63 research outputs found
California's Proposition 8: What Happened, and What Does the Future Hold?
Analyzes the characteristics of voters most likely to have supported or opposed Proposition 8 in 2008, including party affiliation, religiosity, and age. Reviews exit poll data suggesting strong African-American support for the measure
Lesbian, Gay, and Bisexual Voters in the 2000 US Presidential Election
Lesbians, gay men, and bisexuals (LGBs) in the United States are strikingly more likely to vote for Democratic presidential candidates than are heterosexuals. LGBs are one of the Democratic Partyβs most loyal voting blocs, despite the absence of one of the most important mechanisms for creating party identification: inter-generational transmission. We use the 2000 Presidential election to examine whether LGB voters overwhelmingly chose Al Gore because they viewed him as superior to George W. Bush on LGB-related policy issues or because of their greater overall liberalism and Democratic Party identification. We also examine the impact of socialization within the LGB community for generating political liberalism, Democratic Party identification, and interest in LGB policies. Using logit analysis on a 2000 Harris Interactive poll of 13,000 Americans, including 1,000 LGBs, we find that concern for LGB rights, policy liberalism, and party identification all played a role in the LGB vote. Analysis of the LGB sub-sample supports a model of political socialization within the LGB community leading to stronger interest in LGB rights, liberalism, Democratic party identification, and support for Gore
The Energy Computation Paradox and ab initio Protein Folding
The routine prediction of three-dimensional protein structure from sequence remains a challenge in computational biochemistry. It has been intuited that calculated energies from physics-based scoring functions are able to distinguish native from nonnative folds based on previous performance with small proteins and that conformational sampling is the fundamental bottleneck to successful folding. We demonstrate that as protein size increases, errors in the computed energies become a significant problem. We show, by using error probability density functions, that physics-based scores contain significant systematic and random errors relative to accurate reference energies. These errors propagate throughout an entire protein and distort its energy landscape to such an extent that modern scoring functions should have little chance of success in finding the free energy minima of large proteins. Nonetheless, by understanding errors in physics-based score functions, they can be reduced in a post-hoc manner, improving accuracy in energy computation and fold discrimination
Engineering HIV-Resistant Human CD4+ T Cells with CXCR4-Specific Zinc-Finger Nucleases
HIV-1 entry requires the cell surface expression of CD4 and either the CCR5 or CXCR4 coreceptors on host cells. Individuals homozygous for the ccr5Ξ32 polymorphism do not express CCR5 and are protected from infection by CCR5-tropic (R5) virus strains. As an approach to inactivating CCR5, we introduced CCR5-specific zinc-finger nucleases into human CD4+ T cells prior to adoptive transfer, but the need to protect cells from virus strains that use CXCR4 (X4) in place of or in addition to CCR5 (R5X4) remains. Here we describe engineering a pair of zinc finger nucleases that, when introduced into human T cells, efficiently disrupt cxcr4 by cleavage and error-prone non-homologous DNA end-joining. The resulting cells proliferated normally and were resistant to infection by X4-tropic HIV-1 strains. CXCR4 could also be inactivated in ccr5Ξ32 CD4+ T cells, and we show that such cells were resistant to all strains of HIV-1 tested. Loss of CXCR4 also provided protection from X4 HIV-1 in a humanized mouse model, though this protection was lost over time due to the emergence of R5-tropic viral mutants. These data suggest that CXCR4-specific ZFNs may prove useful in establishing resistance to CXCR4-tropic HIV for autologous transplant in HIV-infected individuals
Genome-wide association analysis of eosinophilic esophagitis provides insight into the tissue specificity of this allergic disease
Eosinophilic esophagitis (EoE) is a chronic inflammatory disorder associated with allergic hypersensitivity to food. We interrogated >1.5 million genetic variants in European EoE cases and subsequently in a multi-site cohort with local and out-of-study control subjects. In addition to replication of the 5q22 locus (meta-analysis p = 1.9Γ10β16), we identified association at 2p23 (encoding CAPN14, p = 2.5Γ10β10). CAPN14 was specifically expressed in the esophagus, dynamically upregulated as a function of disease activity and genetic haplotype and after exposure of epithelial cells to IL-13, and located in an epigenetic hotspot modified by IL-13. There was enriched esophageal expression for the genes neighboring the top 208 EoE sequence variants. Multiple allergic sensitization loci were associated with EoE susceptibility (4.8Γ10β2 < p < 5.1Γ10β11). We propose a model that elucidates the tissue specific nature of EoE that involves the interplay of allergic sensitization with an EoE-specific, IL-13βinducible esophageal response involving CAPN14
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