The nuclear I kappaB protein I kappaB zeta specifically binds NF-kappaB p50 homodimers and forms a ternary complex on kappaB DNA.

Trinh DV; Zhu N; Farhang G; Kim BJ; Huxford T

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The nuclear I kappaB protein I kappaB zeta specifically binds NF-kappaB p50 homodimers and forms a ternary complex on kappaB DNA.

机译：核IkappaB蛋白I kappaB zeta特异性结合NF-kappaB p50同型二聚体，并在kappaB DNA上形成三元复合物。

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Although they share sequence homology to classical cytoplasmic I kappaB inhibitors of transcription factor NF-kappaB, the proteins I kappaB zeta, Bcl-3, and I kappa BNS function in the nucleus as factors that influence NF-kappaB-dependent gene expression profiles. Through the use of purified recombinant proteins and by comparison with the classical I kappaB protein I kappaB alpha, we have discovered mechanistic details of the interaction between I kappaB zeta and functional NF-kappaB dimers. Whereas I kappaB alpha and other classical I kappaB proteins bind tightly to NF-kappaB dimers that possess the p65 subunit, I kappaB zeta binds preferentially to NF-kappaB p50 homodimers. This altered specificity is particularly interesting in light of the fact that both NF-kappaB subunits exhibit high sequence and structural homology, while the I kappaB alpha and I kappaB zeta proteins are also conserved in primary amino acid sequence. We further show that I kappaB zeta is capable of forming a stable ternary complex with the NF-kappaB p50 homodimer and kappaB DNA. Again, this is a stark contrast from I kappaB alpha, which inhibits NF-kappaB p65 homodimer binding to NF-kappaB target DNA sequences. Removal of the DNA sequences flanking the NF-kappaB binding site does not directly affect the interaction of p50 and I kappaB zeta. Rather, we have discovered that the carboxy-terminal glycine-rich region of the NF-kappaB p50 homodimer is involved in mediating high-affinity binding of I kappaB zeta and NF-kappaB p50. We conclude that the NF-kappaB p50 homodimer functions as a legitimate activator of gene expression through formation of a ternary complex between itself, I kappaB zeta, and DNA. The requirement for formation of this complex could explain why the nuclear I kappaB protein I kappaB zeta is absolutely required for expression of the pluripotent pro-inflammatory cytokine interleukin-6 in peritoneal macrophages.

机译：尽管它们与经典的转录因子NF-κB的细胞质IκB抑制剂具有相同的序列同源性，但蛋白IκBeta，Bcl-3和IκBNS在细胞核中起着影响NF-κB依赖性基因表达谱的作用。通过使用纯化的重组蛋白并与经典的I kappaB蛋白I kappaBα进行比较，我们发现了I kappaB zeta和功能性NF-kappaB二聚体之间相互作用的机理细节。 I kappaB alpha和其他经典I kappaB蛋白与拥有p65亚基的NF-kappaB二聚体紧密结合，而I kappaB zeta优先与NF-kappaB p50同二聚体结合。鉴于NF-κB亚基均显示出高序列和结构同源性，而IκBalpha和IκBzeta蛋白在一级氨基酸序列中也保守，这一变化的特异性尤其令人感兴趣。我们进一步表明，I kappaB zeta能够与NF-kappaB p50同型二聚体和kappaB DNA形成稳定的三元复合物。再次，这与I kappaBα形成了鲜明的对比，后者抑制了NF-kappaB p65同型二聚体与NF-kappaB靶DNA序列的结合。去除NF-κB结合位点侧翼的DNA序列并不直接影响p50和IκBZeta的相互作用。而是，我们发现NF-κBp50同二聚体的富含羧基末端甘氨酸的区域参与介导IκBZeta和NF-κBp50的高亲和力结合。我们得出结论，NF-kappaB p50同型二聚体通过在自身，I kappaB zeta和DNA之间形成三元复合物而充当基因表达的合法激活剂。形成这种复合物的要求可以解释为什么在腹膜巨噬细胞中表达多能促炎细胞因子白细胞介素6绝对需要核I kappaB蛋白I kappaB zeta。

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《Journal of Molecular Biology》 |2008年第1期|共14页
作者
Trinh DV; Zhu N; Farhang G; Kim BJ; Huxford T;
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Animals; Base Sequence; DNA; Dimerization; Electrophoretic Mobility Shift Assay; 动物; 碱基序列; 二聚; 甘氨酸; 白细胞介素6; 小鼠; 分子序列数据; 核蛋白质类;

机译：Animals;Base Sequence;DNA;Dimerization;Electrophoretic Mobility Shift Assay;动物;碱基序列;二聚;甘氨酸;白细胞介素6;小鼠;分子序列数据;核蛋白质类;

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专利

1. The nuclear I kappaB protein I kappaB zeta specifically binds NF-kappaB p50 homodimers and forms a ternary complex on kappaB DNA. [J] . Trinh DV, Zhu N, Farhang G, Journal of Molecular Biology . 2008,第1期

机译：核IkappaB蛋白I kappaB zeta特异性结合NF-kappaB p50同型二聚体，并在kappaB DNA上形成三元复合物。
2. C/EBPalpha, C/EBPalpha oncoproteins, or C/EBPbeta preferentially bind NF-kappaB p50 compared with p65, focusing therapeutic targeting on the C/EBP:p50 interaction. [J] . Dooher JE, Paz Priel I, Houng S, Molecular cancer research: MCR . 2011,第10期

机译：与p65相比，C / EBPalpha，C / EBPalpha癌蛋白或C / EBPbeta优先结合NF-kappaB p50，从而将治疗靶点集中在C / EBP：p50相互作用上。
3. The Nuclear IκB Protein IκBζ Specifically Binds NF-κB p50 Homodimers and Forms a Ternary Complex on κB DNA [J] . Dan V. Trinh, Norman Zhu, Ghazal Farhang, Journal of Molecular Biology . 2008,第1期

机译：核IκB蛋白IκBζ与NF-κBp50同源分子特异性结合并在κBDNA上形成三元复合物
4. Dynamic Nucleosome Positioning around Functional Transcription Factor Binding Sites in the Promoters of Inducible NF-kappaB Target Genes [C] . Nie Yumin, Sun Xiao 5th International Conference on Bioinformatics and Biomedical Engineering . 2011

机译：动态核小体定位的功能性转录因子结合位点在诱导型NF-κB靶基因的启动子中
5. Ideal DNA binding site spacing by NF-kappaB p50 homodimer. [D] . Milani, Christy Jane. 2015

机译：NF-κBp50同型二聚体的理想DNA结合位点间隔。
6. I(kappa)B(gamma) inhibits DNA binding of NF-kappaB p50 homodimers by interacting with residues that contact DNA. [O] . S Bell, J R Matthews, E Jaffray, 1996

机译：I（κ）Bγ通过与接触DNA的残基相互作用而抑制NF-κBp50同二聚体的DNA结合。
7. I(kappa)B(gamma) inhibits DNA binding of NF-kappaB p50 homodimers by interacting with residues that contact DNA. [O] . Bell, S, Matthews, J R, Jaffray, E, 1996

机译：I（κ）Bγ通过与接触DNA的残基相互作用而抑制NF-κBp50同二聚体的DNA结合。

The nuclear I kappaB protein I kappaB zeta specifically binds NF-kappaB p50 homodimers and forms a ternary complex on kappaB DNA.

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