- and Rehabilitation in Non-Laboratory Settings., Antibodies, Behavioral Economic Laboratory Research in Tobacco Regulatory Science., DNA Testing, Educational and Career Development Outcomes Among Undergraduate Summer Research Interns: A Pipeline for Pathology, Elisa Kits, Gels, Isotypes, Laboratory Medicine, Medium & Serums, Mouse Ab on mouse tissue, NATtrol, Panel, Particles, PCR, Pcr Kits, Peptides, Ria Kits, RNA, Test Kits
Biomedical articles share annotations with their citation neighbors
Biomedical articles share annotations with their citation neighbors Background: Numerous efforts have been poured into annotating the wealth of knowledge contained in biomedical articles. Thanks to such efforts, it is now possible to quantitatively explore relations between these annotations and the citation network at large scale. Results: With the aid of several large and small annotation databases, this study shows that articles share annotations with their citation neighborhood to the point that the neighborhood’s most common annotations are likely to be those appearing in the article. Conclusions: These findings posit that an article’s citation neighborhood defines to a large extent the article’s annotated content. Thus, citations should be considered as a foundation for future…
- Behavioral Economic Laboratory Research in Tobacco Regulatory Science., Devices, DNA, DNA Templates, DNA Testing, Educational and Career Development Outcomes Among Undergraduate Summer Research Interns: A Pipeline for Pathology, Elisa Kits, Enzymes, Equipments, Exosomes, Gels, Isotypes, NATtrol, Panel, Particles, PCR, Pcr Kits, Portable Motion-Analysis Device for Upper-Limb Research, Ria Kits, RNA, Test Kits
Novel nanomaterial-organism hybrids with biomedical potential
Novel nanomaterial-organism hybrids with biomedical potential Instinctive hierarchically biomineralized structures of various organisms, such as eggs, algae, and magnetotactic bacteria, afford extra protection and distinct performance, which endow fragile organisms with a tenacious ability to adapt and survive. However, spontaneous formation of hybrid materials is difficult for most organisms in nature. Rapid development of chemistry and materials science successfully obtained the combinations of organisms with nanomaterials by biomimetic mineralization thus demonstrating the reproduction of the structures and functions and generation of novel functions that organisms do not possess. The rational design of biomaterial-organism hybridization can control biological recognition, interactions, and metabolism of the organisms. Thus, nanomaterial-organism hybrids represent a next generation of…