Steric and electronic effects relating to the Cu2+ Jahn-Teller distortion in Zn(1-)xCuxAl2O4 spinels.

Zn1-xCuxAl2O4 (0

Investigation of the electronic and structural properties of potassium hexaboride, KB6, by transport, magnetic susceptibility, EPR, and NMR measurements, temperature-dependent crystal structure determination, and electronic band structure calculations.

The electronic and structural properties of potassium hexaboride, KB(6), were examined by transport, magnetic susceptibility, EPR, and NMR measurements, temperature-dependent crystal structure determination, and electronic band structure calculations. The valence bands of KB(6) are partially empty, but the electrical resistivity of KB(6) reveals that it is not a normal metal. The magnetic susceptibility as well as EPR and NMR measurements show the presence of localized electrons in KB(6). The EPR spectra of KB(6) have two peaks, a broad ( approximately 320 G) and a narrow (less than approximately 27 G) line width, and the temperature-dependence of the magnetic susceptibility of KB(6) exhibits a strong hysteresis below 70 K. The temperature-dependent crystal structure determination of KB(6) shows the occurrence of an unusual variation in the unit cell parameter hence supporting that the hysteresis of the magnetic susceptibility is a bulk phenomenon. The line width DeltaH(pp) of the broad EPR signal is independent of temperature and EPR frequency. This finding indicates that the line broadening results from the dipole-dipole interaction, and the spins responsible for the broad EPR peak has the average distance of approximately 1.0 nm. To explain these apparently puzzling properties, we examined a probable mechanism of electron localization in KB(6) and its implications.

Unusual hysteresis in the magnetic susceptibility of cubic hexaboride KB6.

Electrical resistivity, magnetic susceptibility, and electron paramagnetic resonance measurements were carried out for cubic hexaboride KB(6), which is one electron short of completely filling its conduction band. It is found that KB(6) is not metallic and has localized spins. KB(6) exhibits a highly unusual hysteresis in the magnetic susceptibility below 100 K, which suggests that it undergoes a slow relaxation process.

EPR and TL correlation in some powdered Greek white marbles.

Thermoluminescence of white powdered marble samples, chosen to display different EPR spectra, were studied. Two peaks at 280 degrees C and 360 degrees C can be observed among the TL glow curves while the EPR spectra exhibit two signals: the A signal with g perpendicular = 2.0038 and g parallel = 2.0024 due to the SO3- centre and the B one with g1 = 2.0005; g2 = 2.0001; g3 = 1.9998 due to mechanical powder reduction (drilling). Owing to heating and simultaneous experiments, a correlation have been established: the 280 degrees C TL peak is associated to the A signal and thus to the SO3- centre and the 360 degrees C TL peak is caused by mechanical treatment corresponding to the B EPR signal.

Synthesis and structure-activity relationships of 2-pyrazinylcarboxamidobenzoates and beta-ionylideneacetamidobenzoates with retinoidal activity.

The structure-activity relationships of two series of novel retinoids (2-pyrazinylcarboxamidobenzoates and beta-ionylideneacetamidobenzoates) have been investigated by evaluating their ability to induce differentiation in both human promyelocytic leukemia (HL60) cells and mouse embryonal carcinoma (P19) cells. The most active compound (ED50 = 8.3 x 10(-9) M) of the 2-pyrazinylcarboxamidobenzoates is 4-[2-(5,6,7,8-tetrahydro-5,5,8, 8-tetramethylquinoxalyl)carboxamido]benzoic acid (9u), while the most active analogue of the beta-ionylideneacetamidobenzoates is 4-[3-methyl-5-(2',6',6'-trimethyl-1'-cyclohexen-1'-yl)-(2E, 4E)-pentadienamido]benzoic acid (10a, ED50 = 3.2 x 10(-8) M). Our studies identify an absolute requirement for the carboxylic acid moiety on the aromatic ring to be para relative to the amide linkage for activity. Benzoate substitutions in the ortho position relative to the terminal carboxylate (9d,k,r) are well-tolerated; however, a methoxy substituent meta relative to the terminal carboxylate gives rise to only weakly active analogues (9x). Conformational studies (NMR, X-ray crystallography) of the 2-pyrazinylcarboxamidobenzoates indicate that the preferred conformation exhibits a trans-amide bond and an internal hydrogen bond between the quinoxaline N1 and HN amide which locks the torsional angle between C2 and CO in the s-trans conformation. N-Methylation (9y) results in loss of activity. Studies indicate that there is now a cis-amide bond present which redirects the carboxylate toward the pharmacophoric gem-dimethyl groups. The distance between the gem-dimethyl group and the terminal carboxylate appears to be too short to activate the retinoid receptor. N-Methylation in the beta-ionylideneacetamidobenzoate series (10c) also results in the formation of a cis-amide bond and loss of activity.

A proposal for the molecular basis of mu and delta opiate receptor differentiation based on modeling of two types of cyclic enkephalins and a narcotic alkaloid.

The molecular basis underlying the divergent receptor selectivity of two cyclic opioid peptides Tyr-c[N delta-D-Orn2-Gly-Phe-Leu-] (c-ORN) and [D-Pen2,L-Cys5]-enkephalinamide (c-PEN) was investigated using a molecular modeling approach. Ring closure and conformational searching procedures were used to determine low-energy cyclic backbone conformers. Following reinsertion of amino acid side chains, the narcotic alkaloid 7 alpha-[(1R)-1-methyl-1-hydroxy-3-phenylpropyl]-6-14-endoethenotetrahy dro oripavine (PEO) was used as a flexible template for bimolecular superpositions with each of the determined peptide ring conformers using the coplanarity and cocentricity of the phenolic rings as the minimum constraint. A vector space of PEO, accounting for all possible orientations for the C21-aromatic ring of PEO served as a geometrical locus for the aromatic ring of the Phe4 residue in the opioid peptides. Although a vast number of polypeptide conformations satisfied the criteria of the opiate pharmacophore, they could be grouped into three classes differing in magnitude and sign of the torsional angle values of the tyrosyl side chain. Only class III conformers for both c-ORN and c-PEN, having tyramine dihedral angles chi 1 = 150 degrees +/- 30 degrees and chi 2 = -155 degrees +/- 20 degrees, had significant structural and conformational properties that were mutually compatible while respecting the PEO vector space. Comparison of these properties in the context of the divergent receptor selectivity of the studied opioid peptides suggests that the increased distortion of the peptide backbone in the closure region of c-PEN together with the pendant beta,beta-dimethyl group, combine to generate a steric volume which is absent in c-ORN and that may be incompatible with a restrictive topography of the mu receptor. The nature and stereochemistry of substituents adjacent to the closure region of the peptides could also modulate receptor selection by interacting with a charged (delta) or neutral (mu) subsite.

Topological similarities between a cyclic enkephalin analogue and a potent opiate alkaloid: a computer-modeling approach.

The cyclic enkephalin analogue H-Tyr-cyclo[-D-N delta-Orn-Gly-Phe-Leu-] (1-c) and the rigid narcotic alkaloid 7 alpha-[(1R)-1-hydroxy-1-methyl-3-phenylpropyl]-6,14- endo-ethenotetrahydrooripavine (PEO) were studied by using computer graphics methods to investigate potential geometrical congruencies of their respective pharmacophoric elements. Particular emphasis was placed on the relative spatial disposition of the tyramine moiety and the additional aromatic ring that occurs in both molecules. A three-dimensional vector map was generated defining the locus of the C21 aromatic ring for all those conformers of PEO having up to 10 kcal above the minimum energy conformer. A systematic conformational search on the cyclic peptide afforded four allowable sets of conformers whose side chain of the phenylalanine residue coincided with the vector map of PEO. Local energy minima for the peptide within the revised mutual vector space were found and subjected to bimolecular energy refinement with correspondingly local energy minima for the opiate alkaloid. Several low-energy conformers of the cyclic peptide were identified that permitted a good fit with the alkaloid provided that the tyramine moiety of the respective molecules does not coincide. In the designated conformations the basic nitrogen of the former occupies a distinct geometrical locus, and the side chain of the leucine residue has no structural correlate in the alkaloid.

[Plasma lactate dehydrogenase and its isoenzymes in nonseminomatous germ cell tumors of the testis]. / La lactate déshydrogénase plasmatique et ses isoenzymes dans les tumeurs germinales non séminomateuses du testicule.

Serial measurements of lactate dehydrogenase (LDH) and of its isoenzymes have been assessed as an additional marker in a study of 44 patients with non seminomatous germ cell tumors of the testis. Its interest was compared with standard markers (AFP, beta HCG) related to clinical staging, histopathologic types and extent of the disease. Although LDH measurements were most frequently increased in stage III, its frequency of elevation was however lower than specific markers one. Abnormal levels of isoenzyme 1 could increased sensitivity of that determination. Indeed, LDH 1 was increased in all 15 cases for which it was determined, while total LDH was only disturbed in 8 cases. In patients with advanced testicular cancer and elevated LDH levels, sequential measurements of this parameter reflected the response to the therapy. A poor prognosis was associated with pathological level of LDH: while 92% of patients with normal level had a survival time upper than 5 years, no patient with elevated LDH had a survival time upper than 4 years; this difference was essentially significant in advanced stages. Serial measurement of LDH was of value as prognostic indicator and when elevated, it might be utilized as a guide for response to therapy.