A mistake concerning the ultra $LI$-ideal of a lattice implication algebra is pointed out, and some new sufficient and necessary conditions for an $LI$-ideal to be an ultra $LI$-ideal are given. Moreover, the notion of an $LI$-ideal is extended to $MTL$-algebras, the notions of a (prime, ultra, obstinate, Boolean) $LI$-ideal and an $ILI$-ideal of an $MTL$-algebra are introduced, some important examples are given, and the following notions are proved to be equivalent in $MTL$-algebra: (1) prime proper $LI$-ideal and Boolean $LI$-ideal, (2) prime proper $LI$-ideal and $ILI$-ideal, (3) proper obstinate $LI$-ideal, (4) ultra $LI$-ideal.
Recently, more and more efforts are directed towards developing new imaging and drug-delivery options based on various nanoparticles, exploiting their unique properties. Here, ultra-small gold nanoparticles functionalized with widely used polyethylene glycol and its amine-terminated form were tested in respect of their potential interactions with human immune cells (cell line and primary cells). The results showed that differently terminated ultrasmall gold nanoparticles represent an interesting theranostic platform as they are harmless to immune cells (not inducing cytotoxicity and severe immune response) and on the other hand, they can serve as imaging and/or drug delivery agents using e.g. monocytes/ macrophages as “Trojan horses” to deliver these nanoparticles across the blood-brain barrier and diagnose or treat pathologies of the central nervous system.
Nowadays, increasing attention is being paid to the biological significance of UV- -reflecting patterns exposed on the outer surfaces of various organisms. UV radiation plays an important role in the communication of many species of organisms. Here we give a brief overview of the biological functions of UV reflectance in some groups of invertebrates. Special attention is paid to the role of UV reflectance in sexual selection, foraging strategies, and the evolution and ecology of a species in general. and Pavel Pecháček, David Stella, Karel Kleisner.
Mnoho skupin živočichů disponuje zrakem citlivým na tzv. ultrafialové světlo. Jednou z takových skupin jsou i různí opylovači, kteří nám dobře známé květy mohou vidět v trochu odlišných barvách, než my. Na květech rostlin totiž často existují vzory patrné pouze v ultrafialové části spektra, které jsou pro člověka neviditelné. V první části seriálu o výskytu a významu těchto vzorů u rostlin se zabývá historií odhalování citlivosti živočichů na ultrafialové světlo, přibližuje otázky, jak funguje zrak a jakým způsobem ultrafialové zbarvení na povrchu organismů vzniká., The vision of many animal groups is sensitive to the so-called ultraviolet (UV) light. These groups include various pollinators, which may see flowers that are quite familiar to us in a different coloration. That is because flowers often feature patterns visible only in the UV part of the spectrum, and thus invisible to humans. This series deals with the occurrence of such patterns and their significance for plants. The first part recounts the history of discovering the sensibility of animals to UV light, expounds on the way how vision works, explains the origin of UV coloration on organismal surfaces., and Pavel Pecháček.
Význam ultrafialových znaků v životě různých organismů byl dlouho opomíjen především z toho důvodu, že UV paprsky jsou pro lidský zrak za normálních okolností neviditelné. Jedna z možností, jak si můžeme ultrafialovou podobu živočichů či rostlin zviditelnit, je použití speciálně upraveného klasického či digitálního fotoaparátu. Druhý díl seriálu o ultrafialových vzorech na květech rostlin se zabývá vývojem techniky záznamu UV podoby různých organismů a popisem získávání fotografií, které doprovázejí tento text. Druhá část článku je věnována vybraným druhům našich nejběžnějších rostlin a charakterizaci jejich ultrafialových znaků., The significance of UV characteristics for the life of various organisms has been neglected for a long time. It stems mainly from the fact, that under normal circumstances, UV rays are invisible to the human eye. One of the ways to make the UV appearance of animals or plants visible is to use a specially adjusted classic or digital camera. This second paper deals with the UV patterns on flowers. It focuses on the development of techniques which allow us to capture the UV appearance of various organisms, and provides a methodology with which the accompanying photos were taken. The article also presents selected species of common native plants, with a description of their UV characteristics., and Pavel Pecháček.
The last part of this series about UV characters on plant flowers presents UV images of several other common plant species native to the Czech flora. Attention is also paid to the possibility of using herbarium material for research into the UV characters of plants. The article summarizes recently discovered knowledge along with the evolutionary and ecological factors behind the emergence and significance of UV characters on plant flowers, particularly their role in the communication of pollinators. and Pavel Pecháček.
Ultrakrátké světelné pulzy, tedy pulzy pikosekundové nebo kratší časové délky, jsou velmi významné ve vědě i ve stále větším počtu aplikací. Uvádíme základní vlastnosti světelných pulzů, způsob jejich generace lasery se synchronizací módů a připomínáme některé oblasti jejich použití., Ultra-short light pulses, with pulses of a picosecond or shorter duration, are very important in science as well as in a growing number of applications. We review the basic properties of these light pulses and techniques for their generation by modelocked lasers. We also describe some of their application areas., Petr Malý., and Obsahuje seznam literatury
The diversity of colours is one of the most typical features of vernacular architecture. The submitted study deals with the research on the use of ultramarine on the Pannonian type of folk house, which could be found in central, southern, and south-eastern Moravia. The authors primarily proceed from the younger shift of the house. This featured, among other things, mainly the original transformation of stylistic elements, the façade segmentation, and the diversity of colours used on the frontages of residential buildings. Blue pigments were only barely available by the early nineteenth century, especially in the rural environment. The use of blue pigments flourished in vernacular architecture only after 1828, when the technique for the production of ultramarine was published. This was followed by industrial production of this pigment. The technique for the production of ultramarine, applied in the past, is described e. g. in the publication Tovární výroba barev [Factory Production of Dyes] by Jaroslav Milbauer from 1926. The treatise interconnects the cultural-historical and the technical level of the phenomenon under study. The material-analytical section is based on ethnological field research and an analysis of historical plasters using both physical-chemical methods of their identification and the knowledge of material engineering. Ethnological knowledge thus acquires a completely new dimension, and it is supplemented by new conclusions. At the same time, it is also a detailed analysis of the structure of ultramarine currently acquired on our market and an attempt at its laboratory synthesis. The result of the presented experiment with the production of blue pigment can be beneficial in practice for restoration purposes and professional analysis of historical plasters.