排序方式: 共有20条查询结果,搜索用时 15 毫秒
11.
Behnam Zolghadr Bernhard Gasselhuber Markus Windwarder Martin Pabst Daniel Kracher Martina Kerndl Sonja Zayni Andreas Hofinger-Horvath Roland Ludwig Dietmar Haltrich Chris Oostenbrink Christian Obinger Paul Kosma Paul Messner Christina Schäffer 《Extremophiles : life under extreme conditions》2015,19(2):451-467
12.
Schermelleh L Spada F Easwaran HP Zolghadr K Margot JB Cardoso MC Leonhardt H 《Nature methods》2005,2(10):751-756
DNA methyltransferases have a central role in the complex regulatory network of epigenetic modifications controlling gene expression in mammalian cells. To study the regulation of DNA methylation in living cells, we developed a trapping assay using transiently expressed fluorescent DNA methyltransferase 1 (Dnmt1) fusions and mechanism-based inhibitors 5-azacytidine (5-aza-C) or 5-aza-2'-deoxycytidine (5-aza-dC). These nucleotide analogs are incorporated into the newly synthesized DNA at nuclear replication sites and cause irreversible immobilization, that is, trapping of Dnmt1 fusions at these sites. We measured trapping by either fluorescence bleaching assays or photoactivation of photoactivatable green fluorescent protein fused to Dnmt1 (paGFP-Dnmt1) in mouse and human cells; mutations affecting the catalytic center of Dnmt1 prevented trapping. This trapping assay monitors kinetic properties and activity-dependent immobilization of DNA methyltransferases in their native environment, and makes it possible to directly compare mutations and inhibitors that affect regulation and catalytic activity of DNA methyltransferases in single living cells. 相似文献
13.
Rothbauer U Zolghadr K Muyldermans S Schepers A Cardoso MC Leonhardt H 《Molecular & cellular proteomics : MCP》2008,7(2):282-289
Green fluorescent proteins (GFPs) and variants thereof are widely used to study protein localization and dynamics. We engineered a specific binder for fluorescent proteins based on a 13-kDa GFP binding fragment derived from a llama single chain antibody. This GFP-binding protein (GBP) can easily be produced in bacteria and coupled to a monovalent matrix. The GBP allows a fast and efficient (one-step) isolation of GFP fusion proteins and their interacting factors for biochemical analyses including mass spectroscopy and enzyme activity measurements. Moreover GBP is also suitable for chromatin immunoprecipitations from cells expressing fluorescent DNA-binding proteins. Most importantly, GBP can be fused with cellular proteins to ectopically recruit GFP fusion proteins allowing targeted manipulation of cellular structures and processes in living cells. Because of the high affinity capture of GFP fusion proteins in vitro and in vivo and a size in the lower nanometer range we refer to the immobilized GFP-binding protein as GFP-nanotrap. This versatile GFP-nanotrap enables a unique combination of microscopic, biochemical, and functional analyses with one and the same protein. 相似文献
14.
Zolghadr B Klingl A Rachel R Driessen AJ Albers SV 《Extremophiles : life under extreme conditions》2011,15(2):235-244
Sugar binding proteins of the thermoacidophile Sulfolobus solfataricus function together with ABC transporters in the uptake of sugars. They are synthesized as precursors with a class III signal
peptide that are normally found in archaeal flagellins and bacterial type IV pilins. The functional expression of sugar binding
proteins at the cell surface is dependent on the bindosome assembly system (Bas) that is homologous to bacterial type IV pilin
assembly systems. The Bas system consists of an assembly ATPase, BasE; a membrane anchoring protein, BasF; and three small
class III signal peptide containing proteins BasABC. Expression of BasEF in a S. solfataricus ΔbasEF strain restored the uptake of glucose, while an ATPase mutant of BasE was unable to complement. BasEF was detergent-extracted
from S. solfataricus membranes as a stable protein complex. Solute binding proteins can be extracted from the cell surface as two high molecular
mass complexes of 600 and 400 kDa, wherein the largest complex also contains the main S-layer protein SlaA. Electron microscopic
analysis of the cell surface of the wild-type and ΔbasEF strain indicates that the absence of the BasEF complex causes an alteration in cell morphology and the corrugation of the
S-layer pattern that is reversed by complementation with the BasEF complex. These results suggest an interaction between the
S-layer and the sugar binding proteins that contribute to cell shape. 相似文献
15.
The hyperthermophilic archaeon Sulfolobus solfataricus contains an unusual large number of sugar binding proteins that are synthesized as precursors with a class III signal peptide. Such signal peptides are commonly used to direct archaeal flagellin subunits or bacterial (pseudo)pilins into extracellular macromolecular surface appendages. Likewise, S. solfataricus binding proteins have been suggested to assemble in higher ordered surface structures as well, tentatively termed the bindosome. Here we show that S. solfataricus contains a specific system that is needed for the functional surface localization of sugar binding proteins. This system, encoded by the bas (bindosome assembly system) operon, is composed of five proteins: basABC, three homologues of so-called bacterial (pseudo)pilins; BasE, a cytoplasmic ATPase; and BasF, an integral membrane protein. Deletion of either the three (pseudo)pilin genes or the basEF genes resulted in a severe defect of the cells to grow on substrates which are transported by sugar binding proteins containing class III signal peptides, while growth on glucose and maltose was restored when the corresponding genes were reintroduced in these cells. Concomitantly, DeltabasABC and DeltabasEF cells were severely impaired in glucose uptake even though the sugar binding proteins were normally secreted across the cytoplasmic membrane. These data underline the hypothesis that the bas operon is involved in the functional localization of sugar binding proteins at the cell surface of S. solfataricus. In contrast to surface structure assembly systems of Gram-negative bacteria, the bas operon seems to resemble an ancestral simplified form of these machineries. 相似文献
16.
Zolghadr K Mortusewicz O Rothbauer U Kleinhans R Goehler H Wanker EE Cardoso MC Leonhardt H 《Molecular & cellular proteomics : MCP》2008,7(11):2279-2287
Genetic high throughput screens have yielded large sets of potential protein-protein interactions now to be verified and further investigated. Here we present a simple assay to directly visualize protein-protein interactions in single living cells. Using a modified lac repressor system, we tethered a fluorescent bait at a chromosomal lac operator array and assayed for co-localization of fluorescent prey fusion proteins. With this fluorescent two-hybrid assay we successfully investigated the interaction of proteins from different subcellular compartments including nucleus, cytoplasm, and mitochondria. In combination with an S phase marker we also studied the cell cycle dependence of protein-protein interactions. These results indicate that the fluorescent two-hybrid assay is a powerful tool to investigate protein-protein interactions within their cellular environment and to monitor the response to external stimuli in real time. 相似文献
17.
18.
Siau Jia Wei Thomas Joseph Adelene Y. L. Sim Larisa Yurlova Kourosh Zolghadr David Lane Chandra Verma Farid Ghadessy 《PloS one》2013,8(4)
HDM2 binds to the p53 tumour suppressor and targets it for proteosomal degradation. Presently in clinical trials, the small molecule Nutlin-3A competitively binds to HDM2 and abrogates its repressive function. Using a novel in vitro selection methodology, we simulated the emergence of resistance by evolving HDM2 mutants capable of binding p53 in the presence of Nutlin concentrations that inhibit the wild-type HDM2-p53 interaction. The in vitro phenotypes were recapitulated in ex vivo assays measuring both p53 transactivation function and the direct p53-HDM2 interaction in the presence of Nutlin. Mutations conferring drug resistance were not confined to the N-terminal p53/Nutlin–binding domain, and were additionally seen in the acidic, zinc finger and RING domains. Mechanistic insights gleaned from this broad spectrum of mutations will aid in future drug design and further our understanding of the complex p53-HDM2 interaction. 相似文献
19.
Rothbauer U Zolghadr K Tillib S Nowak D Schermelleh L Gahl A Backmann N Conrath K Muyldermans S Cardoso MC Leonhardt H 《Nature methods》2006,3(11):887-889
We fused the epitope-recognizing fragment of heavy-chain antibodies from Camelidae sp. with fluorescent proteins to generate fluorescent, antigen-binding nanobodies (chromobodies) that can be expressed in living cells. We demonstrate that chromobodies can recognize and trace antigens in different subcellular compartments throughout S phase and mitosis. Chromobodies should enable new functional studies, as potentially any antigenic structure can be targeted and traced in living cells in this fashion. 相似文献
20.
Soufi Leila Farasat Alireza Ahmadpour-Yazdi Hossein Zolghadr Leila Gheibi Nematollah 《Molecular biology reports》2021,48(6):5161-5169
Molecular Biology Reports - Quercetin is one of the major flavonoids and it appears to have cytotoxic effects on various cancer cells through regulating the apoptosis pathway genes such as BAX and... 相似文献