Purification and characterization of a novel recombinant highly enantioselective short-chain NAD(H)-dependent alcohol dehydrogenase from Thermus thermophilus

The gene encoding a novel alcohol dehydrogenase (ADH) that belongs to the short-chain dehydrogenase/reductase (SDR) superfamily was identified in the extremely thermophilic, halotolerant gram-negative eubacterium Thermus thermophilus HB27. The T. thermophilus ADH gene (adh(Tt)) was heterologously overexpressed in Escherichia coli, and the protein (ADH(Tt)) was purified to homogeneity and characterized. ADH(Tt) is a tetrameric enzyme consisting of identical 26,961-Da subunits composed of 256 amino acids. The enzyme has remarkable thermophilicity and thermal stability, displaying activity at temperatures up to approximately 73 degrees C and a 30-min half-inactivation temperature of approximately 90 degrees C, as well as good tolerance to common organic solvents. ADH(Tt) has a strict requirement for NAD(H) as the coenzyme, a preference for reduction of aromatic ketones and alpha-keto esters, and poor activity on aromatic alcohols and aldehydes. This thermophilic enzyme catalyzes the following reactions with Prelog specificity: the reduction of acetophenone, 2,2,2-trifluoroacetophenone, alpha-tetralone, and alpha-methyl and alpha-ethyl benzoylformates to (S)-(-)-1-phenylethanol (>99% enantiomeric excess [ee]), (R)-alpha-(trifluoromethyl)benzyl alcohol (93% ee), (S)-alpha-tetralol (>99% ee), methyl (R)-(-)-mandelate (92% ee), and ethyl (R)-(-)-mandelate (95% ee), respectively, by way of an efficient in situ NADH-recycling system involving 2-propanol and a second thermophilic ADH. This study further supports the critical role of the D37 residue in discriminating NAD(H) from NADP(H) in members of the SDR superfamily.     

Sequence of the lid affects activity and specificity of Candida rugosa lipase isoenzymes

The fungus Candida rugosa produces multiple lipase isoenzymes (CRLs) with distinct differences in substrate specificity, in particular with regard to selectivity toward the fatty acyl chain length. Moreover, isoform CRL3 displays high activity towards cholesterol esters. Lipase isoenzymes share over 80% sequence identity but diverge in the sequence of the lid, a mobile loop that modulates access to the active site. In the active enzyme conformation, the open lid participates in the substrate-binding site and contributes to substrate recognition. To address the role of the lid in CRL activity and specificity, we substituted the lid sequences from isoenzymes CRL3 and CRL4 in recombinant rCRL1, thus obtaining enzymes differing only in this stretch of residues. Swapping the CRL3 lid was sufficient to confer to CRL1 cholesterol esterase activity. On the other hand, a specific shift in the chain-length specificity was not observed. Chimeric proteins displayed different sensitivity to detergents in the reaction medium.     

Temperature-dependent, irreversible formation of amyloid fibrils by a soluble human ataxin-3 carrying a moderately expanded polyglutamine stretch (Q36)

The protein ataxin-3 is responsible for Machado-Joseph disease/spinocerebellar ataxia type 3, a neurodegenerative disorder caused by the presence of an expanded polyglutamine tract. A previous investigation [Bevivino, A. E., and Loll, P. J. (2001) Proc. Natl. Acad. Sci. U.S.A. 98, 11955-11960] showed that a nonexpanded ataxin-3 (Q27) was fully soluble, whereas an expanded form (Q78) gave rise to amyloid fibrils. Here, we report investigations on three forms of ataxin-3 (i.e., human nonexpanded (Q26), moderately expanded (Q36) ataxins-3, and the murine protein (Q6)). Far-UV circular dichroism spectra at room temperature were substantially similar, with a relatively high helical content. On heating to 96 degrees C, human Q26 and murine proteins did not display large structural changes, nor did they undergo any precipitation, which highlights their amazing heat-resistance. In contrast, human Q36 ataxin-3 underwent a progressive increase in the beta-sheet and a concomitant decrease in helical content when the temperature was shifted from 37 to 80 degrees C, followed by the irreversible formation of aggregates above 80 degrees C. They were shown to consist of amyloid fibrils, as supported by both electron microscopy images and the typical spectral shift displayed by Congo red when it was added to the protein at growing temperatures. We also found that protein precipitation could be prevented by mixing the dye with Q36 ataxin-3 prior to heating, which also confirms that the precipitates do represent authentic amyloid fibrils. In contrast, other compounds structurally related to Congo red did not exert significant effects. Our observations suggest that the temperature of the observed transition is inversely related to the length of the expansion. Finally, we suggest that antiamyloidogenic compounds might be selected on the basis of their ability to block or retard human Q36 ataxin-3 precipitation on heat-treatment.     

Utility of multispectral imaging for nuclear classification of routine clinical histopathology imagery

Background

We present an analysis of the utility of multispectral versus standard RGB imagery for routine H&;E stained histopathology images, in particular for pixel-level classification of nuclei. Our multispectral imagery has 29 spectral bands, spaced 10 nm within the visual range of 420–700 nm. It has been hypothesized that the additional spectral bands contain further information useful for classification as compared to the 3 standard bands of RGB imagery. We present analyses of our data designed to test this hypothesis.

Results

For classification using all available image bands, we find the best performance (equal tradeoff between detection rate and false alarm rate) is obtained from either the multispectral or our "ccd" RGB imagery, with an overall increase in performance of 0.79% compared to the next best performing image type. For classification using single image bands, the single best multispectral band (in the red portion of the spectrum) gave a performance increase of 0.57%, compared to performance of the single best RGB band (red). Additionally, red bands had the highest coefficients/preference in our classifiers. Principal components analysis of the multispectral imagery indicates only two significant image bands, which is not surprising given the presence of two stains.

Conclusion

Our results indicate that multispectral imagery for routine H&;E stained histopathology provides minimal additional spectral information for a pixel-level nuclear classification task than would standard RGB imagery.

     

A Cross Modal Performance-Based Measure of Sensory Stimuli Intricacy

We define a new measure of sensory stimuli which has the following properties: It is cross modal, performance based, robust, and well defined. We interpret this measure as the intricacy or complexity of the stimuli, yet its validity is independent of its interpretation. We tested the validity and cross modality of our measure using three olfactory and one visual experiment. In order to test the link between our measure and cognitive performance we also conducted an additional visual experiment. We found that our measure is correlated with the results of the well-established Rapid Serial Visual Presentation masking experiment. Specifically, ranking stimuli according to our measure was correlated at r = 0.75 (p < 0.002) with masking effectiveness. Thus, our novel measure of sensory stimuli provides a new quantitative tool for the study of sensory processing.     

The first crystal structure of a phospholipase D

BACKGROUND: The phospholipase D (PLD) superfamily includes enzymes that are involved in phospholipid metabolism, nucleases, toxins and virus envelope proteins of unknown function. PLD hydrolyzes the terminal phosphodiester bond of phospholipids to phosphatidic acid and a hydrophilic constituent. Phosphatidic acid is a compound that is heavily involved in signal transduction. PLD also catalyses a transphosphatidylation reaction in the presence of phosphatidylcholine and a short-chained primary or secondary alcohol. RESULTS: The first crystal structure of a 54 kDa PLD has been determined to 1.9 A resolution using the multiwavelength anomalous dispersion (MAD) method on a single WO(4) ion and refined to 1.4 A resolution. PLD from the bacterial source Streptomyces sp. strain PMF consists of a single polypeptide chain that is folded into two domains. An active site is located at the interface between these domains. The presented structure supports the proposed superfamily relationship with the published structure of the 16 kDa endonuclease from Salmonella typhimurium. CONCLUSIONS: The structure of PLD provides insight into the structure and mode of action of not only bacterial, plant and mammalian PLDs, but also of a variety of enzymes as diverse as cardiolipin synthases, phosphatidylserine synthases, toxins, endonucleases, as well as poxvirus envelope proteins having a so far unknown function. The common features of these enzymes are that they can bind to a phosphodiester moiety, and that most of these enzymes are active as bi-lobed monomers or dimers.     

Obesity‐related hypertension: Pathogenesis,cardiovascular risk,and treatment—A position paper of the The Obesity Society and the American Society of Hypertension

In light of the worldwide epidemic of obesity, and in recognition of hypertension as a major factor in the cardiovascular morbidity and mortality associated with obesity, The Obesity Society and The American Society of Hypertension agreed to jointly sponsor a position paper on obesity‐related hypertension to be published jointly in the journals of each society. The purpose is to inform the members of both societies, as well as practicing clinicians, with a timely review of the association between obesity and high blood pressure, the risk that this association entails, and the options for rational, evidenced‐based treatment. The position paper is divided into six sections plus a summary as follows: pathophysiology, epidemiology and cardiovascular risk, the metabolic syndrome, lifestyle management in prevention and treatment, pharmacologic treatment of hypertension in the obese, and the medical and surgical treatment of obesity in obese hypertensive patients. Obesity (2012)     

Role of methoxypolyethylene glycol on the hydration, activity, conformation and dynamic properties of a lipase in a dry film

A combined approach based on the use of ATR-FT/IR and steady-state fluorescence spectroscopy allowed to shed light on the effects of the additive methoxypolyethylene glycol (MePEG) on the hydration, conformation and dynamic properties of lipase from Burkholderia cepacia dehydrated to form a film. Spectroscopic data show that the additive has little effect on the structure of the protein; however, H/D exchange kinetic and fluorescence anisotropy suggest a more flexible enzyme molecule when in the presence of MePEG. By infrared spectroscopy, we estimated that, after conditioning the films at water activity of 1, the water content in the lipase dehydrated with MePEG is 5.4- and 4.7-fold higher than in the absence of the additive and the additive alone, respectively. Additionally, our infrared data suggest that MePEG acts by hindering intermolecular protein-protein interactions and contributing to increase the accessibility and flexibility of the lipase in the dehydrated solid film. These factors also explain the enhancement of the enzyme catalytic activity (i.e., up to 3.7-fold in neat organic solvent) when in the presence of MePEG. The method and results presented might better address the use of additives for the preparation of enzymes employed in non-aqueous media or of proteins used in a dry form in different fields of biotechnology.