scholarly article | Q13442814 |
P2093 | author name string | James C Alwine | |
Tobi G Maguire | |||
Amy J Clippinger | |||
P2860 | cites work | Novel G proteins, Rag C and Rag D, interact with GTP-binding proteins, Rag A and Rag B | Q24290501 |
Bicaudal D1-dependent trafficking of human cytomegalovirus tegument protein pp150 in virus-infected cells | Q24296677 | ||
PRAS40 is an insulin-regulated inhibitor of the mTORC1 protein kinase | Q24300915 | ||
Cloning of a novel family of mammalian GTP-binding proteins (RagA, RagBs, RagB1) with remote similarity to the Ras-related GTPases | Q24304366 | ||
Ragulator-Rag complex targets mTORC1 to the lysosomal surface and is necessary for its activation by amino acids | Q24306330 | ||
RagA is a functional homologue of S. cerevisiae Gtr1p involved in the Ran/Gsp1-GTPase pathway | Q24311946 | ||
The Rag GTPases bind raptor and mediate amino acid signaling to mTORC1 | Q24315566 | ||
rheb, a growth factor- and synaptic activity-regulated gene, encodes a novel Ras-related protein | Q24316714 | ||
Insulin-stimulated kinase from rat fat cells that phosphorylates initiation factor 4E-binding protein 1 on the rapamycin-insensitive site (serine-111) | Q24531289 | ||
The C terminus of initiation factor 4E-binding protein 1 contains multiple regulatory features that influence its function and phosphorylation | Q24554323 | ||
Regulation of 4E-BP1 phosphorylation: a novel two-step mechanism | Q24603034 | ||
Human cytomegalovirus infection alters the substrate specificities and rapamycin sensitivities of raptor- and rictor-containing complexes | Q24676817 | ||
Human cytomegalovirus infection activates and regulates the unfolded protein response | Q27469611 | ||
Two motifs in the translational repressor PHAS-I required for efficient phosphorylation by mammalian target of rapamycin and for recognition by raptor | Q28187391 | ||
The tuberous sclerosis protein TSC2 is not required for the regulation of the mammalian target of rapamycin by amino acids and certain cellular stresses | Q28240102 | ||
Identification of phosphorylation sites in the translational regulator, PHAS-I, that are controlled by insulin and rapamycin in rat adipocytes | Q28307131 | ||
Regulation of TORC1 by Rag GTPases in nutrient response | Q29614478 | ||
Three-dimensional structure of the human cytomegalovirus cytoplasmic virion assembly complex includes a reoriented secretory apparatus. | Q30480949 | ||
Spatial relationships between markers for secretory and endosomal machinery in human cytomegalovirus-infected cells versus those in uninfected cells | Q30501722 | ||
Evasion of cellular antiviral responses by human cytomegalovirus TRS1 and IRS1 | Q33195896 | ||
Regulation of host translational machinery by African swine fever virus | Q33497920 | ||
Phosphorylation of the human cytomegalovirus 86-kilodalton immediate-early protein IE2. | Q33784945 | ||
Replication of wild-type and mutant human cytomegalovirus in life-extended human diploid fibroblasts | Q33787378 | ||
Accumulation of virion tegument and envelope proteins in a stable cytoplasmic compartment during human cytomegalovirus replication: characterization of a potential site of virus assembly | Q33796667 | ||
Human cytomegalovirus pp28 (UL99) localizes to a cytoplasmic compartment which overlaps the endoplasmic reticulum-golgi-intermediate compartment | Q33802787 | ||
Rapamycin-resistant mTORC1 kinase activity is required for herpesvirus replication | Q33826815 | ||
Regulation of the translation initiation factor eIF4F by multiple mechanisms in human cytomegalovirus-infected cells | Q33843314 | ||
Production of infectious human cytomegalovirus virions is inhibited by drugs that disrupt calcium homeostasis in the endoplasmic reticulum | Q34228644 | ||
Coding potential of laboratory and clinical strains of human cytomegalovirus | Q34388908 | ||
Human cytomegalovirus activates glucose transporter 4 expression to increase glucose uptake during infection | Q34529843 | ||
Modulation of host cell stress responses by human cytomegalovirus | Q34797780 | ||
AMPK-mediated inhibition of mTOR kinase is circumvented during immediate-early times of human cytomegalovirus infection | Q35785196 | ||
Phosphorylation and dephosphorylation events that regulate viral mRNA translation | Q36321340 | ||
Human cytomegalovirus specifically controls the levels of the endoplasmic reticulum chaperone BiP/GRP78, which is required for virion assembly | Q36423955 | ||
Interaction between simian virus 40 large T antigen and insulin receptor substrate 1 is disrupted by the K1 mutation, resulting in the loss of large T antigen-mediated phosphorylation of Akt. | Q36540107 | ||
Eukaryotic translation initiation factor 4F architectural alterations accompany translation initiation factor redistribution in poxvirus-infected cells | Q36540315 | ||
hvps34, an ancient player, enters a growing game: mTOR Complex1/S6K1 signaling | Q36744736 | ||
The TORrid affairs of viruses: effects of mammalian DNA viruses on the PI3K-Akt-mTOR signalling pathway | Q37003173 | ||
Reevaluation of human cytomegalovirus coding potential. | Q37089601 | ||
Akt-dependent and -independent mechanisms of mTOR regulation in cancer | Q37114404 | ||
Human cytomegalovirus protein pUL38 induces ATF4 expression, inhibits persistent JNK phosphorylation, and suppresses endoplasmic reticulum stress-induced cell death | Q37145200 | ||
Human cytomegalovirus protein UL38 inhibits host cell stress responses by antagonizing the tuberous sclerosis protein complex | Q37380692 | ||
The endoplasmic reticulum chaperone BiP/GRP78 is important in the structure and function of the human cytomegalovirus assembly compartment | Q37410651 | ||
Human cytomegalovirus infection induces rapamycin-insensitive phosphorylation of downstream effectors of mTOR kinase | Q37567926 | ||
Binding and nuclear relocalization of protein kinase R by human cytomegalovirus TRS1. | Q39321563 | ||
Distinct glycoprotein O complexes arise in a post-Golgi compartment of cytomegalovirus-infected cells | Q39682836 | ||
Role of the endoplasmic reticulum chaperone BiP, SUN domain proteins, and dynein in altering nuclear morphology during human cytomegalovirus infection | Q42113026 | ||
The changing role of mTOR kinase in the maintenance of protein synthesis during human cytomegalovirus infection | Q42779515 | ||
FKBP12-Rapamycin-associated Protein or Mammalian Target of Rapamycin (FRAP/mTOR) Localization in the Endoplasmic Reticulum and the Golgi Apparatus | Q44631928 | ||
P433 | issue | 18 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Cytomegalovirus | Q6946 |
cytomegaloviral disease | Q2076966 | ||
P304 | page(s) | 9369-9376 | |
P577 | publication date | 2011-07-06 | |
P1433 | published in | Journal of Virology | Q1251128 |
P1476 | title | Human cytomegalovirus infection maintains mTOR activity and its perinuclear localization during amino acid deprivation | |
P478 | volume | 85 |
Q88964560 | Acid Suspends the Circadian Clock in Hypoxia through Inhibition of mTOR |
Q26700049 | Adapting the Stress Response: Viral Subversion of the mTOR Signaling Pathway |
Q90597043 | Asparagine Deprivation Causes a Reversible Inhibition of Human Cytomegalovirus Acute Virus Replication |
Q92768716 | Common Mechanisms of Viral Injury to the Kidney |
Q36240899 | Dynein mediates the localization and activation of mTOR in normal and human cytomegalovirus-infected cells |
Q104285336 | Effect of everolimus-based drug regimens on CMV-specific T-cell functionality after renal transplantation: 12-month ATHENA subcohort-study results |
Q92133211 | Effector-triggered immunity and pathogen sensing in metazoans |
Q37984841 | HijAkt: The PI3K/Akt pathway in virus replication and pathogenesis |
Q42049383 | Host mTORC1 signaling regulates andes virus replication |
Q33912815 | Human Cytomegalovirus Latency: Approaching the Gordian Knot |
Q26752742 | Human Cytomegalovirus Strategies to Maintain and Promote mRNA Translation |
Q38960595 | Human cytomegalovirus induces multiple means to combat reactive oxygen species |
Q35778951 | Human kinome profiling identifies a requirement for AMP-activated protein kinase during human cytomegalovirus infection |
Q40141033 | Impact of early conversion from cyclosporin to everolimus on left ventricular mass index: A randomized controlled trial |
Q92376588 | Kaposi's Sarcoma-Associated Herpesvirus Lytic Replication Interferes with mTORC1 Regulation of Autophagy and Viral Protein Synthesis |
Q91452379 | Lysosomes as dynamic regulators of cell and organismal homeostasis |
Q38674284 | Metabolic reprogramming: a hallmark of viral oncogenesis. |
Q90038438 | Murine cytomegalovirus infection exacerbates complex IV deficiency in a model of mitochondrial disease |
Q38120042 | Nutrient sensing and metabolic stress pathways in innate immunity |
Q36027770 | Opposing Regulation of the EGF Receptor: A Molecular Switch Controlling Cytomegalovirus Latency and Replication. |
Q92635722 | Pathogens MenTORing Macrophages and Dendritic Cells: Manipulation of mTOR and Cellular Metabolism to Promote Immune Escape |
Q42208780 | Rapamycin does not inhibit human cytomegalovirus reactivation from dendritic cells in vitro |
Q57038993 | Remodeling mTORC1 responsiveness to amino acids by the herpes simplex virus UL46 and Us3 gene products supports replication during nutrient insufficiency |
Q34426431 | The battle over mTOR: an emerging theatre in host-pathogen immunity |
Q34426409 | The human cytomegalovirus assembly compartment: a masterpiece of viral manipulation of cellular processes that facilitates assembly and egress |
Q35826084 | The human cytomegalovirus protein TRS1 inhibits autophagy via its interaction with Beclin 1 |
Q36481533 | Trehalose, an mTOR-Independent Inducer of Autophagy, Inhibits Human Cytomegalovirus Infection in Multiple Cell Types |
Q35861166 | Tuberous Sclerosis Complex Protein 2-Independent Activation of mTORC1 by Human Cytomegalovirus pUL38. |
Q59356089 | Virus Control of Trafficking from Sorting Endosomes |
Q54558276 | Zika Virus Induces Autophagy in Human Umbilical Vein Endothelial Cells. |
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