Regulation of translocation polarity by helicase domain 1 in SF2B helicases

Structurally similar superfamily I (SF1) and II (SF2) helicases translocate on single-stranded DNA (ssDNA) with defined polarity either in the 5'-3' or in the 3'-5' direction. Both 5'-3' and 3'-5' translocating helicases contain the same motor core comprising two RecA-like folds. SF1 helicases of opposite polarity bind ssDNA with the same orientation, and translocate in opposite directions by employing a reverse sequence of the conformational changes within the motor domains. Here, using proteolytic DNA and mutational analysis, we have determined that SF2B helicases bind ssDNA with the same orientation as their 3'-5' counterparts. Further, 5'-3' translocation polarity requires conserved residues in HD1 and the FeS cluster containing domain. Finally, we propose the FeS cluster-containing domain also provides a wedge-like feature that is the point of duplex separation during unwinding.     

The Escherichia coli rep mutation. X. Consequences of increased and decreased Rep protein levels

Summary Recombinant DNA techniques were used to study varibus aspects of rep gene function in Escherichia coli. In order to enhance expression of the Rep protein, the rep gene was cloned into the vector pKC30 under the control of the p _L promoter. By trimming away a portion of the DNA sequence immediately upstream of the translational start site of rep, we were able to obtain very high levels of Rep protein upon induction. Cells carrying such plasmids showed no ill effects from the high concentration of the protein. To ascertain the consequence of the absence of Rep protein on the cell, the chromosomal copy of the gene was deleted using a homologous recombination technique. The viability of E. coli strains completely lacking the rep gene proves that the Rep function is not essential, at least in wild-type cells under laboratory conditions. We confirmed that in the absence of Rep function there is an increase in the average number of growing forks in exponentially growing cells; augmentation of Rep protein levels above normal, however, did not detectably decrease the number of growing forks.Abbreviations RBS ribosome binding site - kan kanamycin - Ap ampicillin - Tc tetracycline - CAM chloramphenicol The previous paper in this series is Gilchrist and Denhardt (1987)     

RecQ and RecG helicases have distinct roles in maintaining the stability of polypurine.polypyrimidine sequences

DNA triplex structures can block the replication fork and result in double-stranded DNA breaks (DSBs). RecQ and RecG helicases may be important for replication of such sequences as RecQ resolves synthetic triplex DNA structures and RecG mediates replication restart by fork regression. Primer extension on an 88bp triplex-forming polypurine.polypyrimidine (Pu.Py) tract from the PKD1 gene demonstrated that RecQ, but not RecG, facilitated primer extension by T7 DNA polymerase. A high-throughput, dual plasmid screening system using isogenic bacterial lines deficient in RecG, RecQ, or both, revealed that RecQ deficiency increased mutation to sequence flanking this 88bp tract by eight to ten-fold. Although RecG facilitated small deletions in an 88bp mirror repeat-containing sequence, it was absolutely required to maintain a 2.5kb Pu.Py tract containing multiple mirror repeats. These results support a two-tiered model where RecQ facilitates fork progression through triplex-forming tracts and, failing processivity, RecG is critical for replication fork restart.     

Molecular docking analysis of fluoroquinolones and other natural and synthetic compounds with the HCV NS3 helicase

It is of an interest to document the molecular docking analysis of fluoroquinolones and other natural and synthetic compounds with the HCV NS3 helicase. Data shows that three fluoroquinolones interacted with the NS3 helicase in the catalytic region, targeting some of the amino acids known to play a crucial role in NS3 helicase activity. Similarly, binding energy shows that the fluoroquinolones were comparable to the thiazolpiperazinyl derivatives, while superior to several of the synthetic and natural derivatives. The results show three fluoroquinolones to be potent helicase inhibitors that can be repurposed as supplemental therapy against HCV especially in cases non-responsive to DAAAs.     

Double-stranded DNA-induced localized unfolding of HCV NS3 helicase subdomain 2

The NS3 helicase of the hepatitis C virus (HCV) unwinds double-stranded (ds) nucleic acid (NA) in an NTP-dependent fashion. Mechanistic details of this process are, however, largely unknown for the HCV helicase. We have studied the binding of dsDNA to an engineered version of subdomain 2 of the HCV helicase (d(2Delta)NS3h) by NMR and circular dichroism. Binding of dsDNA to d(2Delta)NS3h induces a local unfolding of helix (alpha(3)), which includes residues of conserved helicase motif VI (Q(460)RxxRxxR(467)), and strands (beta(1) and beta(8)) from the central beta-sheet. This also occurs upon lowering the pH (4.4) and introducing an R461A point mutation, which disrupt salt bridges with Asp 412 and Asp 427 in the protein structure. NMR studies on d(2Delta)NS3h in the partially unfolded state at low pH map the dsDNA binding site to residues previously shown to be involved in single-stranded DNA binding. Sequence alignment and structural comparison suggest that these Arg-Asp interactions are highly conserved in SF2 DEx(D/H) proteins. Thus, modulation of these interactions by dsNA may allow SF2 helicases to switch between conformations required for helicase function.     

Multiple structural alignment by secondary structures: algorithm and applications

We present MASS (Multiple Alignment by Secondary Structures), a novel highly efficient method for structural alignment of multiple protein molecules and detection of common structural motifs. MASS is based on a two-level alignment, using both secondary structure and atomic representation. Utilizing secondary structure information aids in filtering out noisy solutions and achieves efficiency and robustness. Currently, only a few methods are available for addressing the multiple structural alignment task. In addition to using secondary structure information, the advantage of MASS as compared to these methods is that it is a combination of several important characteristics: (1) While most existing methods are based on series of pairwise comparisons, and thus might miss optimal global solutions, MASS is truly multiple, considering all the molecules simultaneously; (2) MASS is sequence order-independent and thus capable of detecting nontopological structural motifs; (3) MASS is able to detect not only structural motifs, shared by all input molecules, but also motifs shared only by subsets of the molecules. Here, we show the application of MASS to various protein ensembles. We demonstrate its ability to handle a large number (order of tens) of molecules, to detect nontopological motifs and to find biologically meaningful alignments within nonpredefined subsets of the input. In particular, we show how by using conserved structural motifs, one can guide protein-protein docking, which is a notoriously difficult problem. MASS is freely available at http://bioinfo3d.cs.tau.ac.il/MASS/.     

Orally bioavailable HCV NS5A inhibitors of unsymmetrical structural class

A novel unsymmetrical structural class of orally bioavailable hepatitis C virus (HCV) nonstructural 5A protein (NS5A) inhibitors has been generated by improving both the solubility and membrane permeability of the lead compound found in our previous work. The representative compound 14, with a 5-hydroxymethylpyrazine group and a 3-t-butylpropargyl group on each side of the molecule, exhibited the best oral bioavailability in this study, inhibiting not only the HCV genotype 1a, 1b, 2a, and 3a replicons with EC₅₀ values in the picomolar range, but also inhibited 1a Q30 mutants induced by launched symmetrical inhibitors with EC₅₀ values in the low nanomolar range.     

Serological Differentiation between HCV Subtypes 1a and 1b by a Recombinant Immunoblot Assay

Until now, no serological assay has been available for the differentiation of HCV subtypes. Since there is evidence that the subtypes differently influence the clinical course of HCV infection and the outcome of interferon therapy, we established a strip immunoblot assay (NS-4 IBA) with recombinant HCV proteins of the nonstructural 4 (NS-4) region propagated in Escherichia coli. Using this NS-4 IBA, we were able to distinguish HCV subtypes la and 1b, which are the most prevalent subtypes in Europe and the U.S.A. The results of the serotyping assay were compared with those obtained by nucleotide sequencing from the NS-5 region. Concordant results were observed to match 94.9% (n = 100) by the NS-4 IBA and nucleotide sequencing. Discrepant results were obtained in only 5.1% (n = 6). These data indicate that HCV subtypes can be serologically distinguished, providing the possibility for easier identification of infection with different KCV subtypes.     

Structural Insights into the Assembly of the Adeno-associated Virus Type 2 Rep68 Protein on the Integration Site AAVS1

Adeno-associated virus (AAV) is the only eukaryotic virus with the property of establishing latency by integrating site-specifically into the human genome. The integration site known as AAVS1 is located in chromosome 19 and contains multiple GCTC repeats that are recognized by the AAV non-structural Rep proteins. These proteins are multifunctional, with an N-terminal origin-binding domain (OBD) and a helicase domain joined together by a short linker. As a first step to understand the process of site-specific integration, we proceeded to characterize the recognition and assembly of Rep68 onto the AAVS1 site. We first determined the x-ray structure of AAV-2 Rep68 OBD in complex with the AAVS1 DNA site. Specificity is achieved through the interaction of a glycine-rich loop that binds the major groove and an α-helix that interacts with a downstream minor groove on the same face of the DNA. Although the structure shows a complex with three OBD molecules bound to the AAVS1 site, we show by using analytical centrifugation and electron microscopy that the full-length Rep68 forms a heptameric complex. Moreover, we determined that a minimum of two direct repeats is required to form a stable complex and to melt DNA. Finally, we show that although the individual domains bind DNA poorly, complex assembly requires oligomerization and cooperation between its OBD, helicase, and the linker domains.     

Interaction between the helicases genetically linked to Fanconi anemia group J and Bloom's syndrome

Bloom's syndrome (BS) and Fanconi anemia (FA) are autosomal recessive disorders characterized by cancer and chromosomal instability. BS and FA group J arise from mutations in the BLM and FANCJ genes, respectively, which encode DNA helicases. In this work, FANCJ and BLM were found to interact physically and functionally in human cells and co-localize to nuclear foci in response to replication stress. The cellular level of BLM is strongly dependent upon FANCJ, and BLM is degraded by a proteasome-mediated pathway when FANCJ is depleted. FANCJ-deficient cells display increased sister chromatid exchange and sensitivity to replication stress. Expression of a FANCJ C-terminal fragment that interacts with BLM exerted a dominant negative effect on hydroxyurea resistance by interfering with the FANCJ-BLM interaction. FANCJ and BLM synergistically unwound a DNA duplex substrate with sugar phosphate backbone discontinuity, but not an 'undamaged' duplex. Collectively, the results suggest that FANCJ catalytic activity and its effect on BLM protein stability contribute to preservation of genomic stability and a normal response to replication stress.     

Specificity of the interactions between the Rep proteins and the origins of replication of Staphylococcus aureus plasmids pT181 and pC221

Summary pT181 and pC221 are closely relatedStaphylococcus aureus plasmids with the same genome organization, which is characterized by the overlapping of the origin of replication with the sequence encoding a protein, Rep, essential for plasmid replication. Former results have shown the lack of in vivo cross-complementation between these two plasmids, while in vitro studies have revealed the ability of both Rep proteins to act on either origin. One possible explanation for this difference was based on a previous analysis of the incompatibility expressed by the origin of replication of these plasmids, showing that the origin embedded in therep gene competes for Rep utilization with the origin of a test plasmid and that changes in the sequence of the origin reduce its ability to compete. To avoid this problem, in the present work special hybrids were constructed in which the origin of replication overlapping therep gene was mutationally inactivated, without changing the amino acid sequence of the encoded protein. The level of Rep expression by these hybrids could be varied by taking advantage of what is presently known about the control of Rep synthesis in plasmid pT181. The results of complenentation studies conducted using these hybrids have shown that: (i) at the usual level of expression for a wild-type plasmid each Rep protein can initiate replication strictly from its corresponding origin; (ii) when overproduced, the pT181 RepC protein could also act efficiently on the pC221 origin; a functional pT181 origin present in the same host completely prevented this complementation; (iii) in excess, the RepD protein encoded by pC221 could replicate a plasmid carrying the pT181 origin but could not ensure the hereditary stability of such a plasmid in the absence of another active replication system; (iv) when overproduced both RepC and RepD could act on the origin of replication of three other related plasmids pS194, pC223 and pUB112.     

Discovery of a novel unsymmetrical structural class of HCV NS5A inhibitors with low picomolar antiviral activity

A novel unsymmetrical structural class of HCV NS5A inhibitors showing picomolar range antiviral activity has been identified. An unsymmetrical lead compound 2, generated from a substructure of a known symmetrical inhibitor 1, was optimized by extension of its substituents to interact with the hitherto unexplored site of the target protein. This approach afforded novel highly potent unsymmetrical inhibitor 20, which not only equally inhibited HCV genotypes1a, 1b, and 2a with EC₅₀ values in the picomolar range, but also inhibited the 1a Q30K mutant induced by a launched symmetrical inhibitor daclatasvir with an EC₅₀ in the low nanomolar range.     

Dual inhibition of HCV and HIV by ring-expanded nucleosides containing the 5:7-fused imidazo[4,5-e][1,3]diazepine ring system. In vitro results and implications

Examples of ring-expanded nucleosides (RENs), represented by general structures 1 and 2, exhibited dual anti-HCV and anti-HIV activities in both cell culture systems and the respective target enzyme assays, including HCV NTPase/helicase and human RNA helicase DDX3. Since HCV is a leading co-infection in late stage HIV AIDS patients, often leading to liver cirrhosis and death, the observed dual inhibition of HCV and HIV by the target nucleoside analogues has potentially beneficial implications in treating HIV patients infected with HCV.     

Molecular characterization of a recombinant replication protein (Rep) from the Antarctic bacterium Psychrobacter sp. TA144

The Antarctic Gram-negative bacterium Psychrobacter sp. TA144 contains two small cryptic plasmids, called pTAUp and pTADw. pTAUp encodes a replication enzyme (PsyRep) whose activity is responsible for plasmid replication via the rolling circle replication pathway. Several attempts to produce the wild-type biologically active PsyRep in Escherichia coli failed, possibly due to auto-regulation of the protein population. However, the serendipitous occurrence of a frameshift mutation during the preparation of an expression vector resulted in the over-production of a recombinant protein, changed in its last 14 amino acid residues (PsyRep*), that precipitates in insoluble form. The purification of PsyRep* inclusion bodies and the successful refolding of the cold adapted enzyme allowed us to carry out its functional characterization. The mutated protein still displays a double stranded DNA nicking activity, while the change at the C-terminus impairs the enzyme specificity for the pTAUp cognate Ori+ sequence.     

Functional studies reveal the similarities and differences between AM2 and BM2 proton channels from influenza viruses

AM2 and BM2 proton channels are attractive antiviral drug targets due to their essential roles during influenza virus replication. Although both AM2 and BM2 are proton-selective ion channels, they share little sequence similarity except for the HXXXW sequence, which suggests that their proton conductance properties might differ. To test this hypothesis, we applied two-electrode voltage clamp electrophysiological assays to study the specific conductance, leakage current, channel activation, and inhibition of AM2 and BM2 proton channels. It was found that BM2 channel has a higher specific conductance than AM2 channel at pH 5.5. Unlike AM2 channel, whose proton conductance is asymmetric (from viral exterior to interior), BM2 channel is capable of conducting proton in both directions. Moreover, BM2 requires a more acidic pH for channel activation than AM2, as revealed by its lower pK_a values. Finally, both AM2 and BM2 can be inhibited by Cu(II) and Cu(I). Overall, the results from this side-by-side comparison of AM2 and BM2 channels reveal the structure-function relationships of these two viroporins, and such information might be important for the designing of novel ion channels.     

HCV非结构蛋白(NS2/NS3)基因表达载体的构建及其一级结构分析

应用逆转录－聚合酶链反应（ＲＴ－ＰＣＲ）技术,从ＨＣＶ感染者血清中扩增编码ＨＣＶ病毒蛋白酶的ＮＳ２－ＮＳ３ｃＤＮＡ片段,在其５′和３′端分别引入ＥｃｏＲⅠ和ＸｂａⅠ限制性内切酶位点,定向克隆至真核表达载体ｐｃＤＮＡ３,构建重组载体ｐｃＤＮＡ－ＮＳ２３,重组表达载体经限制性内切酶消化鉴定．用ＳＰ６和Ｔ７通用引物对目的基因片断进行序列分析．序列同源性分析结果表明,与ＨＣＶ－Ｊ、ＨＣ－Ｃ２有高度的同源性,与ＨＣＶ－１、ＨＣＶ－Ｊ６、ＨＣＶ－Ｊ８同源性差,提示所克隆的基因属ＨＣＶⅡ型．该区内重要的功能位点如Ｚｎ２＋依赖性金属蛋白酶催化中心、丝氨酸蛋白酶催化中心等均高度保守     

SR-BI及其伴侣分子PDZK1在HCV入侵中的作用

B族Ⅰ型清道夫受体（scavenger receptor class B type I,SR-BI）是丙型肝炎病毒（hepatitis C virus,HCV）的受体之一,可以与HCV的包膜蛋白E2结合,介导病毒颗粒进入宿主细胞。伴侣分子PDZK1（PDZdomain containing 1）是一个含有4个PDZ结构域的支架蛋白,其第一个PDZ结构域可以与SR-BI的C端结合,调节其稳定表达和正确定位。研究发现PDZK1基因敲除以后,HCVcc（cell culture produced HCVvirus）和HCVpp（HCV pseudotype particles）的感染性明显下降;重新转入PDZK1后,可以部分恢复感染性。研究表明PDZK1可促进HCV入侵并可能是通过与SR-BI的相互作用介导的。伴侣分子对受体分子的调节在HCV入侵中的作用可能成为HCV治疗的潜在靶标,有助于开发新的治疗方法。     

HCV感染与IR 相关关系的研究进展

丙型肝炎是丙型肝炎病毒(HCV)感染以肝组织损伤为主的全身感染性疾病。HCV感染者中胰岛素抵抗(IR)和高胰岛素血症的高发比率已引起国内外学者广泛重视;对其的研究也日益深入,胰岛素抵抗不仅可以加速肝脏损伤的进程,而且影响抗病毒治疗的疗效;此外,尚可增加2型糖尿病、脂肪肝、动脉粥样硬化等代谢性疾病的患病机会。HCV通过多条途径干预胰岛素的信号传导,包括增加炎性细胞因子如肿瘤坏死因子-a(TNF-a)的分泌、胰岛素受体底物-1的磷酸化和以其糖异生基因如葡萄糖6磷酸酶、磷酸烯醇式丙酮酸羧激酶2的上调。本文将主要就HCV病毒干扰胰岛素信号传导通路而导致胰岛素抵抗的发生机制,以及期望通过对胰岛素抵抗机制的研究,研制出逆转胰岛素抵抗的靶向药物。