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Target Concepts:
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Query: UMLS:C0267964 (
PAA
)
2,561
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A monoclonal antibody (mAb) designated H250, directed against an
Epstein
-Barr virus (EBV) capsid antigen, was obtained following immunization of BALB/c mice with naked particles from the producer cell line B95.8. This antigen was present in the producer lines B95.8, P3HR1, M81, RI and CA, and absent from the non-producer lines BJAB, Raji and 1022. H250 did not inhibit the transformation of cord blood lymphocytes by the B95.8 virus, nor did it inhibit EA induction on Raji cells by the P3HR1 virus. In addition, H250 showed no fluorescence on living B95.8 cells. This indicates that H250 does not recognize a membrane antigen. By indirect immunofluorescence, no fluorescence was observed on induced Raji cells or on
PAA
-treated B95.8 cells. Thus, H250 recognized a late antigen of the EBV virus replication cycle. Agglutination of naked virus by H250 showed it was directed against a capsid antigen. Positive fluorescence was observed on cells treated with tunicamycin, indicating that H250 recognized a protein. The molecular weight of this protein was obtained by Western blot and was approximately 75 kDa. The blocking tests carried out with H250 seemed to indicate that this Ab appeared late in patient sera during primary infection.
...
PMID:Characterization of a 75-kDa Epstein-Barr virus capsid protein using a new monoclonal antibody H250. 255 42
The primary and secondary structure of herpes simplex virus type 1 (HSV-1), varicella-zoster (VZV) and
Epstein
-Barr virus (EBV) DNA polymerases was calculated by means of computer programs. The comparison of HSV-1 polymerase (pol) sequence to the known primary and tertiary structure of E. coli DNA pol I revealed five short homologous sequences, one of which coincided with the alpha-helical structure of the DNA-binding domain of E. coli DNA pol. Comparison by primary and secondary structure computer programs of the three DNA polymerases coded by herpesviruses HSV-1, VZV and EBV led to the identification of polypeptide sequences shared by the three DNA pols. In a similar way, the secondary structure of the DNA pol polypeptide in the vicinity of the mutation leading to
PAA
resistance in HSV-1 DNA pol helped to identify the role of this sequence in the binding of phosphate donated by the nucleoside triphosphate molecule which binds to the DNA pol. Although the computer secondary structure programs are about 60% accurate, it was possible to obtain new information on the properties of certain domains in the DNA polymerases of HSV-1, VZV and EBV.
...
PMID:Computer-assisted primary and secondary structure analyses of DNA polymerases of herpes simplex, Epstein-Barr and varicella zoster viruses reveal conserved domains with some homology to DNA-binding domain in E. coli DNA pol I. 285 11
The expression, tissue distribution, and preliminary characterization of a cell surface molecule, apparently a glycolipid, recognized by a monoclonal antibody, anti-
PAA
, were described. This antibody (anti-PAA) was produced by the fusion of myeloma cells NS-1 with spleen cells from a BALB/c mouse, which were sensitized with activated human T-cells generated by allogeneic stimulation in mixed-lymphocyte culture (MLC). Resting human peripheral blood T-cells, B-cells, and monocytes demonstrated weak anti-
PAA
binding. Binding of proliferating T-cells (phytohemagglutinin- and MLC-activated T-cells) and thymocytes to anti-
PAA
was two to six times greater than that of resting T-cells. A fifteenfold-increased binding was observed with acute lymphocytic leukemia T-cell lines.
Epstein
-Barr virus-transformed B-cell lines bound anti-
PAA
up to sixteenfold greater than resting B-cells. Tumor cell lines of various nonlymphoid origins demonstrated marked reactivity with this antibody. Both benign and malignant cells in hyperplastic tissues, of various origins, bound anti-
PAA
, whereas their normal, nonproliferating counterparts did not. Normal proliferating cells in these tissues, including cells of the placental chorionic villi and trophoblasts, also bound anti-
PAA
. Of all lymphoid and nonlymphoid cell lines examined, only chronic lymphocytic leukemia (CLL) cells and some cell lines derived from Burkitt's lymphoma showed weak or no binding. This antibody also failed to react with a variety of nonprimate cell lines. Anti-
PAA
antibody did not immunoprecipitate any protein from lymphoid tumor cell lines to which it demonstrated a quantitatively high degree of binding, nor did protease treatment of these lines decrease antibody binding. Anti-
PAA
did, however, bind to glycolipids extracted from these cell lines. Binding of this monoclonal antibody to a minor neutral glycolipid, isolated from the erythroleukemia cell line K562, was about sixfold greater than that of any other K562 neutral glycolipid or ganglioside. Anti-
PAA
demonstrated weak or undetectable binding to purified, predominant, lymphoid cell membrane's neutral glycolipids and gangliosides. The monoclonal antibody anti-
PAA
appeared, therefore, to recognize a unique, proliferation-associated, neutral glycolipid present on normal as well as on benign and malignant proliferating cells. The antigen appeared to be universally expressed on proliferating cells from all human tissues with the exception of some Burkitt's cell lines and CLL cells. Nonhuman cell lines, except those for closely related primates, did not express
PAA
.
...
PMID:Unique proliferation-associated marker expressed on activated and transformed human cells defined by monoclonal antibody. 354 53
Infection with
Epstein
-Barr virus (EBV) usually leads to a latent state in B lymphocytes. The virus can be reactivated through two viral transactivators, Zta and Rta, leading to a cascade of gene expression. An EBV DNA array was generated to analyze the pattern of transcription of the entire EBV genome under various conditions. Firstly, a complete set of temporal expression clusters of EBV genes was displayed by analyzing the array data of anti-IgG-induced Akata cells. In addition to assigning genes of unknown function to the various clusters, increasing expression of latent genes, including EBNA2, EBNA3A and EBNA 3C, was observed during virus replication. Secondly, gene expression independent of viral DNA replication was analyzed in
PAA
blocked Akata cells and in chemically induced Raji cells. Several genes with presumed late functions were found to be expressed with early kinetics and independent of viral DNA replication, suggesting possible novel functions for these genes. Finally, the EBV array was used to identify Rta responsive gene expression in Raji cells, and in the EBV-positive epithelial cells NA, using a Zta siRNA strategy. The array data were confirmed by Northern blotting, RT-PCR and reporter assays. All the information here thus provides a better understanding of the control of EBV lytic gene expression.
...
PMID:Genome-wide transcription program and expression of the Rta responsive gene of Epstein-Barr virus. 1629 10
