Lola Margulies scite author profile

Analysis of melanoma cell lines with abnormalities in HLA Class I antigen expression has identified two serological phenotypes caused by distinct molecular defects. One is characterized by lack of HLA Class I antigen expression which is not induced by IFN-gamma or by incubation at 25 degrees C for 24 hrs. This phenotype reflects structural changes in the beta(2)m gene which interfere with its transcription and/or translation or result in the synthesis of a defective beta(2)-mu polypeptide unable to associate with HLA Class I heavy chains. The other phenotype manifests very low HLA Class I antigen expression which is enhanced by IFN-gamma or by incubation at 25 degrees C for 24 hrs. This phenotype reflects abnormalities in TAP heterodimer expression, which cause defects in stable assembly and intracellular transport of the HLA Class I antigen trimolecular complex. Loss of HLA Class I antigens renders melanoma cells resistant to lysis by HLA Class I antigen-restricted cytotoxic T cells which specifically recognize melanoma associated antigens. Therefore, abnormalities in HLA Class I antigen expression may have a negative impact on the outcome of T cell based immunotherapy. Characterization of the molecular defects underlying loss of HLA Class I antigens may suggest approaches to restore their expression. Inclusion of these approaches in the protocols of T cell based immunotherapy may improve its efficacy.

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Asymmetric Template Function of Microbial Deoxyribonucleic Acids: Transcription of Ribosomal and Soluble Ribonucleic Acids

Margulies

Remeza

Rudner

1970

J Bacteriol

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In Bacillus subtilis and Escherichia coli, 16 and 23S ribosomal ribonucleic acid (rRNA) hybridize exclusively with the heavy (H) strand of methylated albuminkieselguhr (MAK)-fractionated complementary deoxyribonucleic acid (DNA) strands. All the soluble RNA (4S RNA) in B. subtilis and 66 to 75 % of the 4S RNA in E. coli also hybridize with the H strand. Interspecific hybridization shows that E. coli 23S rRNA also binds selectively to the DNA H strand of Salmonella typhimurium. The hybridization peak for all three cellular RNA components is specifically located in the late-eluting region of the absorbance profile of the DNA H strand. The early-eluting region of the light (L) strand preferentially inhibits the hybridization between the peak region of the H strand and 23S rRNA. These regions are considered to represent the transcribing sequences and their complements for 23S rRNA in the separated H and L strands of DNA, respectively.

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A high level of hybrid dysgenesis in Drosophila: High thermosensitivity, dependence on DNA repair, and incomplete cytotype regulation

Margulies

1990

Mol Gen Genet

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An unusually high level of P-M hybrid dysgenesis in Drosophila melanogaster is characteristic of hybrid offspring originating from both, A (M female x P male) and B (P female x M male) crosses of a subline of the Harwich P strain, termed Hs. The novel properties induced by mobility of P elements carried by Hs paternal chromosomes include: very high (over 95%) gonadal dysgenesis (GD) in both sexes at the low restrictive temperature of 21 degrees C, and highly premature sterility when males are reared at 18 degrees C and aged at 21 degrees C. Although all three major chromosomes of the Hs subline contributed to this atypical pattern of gonadal dysgenesis, chromosome 3 had the largest effect. Gonadal dysgenesis showed a temperature- and sex-dependent repression pattern by the defective P elements of Muller-5 Birmingham chromosomes; at 21 degrees C there was virtually no repression of male sterility, but most effective repression of GD in females. At 29 degrees C repression was effective in males, but declined in females. The high thermosensitive sterility, low fecundity, and premature aging of the male germ line were greatly exacerbated when males derived from either A or B crosses were deficient either in excision repair (mei-9 mutation) or in post-replication repair (mei-41 mutation). These findings demonstrate that both DNA repair pathways are essential for the repair of lesions induced by P element transposition and support the hypothesis that P element-induced chromosome breaks are responsible for the virtual abolition of the germ line. The relatively high premature sterility of cross B DNA repair-deficient males, reared at 18 degrees C and aged at 21 degrees C, indicates that there is incomplete cytotype regulation in Hs subline hybrids.

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Interleukin‐6‐Type Cytokinesa

Sehgal

WANG

Rayanade

et al. 1995

Annals of the New York Academy of Sciences

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Lola Margulies

Molecular and functional phenotypes of melanoma cells with abnormalities in HLA Class I antigen expression

Asymmetric Template Function of Microbial Deoxyribonucleic Acids: Transcription of Ribosomal and Soluble Ribonucleic Acids

A high level of hybrid dysgenesis in Drosophila: High thermosensitivity, dependence on DNA repair, and incomplete cytotype regulation

Interleukin‐6‐Type Cytokinesa

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