Sökning: "name structure"

Visar resultat 6 - 10 av 158 avhandlingar innehållade orden name structure.

  1. 6. Studier över önamnen i Luleå skärgård

    Författare :Else Britt Lindblom; []
    Nyckelord :HUMANIORA; HUMANITIES; HUMANIORA; HUMANITIES; names of islands; place-names; place-name structure; compounds; place nomenclature; land uplift; uplifted areas; colonization; personal names; önamn; Luleå skärgård; Namnforskning; Name Care and Name Planning; Place Names; Ortnamn;

    Sammanfattning : The aim of this thesis is to present and examine the names of the islands in the archipelago of Luleå innorthern Sweden. The basis for the studies is a collection of names, which contains written forms excerpted from sources from the 14th to the 20th century and local pronunciations of old as well as modern names. LÄS MER

  3. 7. Structure and function of relaxins

    Författare :Linda M. Haugaard-Kedström; Johan Rosengren; Torleif Härd; Linnéuniversitetet; []
    Nyckelord :NATURVETENSKAP; NATURAL SCIENCES; relaxin; insulin-like peptide; peptide hormone; peptide synthesis and NMR; Organic Chemistry; Organisk kemi;

    Sammanfattning : The relaxin/insulin superfamily is a group of peptide hormones that consists of ten members in human, namely relaxins 1-3, insulin-like peptides (INSL) 3-6, insulin and insulin-like growth factors (IGF) I-II. These peptides have various functions in the body, such as regulating growth, blood glucose levels,  collagen metabolism, germ cell maturation and appetite. LÄS MER

  4. 8. Functional and structural characterizations of phytoplankton-bacteria interactions in response to environmental challenges

    Författare :Eva Sörenson; Catherine Legrand; Elin Lindehoff; Jarone Pinhassi; Sonya Dyhrman; Linnéuniversitetet; []
    Nyckelord :NATURVETENSKAP; NATURAL SCIENCES; Interactions; phytoplankton; microalgae; bacteria; communities; aquatic; diversity; functions; structure; species-specific; microbiome; core microbiome; response diversity; resilience; resource partitioning; competition; coexistence; amplicon sequencing; metatranscriptome; Akvatisk ekologi; Aquatic Ecology; Mikrobiologi; Microbiology;

    Sammanfattning : Microorganisms, such as phytoplankton and bacteria, make up ≈70% of aquatic biomass and contribute 50-85% of the oxygen in Earth’s atmosphere. The microbial loop concept and the discovery of the large diversity in microbial communities acknowledge that biotic interactions between microorganisms in addition to resource competition enable the recycling of energy and nutrients in aquatic food webs. LÄS MER

  5. 9. Post- och järnvägsstationers namn i Götaland 1860-1940 : Namngivning i spänningsfältet mellan allmänna och enskilda intressen : name-giving and the tension between public and private interests

    Författare :Eberhard Löfvendahl; Uppsala universitet; []
    Nyckelord :HUMANIORA; HUMANITIES; Scandinavian languages - general; Sub-post offices; railway stations; place-names; name sources; parish names; farms; villages; large estates; industrial communities; Nordiska språk - allmänt; Scandinavian languages; Nordiska språk; nordiska språk; Scandinavian Languages;

    Sammanfattning : Up to the middle of the 19th century the distribution of mail, public as well as private, was, to a large extent, a duty imposed on farmers. Demands from farmers to be relieved of this duty resulted in the Government giving the Post Office authority to set up post offices of a new, relatively simple kind (poststationer, or sub-post offices). LÄS MER

  7. 10. Structure/function relationships of inorganic phosphate transporters

    Författare :Dieter R. Samyn; Bengt Persson; Hanna Sychrová; Linnéuniversitetet; []
    Nyckelord :NATURVETENSKAP; NATURAL SCIENCES; Inorganic phosphate; transporters; Saccharomyces cerevisiae; Biochemistry; Biokemi; Biokemi; Biochemistry;

    Sammanfattning : Of the many nutrients that make the metabolic clock tick, inorganic phosphate fulfills an essential role in all yeast (and other organisms), being necessary for both structural and metabolic purposes. In order to transport phosphate into the cell interior, Saccharomyces cerevisiae makes use of two systems, comprising high- or low-affinity transporters, which are responsible for the cellular accumulation of inorganic phosphate. LÄS MER