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Now showing items 11-14 of 14
Dissertation
Molekulare Grundlagen der PKA-Lokalisierung durch A-Kinase-Ankerproteine
(2018-08-30)
A-Kinase-Ankerproteine (AKAPs) tragen maßgeblich zur Spezifität des ubiquitären cAMP-Signalweges bei. Dies geschieht unter anderem durch die Verankerung der cAMP-abhängigen Proteinkinase (PKA) an verschiedene Zellorganellen, wodurch die PKA-Effekte lokal und zeitlich begrenzt werden. AKAPs variieren erheblich in Größe und Struktur, zeigen aber als gemeinsames Strukturmotiv eine amphipathische Helix auf. Alle vier Isoformen der regulatorischen Untereinheit der PKA (PKA-R) bilden bei Dimerisierung eine hydrophobe ...
Dissertation
Regulatory mechanisms of Protein kinase A - Isoform mediated fine-tuning
(2023)
cAMP-dependent protein kinase (PKA) is a crucial part in eukaryotic signal transduction and controls biological processes. With a multitude of substrates, a great variety of cellular functions are regulated by PKA. Regulation of metabolism, cell growth and -differentiation, conductivity of ion channels, movement of sperm cells, embryonic development, neuroplasticity as well as conversion of short- to long-term memory are just examples for the many tasks of the kinase. To achieve and coordinate these diverse functions, ...
Dissertation
Pathogenic Mutations in Catalytic Subunit Isoforms of the cAMP-Dependent Protein Kinase
(2023)
Protein kinase A (PKA) is an integral part in a myriad of cellular pathways and a main effector of the second messenger cAMP. Since its discovery in the late 1960s, PKA has become one of the best-studied eukaryotic protein kinases in terms of enzymatic and structural features. Pathological implications of PKA have just started to emerge. There are three main isoforms (α, β, γ) of the catalytic subunit of PKA (PKA-C) which constitute a holoenzyme (R2C2) by association with a regulatory subunit (PKA-R) dimer. While ...
Dissertation
Biochemical Characterization of Microtubule-Associated Serine/Threonine Kinases
(2023)
The association of human microtubule-associated serine/threonine (MAST) kinases with different diseases, such as neurodevelopmental disorders and cancer, leads to hight interest in understanding the function of these understudied kinases. This PhD thesis provides the first consolidated biochemical analysis of three different human MAST kinases (MAST1-3) and the Drosophila melanogaster homologue drop out protein (DOP).