8 research outputs found

    The study of flavonoids and glycosides in the Digitalis lanata

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    The population of Digitalis lanata was studied in hillocks of Pécs-Nagyárpád, the southern part of Transdanubia in Hungary. The qualitative analysis of digitalis-glycosides and flavonoids in the leaves of naturally growing Digitalis lanata was carried out. The qualitative analysis was carried out by TLC. The digitalis-glycoside content was smaller in the leaves of naturally growing Digitalis lanata than in the leaves of cultivated variations

    Az aktin kölcsönhatása aktin-kötő fehérjékkel és peptidekkel: fluoreszcencia spektroszkópiai vizsgálatok = The Interaction of Actin with Actin-Binding Proteins and Peptides as Revealed by Spectroscopic Methods

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    Az OTKA K60968 pályázat keretei között az eredeti terveinknek megfelelően tanulmányoztuk az aktin monomereknek és filamentumoknak más fehérjékkel és peptidekkel való kölcsönhatásait. A kutatások során elsősorban fluoreszcencia spektroszkópiai módszereket alkalmaztunk, de az adott kérdéskörtől függően ezen módszerek eredményeit kiegészítettük elektron paramágneses rezonancia spektroszkópiai és kalorimetriai vizsgálatokkal is. Részletes vizsgálatokban jellemeztük az aktin filamentumoknak a forminokkal való kölcsönhatását, és megállapítottuk, hogy a forminok kötődésével a filamentumok szerkezete lazábbá válik. Azt is megfigyeltük, hogy a forminok által kiváltott konformációs módosulásokat a tropomiozin vagy a miozin kötődése megszünteti. Tanulmányoztunk és leírtunk továbbá egy eddig nem jellemzett formin családot, a DAAM forminokat. Ezen vizsgálataink mellett jellemeztük és értelmeztük az aktinnak a kölcsönhatását egyes mérgező toxinokkal, valamint új megfigyeléseket tettünk az aktin-miozin kölcsönhatás szerkezeti és kinetikai sajátságait illetően is. | According to the project plans we have studied the interactions between actin monomers / filaments and actin binding proteins and peptides. In these investigations we applied fluorescence spectroscopic methods, in conjunction with electron paramagnetic resonance and calorimetric assays. We described in details the interaction between actin filaments and formin, and found that the binding of formins made the actin filaments ore flexible. We also observed that the formin induced conformational changes were reversed by the binding of tropomyosin or myosin. We studied and described a novel formin family, the DAAM formins. Furthermore, we described the interactions between actin and toxic actin-binding peptides, and also characterised the interactions of myosin with actin in terms of the conformational and kinetic properties

    Photocycle alteration and increased enzymatic activity in genetically modified photoactivated adenylate cyclase OaPAC

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    Photoactivated adenylate cyclases (PACs) are light activated enzymes that combine blue light sensing capacity with the ability to convert ATP to cAMP and pyrophosphate (PPi) in a light-dependent manner. In most of the known PACs blue light regulation is provided by a blue light sensing domain using flavin which undergoes a structural reorganization after blue-light absorption. This minor structural change then is translated toward the C-terminal of the protein, inducing a larger conformational change that results in the ATP conversion to cAMP. As cAMP is a key second messenger in numerous signal transduction pathways regulating various cellular functions, PACs are of great interest in optogenetic studies. The optimal optogenetic device must be “silent” in the dark and highly responsive upon light illumination. PAC from Oscillatoria acuminata is a very good candidate as its basal activity is very small in the dark and the conversion rates increase 20-fold upon light illumination. We studied the effect of replacing D67 to N, in the blue light using flavin domain. This mutation was found to accelerate the primary electron transfer process in the photosensing domain of the protein, as has been predicted. Furthermore, it resulted in a longer lived signaling state, which was formed with a lower quantum yield. Our studies show that the overall effects of the D67N mutation lead to a slightly higher conversion of ATP to cAMP, which points in the direction that by fine tuning the kinetic properties more responsive PACs and optogenetic devices can be generated

    Single amino acid mutation decouples photochemistry of the BLUF domain from the enzymatic function of OaPAC and drives the enzyme to a switched-on state

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    Photoactivated adenylate cyclases (PACs) are light-activated enzymes that combine a BLUF (blue-light using flavin) domain and an adenylate cyclase domain that are able to increase the levels of the important second messenger cAMP (cyclic adenosine monophosphate) upon blue-light excitation. The light-induced changes in the BLUF domain are transduced to the adenylate cyclase domain via a mechanism that has not yet been established. One critical residue in the photoactivation mechanism of BLUF domains, present in the vicinity of the flavin is the glutamine amino acid close to the N5 of the flavin. The role of this residue has been investigated extensively both experimentally and theoretically. However, its role in the activity of the photoactivated adenylate cyclase, OaPAC has never been addressed. In this work, we applied ultrafast transient visible and infrared spectroscopies to study the photochemistry of the Q48E OaPAC mutant. This mutation altered the primary electron transfer process and switched the enzyme into a permanent ‘on’ state, able to increase the cAMP levels under dark conditions compared to the cAMP levels of the dark-adapted state of the wild-type OaPAC. Differential scanning calorimetry measurements point to a less compact structure for the Q48E OaPAC mutant. The ensemble of these findings provide insight into the important elements in PACs and how their fine tuning may help in the design of optogenetic devices

    The Effects of ADF/Cofilin and Profilin on the Conformation of the ATP-Binding Cleft of Monomeric Actin

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    Actin depolymerizing factor (ADF)/cofilin and profilin are small actin-binding proteins, which have central roles in cytoskeletal dynamics in all eukaryotes. When bound to an actin monomer, ADF/cofilins inhibit the nucleotide exchange, whereas most profilins accelerate the nucleotide exchange on actin monomers. In this study the effects of ADF/cofilin and profilin on the accessibility of the actin monomer's ATP-binding pocket was investigated by a fluorescence spectroscopic method. The fluorescence of the actin bound ɛ-ATP was quenched with a neutral quencher (acrylamide) in steady-state and time dependent experiments, and the data were analyzed with a complex form of the Stern-Volmer equation. The experiments revealed that in the presence of ADF/cofilin the accessibility of the bound ɛ-ATP decreased, indicating a closed and more compact ATP-binding pocket induced by the binding of ADF/cofilin. In the presence of profilin the accessibility of the bound ɛ-ATP increased, indicating a more open and approachable protein matrix around the ATP-binding pocket. The results of the fluorescence quenching experiments support a structural mechanism regarding the regulation of the nucleotide exchange on actin monomers by ADF/cofilin and profilin
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