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101.
102.
Human T cell leukemia virus type 1 Tax associates with a molecular chaperone complex containing hTid-1 and Hsp70. 总被引:5,自引:0,他引:5
H Cheng C Cenciarelli Z Shao M Vidal W P Parks M Pagano C Cheng-Mayer 《Current biology : CB》2001,11(22):1771-1775
Tax, an oncogenic viral protein encoded by human T cell leukemia virus type 1 (HTLV-1), induces cellular transformation of T lymphocytes by modulating a variety of cellular gene expressions [1]. Identifying cellular partners that interact with Tax constitutes the first step toward elucidating the molecular basis of Tax-induced transformation. Here, we report a novel Tax-interacting protein, hTid-1. hTid-1, a human homolog of the Drosophila tumor suppressor protein Tid56, was initially characterized based on its interaction with the HPV-16 E7 oncoprotein [2]. hTid-1 and Tid56 are members of the DnaJ family [2,3], which contains a highly conserved signature J domain that regulates the activities of heat shock protein 70 (Hsp70) by serving as cochaperone [4-6]. In this context, the molecular chaperone complex is involved in cellular signaling pathways linked to apoptosis, protein folding, and membrane translocation and in modulation of the activities of tumor suppressor proteins, including retinoblastoma, p53, and WT1[7-12]. We find that expression of hTid-1 inhibits the transformation phenotype of two human lung adenocarcinoma cell lines. We show that Tax interacts with hTid-1 via a central cysteine-rich domain of hTid-1 while a signature J domain of hTid-1 mediates its binding to Hsp70 in HEK cells. Importantly, Tax associates with the molecular chaperone complex containing both hTid-1 and Hsp70 and alters the cellular localization of hTid-1 and Hsp70. In the absence of Tax, expression of the hTid-1/Hsp70 molecular complex is targeted to perinuclear mitochondrial clusters. In the presence of Tax, hTid-1 and its associated Hsp70 are sequestered within a cytoplasmic "hot spot" structure, a subcellular distribution that is characteristic of Tax in HEK cells. 相似文献
103.
Determining the taxonomic lineage of DNA sequences is an important step in metagenomic analysis. Short DNA fragments from next-generation sequencing projects and microbes that lack close relatives in reference sequenced genome databases pose significant problems to taxonomic attribution methods. Our new classification algorithm, RITA (Rapid Identification of Taxonomic Assignments), uses the agreement between composition and homology to accurately classify sequences as short as 50 nt in length by assigning them to different classification groups with varying degrees of confidence. RITA is much faster than the hybrid PhymmBL approach when comparable homology search algorithms are used, and achieves slightly better accuracy than PhymmBL on an artificial metagenome. RITA can also incorporate prior knowledge about taxonomic distributions to increase the accuracy of assignments in data sets with varying degrees of taxonomic novelty, and classified sequences with higher precision than the current best rank-flexible classifier. The accuracy on short reads can be increased by exploiting paired-end information, if available, which we demonstrate on a recently published bovine rumen data set. Finally, we develop a variant of RITA that incorporates accelerated homology search techniques, and generate predictions on a set of human gut metagenomes that were previously assigned to different 'enterotypes'. RITA is freely available in Web server and standalone versions. 相似文献
104.
For more than half a century, researchers have studied the basic biology of Adenovirus (Ad), unraveling the subtle, yet profound, interactions between the virus and the host. These studies have uncovered previously unknown proteins and pathways crucial for normal cell function that the virus manipulates to achieve optimal virus replication and gene expression. In the infecting virion, the viral DNA is tightly condensed in a virally encoded protamine-like protein which must be remodeled within the first few hours of infection to allow for efficient expression of virus-encoded genes and subsequent viral DNA replication. This review discusses our current knowledge of Ad DNA-protein complex within the infected cell nucleus, the cellular proteins the virus utilizes to achieve chromatinization, and how this event contributes to efficient gene expression and progression of the virus life cycle. 相似文献
105.
Alfreda D. Nelson Michele M. Hoffmann Christopher A. Parks Surendra Dasari Adam G. Schrum Diana Gil 《The Journal of biological chemistry》2012,287(51):42936-42950
Generated by proteolytic cleavage of immunoglobulin, Fab fragments possess great promise as blocking reagents, able to bind receptors or other targets without inducing cross-linking. However, aggregation of Fab preparations is a common occurrence, which generates intrinsic stimulatory capacity and thwarts signal blockade strategies. Using a panel of biochemical approaches, including size exclusion chromatography, SDS-PAGE, mass spectrometry, and cell stimulation followed by flow cytometry, we have measured the oligomerization and acquisition of stimulatory capacity that occurs in four monoclonal IgG Fabs specific for TCR/CD3. Unexpectedly, we observed that all Fabs spontaneously formed complexes that were precisely bivalent, and these bivalent complexes possessed most of the stimulatory activity of each Fab preparation. Fabs composing bivalent complexes were more susceptible to proteolysis than monovalent Fabs, indicating a difference in conformation between the Fabs involved in these two different states of valency. Because osmolytes represent a class of compounds that stabilize protein folding and conformation, we sought to determine the extent to which the amino acid osmolyte l-proline might impact bivalent Fab complexation. We found that l-proline (i) inhibited the adoption of the conformation associated with bivalent complexation, (ii) preserved Fab monovalency, (iii) reversed the conformation of preformed bivalent Fabs to that of monovalent Fabs, and (iv) separated a significant percentage of preformed bivalent complexes into monovalent species. Thus, Fab fragments can adopt a conformation that is compatible with folding or packing of a bivalent complex in a process that can be inhibited by osmolytes. 相似文献
106.
107.
R. Katam S.M. Basha C. Parks K. Sakata L.M. Latinwo 《The Annals of applied biology》2012,160(3):273-290
Grapes are commercially grown worldwide for fresh fruit and wine. They are mainly classified into bunch and muscadine grapes. These species differ in their sugar content and composition, photosynthetic efficiency and tolerance to abiotic and biotic stresses. Grape berry relies on carbohydrates produced during photosynthesis to support its development and composition. In view of the unique physiology and genetic make‐up of muscadine grape, a proteomics study was performed to increase our knowledge of Vitis leaf proteome in order to improve enological and disease tolerance characteristics of grape species. A high throughput two‐dimensional gel electrophoresis (2‐DE) was conducted on muscadine, bunch and hybrid bunch leaf proteins. The differentially expressed proteins were excised from 2‐DE gels, subjected to in‐gel trypsin digestion, and analysed in MALDI/TOF mass spectrometer. The mass spectra were collected and protein identification was performed by searching against Viridiplantae database using Matrix Science algorithm. Proteins were mapped to universal protein resource to study gene ontology. We have discovered >255 proteins with pIs between 3.5 and 8.0 and molecular weight between 12 and 100 kDa among the Vitis species. Comparative analysis of leaf proteome showed that 54 polypeptides varied qualitatively and quantitatively among the three Vitis species studied. Of these, seven proteins were unique to muscadine, two proteins were present in both muscadine and bunch, while 28 proteins were common to all the three species. Bioinformatic analysis of these proteins showed that they are involved in signal transduction pathway, transport of metabolites, energy metabolism, protein trafficking, photosynthesis and defence. We have also identified proteins unique to muscadine grape that are involved in defence and stress tolerance. In addition, photosynthesis‐related proteins were found to be more abundant in Vitis vinifera grape compared to other Vitis species. 相似文献
108.
109.
Raphael BH Lautenschlager M Kahler A Pai S Parks BA Kalb SR Maslanka SE Shah S Magnuson M Hill VR 《Journal of microbiological methods》2012,90(3):267-272
The objective of this study was to adapt and evaluate two in vitro botulinum neurotoxin (BoNT) detection methods, including the Botulinum Toxin ELISA and the Endopep MS (a mass spectrometric-based endopeptidase method), for use with drinking water samples. The method detection limits (MDL) of the ELISA and Endopep MS were 260 pg/mL and 21 pg/mL of BoNT/A complex toxin, respectively. Since toxin could be present in water samples at highly dilute concentrations, large volume (100-L) samples of municipal tap water from five US municipalities having distinct water compositions were dechlorinated, spiked with 5 μg BoNT/A, and subjected to tangential-flow ultrafiltration (UF) using hollow fiber dialyzers. The recovery efficiency of BoNT/A using UF and quantified by ELISA ranged from 11% to 36% while efficiencies quantified by MS ranged from 26% to 55%. BoNT/A was shown to be stable in dechlorinated municipal tap water stored at 4°C for up to four weeks. In addition, toxin present in UF-concentrated water samples was also shown to be stable at 4°C for up to four weeks, allowing holding of samples prior to analysis. Finally, UF was used to concentrate a level of toxin (7 pg/mL) which is below the MDL for direct analysis by both ELISA and Endopep MS. Following UF, toxin was detectable in these samples using both in vitro analysis methods. These data demonstrate that UF-concentration of toxin from large volume water samples followed by use of existing analytical methods for detection of BoNT/A can be used in support of a monitoring program for contaminants in drinking water. 相似文献
110.
Bussenius J Anand NK Blazey CM Bowles OJ Bannen LC Chan DS Chen B Co EW Costanzo S DeFina SC Dubenko L Engst S Franzini M Huang P Jammalamadaka V Khoury RG Kim MH Klein RR Laird D Le DT Mac MB Matthews DJ Markby D Miller N Nuss JM Parks JJ Tsang TH Tsuhako AL Wang Y Xu W Rice KD 《Bioorganic & medicinal chemistry letters》2012,22(6):2283-2286