— Artificial molecular machines commonly employ molecular switches, molecular motors, and molecular shuttles as fundamental building blocks. The observation of artificial molecular machines constructed by …

 — Application in Grease. Using low-molecular polyisobutylene (1300/2400) in grease can improve the adhesion performance of oil products, such as the large gear grease for ball mills in mines ...

 — The specific features of supramolecular polymers that can lead to applications in a variety of fields are reviewed, including: materials—in which processability and self-healing properties are of interest; biomedicine— in which the concerns are dynamic functionality and biodegradability; and hierarchical assembly and electronic …

 — Molecular switches, molecular muscles, artificial syringes, pumps, synthetic processive catalysts, molecular walkers, and transporters are covered and emerging biological applications of these artificial molecular machines are explored.

 — Azo compounds have their vital role in medical field for example azo resveratrol and oxyresveratrol exhibited high tyrosine's inhibiting activity, useful for cancer treatment [23].Organoseleno and organotelluro based molecular azo compounds used for photodynamic therapy (PDT) [24].Azo polymeric hydrogels has been developed for …

Those interested in the application of molecular methods for community analysis of other foods are ... Bamforth, C. W., and Mills, D. A. tion, yeasts such as Kloeckera and Metchnikowia spp. can pre-

The application of traditional and molecular techniques has provided a glimpse into the "black box" and has given information to improve the wastewater treatment process. However, bleach pulp and paper mill effluents require a better understanding of the active bacterial population.

 — This review covers nanoparticle interactions with surfactants, focusing on molecular interactions, assembly, and a broad range of applications (Fig. 1). The relationships between the surface chemistry of the nanostructures, binding and grafting mechanisms of the surfactants, interfacial properties, and function of the nanostructures …

Career Opportunities. As one of America's fastest growing regional retail companies, Forman Mills is constantly seeking the best and brightest talents to drive the continued growth of the company.If you have a …

 — Designed DNA molecules have broad applications in molecular nanotechnology that exploit three properties of DNA: its sequence, structure and folding pathways. ... Yurke, B. & Mills, A. P. …

Plants or tissues can be regenerated through various pathways. Like animal regeneration, cell totipotency and pluripotency are the molecular basis of plant regeneration. Detailed systematic studies on Arabidopsis thaliana gradually unravel the fundamental mechanisms and principles underlying plant r …

 — DNA markers improved the productivity and accuracy of classical plant breeding by means of marker-assisted selection (MAS). The enormous number of quantitative trait loci (QTLs) mapping read for different plant species have given a plenitude of molecular marker-gene associations. In this review, we have discussed the positive …

 — Ab initio calculations of spin dynamics demonstrate that magnetic relaxation at high temperatures is due to local molecular vibrations, indicating that magnetic data storage in single molecules at temperatures above liquid nitrogen should be possible. Lanthanides have been investigated extensively for potential applications in quantum …

 — Today, biology is revealing the importance of 'molecular machines' and of other highly organized molecular structures that carry out the complex physico-chemical …

 — Nanotechnology is a known field of research since last century. Since "nanotechnology" was presented by Nobel laureate Richard P. Feynman during his well famous 1959 lecture "There's Plenty of Room at the Bottom" (Feynman, 1960), there have been made various revolutionary developments in the field of …

 — It has long been speculated 83,84,85,86,87 that a qualitative connection exists between molecular mechanochemistry and the well-established increased reactivity of many strained small molecules ...

 — The best studied examples of natural biological machines include ribosomes, plasma membrane pumps, mitotic spindles, and motor proteins: myosin, …

 — Artificial molecular machines have captured the imagination of scientists and nonscientists alike for decades now, given their clear potential to transform and enhance all aspects of human life. In this Outlook, I use a bicycle as an analogy to explain what a molecular machine is, in my opinion, and work through a representative selection of …

 — The use of DNA fuel allows precise control of movements on a nanometre length scale without prodding by a scanning microscope tip; it makes possible …

By allowing the application of mechanical shearing actions in the presence of chemical agents (e.g. cross-linkers), the ball mill represents an easy method to prepare such hybrid systems. 69 One example has been …

High-throughput virtual screening of proteins using GRID molecular interaction fields ... Simone Sciabola 1, Robert V Stanton, James E Mills, Maria M Flocco, Massimo Baroni, ... In all cases the results showed the effectiveness of the GRID-FLAP method and its potential use in applications such as identifying selectivity targets and tools/hits ...

 — Artificial molecular machines have captured the imagination of scientists and nonscientists alike for decades now, given their clear potential to transform and enhance …

 — This Research Topic aims to provide up-to-date knowledge on the molecular mechanisms and applications of photosynthesis, with a focus on advances in energy conversion and storage. The primary objectives include understanding the optimization and management of energy regulation and exploring applications in solar energy production …

 — The application of molecular markers in crop improvement first started in the 1980s. Initially, this was in the form of hybridization-based molecular markers, which have since become less popular.

 — The application of molecular testing, especially NGS technology, to cytology samples plays a significant role in diagnosis, prognosis, and prediction to the potential treatment of various diseases. Molecular cytopathology, therefore, is essential in the era of personalized medicine. Cytology samples typically contain better preserved nucleic ...

 — What exactly are the applications of such designer proteins? One answer to this question is already evident in mRNA vaccines, which were first approved for wide-scale use during the COVID-19 pandemic. …

 — The applications of new DNA-based technologies range from molecular diagnostics to protein purification and from therapeutics to the assembly of tiny electronic circuits. These uses exploit the properties of DNA at three levels — sequence only, structure (which depends on sequence) and folding pathways (which depend on both …

Literature data regarding antiviral activity of OMWW compounds are still few, but some preliminary studies investigated the HTyr and Ole antiviral effects against HIV-1 infection and replication by inhibiting viral entry and cell-to-cell transmission (Lee-Huang et al. 2007). In conlusion, the antimicrobial effects of OMWW whole extract and single molecules are …

Rolling is a metal forming process in which the deformation takes place under the application of Compressive forces between the rollers. In this article, we are going to discuss a detailed presentation on the Rolling …

 — Quality evaluation of miRNA and mRNA sequencing data. To explore and elucidate the underlying molecular mechanisms of the Ziziphus jujuba Mill. response to HT stress, two cultivars, specifically the temperature-tolerant genotype "Fucuimi" and the temperature-sensitive genotype "Junzao", were selected. Both cultivars were subjected …