18 research outputs found
Electrically controllable exchange bias via interface magnetoelectric effect
Exchange bias is a unidirectional magnetic anisotropy that often arise from
interfacial interaction of a ferromagnetic and antiferromagnetic layers. In
this article, we show that a metallic layer with spin-orbit coupling can
induces an exchange bias via an interface magnetoelectric effect. In linear
response regime, the interface magnetoelectric effect is induced by spin-orbit
couplings that arises from the broken symmetry of the system. Furthermore, we
demonstrate that the exchange bias can be controlled by electric field.Comment: 4 pages, 3 figures, presented on Intermag 202
Canine cancer immunotherapy studies: linking mouse and human
Despite recent major clinical breakthroughs in human cancer immunotherapy including the use of checkpoint inhibitors and engineered T cells, important challenges remain, including determining the sub-populations of patients who will respond and who will experience at times significant toxicities. Although advances in cancer immunotherapy depend on preclinical testing, the majority of in-vivo testing currently relies on genetically identical inbred mouse models which, while offering critical insights regarding efficacy and mechanism of action, also vastly underrepresent the heterogeneity and complex interplay of human immune cells and cancers. Additionally, laboratory mice uncommonly develop spontaneous tumors, are housed under specific-pathogen free conditions which markedly impacts immune development, and incompletely model key aspects of the tumor/immune microenvironment. The canine model represents a powerful tool in cancer immunotherapy research as an important link between murine models and human clinical studies. Dogs represent an attractive outbred combination of companion animals that experience spontaneous cancer development in the setting of an intact immune system. This allows for study of complex immune interactions during the course of treatment while also directly addressing long-term efficacy and toxicity of cancer immunotherapies. However, immune dissection requires access to robust and validated immune assays and reagents as well as appropriate numbers for statistical evaluation. Canine studies will need further optimization of these important mechanistic tools for this model to fulfill its promise as a model for immunotherapy. This review aims to discuss the canine model in the context of existing preclinical cancer immunotherapy models to evaluate both its advantages and limitations, as well as highlighting its growth as a powerful tool in the burgeoning field of both human and veterinary immunotherapy
The allopolyploid Arabidopsis kamchatica originated from multiple individuals of Arabidopsis lyrata and Arabidopsis halleri
Polyploidization, or genome duplication, has played a critical role in the diversification of animals, fungi and plants. Little is known about the population structure and multiple origins of polyploid species because of the difficulty in identifying multiple homeologous nuclear genes. The allotetraploid species Arabidopsis kamchatica is closely related to the model species Arabidopsis thaliana and is distributed in a broader climatic niche than its parental species. Here, we performed direct sequencing of homeologous pairs of the low-copy nuclear genes WER and CHS by designing homeolog-specific primers, and obtained also chloroplast and ribosomal internal transcribed spacer sequences. Phylogenetic analysis showed that 50 individuals covering the distribution range including North America are allopolyploids derived from Arabidopsis lyrata and Arabidopsis halleri. Three major clusters within A. kamchatica were detected using Bayesian clustering. One cluster has widespread distribution. The other two are restricted to the southern part of the distribution range including Japan, where the parent A. lyrata is not currently distributed. This suggests that the mountains in Central Honshu and surrounding areas in Japan served as refugia during glacial–interglacial cycles and retained this diversity. We also found that multiple haplotypes of nuclear and chloroplast sequences of A. kamchatica are identical to those of their parental species. This indicates that multiple diploid individuals contributed to the origin of A. kamchatica. The haplotypes of low-copy nuclear genes in Japan suggest independent polyploidization events rather than introgression. Our findings suggest that self-compatibility and gene silencing occurred independently in different origins
Is the Informal Sector Politically Different? (Null) Answers from Latin America
Scholars have produced a limited understanding of the effect of informal labor status on a worker’s political attitudes and behavior. We present descriptive evidence on the micropolitical correlates of informality using direct measures of the concept in public opinion surveys from 18 Latin American countries. We test three scholarly impressions of informal workers—that they are less politically engaged, more right-leaning, and more favorable toward noncontributory social programs than formal-sector workers. These are grounded in a dualist conception of labor markets that views the formal and informal sectors as having little overlap. We find minimal evidence for these impressions and argue that recent empirical findings consistent with a revisionist view of informality better account for our null results. According to this view, informal and formal labor markets are highly integrated, which, we argue, melds together the economic interests and political preferences of individuals in both sectors. We also provide evidence that casts doubt on alternative explanations that would attribute our null results to the timing of our surveys, to arational sources of political behavior, or to measurement error