The competition of C-X⋯O=P halogen bond and π-hole⋯O=P bond between halopentafluorobenzenes C6F5X (X=F, Cl, Br, I) and triethylphosphine oxide

Calculation predicted the interacting forms of halopentafluorobenzene C₆F₅X (X=F, Cl, Br, I) with triethylphosphine oxide which is biologically interested and easily detected by ³¹P NMR. The interaction energy and geometric parameters of resultant halogen or π-hole bonding complexes were estimated and compared. Moreover, the bonding constants were determined by ³¹P NMR. Both theory and experiments indicated the C₆F₆ and C₆F₅Cl interact with triethylphosphine oxide by π-hole bonding pattern, while C₆F₅I by halogen/σ-hole bonding form. For C₆F₅Br, two interactions are comparative and should coexist competitively. The calculated interaction energies of σ-hole bonding complexes, ?5.07 kcal mol^?1 for C₆F₅Br?O=P and ?8.25 kcal mol^?1 for C₆F₅I?O=P, and π-hole bonding complexes, ?7.29 kcal mol^?1 for C₆F₆?O=P and ?7.24 kcal mol^?1 for C₆F₅Cl?O=P, are consistent with the changing tendency of bonding constants measured by ³¹P NMR, 4.37, 19.7, 2.42 and 2.23 M^?1, respectively.

Interplay between halogen and chalcogen bonding in the XCl∙∙∙OCS∙∙∙NH3 (X = F,OH, NC,CN, and FCC) complex

The interplay between halogen and chalcogen bonding in the XCl???OCS and XCl???OCS???NH₃ (X = F, OH, NC, CN, and FCC) complex was studied at the MP2/6-311++G(d,p) computational level. Cooperative effect is observed when halogen and chalcogen bonding coexist in the same complex. The effect is studied by means of binding distance, interaction energy, and cooperative energy. Molecular electrostatic potential calculation reveals the electrostatic nature of the interactions. Cooperative effect is explained by the difference of the electron density. Second-order stabilization energy was calculated to study the orbital interaction in the complex. Atoms in molecules analysis was performed to analyze the enhancement of the electron density in the bond critical point.     

Efficient Preparation of Cyclic 3′,5′-Phosphoramidites and -Amidates of Antiviral and Antitumor 5-X-2′-Deoxyuridines (X = H,CH3, I,F, CF3, trans-CH=CHBr)

Abstract

Direct cyclization of the title nucleosides with (Me₂N)₃P followed by oxidation with N₂O₄ or t-BuOOH affords the individual cyclic 3′,5′-phosphoramidate diastereomers shown to be isolable in 45-77% yields.     

Structures and aromaticity of X2Y 2 − (X = C, Si, Ge and Y = N, P, As) anions

The equilibrium geometries, total energies, and vibrational frequencies of anions X₂Y₂ ⁻ (X = C, Si, Ge and Y = N, P, As) are theoretically investigated with density functional theory (DFT) method. Our calculation shows that for C₂N₂ ⁻ species, the D _2h isomer is the most stable four-membered structure, and for other species the C _2v isomer in which two X atoms are contrapuntal is the most stable structure at the B3LYP/6-311 +G_* level. Wiberg bond index (WBI) and negative nucleus-independent chemical shift (NICS) value indicate the existence of delocalization in stable X₂Y₂ ⁻ structures. A detailed molecular orbital (MO) analysis further reveals that stable isomers of these species have strongly aromatic character, which strengthens the structural stability and makes them closely connected with the concept of aromaticity.     

Morphological characteristics and chromosome behaviour in F1, F2 and BC1 progenies between Chrysanthemum × morifolium and Ajania pacifica

The garden chrysanthemum (Chrysanthemum × morifolium) variety ??Aoyunhuoju?? (2n = 6x = 54) was crossed as female with Ajania pacifica (2n = 10x = 90) to produce intergeneric F1 hybrids, which were used both as the source of F₂ generation and as the parent for a first back-cross with ??Aoyunhuoju??. The morphology of all of the F₁ hybrids and hybrid derivatives was intermediate with respect to the two parents, although the BC₁ progenies resembled ??Aoyunhuoju?? more closely than any of the F₁ and F₂ progenies did. In the F₁ generation, the density of silvery hairs on the lower leaf surface and along the margin of the leaf was lower than in A. pacifica, while that in the BC1 generation, this trait was less prominent than in the F₁. The somatic chromosome number of the F₁, F₂ (with an exception of F₂-6 of a mainly 63) and BC1 generations was 2n = 8x = 72, 2n = 8x = 72 and 2n = 7x = 63 respectively, as expected. The hybrids and their derivatives retained a variable degree of fertility. There was a low frequency of meiotic chromosome pairing failure in all three hybrid generations, with most of the chromosomes involved as bivalents. Some BC₁ individuals show potential for commercialization thanks both to their flower shape and the inheritance of the silvery leaf trait from A. pacifica.     

Interplay between halogen bonds and hydrogen bonds in OH/SH···HOX···HY (X = Cl, Br; Y = F, Cl, Br) complexes

The character of the cooperativity between the HOX···OH/SH halogen bond (XB) and the Y―H···(H)OX hydrogen bond (HB) in OH/SH···HOX···HY (X = Cl, Br; Y = F, Cl, Br) complexes has been investigated by means of second-order Møller?Plesset perturbation theory (MP2) calculations and “quantum theory of atoms in molecules” (QTAIM) studies. The geometries of the complexes have been determined from the most negative electrostatic potentials (V _S,min) and the most positive electrostatic potentials (V _S,max) on the electron density contours of the individual species. The greater the V _S,max values of HY, the larger the interaction energies of halogen-bonded HOX···OH/SH in the termolecular complexes, indicating that the ability of cooperative effect of hydrogen bond on halogen bond are determined by V _S,max of HY. The interaction energies, binding distances, infrared vibrational frequencies, and electron densities ρ at the BCPs of the hydrogen bonds and halogen bonds prove that there is positive cooperativity between these bonds. The potentiation of hydrogen bonds on halogen bonds is greater than that of halogen bonds on hydrogen bonds. QTAIM studies have shown that the halogen bonds and hydrogen bonds are closed-shell noncovalent interactions, and both have greater electrostatic character in the termolecular species compared with the bimolecular species.

Theoretical study of X- · 1 · YF (1 = triazine,X = Cl,Br and I,Y = H,Cl, Br,I, PH2 and AsH2): noncovalently electron-withdrawing effects on anion-arene interactions

The ternary complexes X^- · 1 · YF (1 = triazine, X = Cl, Br and I, Y = H, Cl, Br, I, PH₂ and AsH₂) have been investigated by MP2 calculations to understand the noncovalently electron-withdrawing effects on anion-arene interactions. The results indicate that in binary complexes (1 · X^-), both weak σ-type and anion-π complexes can be formed for Cl^- and Br^-, but only anion-π complex can be formed for I^-. Moreover, the hydrogen-bonding complex is the global minimum for all three halides in binary complexes. However, in ternary complexes, anion-π complex become unstable and only σ complex can retain in many cases for Cl^- and Br^-. Anion-π complex keeps stable only when YF = HF. In contrast with binary complexes, σ complex become the global minimum for Cl^- and Br^- in ternary complexes. These changes in binding mode and strength are consistent with the results of covalently electron-withdrawing effects. However, in contrast with the covalently electron-withdrawing substituents, Cl^- and Br^- can attack the aromatic carbon atom to form a strong σ complex when the noncovalently electron-withdrawing effect is induced by halogen bonding. The binding behavior for I^- is different from that for Cl^- and Br^- in two aspects. First, the anion-π complex for I^- can also keep stable when the noncovalent interaction is halogen bonding. Second, the anion-π complex for I^- is the global minimum when it can retain as a stable structure.     

Theoretical potential scans and vibrational spectra of vinyl selenonyl halides CH2=CH–SeO2X (X is F, Cl and Br)

The structure and conformational stability of vinyl selenonyl fluoride, chloride and bromide CH₂=CH–SeO₂X (X is F, Cl and Br) were investigated using density functional B3LYP/6-311+G** and ab initio MP2/6-311+G** calculations. From the calculations the molecules were predicted to exist only in the non-planar gauche conformation with the vinyl C=C group almost eclipsing one of the selenonyl Se=O bonds as a result of conjugation between the two moieties. Single-minimum potential scans were calculated at the DFT level for the molecules. The vibrational frequencies were computed using B3LYP/6-311+G**. Normal coordinate calculations were then carried out and potential energy distributions were calculated for the three molecules in the gauche conformation.Figure Potential function for the asymmetric torsion in vinyl selenonyl fluoride (dotted line), chloride (dashed line) and bromide (solid line) as determined at the DFT-B3LYP/6-311+G** level     

Urinary F₂-isoprostanes, obesity, and weight gain in the IRAS cohort

Obesity has been associated with increased F(2)-isoprostane (F(2)-IsoP) levels cross-sectionally. However, the prospective association may be inverse, based on our earlier finding that elevated urinary F(2)-IsoP levels predict lower risk of diabetes. This earlier finding led us to hypothesize that urinary F(2)-IsoPs reflect the intensity of oxidative metabolism and as such predict lower risk of both diabetes and weight gain. We examined cross-sectional relationships with obesity and prospective relationships with weight gain using the data from 299 participants of the Insulin Resistance Atherosclerosis Study (IRAS), all of whom were free of diabetes at baseline. Four urinary F(2)-IsoPs were assayed in stored baseline urine samples using liquid chromatography with tandem mass spectrometry: iPF(2α)-III, 2,3-dinor-iPF(2α)-III, iPF(2α)-VI, and 8,12-iso-iPF(2α)-VI (F(2)-IsoP 1-4, respectively). Baseline F(2)-IsoPs were positively associated with baseline measures of obesity; the strongest associations were found with two F(2)-IsoPs: odds ratios (95% confidence intervals) for overall and abdominal obesity were 1.74 (1.26-2.40) and 1.63 (1.18-2.24) for F(2)-IsoP2 and 1.47 (1.12-1.94) and 1.64 (1.22-2.20) for F(2)-IsoP4. F(2)-IsoP2 showed the strongest and significant inverse association with weight gain during the 5-year follow-up period: increase in F(2)-IsoP2 equal to 1 s.d. was associated with 0.90 kg lower weight gain (P = 0.02) and the odds ratios for relative (≥5%) and absolute (≥5 kg) weight gain were 0.67 (0.47-0.96) and 0.57 (0.37-0.87), respectively. The other three F(2)-IsoPs were consistently inversely associated with weight gain, although not significantly, suggesting that different F(2)-IsoPs vary in their ability to detect the association with weight gain.     

Cyan and yellow super fluorescent proteins with improved brightness, protein folding, and FRET Förster radius

Enhanced cyan and yellow fluorescent proteins are widely used for dual color imaging and protein-protein interaction studies based on fluorescence resonance energy transfer. Use of these fluorescent proteins can be limited by their thermosensitivity, dim fluorescence, and tendency for aggregation. Here we report the results of a site-directed mutagenesis approach to improve these fluorescent proteins. We created monomeric optimized variants of ECFP and EYFP, which fold faster and more efficiently at 37 degrees C and have superior solubility and brightness. Bacteria expressing SCFP3A were 9-fold brighter than those expressing ECFP and 1.2-fold brighter than bacteria expressing Cerulean. SCFP3A has an increased quantum yield (0.56) and fluorescence lifetime. Bacteria expressing SYFP2 were 12 times brighter than those expressing EYFP(Q69K) and almost 2-fold brighter than bacteria expressing Venus. In HeLa cells, the improvements were less pronounced; nonetheless, cells expressing SCFP3A and SYFP2 were both 1.5-fold brighter than cells expressing ECFP and EYFP(Q69K), respectively. The enhancements of SCFP3A and SYFP2 are most probably due to an increased intrinsic brightness (1.7-fold and 1.3-fold for purified recombinant proteins, compared to ECFP & EYFP(Q69K), respectively) and due to enhanced protein folding and maturation. The latter enhancements most significantly contribute to the increased fluorescent yield in bacteria whereas they appear less significant for mammalian cell systems. SCFP3A and SYFP2 make a superior donor-acceptor pair for fluorescence resonance energy transfer, because of the high quantum yield and increased lifetime of SCFP3A and the high extinction coefficient of SYFP2. Furthermore, SCFP1, a CFP variant with a short fluorescence lifetime but identical spectra compared to ECFP and SCFP3A, was characterized. Using the large lifetime difference between SCFP1 and SCFP3A enabled us to perform for the first time dual-lifetime imaging of spectrally identical fluorescent species in living cells.     

The cooperativity between hydrogen and halogen bond in the XY···HNC···XY (X,Y = F,Cl, Br) complexes

The cooperativity between hydrogen and halogen bonds in XY···HNC···XY (X, Y = F, Cl, Br) complexes was studied at the MP2/aug-cc-pVTZ level. Two hydrogen-bonded dimers, five hydrogen-bonded dimers, and ten trimers were obtained. The hydrogen- and halogen-bonded interaction energies in the trimers were larger than those in the dimers, indicating that both the hydrogen bonding interaction and the halogen bonding interaction are enhanced. The binary halogen bonding interaction plays the most important role in the ternary system. The hydrogen donor molecule influences the magnitude of the halogen bonding interaction much more than the hydrogen bonding interaction in the trimers with respect to the dimers. Our calculations are consistent with the conclusion that the stronger noncovalent interaction has a bigger effect on the weaker one. The variation in the vibrational frequency in the HNC molecule was considered. The NH antisymmetry vibration frequency has a blue shift, whereas the symmetry vibration frequency has a red shift. A dipole moment enhancement is observed upon formation of the trimers. The variation in topological properties at bond critical points was obtained using the atoms in molecules method, and was consistent with the results of the interaction energy analysis.     

Different susceptibilities of complex-, hybrid- and high-mannose-type α1- inhibitor and α1-acid glycoprotein to endo-β-N-acetylglucosaminidase F and peptide:N-glycosidase F

Endo--N-acetylglucosaminidase F (endo F, EC 3.2.1.96) and peptide:N-glycosidase F (PNGase F, EC 3.2.2.18) fromFlavobacterium meningosepticum were used for the deglycosylation of ₁-proteinase inhibitor and ₁-acid glycoprotein carrying oligosaccharide side chains of the complex-, high-mannose- and hybrid-type. High-mannose-and hybrid-type glycoproteins were obtained by the incubation of rat hepatocyte primary cultures with 1-deoxymannojirimycin or swainsonine, respectively. It was found that endo F cleaves hybrid- and high-mannose-type ₁-proteinase inhibitor and ₁-acid glycoprotein at pH 4.5 as well as at pH 8.5 in the presence or absence of 1% octyl--d-glucopyranoside. Complex-type ₁-proteinase inhibitor or ₁-acid glycoprotein were not cleaved by endo F even in the presence of octyl--d-glucopyranoside.PNGase F was found to cleave complex-, hybrid- and high-mannose-type oligosaccharide side chains of ₁-proteinase inhibitor and ₁-acid glycoprotein at pH 4.5 and pH 8.5 in the presence of 0.75% octyl--d-glucopyranoside. The deglycosylation of both protein substrates was very poor without detergents.Abbreviations Endo F endo--N-acetylglucosaminidase F (EC 3.2.1.96) - PNGase F peptide:N-glycosidase F (EC 3.2.2.18) Dedicated to Prof. Dr. Wolfgang Gerok on the occasion of his 60th birthday     

The effect of oxytocin,estrogen, calcium ionophore A23187 and hydrocortisone on prostaglandin F2α and 6-oxo-prostaglandin F1α production by cultured human endometrial and myometrial explants

Normal human endometrium (classified by histology and date after last menstrual period) was cultured for 72h, and the output of prostaglandin F₂α and 6-oxo-prostaglandin Fla detected by radioimmunoassay. Hormones/stimuli were added to the culture during the second day of culture for 5h and 19h periods.

• 1.1) The output of prostaglandin F₂α from cultured endometrium was significantly higher (p<0.05) at the beginning (d4–8) and end (d25–30) of the menstrual cycle, compared to mid-cycle (d13–24) endometrium. Significantly more prostaglandin F₂α was released from proliferative than from secretory phase endometrium (p<0.02).
• 2.2) Prostaglandin F₂α release was rapidly stimulated by sodium arachidonate (20–300 μg/ml), and by calcium ionophore A23187 (5 μg/ml) at an extracellular calcium ion concentration of 1.8mM.The ionophore stimulation was greater in mid-cycle endometrium than in endometrium from the beginning or the end of the menstrual cycle.
• 3.3) Estradiol-17β (10 ng/ml) gradually increased the output of prostaglandin F₂α from secretory phase endometrium, and this stimulation was observed in the post-incubation period after hormone had been removed from the incubation medium.
• 4.4) Oxytocin (1 × 10⁻⁵U/ml caused a more rapid stimulation of prostaglandin F₂α output from secretory phase tissue (p<0.05 during the first 5h incubation period with hormone).
• 5.5) Oxytocin (1 × 10⁻⁵ U/ml) and estradiol (long/ml) together significantly stimulated prostaglandin F2a production by proliferative as well as secretory phase endometria.
• 6.6) A high dose of hydrocortisone (loo μg/ml) inhibited the output of prostaglandin F₂α from proliferative and secretory phase endometrium and also from ionophore-stimulated endometrium. However, this dose of hydrocortisone did not inhibit the synthesis of prostaglandin F2a from exogenous arachidonic acid, or the estradiol-induced increase in prostaglandin F₂α production.
• 7.7) Co-culture of endometrium with myometrium did not modify the output of prostaglandin F₂α or of 6-oxo-prostaglandin Fla from cultured tissues.
• 8.8) These experiments suggest that arachidonic acid supply to the cyclooxygenase enzyme may vary during the menstrual cycle: and indicate a gradual increase in prostaglandin synthesising capacity in response to estrogen, more rapid control via oxytocin, and an interaction between estrogen and oxytocin to modulate prostaglandin F2a synthesis in human endometrium.

     

Interaction of Cytotoxic Bicyclic Peptides, Theonellamides A and F, with Glutamate Dehydrogenase and 17β-Hydroxysteroid Dehydrogenase IV

Theonellamide A, a bicyclic peptide isolated from a Theonella sponge, was fixed on hydrazide-containing gel beads and screened for its binding proteins from rabbit liver tissues. Analysis by sodium dodecyl sulfate–polyacrylamide gel electrophoresis revealed that two major proteins of 80 kDa and 55 kDa interacted with theonellamide A. The interaction between theonellamide A and two proteins was confirmed by competition experiments in which these two proteins failed to bind to theonellamide A–conjugated gel beads in the presence of theonellamide A or F. Amino-terminal amino acid sequence analysis of peptide fragments derived from the binding proteins by lysylendopeptidase digestion demonstrated that the 80-kDa and 55-kDa proteins were 17β-hydroxysteroid dehydrogenase IV and glutamate dehydrogenase, respectively. In an in vitro assay system, amination of α-ketoglutarate by glutamate dehydrogenase was activated with theonellamide F, although this effect was weaker than that with adenosine diphosphate, a well-known activator. Received October 15, 1999; accepted January 4, 2000.     

A chemometrical study of intermolecular properties of hydrogen-bonded complexes formed by C2H4O⋅⋅⋅HX and C2H5N⋅⋅⋅HX with X = F, CN, NC, and CCH

We presents a chemometrical study of the intermolecular properties of the C₂H₄O⋅⋅⋅HX and C₂H₅N⋅⋅⋅HX hydrogen-bonded complexes with X = F, CN, NC, and CCH. Through the MP2 perturbation theory and B3LYP hybrid functional, as well as modifications on 6-31ijGk basis sets with i = triple-zeta, j = diffuse and k = polarization functions, systematic tendencies in the R_{(n⋅⋅⋅HX)} hydrogen bond distances and υ_{(n⋅⋅⋅HX)} stretch frequencies were determined by the hierarchical cluster analysis, two level factorial designs and principal component analysis. Based on well-fitted math models, not only because polarization functions provide a great variance on statistical analysis, but this basis set reproduces more efficiently the available experimental results. Moreover, independent of whether the quality on basis set is increased, the effects yielded by both DFT and MP2 were not considered important in the statistical analysis.     

F 1 F 0 -ATP Synthase—Stalking Mind and Imagination

Electron microscopy together with image analysis has been used to study the structure of theintact F₁F₀-ATPsynthase from Escherichia coli. A procedure has been developed which allowspreparation of detergent-free enzyme. Aside from the well known two-domain structure, imagesof F₁F₀ prepared by this procedure show a number of additional features, including a secondstalk, which can be seen extending all the way from the F₀ to the top of the F₁ in some images,and a small protein on the very top of the F₁, which has been identified as the subunit bydecoration with a monoclonal antibody. In light of these results, a refined model of the subunitarrangement of the complex is presented.     

F₂-isoprostane formation, measurement and interpretation: the role of exercise

The level of F₂-isoprostanes (F₂-IsoP) in blood or urine is widely regarded as the reference marker for the assessment of oxidative stress. As a result, nowadays, F₂-IsoP is the most frequently measured oxidative stress marker. Nevertheless, determining F₂-IsoP is a challenging task and the measurement is neither free of mishaps nor straightforward. This review presents for the first time the effect of acute and chronic exercise on F₂-IsoP levels in plasma, urine and skeletal muscle, placing emphasis on the origin, the methodological caveats and the interpretation of F₂-IsoP alterations. From data analysis, the following effects of exercise have emerged: (i) acute exercise clearly increases F₂-IsoP levels in plasma and this effect is generally short-lived, (ii) acute exercise and increased contractile activity markedly increase F₂-IsoP levels in skeletal muscle, (iii) chronic exercise exhibits trend for decreased F₂-IsoP levels in urine but further research is needed. Theoretically, it seems that significant amounts of F₂-IsoP can be produced not only from phospholipids but from neutral lipids as well. The origin of F₂-IsoP detected in plasma and urine (as done by almost all studies in humans) remains controversial, as a multitude of tissues (including skeletal muscle and plasma) can independently produce F₂-IsoP.     

CFTR: folding, misfolding and correcting the ΔF508 conformational defect

Cystic fibrosis (CF), the most common lethal genetic disease in the Caucasian population, is caused by loss-of-function mutations of the CF transmembrane conductance regulator (CFTR), a cyclic AMP-regulated plasma membrane chloride channel. The most common mutation, deletion of phenylalanine 508 (ΔF508), impairs CFTR folding and, consequently, its biosynthetic and endocytic processing as well as chloride channel function. Pharmacological treatments may target the ΔF508 CFTR structural defect directly by binding to the mutant protein and/or indirectly by altering cellular protein homeostasis (proteostasis) to promote ΔF508 CFTR plasma membrane targeting and stability. This review discusses recent basic research aimed at elucidating the structural and trafficking defects of ΔF508 CFTR, a prerequisite for the rational design of CF therapy to correct the loss-of-function phenotype.