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    NázovAcricotopus indet. morphotype incurvatus: Description and genetics of a new Orthocladiinae (Diptera: Chironomidae) larval morphotype from the Tibetan Plateau
    Aut.údajeAndreas Laug ... [et al.]
    Autor Laug Andreas (40%)
    Spoluautori Hamerlík Ladislav 1974- (40%) UMBFP09 - Katedra biológie a environmentálnych štúdií
    Anslan Sten (5%)
    Engels Stefan (5%)
    Turner Falko (5%)
    Wang Junbo (2%)
    Antje Schwalb (3%)
    Zdroj.dok. Zootaxa. Vol. 4656, no. 3 (2019), pp. 535-544. - Auckland : Magnolia Press, 2019
    Kľúč.slová pakomáre - midges - Chironomidae   DNA (nukleová kyselina) - deoxyribonukleová kyselina - deoxyribonucleic acid   larvy pakomárov - midge larvae   genetika - genetics   biológia - biology   ekológia - ecology   ekosystémy - ecosystems  
    Heslá geogr. Tibetská náhorná plošina - (Tibet)
    Ázia
    Form.deskr.články - journal articles
    Jazyk dok.angličtina
    KrajinaNový Zéland
    AnotáciaHigh mountain ranges such as the Tibetan Plateau with an average altitude above 4500 m are topographically complex formations. Elevational gradients, physiographic diversity and climatic heterogeneity have led to highly biodiverse ecosystems in these regions. Mountain ranges can be seen as cradles of evolution and harbour, due to their unique characteristics, a high number of highly adapted species. At the same time these areas are hard to access and therefore taxonomic information is limited. Here we describe a new Acricotopus (Diptera: Chironomidae: Orthocladiinae) larval morphotype occurring in lakes and ponds of differing salinity and water depths located on the Southern and Central Tibetan Plateau. The description is based on larvae and their genetics (ribosomal 18S, 28S and mitochondrial COI sequences) collected from a shallow pond in close proximity to the large saline lake Selin Co. Larvae of Acricotopus indet. morphotype incurvatus are characterized by a mentum with a cluster of lateral teeth, partially folded inwards, a mandible with a toothed lobe in addition to four inner teeth and a sclerotized plate positioned behind the mentum. Up to now, these morphological features have only been found in early instars of other Acricotopus species. The proposed morphotype name is inspired by the peculiar form of the mentum
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    Kategória publikačnej činnosti ADC
    Číslo archívnej kópie46671
    Katal.org.BB301 - Univerzitná knižnica Univerzity Mateja Bela v Banskej Bystrici
    Báza dátxpca - PUBLIKAČNÁ ČINNOSŤ
    OdkazyPERIODIKÁ-Súborný záznam periodika
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  2.  

    NázovIminothioindoxyl as a molecular photoswitch with 100 nm band separation in the visible range
    Aut.údajeMark W. H. Hoorens ... [et al.]
    Autor Hoorens Mark W. H. (20%)
    Spoluautori Medveď Miroslav 1971- (10%) UMBFP08 - Katedra chémie
    Laurent Adéle D. (10%)
    Di Donato Mariangela (10%)
    Fanetti Samuele (5%)
    Slappendel Laura (5%)
    Hilbers (5%)
    Feringa Ben L. (10%)
    Buma Wybren Jan (10%)
    Szymański Wiktor (15%)
    Zdroj.dok. Nature Communications. Vol. 10, no. 2390 (2019), pp. 1-11. - London : Nature Research, 2019
    Kľúč.slová molekulové fotoprepínače - molecular photoswitches   teória funkcionálu hustoty   chémia - chemistry   prírodné vedy - natural sciences   fotochemické reakcie - photochemical reactions  
    Form.deskr.články - journal articles
    Jazyk dok.angličtina
    KrajinaVeľká Británia
    AnotáciaLight is an exceptional external stimulus for establishing precise control over the properties and functions of chemical and biological systems, which is enabled through the use of molecular photoswitches. Ideal photoswitches are operated with visible light only, show large separation of absorption bands and are functional in various solvents including water, posing an unmet challenge. Here we show a class of fully-visible-light-operated molecular photoswitches, lminothioindoxyls (ITIs) that meet these requirements. ITIs show a band separation of over 100 nm, isomerize on picosecond time scale and thermally relax on millisecond time scale. Using a combination of advanced spectroscopic and computational techniques, we provide the rationale for the switching behavior of ITIs and the influence of structural modifications and environment, including aqueous solution, on their photochemical properties. This research paves the way for the development of improved photo-controlled systems for a
    Kategória publikačnej činnosti ADC
    Číslo archívnej kópie47137
    Katal.org.BB301 - Univerzitná knižnica Univerzity Mateja Bela v Banskej Bystrici
    Báza dátxpca - PUBLIKAČNÁ ČINNOSŤ
    OdkazyPERIODIKÁ-Súborný záznam periodika
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    nerozpoznaný

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