| scholarly article | Q13442814 |
| P2093 | author name string | J H Ahn | |
| G S Hayward | |||
| E J Brignole | |||
| P2860 | cites work | Leukemia-associated retinoic acid receptor alpha fusion partners, PML and PLZF, heterodimerize and colocalize to nuclear bodies | Q24311314 |
| The solution structure of the RING finger domain from the acute promyelocytic leukaemia proto-oncoprotein PML | Q24315804 | ||
| Isolation and characterization of cDNA encoding a human nuclear antigen predominantly recognized by autoantibodies from patients with primary biliary cirrhosis | Q24322406 | ||
| PML, a growth suppressor disrupted in acute promyelocytic leukemia | Q24324168 | ||
| A novel ubiquitin-specific protease is dynamically associated with the PML nuclear domain and binds to a herpesvirus regulatory protein | Q24532092 | ||
| Structure, localization and transcriptional properties of two classes of retinoic acid receptor alpha fusion proteins in acute promyelocytic leukemia (APL): structural similarities with a new family of oncoproteins | Q24555702 | ||
| Identification of a novel nuclear domain | Q24644456 | ||
| Structure of the C3HC4 domain by 1H-nuclear magnetic resonance spectroscopy. A new structural class of zinc-finger | Q27731229 | ||
| The retinoblastoma protein associates with the protein phosphatase type 1 catalytic subunit | Q27860669 | ||
| A novel genetic system to detect protein-protein interactions | Q27860915 | ||
| PIC 1, a novel ubiquitin-like protein which interacts with the PML component of a multiprotein complex that is disrupted in acute promyelocytic leukaemia | Q28115998 | ||
| Chromosomal translocation t(15;17) in human acute promyelocytic leukemia fuses RARα with a novel putative transcription factor, PML | Q28118823 | ||
| The nuclear domain 10 (ND10) is disrupted by the human cytomegalovirus gene product IE1 | Q28298158 | ||
| The PML-RARα fusion mRNA generated by the t(15;17) translocation in acute promyelocytic leukemia encodes a functionally altered RAR | Q28300893 | ||
| Transcription activation by the adenovirus E1a protein | Q29620538 | ||
| Retinoic acid regulates aberrant nuclear localization of PML-RAR alpha in acute promyelocytic leukemia cells | Q29620736 | ||
| A novel macromolecular structure is a target of the promyelocyte-retinoic acid receptor oncoprotein | Q29620737 | ||
| Characterization of a Zinc Finger Gene Disrupted by the t(15;17) in Acute Promyelocytic Leukemia | Q33268330 | ||
| P32/TAP, a cellular protein that interacts with EBNA-1 of Epstein-Barr virus. | Q33292267 | ||
| Defective growth correlates with reduced accumulation of a viral DNA replication protein after low-multiplicity infection by a human cytomegalovirus ie1 mutant | Q33782001 | ||
| Insertion and deletion mutagenesis of the human cytomegalovirus genome | Q34354191 | ||
| Constitutive and enhanced expression from the CMV major IE promoter in a defective adenovirus vector | Q35068584 | ||
| Fusion of Escherichia coli lacZ to the cytochrome c gene of Saccharomyces cerevisiae | Q35343921 | ||
| The Epstein-Barr virus-encoded nuclear antigen EBNA-5 accumulates in PML-containing bodies | Q35859250 | ||
| The major immediate-early proteins IE1 and IE2 of human cytomegalovirus colocalize with and disrupt PML-associated nuclear bodies at very early times in infected permissive cells. | Q35886859 | ||
| Human Cytomegalovirus Immediate Early Interaction with Host Nuclear Structures: Definition of an Immediate Transcript Environment | Q36274309 | ||
| PML suppresses oncogenic transformation of NIH/3T3 cells by activated neu. | Q36365039 | ||
| The PML-retinoic acid receptor alpha translocation converts the receptor from an inhibitor to a retinoic acid-dependent activator of transcription factor AP-1 | Q36587818 | ||
| Identification and mapping of dimerization and DNA-binding domains in the C terminus of the IE2 regulatory protein of human cytomegalovirus | Q36653844 | ||
| Human cytomegalovirus ie2 negatively regulates alpha gene expression via a short target sequence near the transcription start site | Q36680389 | ||
| A cis-acting element in the major immediate-early (IE) promoter of human cytomegalovirus is required for negative regulation by IE2 | Q36680417 | ||
| Human cytomegalovirus contains a tegument protein that enhances transcription from promoters with upstream ATF and AP-1 cis-acting elements | Q36699045 | ||
| The functionally active IE2 immediate-early regulatory protein of human cytomegalovirus is an 80-kilodalton polypeptide that contains two distinct activator domains and a duplicated nuclear localization signal | Q36701599 | ||
| Acute leukemia with promyelocytic features in PML/RARalpha transgenic mice | Q36771988 | ||
| Human cytomegalovirus ie1 transactivates the alpha promoter-enhancer via an 18-base-pair repeat element. | Q36781988 | ||
| The IE2 gene products of human cytomegalovirus specifically down-regulate expression from the major immediate-early promoter through a target sequence located near the cap site | Q36796246 | ||
| Multiple spliced and unspliced transcripts from human cytomegalovirus immediate-early region 2 and evidence for a common initiation site within immediate-early region 1. | Q36853873 | ||
| trans-activation and autoregulation of gene expression by the immediate-early region 2 gene products of human cytomegalovirus | Q36865895 | ||
| Organization and expression of the immediate early genes of human cytomegalovirus | Q36905093 | ||
| Identification and characterization of the human cytomegalovirus immediate-early region 2 gene that stimulates gene expression from an inducible promoter | Q36919288 | ||
| A deletion mutant in the human cytomegalovirus gene encoding IE1(491aa) is replication defective due to a failure in autoregulation | Q37248409 | ||
| CCAAT box-dependent activation of the TATA-less human DNA polymerase alpha promoter by the human cytomegalovirus 72-kilodalton major immediate-early protein | Q38300339 | ||
| The 86-kilodalton IE-2 protein of human cytomegalovirus is a sequence-specific DNA-binding protein that interacts directly with the negative autoregulatory response element located near the cap site of the IE-1/2 enhancer-promoter. | Q40043548 | ||
| The t(15;17) translocation alters a nuclear body in a retinoic acid-reversible fashion | Q40791073 | ||
| Functional interaction between the HCMV IE2 transactivator and the retinoblastoma protein. | Q40792295 | ||
| HSV-1 IE protein Vmw110 causes redistribution of PML. | Q40793643 | ||
| The molecular genetics of acute promyelocytic leukemia | Q40857668 | ||
| Nuclear domain 10 as preexisting potential replication start sites of herpes simplex virus type-1. | Q41225801 | ||
| Adenovirus replication is coupled with the dynamic properties of the PML nuclear structure. | Q41239131 | ||
| The PML nuclear compartment and cancer | Q41332695 | ||
| The cellular RING finger protein PML is not a functional counterpart of the herpes simplex virus type 1 RING finger protein Vmw110. | Q41352081 | ||
| A monoclonal antibody recognizing nuclear matrix-associated nuclear bodies | Q41632124 | ||
| The periphery of nuclear domain 10 (ND10) as site of DNA virus deposition | Q42109013 | ||
| Targeting of adenovirus E1A and E4-ORF3 proteins to nuclear matrix-associated PML bodies. | Q42676601 | ||
| Differences in cell-type-specific blocks to immediate early gene expression and DNA replication of human, simian and murine cytomegalovirus | Q42805012 | ||
| Analysis of the growth and transformation suppressor domains of promyelocytic leukemia gene, PML. | Q42817674 | ||
| Disruption of PML-associated nuclear bodies during human cytomegalovirus infection | Q42822986 | ||
| Masking of the CBF1/RBPJ kappa transcriptional repression domain by Epstein-Barr virus EBNA2. | Q44697821 | ||
| Expression of the acidic nuclear immediate-early protein (IE1) of human cytomegalovirus in stable cell lines and its preferential association with metaphase chromosomes | Q44878740 | ||
| Modification of discrete nuclear domains induced by herpes simplex virus type 1 immediate early gene 1 product (ICP0). | Q45777008 | ||
| The nuclear location of PML, a cellular member of the C3HC4 zinc-binding domain protein family, is rearranged during herpes simplex virus infection by the C3HC4 viral protein ICP0. | Q45778150 | ||
| Structural Organization of the Spliced Immediate-Early Gene Complex that Encodes the Major Acidic Nuclear (IE1) and Transactivator (IE2) Proteins of African Green Monkey Cytomegalovirus | Q46897432 | ||
| Transcriptional induction of the PML growth suppressor gene by interferons is mediated through an ISRE and a GAS element. | Q48068389 | ||
| Adenovirus infection induces rearrangements in the intranuclear distribution of the nuclear body-associated PML protein. | Q53464074 | ||
| The PML growth-suppressor has an altered expression in human oncogenesis | Q62935013 | ||
| Structure and origin of the acute promyelocytic leukemia myl/RAR alpha cDNA and characterization of its retinoid-binding and transactivation properties | Q68247120 | ||
| Deviations from expected frequencies of CpG dinucleotides in herpesvirus DNAs may be diagnostic of differences in the states of their latent genomes | Q69629473 | ||
| Evaluation and mapping of the DNA binding and oligomerization domains of the IE2 regulatory protein of human cytomegalovirus using yeast one and two hybrid interaction assays | Q74386271 | ||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Cytomegalovirus | Q6946 |
| P304 | page(s) | 4899-4913 | |
| P577 | publication date | 1998-08-01 | |
| P1433 | published in | Molecular and Cellular Biology | Q3319478 |
| P1476 | title | Disruption of PML subnuclear domains by the acidic IE1 protein of human cytomegalovirus is mediated through interaction with PML and may modulate a RING finger-dependent cryptic transactivator function of PML | |
| P478 | volume | 18 |
| Q33941031 | A novel human striated muscle RING zinc finger protein, SMRZ, interacts with SMT3b via its RING domain |
| Q33702186 | A surprising role for the proteasome in the regulation of herpesvirus infection |
| Q24563268 | Ability of the human cytomegalovirus IE1 protein to modulate sumoylation of PML correlates with its functional activities in transcriptional regulation and infectivity in cultured fibroblast cells |
| Q39539518 | Alphaherpesvirus proteins related to herpes simplex virus type 1 ICP0 affect cellular structures and proteins |
| Q34485281 | Alternative Splicing of the Human Cytomegalovirus Major Immediate-Early Genes Affects Infectious-Virus Replication and Control of Cellular Cyclin-Dependent Kinase |
| Q24810402 | Analysis of human cytomegalovirus-encoded SUMO targets and temporal regulation of SUMOylation of the immediate-early proteins IE1 and IE2 during infection |
| Q39537817 | Arsenic mediated disruption of promyelocytic leukemia protein nuclear bodies induces ganciclovir susceptibility in Epstein-Barr positive epithelial cells |
| Q38906287 | As(2)O(3) enhances retroviral reverse transcription and counteracts Ref1 antiviral activity |
| Q36949619 | Binding STAT2 by the acidic domain of human cytomegalovirus IE1 promotes viral growth and is negatively regulated by SUMO. |
| Q33725662 | Biphasic recruitment of transcriptional repressors to the murine cytomegalovirus major immediate-early promoter during the course of infection in vivo |
| Q92809182 | Bright and Early: Inhibiting Human Cytomegalovirus by Targeting Major Immediate-Early Gene Expression or Protein Function |
| Q40646341 | C-terminal region of herpes simplex virus ICP8 protein needed for intranuclear localization |
| Q36481445 | Characterization of Recombinant Human Cytomegaloviruses Encoding IE1 Mutants L174P and 1-382 Reveals that Viral Targeting of PML Bodies Perturbs both Intrinsic and Innate Immune Responses |
| Q37793472 | Chromatin-mediated regulation of cytomegalovirus gene expression. |
| Q35808649 | Contribution of the Major ND10 Proteins PML, hDaxx and Sp100 to the Regulation of Human Cytomegalovirus Latency and Lytic Replication in the Monocytic Cell Line THP-1. |
| Q27701463 | Controlled crystal dehydration triggers a space-group switch and shapes the tertiary structure of cytomegalovirus immediate-early 1 (IE1) protein |
| Q33799527 | Covalent modification of the transactivator protein IE2-p86 of human cytomegalovirus by conjugation to the ubiquitin-homologous proteins SUMO-1 and hSMT3b |
| Q34550253 | Crystal structure of cytomegalovirus IE1 protein reveals targeting of TRIM family member PML via coiled-coil interactions |
| Q34435565 | DNA viruses and viral proteins that interact with PML nuclear bodies |
| Q39684340 | Daxx-mediated accumulation of human cytomegalovirus tegument protein pp71 at ND10 facilitates initiation of viral infection at these nuclear domains |
| Q98771329 | Degradation of SAMHD1 Restriction Factor Through Cullin-Ring E3 Ligase Complexes During Human Cytomegalovirus Infection |
| Q38692901 | Deletion of the rat cytomegalovirus immediate-early 1 gene results in a virus capable of establishing latency, but with lower levels of acute virus replication and latency that compromise reactivation efficiency. |
| Q37081010 | Differences between mouse and human cytomegalovirus interactions with their respective hosts at immediate early times of the replication cycle |
| Q79096506 | Dissection of human papillomavirus type 33 L2 domains involved in nuclear domains (ND) 10 homing and reorganization |
| Q36414315 | Distribution and dynamics of transcription-associated proteins during parvovirus infection |
| Q91522090 | Dual functions of Aire CARD multimerization in the transcriptional regulation of T cell tolerance |
| Q40164821 | Ectopic expression of HCMV IE72 and IE86 proteins is sufficient to induce early gene expression but not production of infectious virus in undifferentiated promonocytic THP-1 cells |
| Q99567359 | Efficient proliferation and mitosis of glioblastoma cells infected with human cytomegalovirus is mediated by RhoA GTPase |
| Q24529499 | Epstein-barr virus immediate-early protein BZLF1 is SUMO-1 modified and disrupts promyelocytic leukemia bodies |
| Q33851361 | Evaluation of interactions of human cytomegalovirus immediate-early IE2 regulatory protein with small ubiquitin-like modifiers and their conjugation enzyme Ubc9 |
| Q35192712 | Evidence for a dual antiviral role of the major nuclear domain 10 component Sp100 during the immediate-early and late phases of the human cytomegalovirus replication cycle |
| Q24298226 | Evidence for a role of the cellular ND10 protein PML in mediating intrinsic immunity against human cytomegalovirus infections |
| Q33843191 | Exon 3 of the human cytomegalovirus major immediate-early region is required for efficient viral gene expression and for cellular cyclin modulation. |
| Q33856623 | Exploitation of cellular signaling and regulatory pathways by human cytomegalovirus |
| Q77904549 | Expression and role of PML gene in normal adult hematopoiesis: functional interaction between PML and Rb proteins in erythropoiesis |
| Q59351847 | Expression of Human Cytomegalovirus IE1 Leads to Accumulation of Mono-SUMOylated PML That Is Protected from Degradation by Herpes Simplex Virus 1 ICP0 |
| Q59353804 | Feedback-mediated signal conversion promotes viral fitness |
| Q34365016 | Functional interaction between the pp71 protein of human cytomegalovirus and the PML-interacting protein human Daxx |
| Q33892537 | Functional interaction of nuclear domain 10 and its components with cytomegalovirus after infections: cross-species host cells versus native cells |
| Q34576051 | Functional reorganization of promyelocytic leukemia nuclear bodies during BK virus infection |
| Q39532174 | H2B homology region of major immediate-early protein 1 is essential for murine cytomegalovirus to disrupt nuclear domain 10, but is not important for viral replication in cell culture |
| Q40563063 | HPV E6 proteins interact with specific PML isoforms and allow distinctions to be made between different POD structures. |
| Q39316080 | Herpes simplex virus is equipped with RNA- and protein-based mechanisms to repress expression of ATRX, an effector of intrinsic immunity. |
| Q39352788 | Herpesvirus tegument and immediate early proteins are pioneers in the battle between viral infection and nuclear domain 10-related host defense |
| Q38117580 | Histone deacetylases in herpesvirus replication and virus-stimulated host defense |
| Q36069672 | Human Cytomegalovirus Immediate-Early 1 Protein Rewires Upstream STAT3 to Downstream STAT1 Signaling Switching an IL6-Type to an IFNγ-Like Response |
| Q28282303 | Human DNA replication-related element binding factor (hDREF) self-association via hATC domain is necessary for its nuclear accumulation and DNA binding |
| Q40221207 | Human Daxx-mediated repression of human cytomegalovirus gene expression correlates with a repressive chromatin structure around the major immediate early promoter |
| Q43921996 | Human Herpesvirus 6 immediate-early 1 protein is a sumoylated nuclear phosphoprotein colocalizing with promyelocytic leukemia protein-associated nuclear bodies |
| Q40105712 | Human cytomegalovirus IE1 downregulates Hes1 in neural progenitor cells as a potential E3 ubiquitin ligase. |
| Q38604632 | Human cytomegalovirus IE1 protein alters the higher-order chromatin structure by targeting the acidic patch of the nucleosome. |
| Q33886711 | Human cytomegalovirus IE1 protein elicits a type II interferon-like host cell response that depends on activated STAT1 but not interferon-γ |
| Q39991900 | Human cytomegalovirus UL84 insertion mutant defective for viral DNA synthesis and growth |
| Q36594113 | Human cytomegalovirus UL97 kinase activity is required for the hyperphosphorylation of retinoblastoma protein and inhibits the formation of nuclear aggresomes |
| Q34683482 | Human cytomegalovirus immediate early proteins and cell growth control |
| Q37705024 | Human cytomegalovirus immediate-early 1 protein facilitates viral replication by antagonizing histone deacetylation |
| Q24337028 | Human cytomegalovirus infection causes degradation of Sp100 proteins that suppress viral gene expression |
| Q34228694 | Human cytomegalovirus infection induces specific hyperphosphorylation of the carboxyl-terminal domain of the large subunit of RNA polymerase II that is associated with changes in the abundance, activity, and localization of cdk9 and cdk7. |
| Q30570561 | Human cytomegalovirus major immediate early 1 protein targets host chromosomes by docking to the acidic pocket on the nucleosome surface |
| Q36607020 | Human cytomegalovirus pUL29/28 and pUL38 repression of p53-regulated p21CIP1 and caspase 1 promoters during infection |
| Q41360318 | Human cytomegalovirus protein pp71 induces Daxx SUMOylation |
| Q57817539 | Importance of Promyelocytic Leukema Protein (PML) for Kaposi's Sarcoma-Associated Herpesvirus Lytic Replication |
| Q35529185 | In vivo analysis of protein sumoylation induced by a viral protein: Detection of HCMV pp71-induced Daxx sumoylation |
| Q38730491 | Incoming human papillomavirus 16 genome is lost in PML protein-deficient HaCaT keratinocytes. |
| Q24312113 | Influenza A virus NS1 targets the ubiquitin ligase TRIM25 to evade recognition by the host viral RNA sensor RIG-I |
| Q34294353 | Inhibition of cytomegalovirus immediate early gene expression: a therapeutic option? |
| Q41770253 | Inhibition of the cyclin-dependent kinases at the beginning of human cytomegalovirus infection specifically alters the levels and localization of the RNA polymerase II carboxyl-terminal domain kinases cdk9 and cdk7 at the viral transcriptosome |
| Q28594666 | Interaction between the transcription factor SPBP and the positive cofactor RNF4. An interplay between protein binding zinc fingers |
| Q37945188 | Interplay between Herpesvirus Infection and Host Defense by PML Nuclear Bodies |
| Q37799098 | Intrinsic cellular defense mechanisms targeting human cytomegalovirus |
| Q91790329 | Kaposi's sarcoma-associated herpesvirus vIRF2 protein utilizes an IFN-dependent pathway to regulate viral early gene expression |
| Q38359229 | Mouse cytomegalovirus immediate-early protein 1 binds with host cell repressors to relieve suppressive effects on viral transcription and replication during lytic infection |
| Q39977599 | Murine gammaherpesvirus 68 open reading frame 75c tegument protein induces the degradation of PML and is essential for production of infectious virus |
| Q34973821 | Novel real-time monitoring system for human cytomegalovirus-infected cells in vitro that uses a green fluorescent protein-PML-expressing cell line |
| Q41913861 | Nuclear domain 10 components promyelocytic leukemia protein and hDaxx independently contribute to an intrinsic antiviral defense against human cytomegalovirus infection |
| Q33836726 | Origin-independent assembly of Kaposi's sarcoma-associated herpesvirus DNA replication compartments in transient cotransfection assays and association with the ORF-K8 protein and cellular PML. |
| Q34345244 | Overexpression of promyelocytic leukemia protein precludes the dispersal of ND10 structures and has no effect on accumulation of infectious herpes simplex virus 1 or its proteins |
| Q38092800 | PML Degradation: Multiple Ways to Eliminate PML. |
| Q24670576 | PML is critical for ND10 formation and recruits the PML-interacting protein daxx to this nuclear structure when modified by SUMO-1 |
| Q28204823 | PML protein isoforms and the RBCC/TRIM motif |
| Q37452497 | Physical requirements and functional consequences of complex formation between the cytomegalovirus IE1 protein and human STAT2. |
| Q35587707 | Positive role of promyelocytic leukemia protein in type I interferon response and its regulation by human cytomegalovirus |
| Q35601249 | Promyelocytic leukemia inhibits adipogenesis, and loss of promyelocytic leukemia results in fat accumulation in mice |
| Q28273685 | Promyelocytic leukemia is a direct inhibitor of SAPK2/p38 mitogen-activated protein kinase |
| Q35020024 | Promyelocytic leukemia protein mediates interferon-based anti-herpes simplex virus 1 effects |
| Q24529191 | Proteasome-independent disruption of PML oncogenic domains (PODs), but not covalent modification by SUMO-1, is required for human cytomegalovirus immediate-early protein IE1 to inhibit PML-mediated transcriptional repression. |
| Q44428719 | Purified promyelocytic leukemia coiled-coil aggregates as a tetramer displaying low α-helical content |
| Q37191856 | Recruitment of cdk9 to the immediate-early viral transcriptosomes during human cytomegalovirus infection requires efficient binding to cyclin T1, a threshold level of IE2 86, and active transcription |
| Q40108167 | Recruitment of human cytomegalovirus immediate-early 2 protein onto parental viral genomes in association with ND10 in live-infected cells. |
| Q38111995 | Regulation of human cytomegalovirus transcription in latency: beyond the major immediate-early promoter |
| Q39271041 | Regulation of the tumor suppressor PTEN by SUMO. |
| Q34435571 | Role and fate of PML nuclear bodies in response to interferon and viral infections |
| Q34055369 | Role of the specific interaction of UL112-113 p84 with UL44 DNA polymerase processivity factor in promoting DNA replication of human cytomegalovirus |
| Q28647169 | SUMO and transcriptional regulation |
| Q41983297 | SUMO binding by the Epstein-Barr virus protein kinase BGLF4 is crucial for BGLF4 function. |
| Q40414198 | SUMO-1 modification of the major immediate-early (IE) 1 and 2 proteins of human cytomegalovirus is regulated by different mechanisms and modulates the intracellular localization of the IE1, but not IE2, protein |
| Q28507462 | SUMO-1 protease-1 regulates gene transcription through PML |
| Q35123249 | SUMOylation of the human cytomegalovirus 72-kilodalton IE1 protein facilitates expression of the 86-kilodalton IE2 protein and promotes viral replication |
| Q24558692 | The Epstein-Barr virus replication protein BBLF2/3 provides an origin-tethering function through interaction with the zinc finger DNA binding protein ZBRK1 and the KAP-1 corepressor |
| Q39320346 | The Human CMV IE1 Protein: An Offender of PML Nuclear Bodies |
| Q38728197 | The Human Cytomegalovirus IE1 Protein Antagonizes PML Nuclear Body-Mediated Intrinsic Immunity via the Inhibition of PML De Novo SUMOylation |
| Q40312312 | The ND10 Component Promyelocytic Leukemia Protein Acts as an E3 Ligase for SUMOylation of the Major Immediate Early Protein IE1 of Human Cytomegalovirus |
| Q33665836 | The PML nuclear bodies: actors or extras? |
| Q42022579 | The adenoviral oncogene E1A-13S interacts with a specific isoform of the tumor suppressor PML to enhance viral transcription |
| Q33584744 | The carboxy terminal region of the human cytomegalovirus immediate early 1 (IE1) protein disrupts type II inteferon signaling |
| Q38716767 | The essential role of guinea pig cytomegalovirus (GPCMV) IE1 and IE2 homologs in viral replication and IE1-mediated ND10 targeting |
| Q28140732 | The function of PML in p53-dependent apoptosis |
| Q41848711 | The functional interactome of PYHIN immune regulators reveals IFIX is a sensor of viral DNA. |
| Q24290948 | The growth suppressor PML represses transcription by functionally and physically interacting with histone deacetylases |
| Q33825616 | The human cytomegalovirus IE2 and UL112-113 proteins accumulate in viral DNA replication compartments that initiate from the periphery of promyelocytic leukemia protein-associated nuclear bodies (PODs or ND10) |
| Q33809143 | The human cytomegalovirus IE86 protein can block cell cycle progression after inducing transition into the S phase of permissive cells |
| Q37945177 | The human cytomegalovirus major immediate-early proteins as antagonists of intrinsic and innate antiviral host responses. |
| Q33826853 | The major immediate-early gene ie3 of mouse cytomegalovirus is essential for viral growth |
| Q37157169 | The mouse cytomegalovirus immediate-early 1 gene is not required for establishment of latency or for reactivation in the lungs |
| Q38049899 | The next generation recombinant human cytomegalovirus vaccine candidates-beyond gB. |
| Q34746892 | The promyelocytic leukemia nuclear body: sites of activity? |
| Q28144176 | The transcriptional role of PML and the nuclear body |
| Q34173877 | Transcription factors and translocations in lymphoid and myeloid leukemia |
| Q34435531 | Transcriptional regulation in acute promyelocytic leukemia. |
| Q39606266 | Viral and cellular factors that target the promyelocytic leukemia oncogenic domains strongly activate a glucocorticoid-responsive promoter |
| Q24527246 | Viral immediate-early proteins abrogate the modification by SUMO-1 of PML and Sp100 proteins, correlating with nuclear body disruption |
| Q35027514 | Viruses and the type I interferon antiviral system: induction and evasion |
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