C Murre scite author profile

A mouse major histocompatibility antigen (H-2) gene, encoding a novel H-2Ld molecule lacking its intracytoplasmic domain, has been constructed and introduced into mouse L-cells. The novel H-2 molecule is found on the surface of the transfected cells at the same level as L-cells transfected with the native H-2Ld gene. Allo- and influenza-specific cytotoxic T lymphocytes can recognize the truncated H-2 gene product nearly as efficiently as the normal H-2Ld gene product. However, vesicular stomatitis virus-specific cytotoxic T lymphocytes recognize the truncated H-2Ld molecule less efficiently than the complete H-2Ld product. The rate of capping of the truncated H-2Ld molecule was investigated and found to be the same as that of the complete H-2Ld gene product.

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Dissection of serological and cytolytic T lymphocyte epitopes on murine major histocompatibility antigens by a recombinant H-2 gene separating the first two external domains.

Murre

Choi

Weis

et al. 1984

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A novel H-2 gene in which the first external (N) domain of the H-2Ld antigen was replaced with that of the H-2Dd antigen was constructed and introduced into L cells. A transformant expressing the products of the hybrid gene was studied for binding to monoclonal antibodies specific for H-2Ld and H-2Dd antigens. It was found that serological determinants are distributed both in the N (Dd) and Cl (Ld) domains. Determinants recognized by allospecific cytotoxic T lymphocytes (CTLs) and virus-specific CTLs also mapped to the N and Cl domains. Determinants recognized by vesicular stomatitis virus (VSV)-specific effect cells, however, were not present on the recombinant molecule. These results show that a recombinant gene of two H-2 antigens in which the first external domain has been reshuffled can express a functional H-2 antigen that can then be used to map serological and CTL determinants to specific domains.

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Differential expression of H-2Dd and H-2Ld histocompatibility antigens.

Weis¹,

Murre²

1985

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To determine why the H-2Dd antigen is expressed on the surface of transfected cells at a rate several-fold higher than an analogously transfected H-2Ld molecule, we analyzed both previously described and new H-2 hybrid genes. These genes were constructed by exchanging domains between H-2 genes. Quantitative radioimmunoassay indicates that the region of the H-2Dd molecule responsible for its enhanced expression resides in the polymorphic N domain, the first domain of the mature class I molecule.

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Correlation between Two New Methods for the Isolation of Human Monocytes: Specific Reversible Agglutination with a Carbohydrate from Pokeweed and by use of the Lectin PA-4

Waxdal

Kiéda

Murre

1982

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Biochemical and functional analyses of a secreted H-2Ld molecule.

Murre¹,

Parker²,

Reiss³

et al. 1986

Mol. Cell. Biol.

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A truncated H-2Ld gene was constructed by deleting the transmembrane and cytoplasmic exons. The truncated H-2Ld gene was introduced into mouse L cells using the thymidine kinase gene as a selectable marker. Transformants were isolated and screened for the presence of truncated H-2Ld antigen. The truncated H-2Ld gene product was present in both the cytoplasm and culture medium, but not on the cell surface. The truncated H-2Ld antigen was stable in culture medium for at least 9 h and was secreted into the medium at a rate similar to the kinetics with which complete H-2 antigens reach the cell surface. Transformants expressing the truncated H-2Ld molecule were not recognized by cytotoxic T lymphocytes specific for the H-2Ld antigen.

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C Murre

Construction, expression and recognition of an H—2 molecule lacking its carboxyl terminus

Dissection of serological and cytolytic T lymphocyte epitopes on murine major histocompatibility antigens by a recombinant H-2 gene separating the first two external domains.

Differential expression of H-2Dd and H-2Ld histocompatibility antigens.

Correlation between Two New Methods for the Isolation of Human Monocytes: Specific Reversible Agglutination with a Carbohydrate from Pokeweed and by use of the Lectin PA-4

Biochemical and functional analyses of a secreted H-2Ld molecule.

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