39 research outputs found
A Genome-Wide Gene Function Prediction Resource for Drosophila melanogaster
Predicting gene functions by integrating large-scale biological data remains a challenge for systems biology. Here we present a resource for Drosophila melanogaster gene function predictions. We trained function-specific classifiers to optimize the influence of different biological datasets for each functional category. Our model predicted GO terms and KEGG pathway memberships for Drosophila melanogaster genes with high accuracy, as affirmed by cross-validation, supporting literature evidence, and large-scale RNAi screens. The resulting resource of prioritized associations between Drosophila genes and their potential functions offers a guide for experimental investigations
Law and LGBQ-Parent Families
This paper addresses how the law affects LGBQ-parent families. We first outline the legal landscape that LGBQ parents face in the US, underscoring that it varies drastically by state and creates inequity for families. Reviewing existing social science research, we then address how the law affects three processes for LGBQ people: desiring parenthood, becoming a parent, and experiencing parent- hood. Our review indicates that the law affects if and how LGBQ people become parents. LGBQ people consider the law as they make decisions about whether to pursue adoption, donor insemination, or surrogacy and often view the latter two pathways as the most legally secure. Further, the law continues to be salient for LGBQ parents throughout parenthood and affects family well-being. Specifically, legal inequity diminishes parent’s well-being, the relationship among couples who are parenting, and parents’ ability to effectively advocate for their children in institutional settings like healthcare contexts. Finally, we address directions for future research for scholars interested in the law, family processes and outcomes, and LGBQ families
LGBT Sexuality and Families at the Start of the Twenty-First Century
Since the start of the twenty-first century, the literature on same-sex couple relationships and families headed by single parents who identify as lesbian or gay has grown exponentially, and research published in the past 10 to 15 years tackles many new questions about sexual minority families. This review concentrates on four topics that have dominated the sociological arena: who counts as family and how/whether changing definitions of family incorporate households formed by lesbian, gay, bisexual, and transgender (LGBT) people; the biological, social, and legal obstacles that influence family formation for this population; the outcomes for youth raised with lesbian or gay parents; and family dynamics , relationship quality, and relationship dissolution in same-sex couple and transgender partner households. We conclude with future directions for the sociological study of LGBT sexuality and families
Quantitative trait loci × environment interactions for plant morphology vary over ontogeny in Brassica rapa
Growth in plants occurs via the addition of repeating modules, suggesting that the genetic architecture of similar subunits may vary between earlier‐ and later‐developing modules. These complex environment × ontogeny interactions are not well elucidated, as studies examining quantitative trait loci (QTLs) expression over ontogeny have not included multiple environments.
Here, we characterized the genetic architecture of vegetative traits and onset of reproduction over ontogeny in recombinant inbred lines of Brassica rapa in the field and glasshouse.
The magnitude of genetic variation in plasticity of seedling internodes was greater than in those produced later in ontogeny. We correspondingly detected that QTLs for seedling internode length were environment‐specific, whereas later in ontogeny the majority of QTLs affected internode lengths in all treatments. The relationship between internode traits and onset of reproduction varied with environment and ontogenetic stage. This relationship was observed only in the glasshouse environment and was largely attributable to one environment‐specific QTL.
Our results provide the first evidence of a QTL × environment × ontogeny interaction, and provide QTL resolution for differences between early‐ and later‐stage plasticity for stem elongation. These results also suggest potential constraints on morphological evolution in early vs later modules as a result of associations with reproductive timing