| scholarly article | Q13442814 |
| P50 | author | Melissa M. Rolls | Q42261073 |
| P2093 | author name string | Young JA | |
| Naughton J | |||
| Brojatsch J | |||
| Zingler K | |||
| P2860 | cites work | DNA sequencing with chain-terminating inhibitors | Q22066207 |
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| RIP: a novel protein containing a death domain that interacts with Fas/APO-1 (CD95) in yeast and causes cell death | Q24307376 | ||
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| Cytocidal effect caused by the envelope glycoprotein of a newly isolated avian hemangioma-inducing retrovirus | Q40117140 | ||
| A chicken middle-repetitive DNA sequence which shares homology with mammalian ubiquitous repeats | Q40500227 | ||
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| An evolutionary and functional approach to the TNF receptor/ligand family | Q40699318 | ||
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| The cytopathic effect of human immunodeficiency virus is independent of high levels of unintegrated viral DNA accumulated in response to superinfection of cells | Q45777011 | ||
| Designing CD4 immunoadhesins for AIDS therapy | Q46215386 | ||
| A region of the 75 kDa neurotrophin receptor homologous to the death domains of TNFR‐I and Fas | Q46577567 | ||
| Determinants for receptor interaction and cell killing on the avian retrovirus glycoprotein gp85. | Q54428085 | ||
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| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | apoptotic process | Q14599311 |
| P304 | page(s) | 845-855 | |
| P577 | publication date | 1996-11-01 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | CAR1, a TNFR-related protein, is a cellular receptor for cytopathic avian leukosis-sarcoma viruses and mediates apoptosis | |
| P478 | volume | 87 |
| Q39686823 | A fifteen-amino-acid TVB peptide serves as a minimal soluble receptor for subgroup B avian leukosis and sarcoma viruses |
| Q47213392 | A premature stop codon within the tvb receptor gene results in decreased susceptibility to infection by avian leukosis virus subgroups B, D, and E. |
| Q36483815 | A single-amino-acid substitution in the TvbS1 receptor results in decreased susceptibility to infection by avian sarcoma and leukosis virus subgroups B and D and resistance to infection by subgroup E in vitro and in vivo |
| Q30442135 | Activation of a retroviral membrane fusion protein: soluble receptor-induced liposome binding of the ALSV envelope glycoprotein |
| Q38069383 | African swine fever virus-cell interactions: from virus entry to cell survival. |
| Q35091396 | All in the family: evolutionary and functional relationships among death receptors |
| Q40588214 | Amino acid residues Tyr-67, Asn-72, and Asp-73 of the TVB receptor are important for subgroup E avian sarcoma and leukosis virus interaction |
| Q39686719 | An NF-kappa B-dependent survival pathway protects against cell death induced by TVB receptors for avian leukosis viruses |
| Q28304002 | Apoptosis by death factor |
| Q37145344 | Apoptosis in murine norovirus-infected RAW264.7 cells is associated with downregulation of survivin. |
| Q28270612 | Apoptosis induced by Oropouche virus infection in HeLa cells is dependent on virus protein expression |
| Q41695461 | Apoptosis: a new pharmacodynamic endpoint |
| Q33601957 | Apoptosis: an innate immune response to virus infection |
| Q28608954 | Association of the p75 neurotrophin receptor with TRAF6 |
| Q27473517 | Avian Reoviruses Cause Apoptosis in Cultured Cells: Viral Uncoating, but Not Viral Gene Expression, Is Required for Apoptosis Induction |
| Q92723680 | Avian Sarcoma and Leukosis Virus Envelope Glycoproteins Evolve to Broaden Receptor Usage Under Pressure from Entry Competitors † |
| Q37419352 | Avian retroviral replication |
| Q40409670 | Avian sarcoma and leukosis virus cytopathic effect in the absence of TVB death domain signaling |
| Q34477900 | Avian sarcoma and leukosis virus-receptor interactions: from classical genetics to novel insights into virus-cell membrane fusion |
| Q35698967 | Avian sarcoma leukosis virus receptor-envelope system for simultaneous dissection of multiple neural circuits in mammalian brain |
| Q52113747 | Bcl-2 rescues motoneurons from early cell death in the cervical spinal cord of the chicken embryo. |
| Q33840312 | Binding of recombinant feline immunodeficiency virus surface glycoprotein to feline cells: role of CXCR4, cell-surface heparans, and an unidentified non-CXCR4 receptor |
| Q40173225 | Bystander Killing during Avian Leukosis Virus Subgroup B Infection Requires TVB S3 Signaling |
| Q77903149 | CD95(APO-1/Fas)-mediated apoptosis: live and let die |
| Q34082790 | Cell death control in lymphocytes. |
| Q41514584 | Cell death in the regulation of immune responses |
| Q41554119 | Cell death induction by receptors of the TNF family: towards a molecular understanding. |
| Q41651163 | Cell death: TRAIL and its receptors |
| Q33663063 | Cell-specific targeting of lentiviral vectors mediated by fusion proteins derived from Sindbis virus, vesicular stomatitis virus, or avian sarcoma/leukosis virus |
| Q36507373 | Cell-specific viral targeting mediated by a soluble retroviral receptor-ligand fusion protein |
| Q40417775 | Cellular uptake of avian leukosis virus subgroup B is mediated by clathrin |
| Q34470748 | Characterization of a cytolytic strain of equine infectious anemia virus |
| Q24315643 | Cloning and characterization of TRAIL-R3, a novel member of the emerging TRAIL receptor family |
| Q34321244 | Close linkage of genes encoding receptors for subgroups A and C of avian sarcoma/leucosis virus on chicken chromosome 28. |
| Q34211489 | Dengue virus infection perturbs lipid homeostasis in infected mosquito cells |
| Q45118666 | Development and validation of a PCR-RFLP assay to evaluate TVB haplotypes coding receptors for subgroup B and subgroup E avian leukosis viruses in White Leghorns |
| Q40375760 | Distinct susceptibility of developing neurons to death following Bax overexpression in the chicken embryo |
| Q38997835 | Duck tembusu virus and its envelope protein induce programmed cell death |
| Q36949793 | Efficient subgroup C avian sarcoma and leukosis virus receptor activity requires the IgV domain of the Tvc receptor and proper display on the cell membrane |
| Q34351730 | Endocytosis is a critical step in entry of subgroup B avian leukosis viruses. |
| Q37832047 | Enter the kill zone: initiation of death signaling during virus entry. |
| Q107101676 | Establishment of an avian leukosis virus subgroup A-resistant cell line |
| Q40336046 | Evolution of broad host range in retroviruses leads to cell death mediated by highly cytopathic variants |
| Q35627059 | Evolution of cell recognition by viruses: a source of biological novelty with medical implications |
| Q40008992 | Evolutionary pressure of a receptor competitor selects different subgroup a avian leukosis virus escape variants with altered receptor interactions |
| Q37746382 | Expression and characterization of a soluble, active form of the jaagsiekte sheep retrovirus receptor, Hyal2. |
| Q44499228 | Feline calicivirus replication induces apoptosis in cultured cells |
| Q33979822 | Gene transfer into chicken embryos by retrovirus vectors |
| Q35957879 | Genetic Diversity of NHE1, Receptor for Subgroup J Avian Leukosis Virus, in Domestic Chicken and Wild Anseriform Species |
| Q58618436 | Genetic Resistance to Avian Leukosis Viruses Induced by CRISPR/Cas9 Editing of Specific Receptor Genes in Chicken Cells |
| Q46274281 | Genome Modification Technologies and Their Applications in Avian Species |
| Q38367375 | How do viruses control mitochondria-mediated apoptosis? |
| Q39590450 | Identification and characterization of a shared TNFR-related receptor for subgroup B, D, and E avian leukosis viruses reveal cysteine residues required specifically for subgroup E viral entry. |
| Q36603835 | Identification of a cellular receptor for subgroup E avian leukosis virus |
| Q40533790 | Identification of glycosylation sites in the SU component of the Avian Sarcoma/Leukosis virus Envelope Glycoprotein (Subgroup A) by mass spectrometry |
| Q33835427 | Identification of key residues in subgroup A avian leukosis virus envelope determining receptor binding affinity and infectivity of cells expressing chicken or quail Tva receptor |
| Q34990603 | Identification of novel viral receptors with cell line expressing viral receptor-binding protein |
| Q36890382 | Induction of Caspase-Dependent Apoptosis in Cultured Rat Oligodendrocytes by Murine Coronavirus Is Mediated during Cell Entry and Does Not Require Virus Replication |
| Q33825385 | Induction of apoptosis by Sindbis virus occurs at cell entry and does not require virus replication. |
| Q45125264 | Induction of apoptosis in Vero cells by Newcastle disease virus requires viral replication, de-novo protein synthesis and caspase activation |
| Q45405226 | Induction of immature dendritic cell apoptosis by foot and mouth disease virus is an integrin receptor mediated event before viral infection. |
| Q40134516 | Inhibition of avian leukosis virus replication by vector-based RNA interference |
| Q35422927 | Intronic deletions of tva receptor gene decrease the susceptibility to infection by avian sarcoma and leukosis virus subgroup A. |
| Q35826549 | Intronic deletions that disrupt mRNA splicing of the tva receptor gene result in decreased susceptibility to infection by avian sarcoma and leukosis virus subgroup A. |
| Q34291938 | Investigations on the ORF 167L of lymphocystis disease virus (Iridoviridae). |
| Q34361344 | Keeping TNF-induced apoptosis under control in astrocytes: PEA-15 as a 'double key' on caspase-dependent and MAP-kinase-dependent pathways. |
| Q35149793 | Kinetic analysis of binding interaction between the subgroup A Rous sarcoma virus glycoprotein SU and its cognate receptor Tva: calcium is not required for ligand binding |
| Q24314964 | LARD: a new lymphoid-specific death domain containing receptor regulated by alternative pre-mRNA splicing |
| Q27488284 | Learning from the Viral Journey: How to Enter Cells and How to Overcome Intracellular Barriers to Reach the Nucleus |
| Q34517833 | Library screening and receptor-directed targeting of gammaretroviral vectors |
| Q24562016 | Low pH is required for avian sarcoma and leukosis virus Env-dependent viral penetration into the cytosol and not for viral uncoating |
| Q40579178 | Low pH is required for avian sarcoma and leukosis virus Env-induced hemifusion and fusion pore formation but not for pore growth |
| Q31952001 | Low-affinity nerve-growth factor receptor (P75NTR) can serve as a receptor for rabies virus |
| Q36424163 | Mapping of equine lentivirus receptor 1 residues critical for equine infectious anemia virus envelope binding |
| Q35020496 | Mechanisms of avian retroviral host range extension |
| Q33810931 | Mink cell focus-forming murine leukemia virus infection induces apoptosis of thymic lymphocytes |
| Q33842461 | Mink cell focus-forming murine leukemia virus killing of mink cells involves apoptosis and superinfection |
| Q41619347 | Model of the TVA receptor determinants required for efficient infection by subgroup A avian sarcoma and leukosis viruses |
| Q21089629 | Modulation of tumor necrosis factor by microbial pathogens |
| Q41722123 | Molecular and cellular mechanisms of T lymphocyte apoptosis |
| Q93050914 | Multiplex Neural Circuit Tracing With G-Deleted Rabies Viral Vectors |
| Q39685255 | Mutations conferring resistance to neutralization by a soluble form of the neurotrophin receptor (p75NTR) map outside of the known antigenic sites of the rabies virus glycoprotein |
| Q92493540 | Mutations in Both the Surface and Transmembrane Envelope Glycoproteins of the RAV-2 Subgroup B Avian Sarcoma and Leukosis Virus Are Required to Escape the Antiviral Effect of a Secreted Form of the TvbS3 Receptor † |
| Q33912022 | Mutations of a residue within the polyproline-rich region of Env alter the replication rate and level of cytopathic effects in chimeric avian retroviral vectors |
| Q34600362 | Na+/H+ exchanger type 1 is a receptor for pathogenic subgroup J avian leukosis virus. |
| Q47230811 | Naturally Occurring Frame-Shift Mutations in the tvb Receptor Gene Are Responsible for Decreased Susceptibility of Chicken to Infection with Avian Leukosis Virus Subgroups B, D, and E. |
| Q33919859 | Neurotrophin receptor structure and interactions |
| Q43079602 | Nonconserved tryptophan 38 of the cell surface receptor for subgroup J avian leukosis virus discriminates sensitive from resistant avian species |
| Q41514577 | Pathways leading to cell death in T cells |
| Q40134376 | Poliovirus induces Bax-dependent cell death mediated by c-Jun NH2-terminal kinase |
| Q39551124 | Primary human immunodeficiency virus type 2 (HIV-2) isolates infect CD4-negative cells via CCR5 and CXCR4: comparison with HIV-1 and simian immunodeficiency virus and relevance to cell tropism in vivo |
| Q33644217 | Production and characterization of a soluble, active form of Tva, the subgroup A avian sarcoma and leukosis virus receptor |
| Q44090700 | Rabies virus glycoprotein (RVG) is a trimeric ligand for the N-terminal cysteine-rich domain of the mammalian p75 neurotrophin receptor |
| Q34010373 | Receptors and entry cofactors for retroviruses include single and multiple transmembrane-spanning proteins as well as newly described glycophosphatidylinositol-anchored and secreted proteins. |
| Q22001477 | Receptors for polytropic and xenotropic mouse leukaemia viruses encoded by a single gene at Rmc1 |
| Q33811729 | Regulation of Fas-mediated apoptosis in CD2-fas transgenic mice |
| Q36850813 | Reovirus activates a caspase-independent cell death pathway. |
| Q34343436 | Resistance to infection by subgroups B, D, and E avian sarcoma and leukosis viruses is explained by a premature stop codon within a resistance allele of the tvb receptor gene |
| Q73270498 | Retroviral entry mediated by receptor priming and low pH triggering of an envelope glycoprotein |
| Q40162632 | Retroviral host range extension is coupled with Env-activating mutations resulting in receptor-independent entry. |
| Q36437996 | Retroviral vectors preloaded with a viral receptor-ligand bridge protein are targeted to specific cell types |
| Q92446163 | Reverse Engineering Provides Insights on the Evolution of Subgroups A to E Avian Sarcoma and Leukosis Virus Receptor Specificity |
| Q39881539 | Selection of an avian retrovirus mutant with extended receptor usage |
| Q34151811 | Selective viral vector transduction of ErbB4 expressing cortical interneurons in vivo with a viral receptor-ligand bridge protein. |
| Q39422249 | Sequencing the Biology of Entry: The Retroviral env Gene |
| Q64085599 | Sequential disruption of ALV host receptor genes reveals no sharing of receptors between ALV subgroups A, B, and J |
| Q41541492 | Signalling through the neurotrophin receptor p75NTR. |
| Q34354324 | Similar regulation of cell surface human T-cell leukemia virus type 1 (HTLV-1) surface binding proteins in cells highly and poorly transduced by HTLV-1-pseudotyped virions |
| Q34979037 | Simple, automated, high resolution mass spectrometry method to determine the disulfide bond and glycosylation patterns of a complex protein: subgroup A avian sarcoma and leukosis virus envelope glycoprotein |
| Q33807705 | Sindbis virus entry into cells triggers apoptosis by activating sphingomyelinase, leading to the release of ceramide |
| Q33825013 | Soluble forms of the subgroup A avian leukosis virus [ALV(A)] receptor Tva significantly inhibit ALV(A) infection in vitro and in vivo. |
| Q40295714 | Structural insight into equine lentivirus receptor 1. |
| Q33811723 | Structure and function of Fas/Fas ligand |
| Q33909217 | TNF alpha and the TNF receptor superfamily: structure-function relationship(s). |
| Q39938751 | TNF-alpha mediates pseudorabies virus-induced apoptosis via the activation of p38 MAPK and JNK/SAPK signaling |
| Q24314730 | TRAIL-R2: a novel apoptosis-mediating receptor for TRAIL. |
| Q40992331 | TRAIL/Apo2L activates c-Jun NH2-terminal kinase (JNK) via caspase-dependent and caspase-independent pathways |
| Q28248106 | TRICK2, a new alternatively spliced receptor that transduces the cytotoxic signal from TRAIL |
| Q39593563 | TVB receptors for cytopathic and noncytopathic subgroups of avian leukosis viruses are functional death receptors. |
| Q28257134 | TWEAK, a new secreted ligand in the tumor necrosis factor family that weakly induces apoptosis |
| Q33837118 | Targeting avian leukosis virus subgroup A vectors by using a TVA-VEGF bridge protein |
| Q38339495 | The African swine fever virus dynein-binding protein p54 induces infected cell apoptosis. |
| Q33783600 | The CAR1 gene encoding a cellular receptor specific for subgroup B and D avian leukosis viruses maps to the chicken tvb locus |
| Q92883474 | The Novel Avian Leukosis Virus Subgroup K Shares Its Cellular Receptor with Subgroup A |
| Q24630284 | The genome of canarypox virus |
| Q33647904 | The potential for monocyte-mediated immunotherapy during infection and malignancy. Part I: apoptosis induction and cytotoxic mechanisms |
| Q33911871 | The receptor for the subgroup C avian sarcoma and leukosis viruses, Tvc, is related to mammalian butyrophilins, members of the immunoglobulin superfamily |
| Q39578400 | The transmembrane domains of Sindbis virus envelope glycoproteins induce cell death |
| Q34983824 | To kill or be killed: viral evasion of apoptosis |
| Q24523512 | Two closely related but distinct retroviruses are associated with walleye discrete epidermal hyperplasia |
| Q34371305 | Two different molecular defects in the Tva receptor gene explain the resistance of two tvar lines of chickens to infection by subgroup A avian sarcoma and leukosis viruses |
| Q39605825 | Two functionally distinct forms of a retroviral receptor explain the nonreciprocal receptor interference among subgroups B, D, and E avian leukosis viruses |
| Q36535498 | Up-regulation of a cellular protein at the translational level by a retrovirus |
| Q25255014 | Use of different but overlapping determinants in a retrovirus receptor accounts for non-reciprocal interference between xenotropic and polytropic murine leukemia viruses. |
| Q39602065 | V domain of human SLAM (CDw150) is essential for its function as a measles virus receptor |
| Q44036791 | Vesicular stomatitis virus induces apoptosis at early stages in the viral cycle and does not depend on virus replication |
| Q34234104 | Viral proteins and the mitochondrial apoptotic checkpoint |
| Q34330619 | Virion disassembly is required for apoptosis induced by reovirus |
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