Ubiquitin-Dependent Modification of Skeletal Muscle by the Parasitic Nematode, Trichinella spiralis
暂无分享,去创建一个
Michael P Weekes | Steven P Gygi | David B Ascher | S. Gygi | M. Weekes | D. Ascher | C. Sanderson | M. Selkirk | Christopher M Sanderson | Murray E Selkirk | Katerina Artavanis-Tsakonas | Rhiannon R White | Amy H Ponsford | Rachel B Rodrigues | Marco Mol | A. H. Ponsford | Rhiannon R. White | Marco Mol | Katerina Artavanis-Tsakonas | Rachel B. Rodrigues
[1] D. Despommier. Adaptive changes in muscle fibers infected with Trichinella spiralis. , 1975, The American journal of pathology.
[2] D. Jasmer. Trichinella spiralis: altered expression of muscle proteins in trichinosis. , 1990, Experimental parasitology.
[3] P. Jansen,et al. The ubiquitin ligase Triad1 inhibits myelopoiesis through UbcH7 and Ubc13 interacting domains , 2009, Leukemia.
[4] Douglas E. V. Pires,et al. mCSM: predicting the effects of mutations in proteins using graph-based signatures , 2013, Bioinform..
[5] Ailan Guo,et al. Immunoaffinity Enrichment and Mass Spectrometry Analysis of Protein Methylation , 2013, Molecular & Cellular Proteomics.
[6] D. Lamont,et al. Comparative analysis of the excretory-secretory proteome of the muscle larva of Trichinella pseudospiralis and Trichinella spiralis. , 2007, International journal for parasitology.
[7] D. Despommier. How does Trichinella spiralis make itself at home? , 1998, Parasitology today.
[8] M. Lill,et al. Stabilization of an unusual salt bridge in ubiquitin by the extra C-terminal domain of the proteasome-associated deubiquitinase UCH37 as a mechanism of its exo specificity. , 2013, Biochemistry.
[9] Edward L. Huttlin,et al. A Tissue-Specific Atlas of Mouse Protein Phosphorylation and Expression , 2010, Cell.
[10] M. Hochstrasser,et al. Ubiquitin signalling: what's in a chain? , 2004, Nature Cell Biology.
[11] V. Quesada,et al. Apicomplexan UCHL3 retains dual specificity for ubiquitin and Nedd8 throughout evolution , 2007, Cellular microbiology.
[12] D. Goulding,et al. Trichinella spiralis secretes a homologue of prosaposin. , 2004, Molecular and biochemical parasitology.
[13] J. Rush,et al. Immunoaffinity profiling of tyrosine phosphorylation in cancer cells , 2005, Nature Biotechnology.
[14] M. Selkirk,et al. A nucleotidase with unique catalytic properties is secreted by Trichinella spiralis. , 2004, Molecular and biochemical parasitology.
[15] A. Rokas,et al. Transcriptional Rewiring: The Proof Is in the Eating , 2007, Current Biology.
[16] Daniel Nilsson,et al. Comparative Genomics of Trypanosomatid Parasitic Protozoa , 2005, Science.
[17] Ubiquitin-specific proteases are differentially expressed throughout the Schistosoma mansoni life cycle , 2015, Parasites & Vectors.
[18] F. Romarís,et al. A putative serine protease among the excretory-secretory glycoproteins of L1 Trichinella spiralis. , 2002, Molecular and biochemical parasitology.
[19] Jonathan Woodsmith,et al. Systematic Analysis of Dimeric E3-RING Interactions Reveals Increased Combinatorial Complexity in Human Ubiquitination Networks , 2012, Molecular & Cellular Proteomics.
[20] A. Ciechanover,et al. Purification and characterization of a novel species of ubiquitin-carrier protein, E2, that is involved in degradation of non-"N-end rule" protein substrates. , 1994, The Journal of biological chemistry.
[21] K. Henrick,et al. Inference of macromolecular assemblies from crystalline state. , 2007, Journal of molecular biology.
[22] J. Azanza,et al. Proteasome and myogenesis , 1997, Molecular Biology Reports.
[23] D. Guttridge,et al. Reining in nuclear factor-kappaB in skeletal muscle disorders , 2013, Current opinion in clinical nutrition and metabolic care.
[24] K. Murata,et al. Transformation of intact yeast cells treated with alkali cations. , 1984, Journal of bacteriology.
[25] During muscle atrophy, thick, but not thin, filament components are degraded by MuRF1-dependent ubiquitylation , 2009, The Journal of cell biology.
[26] B. Monsarrat,et al. Muscle actin is polyubiquitinylated in vitro and in vivo and targeted for breakdown by the E3 ligase MuRF1 , 2011, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
[27] S. Brunak,et al. SignalP 4.0: discriminating signal peptides from transmembrane regions , 2011, Nature Methods.
[28] M. Robinson,et al. Profiling excretory/secretory proteins of Trichinella spiralis muscle larvae by two-dimensional gel electrophoresis and mass spectrometry. , 2005, Veterinary parasitology.
[29] K. Nakai,et al. PSORT: a program for detecting sorting signals in proteins and predicting their subcellular localization. , 1999, Trends in biochemical sciences.
[30] A. F. Bruce,et al. Characterisation of a secreted N-acetyl-beta-hexosaminidase from Trichinella spiralis. , 2006, Molecular and biochemical parasitology.
[31] D. Markie,et al. Two-hybrid reporter vectors for gap repair cloning. , 2005, BioTechniques.
[32] Eliseo Papa,et al. Characterisation of the Trichinella spiralis Deubiquitinating Enzyme, TsUCH37, an Evolutionarily Conserved Proteasome Interaction Partner , 2011, PLoS neglected tropical diseases.
[33] M. Yazdanbakhsh,et al. Chronic helminth infections induce immunomodulation: consequences and mechanisms. , 2007, Immunobiology.
[34] W. Zhou,et al. Common and pathogen-specific virulence factors are different in function and structure , 2013, Virulence.
[35] M. Robinson,et al. Proteomic analysis of the excretory‐secretory proteins of the Trichinella spiralis L1 larva, a nematode parasite of skeletal muscle , 2005, Proteomics.
[36] D. Yaffe,et al. Serial passaging and differentiation of myogenic cells isolated from dystrophic mouse muscle , 1977, Nature.
[37] Aaron Ciechanover,et al. The ubiquitin–proteasome pathway: on protein death and cell life , 1998, The EMBO journal.
[38] A. Vergunst,et al. Exploitation of Eukaryotic Ubiquitin Signaling Pathways by Effectors Translocated by Bacterial Type III and Type IV Secretion Systems , 2007, PLoS pathogens.
[39] Joel V Weinstock,et al. Helminthic therapy: using worms to treat immune-mediated disease. , 2009, Advances in experimental medicine and biology.
[40] Jacqueline A. Keane,et al. The genomes of four tapeworm species reveal adaptations to parasitism , 2013, Nature.
[41] R. Mulligan,et al. Efficiency of transduction of highly purified murine hematopoietic stem cells by lentiviral and oncoretroviral vectors under conditions of minimal in vitro manipulation. , 2005, Molecular therapy : the journal of the American Society of Gene Therapy.
[42] M. Hochstrasser,et al. Modification of proteins by ubiquitin and ubiquitin-like proteins. , 2006, Annual review of cell and developmental biology.
[43] D. Taillandier,et al. Role of E2-Ub-conjugating enzymes during skeletal muscle atrophy , 2015, Frontiers in Physiology.
[44] Steven P. Gygi,et al. Large-scale phosphorylation analysis of mouse liver , 2007, Proceedings of the National Academy of Sciences.
[45] M. Vidal,et al. Analysis of the human E2 ubiquitin conjugating enzyme protein interaction network. , 2009, Genome research.
[46] A. Ciechanover,et al. Degradation of Myogenic Transcription Factor MyoD by the Ubiquitin Pathway In Vivo and In Vitro: Regulation by Specific DNA Binding , 1998, Molecular and Cellular Biology.
[47] T. Mustelin,et al. Ubiquitin Ligase Substrate Identification through Quantitative Proteomics at Both the Protein and Peptide Levels , 2011, The Journal of Biological Chemistry.
[48] J. Yates,et al. An approach to correlate tandem mass spectral data of peptides with amino acid sequences in a protein database , 1994, Journal of the American Society for Mass Spectrometry.
[49] T. Mak,et al. ARIH2 is essential for embryogenesis, and its hematopoietic deficiency causes lethal activation of the immune system , 2012, Nature Immunology.
[50] M. Harnett,et al. Helminth-derived immunomodulators: can understanding the worm produce the pill? , 2010, Nature Reviews Immunology.
[51] T. Aoki,et al. Secretory protein with RING finger domain (SPRING) specific to Trypanosoma cruzi is directed, as a ubiquitin ligase related protein, to the nucleus of host cells , 2010, Cellular microbiology.
[52] R. Klevit,et al. Following Ariadne's thread: a new perspective on RBR ubiquitin ligases , 2012, BMC Biology.
[53] Hidde L. Ploegh,et al. Antigen Presentation and the Ubiquitin‐Proteasome System in Host–Pathogen Interactions , 2006, Advances in Immunology.
[54] M. Scheffner,et al. Characterization of the mouse ubiquitin-conjugating enzyme gene UbcM4 , 1999, Mammalian Genome.
[55] D. Guttridge,et al. NF-κB signaling in skeletal muscle health and disease. , 2011, Current topics in developmental biology.
[56] Nobuhiro Nakamura,et al. Ubiquitin System , 2018, International journal of molecular sciences.
[57] M. Scheffner,et al. Cloning of Human Ubiquitin-conjugating Enzymes UbcH6 and UbcH7 (E2-F1) and Characterization of Their Interaction with E6-AP and RSP5 (*) , 1996, The Journal of Biological Chemistry.
[58] D. Guiliano,et al. Characterisation of novel protein families secreted by muscle stage larvae of Trichinella spiralis , 2009, International journal for parasitology.
[59] H. Blau,et al. Plasticity of the differentiated state. , 1985, Science.
[60] M. Robinson,et al. Secretion and processing of a novel multi-domain cystatin-like protein by intracellular stages of Trichinella spiralis. , 2007, Molecular and biochemical parasitology.
[61] S. Tweedie,et al. Identification of serine/threonine protein kinases secreted by Trichinella spiralis infective larvae. , 1997, Molecular and biochemical parasitology.
[62] S. Gygi,et al. Quantitative proteomics reveal a feedforward mechanism for mitochondrial PARKIN translocation and ubiquitin chain synthesis. , 2014, Molecular cell.
[63] Jun Sun,et al. Salmonella effector AvrA regulation of colonic epithelial cell inflammation by deubiquitination. , 2007, The American journal of pathology.
[64] A. Markham,et al. Features of the Parkin/Ariadne-like Ubiquitin Ligase, HHARI, That Regulate Its Interaction with the Ubiquitin-conjugating Enzyme, UbcH7* , 2001, The Journal of Biological Chemistry.
[65] Paul Horton,et al. Nucleic Acids Research Advance Access published May 21, 2007 WoLF PSORT: protein localization predictor , 2007 .
[66] A. Bougdour,et al. Host cell subversion by Toxoplasma GRA16, an exported dense granule protein that targets the host cell nucleus and alters gene expression. , 2013, Cell host & microbe.
[67] A. Pérez-Torres,et al. The synthetic parasite-derived peptide GK1 increases survival in a preclinical mouse melanoma model. , 2013, Cancer biotherapy & radiopharmaceuticals.
[68] V. Rybin,et al. Muscle RING-finger protein-1 (MuRF1) as a connector of muscle energy metabolism and protein synthesis. , 2008, Journal of molecular biology.
[69] D. Jasmer,et al. Trichinella spp.: differential expression of acid phosphatase and myofibrillar proteins in infected muscle cells. , 1991, Experimental parasitology.
[70] M. Skoneczny,et al. Nurse cell of Trichinella spp. as a model of long-term cell cycle arrest , 2008, Cell cycle.
[71] T. Boonmars,et al. A spectrum of functional genes mobilized after Trichinella spiralis infection in skeletal muscle , 2004, Parasitology.
[72] M. Vidal,et al. Analysis of the human E 2 ubiquitin conjugating enzyme protein interaction network , 2009 .
[73] Jue Chen,et al. The inflammation‐associated Salmonella SopA is a HECT‐like E3 ubiquitin ligase , 2006, Molecular microbiology.
[74] P. Robinson,et al. E3 ubiquitin ligases. , 2005, Essays in biochemistry.