holde,Jordanka Zlatanova.Biophysical Journal . 1998 (6)
[7]  
High-Mobility-Group Chromosomal Proteins: Architectural Components That Facilitate Chromatin Function[J] . Michael Bustin,Raymond Reeves.Progress in Nucleic Acid Research and Molecular Biology . 1996
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