共查询到20条相似文献,搜索用时 15 毫秒
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Valentyn Oksenych Bruno Bernardes de Jesus Alexander Zhovmer Jean‐Marc Egly Frédéric Coin 《The EMBO journal》2009,28(19):2971-2980
XPB and XPD subunits of TFIIH are central genome caretakers involved in nucleotide excision repair (NER), although their respective role within this DNA repair pathway remains difficult to delineate. To obtain insight into the function of XPB and XPD, we studied cell lines expressing XPB or XPD ATPase‐deficient complexes. We show the involvement of XPB, but not XPD, in the accumulation of TFIIH to sites of DNA damage. Recruitment of TFIIH occurs independently of the helicase activity of XPB, but requires two recently identified motifs, a R‐E‐D residue loop and a Thumb‐like domain. Furthermore, we show that these motifs are specifically involved in the DNA‐induced stimulation of the ATPase activity of XPB. Together, our data demonstrate that the recruitment of TFIIH to sites of damage is an active process, under the control of the ATPase motifs of XPB and suggest that this subunit functions as an ATP‐driven hook to stabilize the binding of the TFIIH to damaged DNA. 相似文献
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Hongbo Chen Hongxia Sun Yahong Chai Suge Zhang Aijiao Guan Qian Li Li Yao Yalin Tang 《Biochimica et Biophysica Acta (BBA)/General Subjects》2019,1863(1):31-38
Background
G-quadruplex has been viewed as a promising therapeutic target in oncology due to its potentially important roles in physiological and pathological processes. Emerging evidence suggests that the biological functions of G-quadruplexes are closely related to the binding of some proteins. Insulin-like growth factor type I (IGF-1), as a significant modulator of cell growth and development, may serve as a quadruplex-binding protein.Methods
The binding affinity and selectivity of IGF-1 to different DNA motifs in solution were measured by using fluorescence spectroscopy, Surface Plasmon Resonance (SPR), and force-induced remnant magnetization (FIRM). The effects of IGF-1 on the formation and stability of G-quadruplex structures were evaluated by circular dichroism (CD) and melting fluorescence resonance energy transfer (FRET) spectroscopy. The influence of quadruplex-specific ligands on the binding of G-quadruplexes with IGF-1 was determined by FIRM.Results
IGF-1 shows a binding specificity for G-quadruplex structures, especially the G-quadruplex structure with a parallel topology. The quadruplex-specific ligands TMPyP4 and PDS (Pyridostatin) can inhibit the interaction between G-quadruplexes and proteins.Conclusions
IGF-1 is demonstrated to selectively bind with G-quadruplex structures. The use of quadruplex-interactive ligands could modulate the binding of IGF-1 to G-quadruplexes.General significance
This study provides us with a new perspective to understand the possible physiological relationship between IGF-1 and G-quadruplexes and also conveys a strategy to regulate the interaction between G-quadruplex DNA and proteins. 相似文献7.
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Annika Wahl Silva Kasela Elena Carnero-Montoro Maarten van Iterson Jerko Štambuk Sapna Sharma Erik van den Akker Lucija Klaric Elisa Benedetti Genadij Razdorov Irena Trbojević-Akmačić Frano Vučković Ivo Ugrina Marian Beekman Joris Deelen Diana van Heemst Bastiaan T. Heijmans Christian Gieger 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(3):637-648
Background
Glycosylation is one of the most common post-translation modifications with large influences on protein structure and function. The effector function of immunoglobulin G (IgG) alters between pro- and anti-inflammatory, based on its glycosylation. IgG glycan synthesis is highly complex and dynamic.Methods
With the use of two different analytical methods for assessing IgG glycosylation, we aim to elucidate the link between DNA methylation and glycosylation of IgG by means of epigenome-wide association studies. In total, 3000 individuals from 4 cohorts were analyzed.Results
The overlap of the results from the two glycan measurement panels yielded DNA methylation of 7 CpG-sites on 5 genomic locations to be associated with IgG glycosylation: cg25189904 (chr.1, GNG12); cg05951221, cg21566642 and cg01940273 (chr.2, ALPPL2); cg05575921 (chr.5, AHRR); cg06126421 (6p21.33); and cg03636183 (chr.19, F2RL3). Mediation analyses with respect to smoking revealed that the effect of smoking on IgG glycosylation may be at least partially mediated via DNA methylation levels at these 7 CpG-sites.Conclusion
Our results suggest the presence of an indirect link between DNA methylation and IgG glycosylation that may in part capture environmental exposures.General significance
An epigenome-wide analysis conducted in four population-based cohorts revealed an association between DNA methylation and IgG glycosylation patterns. Presumably, DNA methylation mediates the effect of smoking on IgG glycosylation. 相似文献10.
Bruno César Feltes Conrado Pedebos Diego Bonatto Hugo Verli 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(12):2579-2589
Background
Xeroderma Pigmentosum (XP) is a disease caused by mutations in the nucleotide excision repair (NER) pathway. Patients with XP exhibit a high propensity to skin cancers and some subtypes of XP can even present neurological impairments. During NER, DDB2 (XPE), in complex with DDB1 (DDB-Complex), performs the DNA lesion recognition. However, not much is known about how mutations found in XP patients affect the DDB2 structure and complex assembly. Thus, we searched for structural evidence associated with the role of three naturally occurring mutations found in XPE patients: R273H, K244E, and L350P.Methods
Each mutant was individually constructed and submitted to multiple molecular dynamics simulations, done in triplicate for each designed system. Additionally, Dynamic Residue Interaction Networks were designed for each system and analyzed parallel with the simulations.Results
DDB2 mutations promoted loss of flexibility in the overall protein structure, producing a different conformational behavior in comparison to the WT, especially in the region comprising residues 354 to 371. Furthermore, the DDB-complex containing the mutated forms of DDB2 showed distinct behaviors for each mutant: R273H displayed higher structural instability when complexed; L350P affected DDB1 protein-protein binding with DDB2; and K244E, altered the complex binding trough different ways than L350P.Conclusions
The data gathered throughout the analyses helps to enlighten the structural basis for how naturally occurring mutations found in XPE patients impact on DDB2 and DDB1 function.General significance
Our data influence not only on the knowledge of XP but on the DNA repair mechanisms of NER itself. 相似文献11.
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Seong-Cheol Park Il Ryong Kim Jin-Young Kim Yongjae Lee Eun-Ji Kim Ji Hyun Jung Young Jun Jung Mi-Kyeong Jang Jung Ro Lee 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(12):2545-2554
Background
It remains an open question whether plant phloem sap proteins are functionally involved in plant defense mechanisms.Methods
The antifungal effects of two profilin proteins from Arabidopsis thaliana, AtPFN1 and AtPFN2, were tested against 11 molds and 4 yeast fungal strains. Fluorescence profiling, biophysical, and biochemical analyses were employed to investigate their antifungal mechanism.Results
Recombinant AtPFN1 and AtPFN2 proteins, expressed in Escherichia coli, inhibited the cell growth of various pathogenic fungal strains at concentrations ranging from 10 to 160?μg/mL. The proteins showed significant intracellular accumulation and cell-binding affinity for fungal cells. Interestingly, the AtPFN proteins could penetrate the fungal cell wall and membrane and act as inhibitors of fungal growth via generation of cellular reactive oxygen species and mitochondrial superoxide. This triggered the AtPFN variant-induced cell apoptosis, resulting in morphological changes in the cells.Conclusion
PFNs may play a critical role as antifungal proteins in the Arabidopsis defense system against fungal pathogen attacks.General significance
The present study indicates that two profilin proteins, AtPFN1 and AtPFN2, can act as natural antimicrobial agents in the plant defense system. 相似文献13.
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Rafal Krela Elzbieta Poreba Martyna Weglewska Tomasz Skrzypczak Krzysztof Lesniewicz 《Biochimica et Biophysica Acta (BBA)/General Subjects》2019,1863(3):521-527
Background
During standard gene cloning, the recombinant protein appearing in bacteria as the result of expression leakage very often inhibits cell proliferation leading to blocking of the cloning procedure. Although different approaches can reduce transgene basal expression, the recombinant proteins, which even in trace amounts inhibit bacterial growth, can completely prevent the cloning process.Methods
Working to solve the problem of DNase II-like cDNA cloning, we developed a novel cloning approach. The method is based on separate cloning of the 5′ and 3′ fragments of target cDNA into a vector in such a way that the short Multiple Cloning Site insertion remaining between both fragments changes the reading frame and prevents translation of mRNA arising as a result of promoter leakage. Subsequently, to get the vector with full, uninterrupted Open Reading Frame, the Multiple Cloning Site insertion is removed by in vitro restriction/ligation reactions, utilizing the unique restriction site present in native cDNA.Results
Using this designed method, we cloned a coding sequence of AcDNase II that is extremely toxic for bacteria cells. Then, we demonstrated the usefulness of the construct prepared in this way for overexpression of AcDNase II in eukaryotic cells.Conclusions
The designed method allows cloning of toxic protein coding sequences that cannot be cloned by standard methods.General significance
Cloning of cDNAs encoding toxic proteins is still a troublesome problem that hinders the progress of numerous studies. The method described here is a convenient solution to cloning problems that are common in research on toxic proteins. 相似文献16.
BACKGROUND:
Inherited polymorphisms of XPD and XPC genes may contribute to subtle variations in NER DNA repair capacity and genetic susceptibility to development of urological cancer such as prostate and bladder cancer.MATERIALS AND METHODS:
We genotyped four Single Nucleotide Polymorphs (SNPs) of the DNA repair gene XPD and XPC in 195 prostate cancer (PCa) and 212 bladder cancer (BC) patients and 250 healthy controls from the same area. XPD Exon 10 (G>A) by amplification refractory mutation system and Exon 23 (A>C), XPC Intron 9 (Ins/Del) and Exon 15 (A>C) were genotyped by PCR-RFLP.RESULTS:
Variant genotype of XPC demonstrated association with PCa as well as in BC (P, 0.013; P, 0.003). Combined genotype (GA+AA) revealed association with PCa and in BC (P, 0.012, P, 0.002). Variant allele also demonstrated risk in both the cancer. Diplotype of XPD and XPC was associated with a significant increase in PCa and BC risk. Variant (+/+) genotype of XPC intron 9 shown increased risk with PCa and in BC (P, 0.012; P, 0.032). CC genotype of XPC exon 15 revealed increase risk (P, 0.047) with PCa not in BC. In clinopathological grade variant allele of XPC intron 9 and 15 demonstrated risk with high grade of tumor and bone metastasis of PCa. In BC variant allele of XPD exon 10 and 15 also shown association with tumor grade. XPC intron 9 influences the risk of BC in former tobacco users in BC.CONCLUSIONS:
Our result support that SNPs in XPD and XPC gene may reduce NER repair capacity and play a major role for PCa and BC in North India. 相似文献17.
Background
The mini-chromosome maintenance protein (MCM) complex is an essential replicative helicase for DNA replication in Archaea and Eukaryotes. While the eukaryotic complex consists of six homologous proteins (MCM2-7), the archaeon Sulfolobus solfataricus has only one MCM protein (ssoMCM), six subunits of which form a homohexamer. We have recently reported a 4.35Å crystal structure of the near full-length ssoMCM. The structure reveals a total of four β-hairpins per subunit, three of which are located within the main channel or side channels of the ssoMCM hexamer model generated based on the symmetry of the N-terminal Methanothermobacter thermautotrophicus (mtMCM) structure. The fourth β-hairpin, however, is located on the exterior of the hexamer, near the exit of the putative side channels and next to the ATP binding pocket.Results
In order to better understand this hairpin's role in DNA binding and helicase activity, we performed a detailed mutational and biochemical analysis of nine residues on this exterior β-hairpin (EXT-hp). We examined the activities of the mutants related to their helicase function, including hexamerization, ATPase, DNA binding and helicase activities. The assays showed that some of the residues on this EXT-hp play a role for DNA binding as well as for helicase activity.Conclusions
These results implicate several current theories regarding helicase activity by this critical hexameric enzyme. As the data suggest that EXT-hp is involved in DNA binding, the results reported here imply that the EXT-hp located near the exterior exit of the side channels may play a role in contacting DNA substrate in a manner that affects DNA unwinding.18.
Bita Zamiri Mila Mirceta Rashid Abu-Ghazalah Marc S. Wold Christopher E. Pearson Robert B. Macgregor 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(6):1482-1491
Background
Expansion of the C9orf72 hexanucleotide repeat (GGGGCC)n·(GGCCCC)n is the most common cause of amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). Both strands of the C9orf72 repeat have been shown to form unusual DNA and RNA structures that are thought to be involved in mutagenesis and/or pathogenesis. We previously showed that the C-rich DNA strands from the C9orf72 repeat can form four-stranded quadruplexes at neutral pH. The cytosine residues become protonated under slightly acidic pH (pH?4.5–6.2), facilitating the formation of intercalated i-motif structures.Methods
Using CD spectroscopy, UV melting, and gel electrophoresis, we demonstrate a pH-induced structural transition of the C-rich DNA strand of the C9orf72 repeat at pHs reported to exist in living cells under stress, including during neurodegeneration and cancer.Results
We show that the repeats with lengths of 4, 6, and 8?units, form intercalated quadruplex i-motifs at low pH (pH?<?5) and monomolecular hairpins and monomolecular quadruplexes under neutral-basic conditions (pH?≥?8). Furthermore, we show that the human replication protein A (RPA) binds to the G-rich and C-rich DNA strands under acidic conditions, suggesting that it can bind to i-motif structures.Conclusions
In the proper sequence context, i-motif structures can form at pH values found in some cells in vivo.General significance
DNA conformational plasticity exists over broad range of solution conditions. 相似文献19.
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Jun Wu Nana Tao Yao Tian Guanglin Xing Huihui Lv Junhai Han Chengqi Lin Wei Xie 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(3):440-450