Lipase-catalyzed transamidation of non-activated amides in organic solvent

A novel biocatalytic reaction of transamidation of non-activated amides with amines is reported. Among 45 different lipolytic and proteolytic enzymes tested, only the lipase from Candida antarcticawas able to catalyze this reaction. The reaction proceeded with up to ca. 80% conversion in anhydrous methyl tert-butyl ether and worked with both N-substituted and unsubstituted amides. The biocatalytic transamidation is an equilibrium process and, therefore, higher conversions to the desired amide were achieved by using increased concentrations of the amine nucleophile.     

Hydrolysis of Heparin by the Immobilized Enzymatic Complex from Streptomyces kurssanovii

The possibility of obtaining low-molecular-weight heparins using a chitinolytic enzymatic complex immobilized on Silochrom has been demonstrated. The optimal conditions of this process (sodium acetate buffer, pH 7.0–7.5; temperature, 40–45°C; and duration of hydrolysis, 3 h) were determined. Depending on the ratio between heparin and the immobilized enzymatic complex, samples with molecular weights varying from 1.7 to 4.7 kDa, were obtained. These complexes inhibited factor Xa 2.0–3.7 times more effectively than the original heparin.     

Coenzyme reorientations in the active sites of aspartate aminotransferase isoenzymes studied by linear dichroism method

Cytosolic and mitochondrial pig heart aspartate aminotransferases (cAspAT and mAspAT) and chicken heart cAspAT have been oriented in a compressed slab of polyacrylamide gel and their linear dichroism LD spectra have been recorded. The coenzyme's tilt angles in the active sites of chicken cAspAT and pig mAspAT and their quasisubstrate complexes imitating catalytic intermediates have been computed. The computations are based on reduced linear dichroism values (delta A/A), the known directions of the transition dipole moments in the coenzyme ring and atomic coordinates of the coenzyme obtained by X-ray crystallography. It has been found that formation of the enzyme complex with glutarate and protonation of the internal pyridoxal-lysine aldimine induce reorientations of the coenzyme. As a result of protonation, the coenzyme ring tilts by 27 degrees in cAspAT and 13 degrees in mAspAT. Formation of the external aldimine with 2-methylaspartate is accompanied by tilting of the coenzyme ring by 44 degrees in cAspAT and 39 degrees in mAspAT. For the quinonoid complex with erythro-3-hydroxyaspartate, the tilt angles were found to be 63 degrees in cAspAT and 53 degrees in mAspAT. It is inferred that the basic features of the active site dynamics are similar in the three AspAT's studied. The differences in the coenzyme tilt angles between cAspAT and mAspAT may be linked to catalytic and structural peculiarities of the isoenzymes.     

Linear dichroism of chicken cytosol aspartate aminotransferase oriented in polyacrylamide gel

Cytosolic chicken heart aspartate aminotransferase (EC 2.6.1.1) was incorporated in polyacrylamide gel and partially oriented by compressing the gel block in two mutually perpendicular directions. The linear dichroism (LD) was recorded in a dichrograph equipped with a quarter-wavelength device which transforms circularly polarized light into linearly polarized. Spectra were resolved with lognormal distribution curves. A marked difference has been found between reduced linear dichroism values (LD/A) in the absorption bands of the protonated (430 nm) and nonprotonated (360 nm) forms of the internal pyridoxal phosphate--lysine aldimine. This finding indicates that protonation of the internal aldimine bond induces a change in direction of the transition dipole moment within the coenzyme ring or reorientation of the ring. Formation of the external aldimine with 2-methylaspartate is accompanied by a decrease of the reduced LD value in the 430 nm band. On the other hand, binding of the dicarboxylate anions, which imitates formation of the noncovalent adsorption Michaelis complex, results in a marked increase of the reduced LD value in the 430 nm band. These data suggest that the coenzyme ring tilts in opposite directions upon noncovalent substrate binding and upon subsequent formation of the external aldimine.     

Some theoretical aspects of protein coevolution in the ecosystem “phage-bacteria” II. The deterministic model of microevolution

The deterministic model of microevolutionary dynamics of “phagebacteria” ecosystem is analyzed. Primary (and after all decisive) events that determine the dynamics are direct interactions between bacterial reception and viral adsorption proteins. Structure of the model is that under real parameters of adsorption, lysis and reproduction each separate (ith) stage of microevolution comes to end with total lysis of ith population of bacteria by ith population of phage. It is shown however that in the course of joint microevolution both populations pass over some critical sizes when a new pair of antagonistic strains arises with certainty from mutations. As a result it is easy to visualize and simulate by computer the process of successive fixations of such pairs of mutants. This coevolution is the original example of a locally adaptive but globally undirected process which is characterized also by: (1) constant average rate, (2) neutrality of mutations at the moment of their emergence and during the period of “anticipation” of ecological changes, (3) pure adaptivity of the same mutations at the moment of proper fixation and (4) “intrinsic origin” (from the ecosystem dynamics itself) of selective constraints.     

Genetic differentiation in a captive population of the endangered Siberian crane (Grus leucogeranus Pall.)

DNA fingerprinting, followed by multivariate analysis of data, was used to characterize genetic heterogeneity in captive populations of the endangered Siberian and sandhill cranes. The genetic structure revealed reflected the natural population and species distributions. The relevant groups differed not only from each other, but also from interspecies and inter-population hybrids bred in captivity. In this study we have tested an approach to the analysis of population structure based on individual genotypes. Interpretation of fingerprinting data by means of the analytical system applied here is a useful and reliable procedure for the estimation of genetic relationships between individuals.     

Phylogeny of the insulin-like growth factors (IGFS) and receptors: A molecular approach

The IGFs (IGF-I and IGF-II) are essential for normal mammalian growth and development. Their actions are mediated primarily by their interactions with the type I IGF receptor (IGF-I receptor), a transmembrane tyrosine kinase. The ligands and the IGF-I receptor are structurally related to insulin and to the insulin receptor, respectively. Analysis of evolutionary conservation has often provided insights into essential regions of molecules such as hormones and their receptors. The genes for insulin and IGFs have been partially characterized in a number of vertebrate species extending evolutionarily from humans as far back as fish. The sequences of the exons encoding the mature insulin and IGF peptides are highly conserved among vertebrate species, and IGF-I-Iike molecules are found in species whose origins extend back as much as 550 million years. The insulin receptor is also highly conserved in vertebrate species, and an insulinreceptor-like molecule has been characterized in Drosophila. In contrast, IGF-I receptors have only been characterized in mammalian species and partially studied in Xenopus, in which the tyrosine kinase domain is highly conserved. Studies are presently being undertaken to analyze in more detail the regulation of the genes encoding this important family of growth factors and the structure/function relationships in the gene products themselves. © 1993 Wiley-Liss, Inc.     

Effect of balloon pre-dilation on performance of self-expandable nitinol stent in femoropopliteal artery

Balloon pre-dilation is usually performed before implantation of a nitinol stent in a femoropopliteal artery in a case of severe blockage or calcified plaque. However, its effect on performance of the nitinol stent in a diseased femoropopliteal artery has not been studied yet. This study compares the outcomes of stenting with pre-dilation and without it by modelling the entire processes of stent deployment. Fatigue deformation of the implanted stent is also modelled under diastolic–systolic blood pressure, repetitive bending, torsion, axial compression and their combination. Reduced level of stress in the stent occurs after stenting with pre-dilation, but causing the increased damage in the media layer, i.e. the middle layer of the arterial wall. Generally, pre-dilation increases the risk of nitinol stent’s fatigue failure. Additionally, the development of in-stent restenosis is predicted based on the stenting-induced tissue damage in the media layer, and no severe mechanical irritation is induced to the media layer by pre-dilation, stent deployment or fatigue loading.