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Using the stacking surgery help guide enhance the precision with the lateral walls approach for nasal grafting from the presence of the sinus septum.
Miltiradiene is a key intermediate in the biosynthesis of many important natural diterpene compounds with significant pharmacological activity, including triptolide, tanshinones, carnosic acid and carnosol. Sufficient accumulation of miltiradiene is vital for the production of these medicinal compounds. In this study, comprehensive engineering strategies were applied to construct a high-yielding miltiradiene producing yeast strain. First, a chassis strain that can accumulate 2.1 g L-1 geranylgeraniol was constructed. Then, diterpene synthases from various species were evaluated for their ability to produce miltiradiene, and a chimeric miltiradiene synthase, consisting of class II diterpene synthase (di-TPS) CfTPS1 from Coleus forskohlii (Plectranthus barbatus) and class I di-TPS SmKSL1 from Salvia miltiorrhiza showed the highest efficiency in the conversion of GGPP to miltiradiene in yeast. Moreover, the miltiradiene yield was further improved by protein modification, which resulted in a final yield of 550.7 mg L-1 in shake flasks and 3.5 g L-1 in a 5-L bioreactor. This work offers an efficient and green process for the production of the important intermediate miltiradiene, and lays a foundation for further pathway reconstruction and the biotechnological production of valuable natural diterpenes. The process of gastric emptying is of major importance for the in vivo performance of immediate release dosage forms. In the fed state, this process consists of two phases the rapid emptying of water along the "Magenstrasse" and the continuous emptying of the chyme. The relevance of these phases for the pharmacokinetic (PK) profile of a drug depends on the release behavior from its dosage form. It was the aim of this study to investigate the role of gastric emptying for the pharmacokinetics of a fast disintegrating and dissolving Aspirin® tablet (FDDT). For this purpose, a three way pharmacokinetic study with 30 healthy volunteers was performed to investigate the performance of the FDDT under fasted and fed conditions and compare it to a regular Aspirin® tablet (RT) administered in the fed state. Plasma samples were taken at predetermined time points and analyzed by LC MS/MS. In the second part of this work, both products were tested in a biorelevant dissolution test device - the GastroDuo. To simulate the ocich resulted in later tmax. This study highlighted the importance of gastric emptying for immediate release dosage forms and illustrated that the application of suitable formulation techniques provides a strategy to generate a fast and reliable onset of drug plasma concentrations even in the fed state. V.Carrier-based dry powder inhaler (DPI) formulations need to be accurately characterised for their particle size distributions, surface roughnesses, fines contents and flow properties. Understanding the micro-structure of the powder formulation is crucial, yet current characterisation methods give incomplete information. Metformin research buy Commonly used techniques like laser diffraction (LD) and optical microscopy (OM) are limited due to the assumption of sphericity and can give variable results depending on particle orientation and dispersion. The aim of this work was to develop new powder analytical techniques using X-ray computed tomography (XCT) that could be employed for non-destructive metrology of inhaled formulations. α-lactose monohydrate powders with different characteristics have been analysed, and their size and shape (sphericity/aspect ratio) distributions compared with results from LD and OM. The three techniques were shown to produce comparable size distributions, while the different shape distributions from XCT and OM highlight the difference between 2D and 3D imaging. The effect of micro-structure on flowability was also analysed through 3D measurements of void volume and tap density. This study has demonstrated for the first time that XCT provides an invaluable, non-destructive and analytical approach to obtain number- and volume-based particle size distributions of DPI formulations in 3D space, and for unique 3D characterisation of powder micro-structure. AIM The study was aimed to investigate the impact of superassociation of hydrophobic ion pairs (HIPs) on membrane permeability. METHODS Toluidine blue O (TBO) as a cationic model compound was complexed with anionic counter ions having different physiochemical properties namely dodecanoate (DD), oleate (OL), deoxycholate (DC), docusate (DO) and dodecyl sulfate (DS). TBO HIPs were characterized regarding log P, zeta potential and stability over 8 hours at pH 7.4. Association and dissociation constants (Ka and Kd) were calculated by applying quasi-equilibrium equation to the double reciprocal plots of log P versus counter ion concentrations. Permeation studies of free TBO, superassociated TBO HIPs and HIPs applied as entirely dissociated form were carried out across human colorectal adenocarcinoma-derived cell line (Caco-2) and freshly excised rat intestinal mucosa. RESULTS TBO HIPs of increasing lipophilicity ranging from log P 0.59 to 2.35 were obtained as a result of ion pairing with anionic counter ions. Zeta potential of TBO shifted from positive to negative due to ion pairing. HIPs with DO and DS showed highest stability at pH 7.4. Association constant (Ka) values for TBO HIPs were found in the following rank order; DS > DO > OL > DC > DD. Due to superassociation of HIPs, permeation of TBO was efficiently improved up to 3.1- fold across Caco-2 cells and up to 2.5-fold across rat intestinal mucosa. CONCLUSION Superassociated HIPs showed generally a significantly higher membrane permeability than free TBO and entirely dissociated HIPs. The geometries of the contacts between monosaccharides and aromatic rings of amino acids found in X-ray crystallography structures, in the Protein Data Bank (PDB), were analyzed, while the energies of the interactions were calculated using quantum chemical method. We found 1913 sugar/aromatic ring contacts, 1054 of them (55%) with CH/π interactions and 859 of them (45%) without CH/π interactions. We showed that only the carbohydrate/aromatic contacts with CH/π interactions are preferentially parallel and enable sliding in the plane parallel to aromatic ring. The calculated interaction energies in systems with CH/π interactions are in the range from -1.7 kcal/mol to -6.8 kcal/mol, while in the systems without CH/π interactions are in the range -0.2 to -3.2 kcal/mol. Hence, the binding that does not include CH/π interactions, can also be important for aromatic amino acid and carbohydrate binding processes, since some of these interactions can be as strong as the CH/π interactions. At the same time, these interactions can be weak enough to enable releasing of small carbohydrate fragments after the enzymatic reaction.
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