UMLS:C0026764 - FACTA Search

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Query: UMLS:C0026764 (multiple myeloma)
36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A DNA complementary to the viral genome of C-type particles produced by a Mouse myeloma derived cell line (MF2 cell line) was synthesized. This cDNA was used as a probe to study the viral genome expression among the total RNA and the poly (A)-rich RNA extracted from the MF2 and Balb/c embryonic cells. As evidenced by molecular hybridization experiments, the presence of at least one endogenous Balb/c virus in the MF2 virus stocks is suggested. In the productive cells, the viral RNA sequences are expressed in the poly (A)-rich RNA fraction.
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PMID:[Compared expression of murine plasmacytoma associated virus in tumor cells and in mouse embryo cells]. 19 55

A high molecular weight membrane-bound DNA polymerase from the mouse myeloma, MOPC-104E, has been purified extensively, and characterized with regard to physical and reaction properties. This enzyme, which is readily distinguishable from other myeloma enzymes that are analogous to the recognized forms of cellular DNA polymerase, is ddesignated DNA polymerase III. DNA polymerase III activity in whole homogenates from MOPC-104E was solubilized and then prurifed using a series of ion-exchange chromatographic procedures followed by DNA-cellulose chromatography and glycerol gradient centrifugation; the enzyme activity as measured with poly(rA)-(dT)12-18 as template-primer and Mn2+ as divalent cation, was purified as much as 18,000-fold. In the final stages of the pruification, DNA polymerase III possessed no detectable RNA polymerase activity, nucleoside diphosphokinase activity, or nucease activity toward DNA or single- and double-stranded RNA...
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PMID:On the DNA polymerase III of mouse myeloma: partial purification and characterization. 23 42

Antibody chains are encoded in three gene clusters containing genes for the variable and constant regions. V and C genes are separated in germ line and during differentiation a rearrangement takes place. But even after this rearrangement the V and C coding sequences are not contiguous. A final splicing must take place in committed cells between the transcription of a discontinuous V-and C-region DNA and the expression of a continuous mRNA coding for an antibody chain. Analysis by cell fusion indicates that the splicing is cis. When two antibody-producing cell lines are fused, the resulting hybrids express the two antibodies that characterize the parental lines. Permanent cell lines producing antibody of predefined specificity have now been derived in this way. Spleen cells from hyperimmunized donors are fused with myeloma cells and a proportion of the hybrids that are established synthesize and secrete antibodies directed against the immunogen. The heterogeneous cell population can be cloned and propagated. This is a potent way of producing monospecific antibodies to complex antigens such as cell membranes and transplantation antigens. Monoclonal xenogeneic antibodies to rat cell-surface membranes have proved very valuable for characterizing and separating rat lymphocyte subpopulations. In more recent experiments, monoclonal xenogeneic antibodies to mouse and human cell-surface antigens have also been produced which permit the characterization of the hitherto undescribed differentiation antigens.
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PMID:Monoclonal antibodies and cell surface antigens. 25 70

Messenger RNAs for antibody heavy (gamma) and light (kappa) chains were isolated from the polysomes of an IgG-producing mouse myeloma cell line. Polysomes engaged in heavy or light chain synthesis were separated by immunoprecipitation using rabbit antibodies specific for the mouse IgG formed. The mRNAs obtained, more than 85% specifying IgG [Legler, M. & Cohen, E. P. (1976) Biochemistry 15, 4390-4399], were used as "probes" in hybridization experiments with sheared mouse liver DNA. To determine whether mRNAs for Ig heavy and light chains contained covalently bound transcripts of unique and reiterated DNA, hybrids were isolated with or without treatment with ribonuclease (RNase) prior to fractionation and the apparent rates of hybridization were compared. A monophasic C(o)t (DNA concentration x incubation time) curve with a C(0)t(1/2) of 4000 moles of nucleotide per liter x sec, corresponding to less than five hybridization sites per haploid genome, was obtained whether or not RNase was used in the isolation protocol. With a similar experimental design, the apparent hybridization rates of heterogeneous nuclear RNA from the same cell source were clearly different. The "stringency" of the reaction was reduced by incubating the hybridization mixtures at lower temperatures in a further attempt to detect a large class of repetitive sequences that would form hybrids with the IgG mRNA used, if such sequences were present. The results, however, were the same; i.e., the apparent rates of hybridization of mRNAs for mouse antibody gamma and kappa chains with sheared mouse liver DNA were essentially the same whether or not RNase was used in the isolation procedure. Reiteration of genes in mouse liver DNA for mouse IgG could not be detected.
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PMID:Hybridization properties of immunoglobulin mRNA: failure to detect covalently associated IgG mRNA transcripts of reiterated and unique mouse DNA. 26 11

Flow cytometric studies of cellular DNA content were conducted in 26 patients with a variety of neoplasms. Cell dispersal was achieved with pepsin treatment, and a combination of ethidium bromide and mithramycin was used as DNA specific staining procedure. All measurements were conducted with a new sheath flow chamber in a PHYWE ICP 11 pulse cytophotometer. All but one patient with multiple myeloma had unimodal tumor cell DNA distributions. With human granulocytes as reference standard, 24 of 26 tumors were aneuploid; and of these, 23 showed varying degrees of hyperdiploidy. Except for one patient, ploidy abnormalities were stable on repeat examination.
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PMID:Flow cytometric analysis of DNA content for ploidy determination in human solid tumors. 37 15

Polysomes producing IgGl(kappa) myeloma protein were specifically selected by an immunoprecipitation method, and immunoglobulin light chain mRNA was purified from the precipitated polysomes. The purified mRNA migrated predominantly as a single band and the molecular weight of this mRNA was calculated to be 410.000 by polyacrylamide gel electrophoresis in 98% formamide. A protein possessing a molecular weight of 25,000, which is the size of the light chain precursor, was synthesized as a major product of translation in a wheat germ cell-free system. DNA complementary to the mRNA (cDNA) was prepared with avian myeloblastosis virus RNA-dependent DNA polymerase. This cDNA had an average size of 8.3S as determined by sedimentation through an alkaline sucrose gradient. Using this cDNA, Crt 1/2 values of template RNA and RNA from various preparations were calculated from the results of molecular hybridization. The relative content of the mRNA increased 4,4-fold during the immunoprecipitation of polysomes.
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PMID:Purification of immunuglobulin light chain messenger RNA by immunoprecipitation from mouse myeloma tumor, MOPC-31C. 40 23

Immunoglobulin heavy chain mRNA was purified from immunoprecipitated polysomes derived from the mouse myeloma tumor, MOPC-31C. The purified mRNA migrated predominantly as a single band upon polyacrylamide gel electrophoresis in 98% formamide and the molecular weight of this mRNA was calculated to be 700,000. This mRNA was as active as the purified light chain mRNA when it was employed as a template in a cell-free protein synthesizing system from wheat germ. The translation product had a molecular weight of 55,000 daltons, and migrated slightly faster than mature heavy chain upon polyacrylamide gel electrophoresis in sodium dodecylsulfate. The protein synthesized by the direction of this mRNA was shown to yield tryptic peptides corresponding to those derived from the mature heavy chain protein except that one missing peptide was replaced by another additional peptide. DNA complementary to the mRNA was synthesized by RNA-dependent DNA polymerase from avian myeloblastosis virus. Hybridization kinetic analysis between the heavy chain mRNA and its complementary DNA indicated that the RNA was essentially homogenous with rabbit globin mRNA as a standard.
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PMID:Purification of immunoglobulin heavy chain messenger RNA by immunoprecipitation from the mouse myeloma tumor, MOPC-31C. 40 24

The mRNA coding for the kappa-type constant region (C(kappa)) was purified from two clones derived from the MPC-11 mouse myeloma. This mRNA directs the cell-free synthesis of a C(kappa) precursor (molecular weight, about 15,000) in which an extra piece, 17 residues long, precedes the NH(2)-terminal residue (Ala(109)) of the C(kappa) region. The partial sequence of the extra piece is: Met-X-Thr-Asp-Thr-Leu-Leu-Leu-Trp-Val-Leu-Leu-Leu-Trp-Val-Pro-X- (X is unknown). Met(1) was shown to be the initiator methionine. The sequence of the C(kappa) extra piece is completely different from any known sequence preceding residue Ala(109) in whole light (L) chains, thus establishing that the C(kappa)-region mRNA could not have originated from mRNA coding for the whole L chain. The structural features of the C(kappa) extra piece (marked hydrophobicity, size, and a methionine at the NH(2)-terminus) are identical to those characteristic of the NH(2)-terminal extra piece linked to the variable (V) region of whole L-chain precursors. In addition, the C(kappa) extra piece and the extra piece linked to the V region of MOPC-321 L chain have 70% sequence homology. These findings can be explained by the two genes-one Ig chain hypothesis, if we assume that the DNA coding for the extra piece (xp-DNA) is a constitutive part of the V gene. According to this model, the C(kappa)-region mRNA could have originated from: (i) translocation of this V gene to the C gene, deletion of the entire mature V gene, and "end-to-end" repair of the remaining xp-DNA to the C gene; (ii) translocation to the C gene only of the xp-DNA portion of the V gene. Alternatively, we may assume that the xp-DNA is not covalently linked to the mature V gene at all times, as might be the case for the DNA of hypervariable regions presumed to be in episomes. This raises the intriguing speculation that the xp-DNA represents a third distinct gene, designated xp-gene. The presumed xp-gene may be involved in the regulation of gene transcription: when linked to the mature V gene it initiates a chain of events leading to whole L-chain mRNA formation; when attached to the C gene it leads to its transcription to provide the C-region mRNA.
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PMID:Independent expression of the gene coding for the constant domain of immunoglobulin light chain: evidence from sequence analyses of the precursor of the constant region polypeptide. 41 16

Recombinant DNA probes, produced by the molecular cloning of immunoglobulin kappa light chain mRNA, have been used to analyze heterogenous nuclear RNA for presumptive precursors to cytoplasmic kappa light chain mRNA, Three discrete classes of nuclear RNA containing kappa mRNA sequences were detected after pulse-labeling of immunoglobulin-producing P3 myeloma cells. Two of these were substantially larger than kappa mRNA (approximately 10 and 4 times larger); the third was similar in size to kappa mRNA. Beginning with the largest, the sequential appearance of these three classes of nuclear RNA preceded the first appearance of newly synthesized kappa light chain mRNA in the cytoplasm. The results presented here suggest that immunoglobulin kappa light chain mRNA is generated by the stepwise cleavage and processing of a large nuclear RNA transcript.
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PMID:Immunoglobulin light chain mRNA is processed from large nuclear RNA. 41 8

The entire sequences of the variable region of four heavy chains from BALB/c inulin-binding myeloma proteins have been determined. Among the four proteins there are six amino acid differences, all of which occur in the framework portion of the variable region. All of the six amino acid substitutions can be explained by single base mutations at the DNA level. The pattern of diversity in these proteins is compared to a previously reported group of heavy chains from phosphorylcholine-binding myeloma proteins. Unlike the phosphorylcholine-binding proteins, which (with the exception of two that are identical) have size and sequence differences in their complementarity regions, the inulin-binding heavy chains all have identical complementarity regions with H3 being extremely short. The pattern of variation observed in the anti-inulin heavy chains appears to be most easily explained by a somatic mutation mechanism. However, because none of the substitutions occur in complementarity-determining regions, they presumably would have no selective advantage and would not alter binding specificity. These proteins have further been shown to have crossreacting antigenic determinants (idiotypes). Five of the six sequence differences observed occur at positions that are internal in the molecule and thus presumably would not account for the idiotypic differences. These results suggest that most of the observed idiotypic crossreactivities will be due to differences in the light chains of the anti-inulin proteins.
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PMID:Sequence variation among heavy chains from inulin-binding myeloma proteins. 41 44

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