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10. Chromatin association of replication protein A.

Author

Treuner, K, Eckerich, C, and Knippers, R

Abstract

Replication protein A (RPA) is the major single strand-specific DNA-binding protein in eukaryotic cells. We have investigated the distribution of RPA in nuclei of proliferating HeLa cells and found that only one-third of the detectable RPA appeared to be bound to DNA in chromatin, whereas the remainder was free in the nucleosol. This distribution did not significantly change when cells were released from a double thymidine block into the S phase of the cell cycle. Single strand-specific endonucleases failed to mobilize RPA bound to chromatin in G1 phase and S phase HeLa cells. In contrast, brief treatments with pancreatic DNase I or with micrococcal nuclease sufficed to release RPA from its chromatin-binding sites. Sucrose gradient analysis of soluble micrococcal nuclease digests showed that the released RPA sedimented free of mono- or oligonucleosomal chromatin fragments, possibly indicating that most of the detectable RPA may be associated with chromatin sites, which are more open to nuclease attack than bulk chromatin. The surprising conclusion is that the majority of the detectable RPA is, either directly or indirectly, associated with double-stranded DNA regions in chromatin from HeLa cells in G1 phase and in S phase.

Published
1998

11. A novel splicing isoform of protein arginine methyltransferase 1 (PRMT1) that lacks the dimerization arm and correlates with cellular malignancy.

Author

Patounas O, Papacharalampous I, Eckerich C, Markopoulos GS, Kolettas E, and Fackelmayer FO

Subjects
A549 Cells, Catalytic Domain, Cell Line, Tumor, Cell Nucleus genetics, Exons, HEK293 Cells, HeLa Cells, Humans, Models, Molecular, Protein Conformation, Protein Isoforms chemistry, Protein Multimerization, Alternative Splicing, Neoplasms genetics, Protein-Arginine N-Methyltransferases chemistry, Protein-Arginine N-Methyltransferases genetics, Repressor Proteins chemistry, Repressor Proteins genetics, Up-Regulation
Abstract

Methylation of arginine residues is an important modulator of protein function that is involved in epigenetic gene regulation, DNA damage response and RNA maturation, as well as in cellular signaling. The enzymes that catalyze this post-translational modification are called protein arginine methyltransferases (PRMTs), of which PRMT1 is the predominant enzyme. Human PRMT1 has previously been shown to occur in seven splicing isoforms, which are differentially abundant in different tissues, and have distinct substrate specificity and intracellular localization. Here we characterize a novel splicing isoform which does not affect the amino-terminus of the protein like the seven known isoforms, but rather lacks exons 8 and 9 which encode the dimerization arm of the enzyme that is essential for enzymatic activity. Consequently, the isoform does not form catalytically active oligomers with the other endogenous PRMT1 isoforms. Photobleaching experiments reveal an immobile fraction of the enzyme in the nucleus, in accordance with earlier results from our laboratory that had shown a tight association of inhibited or inactivated PRMT1 with chromatin and the nuclear scaffold. Thus, it apparently is able to bind to the same substrates as catalytically active PRMT1. This isoform is found in a variety of cell lines, but is increased in those of cancer origin or after expression of the EMT-inducing transcriptional repressor Snail1. We discuss that the novel isoform could act as a modulator of PRMT1 activity in cancer cells by acting as a competitive inhibitor that shields substrates from access to active PRMT1 oligomers., (© 2017 Wiley Periodicals, Inc.)

Published
2018
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12. RON receptor tyrosine kinase in human gliomas: expression, function, and identification of a novel soluble splice variant.

Author

Eckerich C, Schulte A, Martens T, Zapf S, Westphal M, and Lamszus K

Subjects
Blotting, Western, Cell Line, Tumor, Cell Movement, Cell Proliferation, DNA, Complementary biosynthesis, DNA, Complementary genetics, Exons genetics, Humans, Immunohistochemistry, Ligands, Microscopy, Fluorescence, Receptor Protein-Tyrosine Kinases physiology, Reverse Transcriptase Polymerase Chain Reaction, Brain Neoplasms enzymology, Glioma enzymology, Receptor Protein-Tyrosine Kinases biosynthesis, Receptor Protein-Tyrosine Kinases genetics
Abstract

Malignant gliomas are incurable because of their diffuse infiltration of the surrounding brain. The recepteur d'origine nantais (RON) receptor tyrosine kinase is highly expressed in several epithelial cancer types and mediates tumorigenic, pro-invasive as well as metastatic effects. Analyzing RON expression in human gliomas, we found that different splice variants with known oncogenic activity are expressed in glioblastomas (GBM). In addition, the RON ligand macrophage-stimulating protein (MSP) is secreted by cultured GBM cells. MSP showed no mitogenic effect on GBM cells but displayed significant chemotactic activity for several GBM cell lines. We identified a novel splice variant, RONDelta90, which is generated by a transcript missing exon 6. As a result of a frameshift, translation is terminated in exon 7, resulting in a truncated soluble protein. RONDelta90 transcripts are expressed in normal human brain as well as in low grade astrocytomas but only in approximately 50% of highly malignant astrocytomas. In addition, RONDelta90 is detectable in supernatants of GBM cell lines. We cloned the RONDelta90 cDNA, and purified the recombinant protein from transfected cells. RONDelta90 inhibited MSP-induced phosphorylation of cellular RON and also attenuated basal activation levels. In addition, RONDelta90 inhibited MSP-induced glioma cell migration as well as random motility. To conclude, RONDelta90 is a novel soluble receptor variant with antagonistic activity that may act as a physiological modulator of RON signaling. The expression of several oncogenic RON splice variants in malignant gliomas suggests that these could represent candidate targets for treatment with agents inhibiting RON activity.

Published
2009
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13. Human protein arginine methyltransferases in vivo--distinct properties of eight canonical members of the PRMT family.

Author

Herrmann F, Pably P, Eckerich C, Bedford MT, and Fackelmayer FO

Subjects
Cell Line, Fluorescence Recovery After Photobleaching, Humans, Isoenzymes genetics, Protein Processing, Post-Translational, Protein-Arginine N-Methyltransferases genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Substrate Specificity, Isoenzymes metabolism, Protein-Arginine N-Methyltransferases metabolism
Abstract

Methylation of arginine residues is a widespread post-translational modification of proteins catalyzed by a small family of protein arginine methyltransferases (PRMTs). Functionally, the modification appears to regulate protein functions and interactions that affect gene regulation, signalling and subcellular localization of proteins and nucleic acids. All members have been, to different degrees, characterized individually and their implication in cellular processes has been inferred from characterizing substrates and interactions. Here, we report the first comprehensive comparison of all eight canonical members of the human PRMT family with respect to subcellular localization and dynamics in living cells. We show that the individual family members differ significantly in their properties, as well as in their substrate specificities, suggesting that they fulfil distinctive, non-redundant functions in vivo. In addition, certain PRMTs display different subcellular localization in different cell types, implicating cell- and tissue-specific mechanisms for regulating PRMT functions.

Published
2009
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14. Hypoxia can induce c-Met expression in glioma cells and enhance SF/HGF-induced cell migration.

Author

Eckerich C, Zapf S, Fillbrandt R, Loges S, Westphal M, and Lamszus K

Subjects
Blotting, Western, Cell Hypoxia, Cell Line, Tumor, Glioblastoma genetics, Glioblastoma metabolism, Glioblastoma pathology, Hepatocyte Growth Factor metabolism, Humans, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, RNA Interference, RNA, Small Interfering genetics, Time Factors, Transfection, Tumor Cells, Cultured, Cell Movement drug effects, Hepatocyte Growth Factor pharmacology, Proto-Oncogene Proteins c-met metabolism
Abstract

The c-Met receptor and its ligand scatter factor/hepatocyte growth factor (SF/HGF) are strongly overexpressed in malignant gliomas. Signaling through c-Met as well as exposure to hypoxia can stimulate glioma cell migration and invasion. In several cancer cell types, hypoxia was shown to activate the c-met promoter, which contains hypoxia inducible factor-1 (HIF-1) binding sites. We hypothesized that hypoxia might upregulate c-Met also in glioma cells. Analyzing 18 different glioblastoma cell lines and 10 glioblastoma primary cultures, we found that in 50% of both the cell lines and the primary cultures c-Met protein levels were increased following exposure to hypoxia. Upregulation of c-met in response to hypoxia was also detected at the transcriptional level. In all primary cultures and in 16 of the 18 cell lines (89%), HIF-1 alpha levels were increased by hypoxia. Transfection of siRNA against HIF-1 alpha abgrogated the hypoxic induction of c-Met, suggesting that c-Met expression is upregulated by a HIF-1 alpha-dependent mechanism. Hypoxia sensitized glioblastoma cell lines which showed hypoxic induction of c-Met to the motogenic effects of SF/HGF. These findings suggest that approximately half of all human glioblastomas respond to hypoxia with an induction of c-Met, which can enhance the stimulating effect of SF/HGF on tumor cell migration., ((c) 2007 Wiley-Liss, Inc.)

Published
2007
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15. A novel one-armed anti-c-Met antibody inhibits glioblastoma growth in vivo.

Author

Martens T, Schmidt NO, Eckerich C, Fillbrandt R, Merchant M, Schwall R, Westphal M, and Lamszus K

Subjects
Animals, Cell Line, Tumor, Humans, Mice, Mice, Nude, Phosphorylation, Proto-Oncogene Proteins c-met metabolism, Transplantation, Heterologous, Antibodies pharmacology, Cell Division drug effects, Glioblastoma pathology, Proto-Oncogene Proteins c-met immunology
Abstract

Purpose: Expression of the receptor tyrosine kinase c-Met and its ligand scatter factor/hepatocyte growth factor (SF/HGF) are strongly increased in glioblastomas, where they promote tumor proliferation, migration, invasion, and angiogenesis. We used a novel one-armed anti-c-Met antibody to inhibit glioblastoma growth in vivo., Experimental Design: U87 glioblastoma cells (c-Met and SF/HGF positive) or G55 glioblastoma cells (c-Met positive and SF/HGF negative) were used to generate intracranial orthotopic xenografts in nude mice. The one-armed 5D5 (OA-5D5) anti-c-Met antibody was infused intratumorally using osmotic minipumps. Following treatment, tumor volumes were measured and tumors were analyzed histologically for extracellular matrix (ECM) components and proteases relevant to tumor invasion. Microarray analyses were done to determine the effect of the antibody on invasion-related genes., Results: U87 tumor growth, strongly driven by SF/HGF, was inhibited > 95% with OA-5D5 treatment. In contrast, G55 tumors, which are not SF/HGF driven, did not respond to OA-5D5, suggesting that the antibody can have efficacy in SF/HGF-activated tumors. In OA-5D5-treated U87 tumors, cell proliferation was reduced > 75%, microvessel density was reduced > 90%, and apoptosis was increased > 60%. Furthermore, OA-5D5 treatment decreased tumor cell density > 2-fold, with a consequent increase in ECM deposition and increased immunoreactivity for laminin, fibronectin, and tenascin. Microarray studies showed no increase in these ECM factors, rather down-regulation of urokinase-type plasminogen activator and matrix metalloproteinase 16 in glioblastoma cells treated with OA-5D5., Conclusions: Local treatment with OA-5D5 can almost completely inhibit intracerebral glioblastoma growth when SF/HGF is driving tumor growth. The mechanisms of tumor inhibition include antiproliferative, antiangiogenic, and proapoptotic effects.

Published
2006
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16. RNA interference targeting protein tyrosine phosphatase zeta/receptor-type protein tyrosine phosphatase beta suppresses glioblastoma growth in vitro and in vivo.

Author

Ulbricht U, Eckerich C, Fillbrandt R, Westphal M, and Lamszus K

Subjects
Animals, Blotting, Western methods, Cell Count methods, Cell Line, Tumor, Cell Movement physiology, Cell Proliferation, Down-Regulation physiology, Glial Fibrillary Acidic Protein metabolism, Glioblastoma metabolism, Glioblastoma pathology, Humans, Immunohistochemistry methods, Mice, Mice, Nude, Neoplasm Transplantation methods, Nerve Tissue Proteins genetics, Protein Tyrosine Phosphatases genetics, RNA, Small Interfering pharmacology, Receptor-Like Protein Tyrosine Phosphatases, Class 5, Statistics, Nonparametric, Time Factors, Transfection methods, Glioblastoma physiopathology, Nerve Tissue Proteins metabolism, Protein Tyrosine Phosphatases metabolism, RNA Interference physiology, RNA, Small Interfering physiology
Abstract

The protein tyrosine phosphatase zeta/receptor-type protein tyrosine phosphatase beta (PTPzeta/RPTPbeta) and its ligand pleiotrophin (PTN) are overexpressed in human glioblastomas. Both molecules are involved in neuronal cell migration during CNS development. In addition, PTN can induce glioma cell migration which is at least in part mediated through binding to PTPzeta/RPTPbeta. To study the relevance of this ligand-receptor pair for glioma growth in vitro and in vivo, we transfected the human glioblastoma cell line U251-MG with small interfering RNA (siRNA) directed against PTPzeta/RPTPbeta. Stable siRNA transfection resulted in strong down-regulation of PTPzeta/RPTPbeta expression. When injected subcutaneously into nude mice, clones that expressed normal levels of PTPzeta/RPTPbeta (PTPzeta + clones) formed exponentially growing tumours, whereas tumour growth was almost completely abrogated for clones that expressed reduced PTPzeta/RPTPbeta levels (PTPzeta - clones). Similar results were obtained using an orthotopic intracerebral model. Proliferation of PTPzeta - cells in vitro was significantly reduced compared with that of control clones. Matrix-immobilized PTN stimulated the proliferation of PTPzeta + cells but not of PTPzeta - cells. Haptotactic migration induced by PTN was reduced for PTPzeta - clones compared with control clones. Our findings suggest that antagonization of PTPzeta/RPTPbeta expression can inhibit glioma growth in vivo and may thus represent a potentially promising treatment strategy.

Published
2006
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17. Contactin is expressed in human astrocytic gliomas and mediates repulsive effects.

Author

Eckerich C, Zapf S, Ulbricht U, Müller S, Fillbrandt R, Westphal M, and Lamszus K

Subjects
Astrocytes pathology, Astrocytoma pathology, Astrocytoma physiopathology, Biomarkers, Tumor genetics, Brain Neoplasms pathology, Brain Neoplasms physiopathology, Cell Adhesion physiology, Cell Adhesion Molecules, Neuronal genetics, Cell Aggregation physiology, Cell Communication physiology, Cell Line, Tumor, Cell Movement physiology, Cell Proliferation, Contactins, Extracellular Matrix Proteins metabolism, Gene Expression Regulation, Neoplastic physiology, Glial Fibrillary Acidic Protein metabolism, Humans, Ligands, Neoplasm Invasiveness, Protein Tyrosine Phosphatases metabolism, Astrocytes metabolism, Astrocytoma metabolism, Biomarkers, Tumor metabolism, Brain Neoplasms metabolism, Cell Adhesion Molecules, Neuronal metabolism
Abstract

Contactin is a cell surface adhesion molecule that is normally expressed by neurons and oligodendrocytes. Particularly high levels of contactin are present during brain development. Using subtractive cloning, we identified contactin transcripts as overexpressed in glioblastomas compared with normal brain. We confirmed contactin overexpression in glioblastomas at the protein level, and localized contactin to the surface of glial fibrillary acidic protein (GFAP)-expressing glioblastoma cells. In contrast, normal astrocytes did not express contactin. Analyzing different types of astrocytic tumors, we detected an association between increasing malignancy grade and contactin expression. Functionally, contactin had repellent effects on glioma cells in vitro, as demonstrated by adhesion and migration assays. Overexpression of contactin by transfection into glioblastoma cells did not alter the proliferation rate or adhesion to various extracellular matrix proteins as well as adhesion to cells expressing the specific contactin ligand the protein tyrosine phosphatase zeta (PTPzeta). Our findings suggest that contactin has repellent effects on glioma cells to which it is presented as a ligand, but it does not alter the proliferative or adhesive capacities of cells that overexpress the molecule. The repulsive properties of contactin may be a key factor in glioma disaggregation, and may contribute to the diffuse infiltration pattern characteristic of glioma cells in human brain., ((c) 2005 Wiley-Liss, Inc.)

Published
2006
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18. Inhibition of glioblastoma angiogenesis and invasion by combined treatments directed against vascular endothelial growth factor receptor-2, epidermal growth factor receptor, and vascular endothelial-cadherin.

Author

Lamszus K, Brockmann MA, Eckerich C, Bohlen P, May C, Mangold U, Fillbrandt R, and Westphal M

Subjects
Animals, Antibodies, Monoclonal administration & dosage, Antibodies, Monoclonal therapeutic use, Antigens, CD, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Apoptosis drug effects, Cadherins immunology, Cell Line, Tumor, Cell Movement drug effects, Cell Proliferation drug effects, Dose-Response Relationship, Drug, Endothelium, Vascular metabolism, ErbB Receptors immunology, Female, Glioblastoma blood supply, Glioblastoma pathology, Humans, Mice, Mice, SCID, Neoplasm Invasiveness, Neovascularization, Pathologic pathology, Transforming Growth Factor alpha pharmacology, Vascular Endothelial Growth Factor Receptor-2 immunology, Xenograft Model Antitumor Assays methods, Antibodies, Monoclonal pharmacology, Glioblastoma drug therapy, Neovascularization, Pathologic prevention & control
Abstract

Purpose: Inhibition of angiogenesis can influence tumor cell invasion and metastasis. We previously showed that blockade of vascular endothelial growth factor receptor-2 (VEGFR-2) with the monoclonal antibody DC101 inhibited intracerebral glioblastoma growth but caused increased tumor cell invasion along the preexistent vasculature. In the present study, we attempted to inhibit glioma cell invasion using a monoclonal antibody against the epidermal growth factor receptor (EGFR), which in the context of human glioblastomas, has been implicated in tumor cell invasion. In addition, we analyzed whether blockade of vascular endothelial (VE)-cadherin as a different antiangiogenic target could also inhibit glioblastoma angiogenesis and growth., Experimental Designs: Nude mice who received intracerebral glioblastoma xenografts were treated using monoclonal antibodies against VEGFR-2 (DC101), EGFR (C225), and VE-cadherin (E4G10) either alone or in different combinations., Results: Increased tumor cell invasion provoked by DC101 monotherapy was inhibited by 50% to 66% by combined treatment with C225 and DC101. C225 inhibited glioblastoma cell migration in vitro, but had no effect on the volume of the main tumor mass or on tumor cell proliferation or apoptosis in vivo, either alone or in combination with DC101. The anti-VE-cadherin monoclonal antibody E4G10 was a weaker inhibitor of tumor angiogenesis and growth than DC101, and also caused a weaker increase in tumor cell invasion., Conclusions: Inhibition of angiogenesis achieved by blocking either VEGFR-2 or VE-cadherin can cause increased glioma cell invasion in an orthotopic model. Increased tumor cell invasion induced by potent inhibition of angiogenesis with DC101 could be inhibited by simultaneous blockade of EGFR.

Published
2005
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19. Expression and function of the receptor protein tyrosine phosphatase zeta and its ligand pleiotrophin in human astrocytomas.

Author

Ulbricht U, Brockmann MA, Aigner A, Eckerich C, Müller S, Fillbrandt R, Westphal M, and Lamszus K

Subjects
Astrocytoma genetics, Brain Neoplasms genetics, Carrier Proteins genetics, Carrier Proteins metabolism, Cell Line, Tumor, Cytokines genetics, Cytokines metabolism, Humans, Ligands, Protein Tyrosine Phosphatases genetics, Receptor-Like Protein Tyrosine Phosphatases, Class 5, Astrocytoma metabolism, Brain Neoplasms metabolism, Carrier Proteins biosynthesis, Cytokines biosynthesis, Gene Expression Regulation, Neoplastic physiology, Protein Tyrosine Phosphatases biosynthesis, Protein Tyrosine Phosphatases physiology
Abstract

Using subtractive cloning combined with cDNA array analysis, we previously identified the genes encoding for the protein tyrosine phosphatase zeta/receptor-type protein tyrosine phosphatase beta (PTPzeta/RPTPbeta) and its ligand pleiotrophin (PTN) as overexpressed in human glioblastomas compared to normal brain. Both molecules have been implicated in neuronal migration during central nervous system development, and PTN is known to be involved in tumor growth and angiogenesis. We confirm overexpression of both molecules at the protein level in astrocytic gliomas of different malignancy grades. PTPzeta/RPTPbeta immunoreactivity was associated with increasing malignancy grade and localized predominantly to the tumor cells. PTN immunoreactivity as determined by ELISA and immunohistochemistry analysis was increased in low-grade astrocytomas compared to normal brain. Further increase in malignant gliomas was marginal, and thus no correlation with malignancy grade or microvessel density was present. However, PTN levels were significantly associated with those of fibroblast growth factor-2, suggesting co-regulation of both factors. Functionally, PTN induced weak chemotactic and strong haptotactic migration of glioblastoma and cerebral microvascular endothelial cells. Haptotaxis of glioblastoma cells towards PTN was specifically inhibited by an anti-PTPzeta/RPTPbeta antibody. Our findings suggest that upregulated expression of PTN and PTPzeta/RPTPbeta in human astrocytic tumor cells can create an autocrine loop that is important for glioma cell migration. Although PTN is a secreted growth factor, it appears to exert its mitogenic effects mostly in a matrix-immobilized form, serving as a substrate for migrating tumor cells.

Published
2003
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20. The ubiquitous chromatin protein DEK alters the structure of DNA by introducing positive supercoils.

Author

Waldmann T, Eckerich C, Baack M, and Gruss C

Subjects
Glutathione Transferase metabolism, HeLa Cells, Humans, Microscopy, Electron, Protein Binding, Proto-Oncogene Mas, Recombinant Fusion Proteins metabolism, Chromatin metabolism, DNA, Superhelical chemistry, Nucleic Acid Conformation, Proto-Oncogene Proteins metabolism
Abstract

We have investigated the molecular mechanism by which the proto-oncogene protein DEK, an abundant chromatin-associated protein, changes the topology of DNA in chromatin in vitro. Band-shift assays and electron microscopy revealed that DEK induces both intra- and intermolecular interactions between DNA molecules. Binding of the DEK protein introduces constrained positive supercoils both into protein-free DNA and into DNA in chromatin. The induced change in topology is reversible after removal of the DEK protein. As shown by sedimentation analysis and electron microscopy, the DEK-induced positive supercoiling causes distinct structural changes of DNA and chromatin. The observed direct effects of DEK on chromatin folding help to understand the function that this major chromatin protein performs in the nucleus.

Published
2002
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21. Zinc affects the conformation of nucleoprotein filaments formed by replication protein A (RPA) and long natural DNA molecules.

Author

Eckerich C, Fackelmayer FO, and Knippers R

Subjects
Bacteriophage M13, Cations, Divalent, DNA Helicases chemistry, DNA, Complementary chemistry, DNA, Single-Stranded chemistry, Electrophoresis, Agar Gel, Humans, Intermediate Filaments ultrastructure, Microscopy, Electron, Nucleoproteins ultrastructure, Replication Protein A, DNA chemistry, DNA-Binding Proteins chemistry, Intermediate Filaments chemistry, Nucleoproteins chemistry, Protein Conformation drug effects, Zinc pharmacology
Abstract

Replication protein A is the major single strand DNA binding protein of human cells, composed of three subunits with molecular weights of 70, 32, and 14 kDa. Most of the DNA binding activity of RPA has been mapped to the largest subunit that contains two OB-fold DNA binding domains and a third, OB-like structure in the carboxyterminal domain (CTD). This third domain resembles an OB-fold with a zinc binding domain inserted in the middle of the structure, and has recently been shown to carry a coordinated Zn(II) ion. The bound metal ion is essential for the tertiary structure of the RPA70-CTD, and appears to modulate its DNA binding activity when tested with synthetic oligonucleotides. We show here that zinc strongly affects the conformation of nucleoprotein filaments formed between RPA and long natural DNA molecules. In these experiments, the CTD is dispensable for DNA binding and the unwinding of long double stranded DNA molecules. However, using band shift assays and electron microscopy, we found that RPA-DNA complexes contract at zinc concentrations that do not affect the conformations of complexes formed between DNA and a RPA70 deletion construct lacking the CTD. Our data suggest that nucleoprotein complexes with RPA in its natural, zinc-bearing form may have a compact rather than an extended conformation.

Published
2001
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