| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0165-2427(98)00108-1 |
| P698 | PubMed publication ID | 9656461 |
| P50 | author | Artur Summerfield | Q38328813 |
| P2093 | author name string | McCullough KC | |
| Hofmann MA | |||
| P2860 | cites work | Lymphocyte apoptosis during classical swine fever: implication of activation-induced cell death | Q27469526 |
| Tissue injury in inflammation. Oxidants, proteinases, and cationic proteins | Q34562547 | ||
| Overview of the First International Workshop to Define Swine Leukocyte Cluster of Differentiation (CD) Antigens | Q40593147 | ||
| Infection with classical swine fever virus: effects on phenotype and immune responsiveness of porcine T lymphocytes | Q40642235 | ||
| Rapid characterization of new pestivirus strains by direct sequencing of PCR-amplified cDNA from the 5' noncoding region | Q40708869 | ||
| The relative density of CD44-positive porcine monocytic cell populations varies between isolations and upon culture and influences susceptibility to infection by African swine fever virus | Q40716320 | ||
| Identification of conserved epitopes on a hog cholera virus protein | Q40768346 | ||
| Analysis of mAb reactive with the porcine SWC1 | Q56775556 | ||
| Separation of White Blood Cells | Q59080094 | ||
| Characterization of monoclonal antibodies directed against swine leukocytes | Q70038791 | ||
| Characterization of swine leukocyte differentiation antigens | Q71475309 | ||
| The antibody MY4 recognizes CD14 on porcine monocytes and macrophages | Q71658666 | ||
| Characterization of monoclonal antibodies specific for monocytes, macrophages and granulocytes from porcine peripheral blood and mucosal tissues | Q72363660 | ||
| Workshop studies on monoclonal antibodies reactive against porcine myeloid cells | Q72545521 | ||
| Porcine bone marrow myeloid cells: phenotype and adhesion molecule expression | Q73596915 | ||
| P433 | issue | 3 | |
| P921 | main subject | classical swine fever | Q19000581 |
| P304 | page(s) | 289-301 | |
| P577 | publication date | 1998-05-01 | |
| P1433 | published in | Veterinary Immunology and Immunopathology | Q7923704 |
| P1476 | title | Low density blood granulocytic cells induced during classical swine fever are targets for virus infection | |
| P478 | volume | 63 |
| Q27489617 | Activation and modulation of antiviral and apoptotic genes in pigs infected with classical swine fever viruses of high, moderate or low virulence |
| Q92257987 | Adverse Effects of Classical Swine Fever Virus LOM Vaccine and Jeju LOM Strains in Pregnant Sows and Specific Pathogen-Free Pigs |
| Q40045137 | African swine fever virus infection in Classical swine fever subclinically infected wild boars. |
| Q40619730 | Apoptosis in the lymphatic organs of piglets inoculated with classical swine fever virus |
| Q40593321 | Are low-density granulocytes the major target cells of classical swine fever virus in the peripheral blood? |
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| Q38326027 | Classical swine fever in pigs: recent developments and future perspectives |
| Q27468872 | Classical swine fever virus replicated poorly in cells from MxA transgenic pigs |
| Q99212531 | Classical swine fever virus: the past, present and future |
| Q35226312 | Classical swine fever--an update |
| Q42990230 | Comparative detection of classical swine fever virus in striated muscle from experimentally infected pigs by reverse transcription polymerase chain reaction, cell culture isolation and immunohistochemistry |
| Q40612802 | Comparative immunohistopathology in pigs infected with highly virulent or less virulent strains of hog cholera virus |
| Q40608717 | Depletion of CD4(+) and CD8(high+) T-cells before the onset of viraemia during classical swine fever |
| Q80461728 | Ficoll-separated mononuclear cells from sepsis patients are contaminated with granulocytes |
| Q40370610 | Global transcriptional profiles in peripheral blood mononuclear cell during classical swine fever virus infection |
| Q39604576 | Human MxA protein inhibits the replication of classical swine fever virus. |
| Q26776096 | Immune Responses Against Classical Swine Fever Virus: Between Ignorance and Lunacy |
| Q36295111 | In vitro infection with classical swine fever virus inhibits the transcription of immune response genes |
| Q47221508 | Infection with Classical Swine Fever Virus Induces Expression of Type III Interferons and Activates Innate Immune Signaling |
| Q34087342 | Laboratory diagnosis, epizootiology, and efficacy of marker vaccines in classical swine fever: a review |
| Q59350489 | Low CD4/CD8 Ratio in Classical Swine Fever Postnatal Persistent Infection Generated at three weeks after birth |
| Q47548603 | Monoclonal and oligoclonal TCR AV and BV gene usage in CD4+ T cells from pigs immunised with C-strain CSFV vaccine |
| Q40499924 | Nictitating membrane as a potentially useful postmortem diagnostic specimen for classical swine fever. |
| Q33816410 | Pathogenesis of borna disease virus: granulocyte fractions of psychiatric patients harbor infectious virus in the absence of antiviral antibodies. |
| Q40363429 | Patterns of gene expression in swine macrophages infected with classical swine fever virus detected by microarray. |
| Q35566011 | Postnatal persistent infection with classical Swine Fever virus and its immunological implications |
| Q40552384 | Proportions and phenotypic expression of peripheral blood leucocytes in pigs vaccinated with an attenuated C strain and a subunit E2 vaccine against classical swine fever |
| Q36931230 | Recent advances in the development of recombinant vaccines against classical swine fever virus: cellular responses also play a role in protection |
| Q38161261 | The challenges of classical swine fever control: modified live and E2 subunit vaccines |
| Q45323576 | The eukaryotic translation initiation factor 3 subunit E binds to classical swine fever virus NS5A and facilitates viral replication |
| Q40213281 | The impact of CSFV on the immune response to control infection. |
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