E. Brunner scite author profile

HIV continues to be a major global health issue. In spite of successful prevention interventions and treatment methods, the development of an HIV vaccine remains a major priority for the field and would be the optimal strategy to prevent new infections. We showed previously that a single immunization with a SIV-based integrase-defective lentiviral vector (IDLV) expressing the 1086.C HIV-1-envelope induced durable, high-magnitude immune responses in non-human primates (NHPs). In this study, we have further characterized the humoral responses by assessing antibody affinity maturation and antigen-specific memory B-cell persistence in two vaccinated macaques. These animals were also boosted with IDLV expressing the heterologous 1176.C HIV-1-Env to determine if neutralization breadth could be increased, followed by evaluation of the injection sites to assess IDLV persistence. IDLV-Env immunization was associated with persistence of the vector DNA for up to 6 months post immunization and affinity maturation of antigen-specific memory B cells.

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Contribution to the Inheritance of the Ag Groups A Population Genetic Study

Bütler

Brunner

Morganti

1974

Vox Sanguinis

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Abstract. 86 sera from a Tibetan and 100 sera from a Senegalese population were typed for the factors Ag(a1), Ag(c), Ag(d), Ag(g), Ag(h), Ag(t), Ag(x), Ag(y), and Ag(z). The data are compared with results obtained from 362 sera of Swiss blood donors. The antithetical behaviour of the factors Ag(a1)–Ag(d), Ag(c)–Ag(g), Ag(x)–Ag(y), and Ag(t)–Ag(z) could be confirmed on the basis of a Hardy‐Weinberg analysis using the Tibetan and the Senegalese material. A total of 46 different Ag phenotypes was observed in the complete material. The new data were used for the evaluation of previously proposed genetic models for the Ag system. A revised model for the Ag chromosome is presented, assuming 5 closely linked loci, namely Agx/Agy, Aga1/Agd, Agc/Agg, Agt/Agz, and Agh/Ag[i]. The existence of at least 14 different haplotypes could be established, whereby some of them were observed exclusively in 1 of the 3 populations studied.

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Testis-specific ATP synthase peripheral stalk subunits required for tissue-specific mitochondrial morphogenesis in Drosophila

et al. 2017

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BackgroundIn Drosophila early post-meiotic spermatids, mitochondria undergo dramatic shaping into the Nebenkern, a spherical body with complex internal structure that contains two interwrapped giant mitochondrial derivatives. The purpose of this study was to elucidate genetic and molecular mechanisms underlying the shaping of this structure.ResultsThe knotted onions (knon) gene encodes an unconventionally large testis-specific paralog of ATP synthase subunit d and is required for internal structure of the Nebenkern as well as its subsequent disassembly and elongation. Knon localizes to spermatid mitochondria and, when exogenously expressed in flight muscle, alters the ratio of ATP synthase complex dimers to monomers. By RNAi knockdown we uncovered mitochondrial shaping roles for other testis-expressed ATP synthase subunits.ConclusionsWe demonstrate the first known instance of a tissue-specific ATP synthase subunit affecting tissue-specific mitochondrial morphogenesis. Since ATP synthase dimerization is known to affect the degree of inner mitochondrial membrane curvature in other systems, the effect of Knon and other testis-specific paralogs of ATP synthase subunits may be to mediate differential membrane curvature within the Nebenkern.

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Programmed Evolution for Optimization of Orthogonal Metabolic Output in Bacteria

et al. 2015

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Current use of microbes for metabolic engineering suffers from loss of metabolic output due to natural selection. Rather than combat the evolution of bacterial populations, we chose to embrace what makes biological engineering unique among engineering fields – evolving materials. We harnessed bacteria to compute solutions to the biological problem of metabolic pathway optimization. Our approach is called Programmed Evolution to capture two concepts. First, a population of cells is programmed with DNA code to enable it to compute solutions to a chosen optimization problem. As analog computers, bacteria process known and unknown inputs and direct the output of their biochemical hardware. Second, the system employs the evolution of bacteria toward an optimal metabolic solution by imposing fitness defined by metabolic output. The current study is a proof-of-concept for Programmed Evolution applied to the optimization of a metabolic pathway for the conversion of caffeine to theophylline in E. coli. Introduced genotype variations included strength of the promoter and ribosome binding site, plasmid copy number, and chaperone proteins. We constructed 24 strains using all combinations of the genetic variables. We used a theophylline riboswitch and a tetracycline resistance gene to link theophylline production to fitness. After subjecting the mixed population to selection, we measured a change in the distribution of genotypes in the population and an increased conversion of caffeine to theophylline among the most fit strains, demonstrating Programmed Evolution. Programmed Evolution inverts the standard paradigm in metabolic engineering by harnessing evolution instead of fighting it. Our modular system enables researchers to program bacteria and use evolution to determine the combination of genetic control elements that optimizes catabolic or anabolic output and to maintain it in a population of cells. Programmed Evolution could be used for applications in energy, pharmaceuticals, chemical commodities, biomining, and bioremediation.

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A New Sensitive Method for Studying the Polymorphisms of the Human Low Density Lipoproteins

Bütler

Brunner

1966

Vox Sanguinis

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E. Brunner

IDLV-HIV-1 Env vaccination in non-human primates induces affinity maturation of antigen-specific memory B cells

Contribution to the Inheritance of the Ag Groups A Population Genetic Study

Testis-specific ATP synthase peripheral stalk subunits required for tissue-specific mitochondrial morphogenesis in Drosophila

Programmed Evolution for Optimization of Orthogonal Metabolic Output in Bacteria

A New Sensitive Method for Studying the Polymorphisms of the Human Low Density Lipoproteins

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