Nonhistone proteins HMG1 and HMG2 unwind DNA double helix

Kashayar Javaherian; Leroy F. Liu; Mohamad Sadeghi

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Nonhistone proteins HMG1 and HMG2 unwind DNA double helix

机译：非组蛋白蛋白HMG1和HMG2展开DNA双螺旋

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In a previous communication we have shown that both HMG₁ and HMG₂ non-histone proteins change the DNA helical structure and the binding of HMG₁ and HMG₂ to DNA induces a net unwinding equivalent of DNA double helix (Javaherian, K., Liu, L. F. and Wang, J. C. (1978) Science, 199, 1345–1346). Employing melting absorption technique, we now show that in the presence of salt HMG₁ and HMG₂ destabilize DNA whereas in the absence of salt, they both stabilize DNA molecules. Consequently the folded structure of HMG must play an important role in melting DNA. Furthermore, by measuring topological winding number using competition unwinding experiments, we conclude that HMG₁ has a higher affinity for a single-stranded DNA relative to double-stranded DNA. These results together suggest that HMG₁ and HMG₂ unwind DNA double helix by local denaturation of the DNA base pairs. The net unwinding angles have been measured to be 22° and 26° per molecule of HMG₁ and HMG₂ respectively.

机译：在先前的交流中，我们证明了HMG _{1 和HMG _{2 非组蛋白均改变了DNA螺旋结构，并改变了HMG _{1 的结合DNA的HMG _{2 诱导了DNA双螺旋的净解链等价物（Javaherian，K.，Liu，LF和Wang，JC（1978）Science，199，1345–1346）。现在，我们使用熔解吸收技术显示，在盐存在下，HMG _{1 和HMG _{2 使DNA不稳定，而在不存在盐的情况下，它们都能稳定DNA分子。因此，HMG的折叠结构必须在融化DNA中起重要作用。此外，通过使用竞争展开实验测量拓扑卷绕数，我们得出结论，相对于双链DNA，HMG _{1 对单链DNA具有更高的亲和力。这些结果共同表明，HMG _{1 和HMG _{2 通过DNA碱基对的局部变性解开了DNA双螺旋。测得每分子HMG _{1 和HMG _{2 的净退绕角分别为22°和26°。}}}}}}}}}}}

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《Nucleic acids research 》 |1979年第11期| 共12页
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Kashayar Javaherian; Leroy F. Liu; Mohamad Sadeghi;
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1. Protein HMG1 is different from a DNA helix unwinding protein in calf thymus [J] . B. G. Beltchev, D. G. Demirov, L. N. Marekov Bioscience Reports . 1986 ,第2期

机译：HMG1蛋白不同于小胸腺中的DNA螺旋解旋蛋白
2. High affinity binding of proteins HMG1 and HMG2 to semicatenated DNA loops [J] . Claire Gaillard, Fran?ois Strauss BMC Molecular Biology . 2000 ,第1期

机译：HMG1和HMG2蛋白与半链DNA环的高亲和力结合
3. Abundance of mRNAs encoding HMG1/HMG2 class high-mobility-group DNA-binding proteins are differentially regulated in cotyledons of Pharbitis nil [J] . O Neill SD, Zheng ChengChao, Zheng CC Plant Molecular Biology . 1998 ,第2期

机译：编码HMG1 / HMG2类高迁移率组DNA结合蛋白的mRNA的丰度在无性子炎的子叶中有不同的调控。
4. Conversion Of Helix-turn-helix Motif Sequence-specific DNA Binding Proteins Into Site-specific DNA Cleavage Agents [C] . Ebright R.H., Ebright Y.W., Pendergrast P.S., Engineering in Medicine and Biology Society, 1990., Proceedings of the Twelfth Annual International Conference of the IEEE . 1990

机译：螺旋转螺旋基序序列特定的DNA结合蛋白到位点特异性DNA裂解剂的转换。
5. Inhibitor of DNA binding/differentiation (ID) helix-loop-helix proteins mediate BMP-induced osteoblast lineage-specific differentiation of mesenchymal stem cells. [D] . Peng, Ying. 2005

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6. Nonhistone proteins HMG1 and HMG2 unwind DNA double helix. [O] . K Javaherian, M Sadeghi, L F Liu 1979

机译：非组蛋白HMG1和HMG2展开DNA双螺旋。
7. Nonhistone proteins HMG1 and HMG2 unwind DNA double helix. [O] . Javaherian, K, Sadeghi, M, Liu, L F 1979

机译：非组蛋白HMG1和HMG2展开DNA双螺旋。
8. RAT LIVER NUCLEAR NONHISTONES PROTEINS: A PARTIAL FRACTIONATION AND THEIR INTERACTION WITH DNA [R] . Danial H. Caheehan 1973

机译：大鼠肝核非蛋白质组分：部分分化及其与DNa的相互作用

Nonhistone proteins HMG1 and HMG2 unwind DNA double helix

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