Formation of β-sheets in glutamine and alanine tripeptides

The misfolding and aggregation of proteins is associated with many different diseases including the trinucleotide repeat disorders and Prion diseases. We have studied three residue peptides comprising alanine and glutamine in order to understand the short range interactions affecting the formation of β-rich aggregates. Using infrared spectroscopy, we have found that trialanine and triglutamine form significant amounts of β-sheet, but that tripeptides containing alanine and glutamine are only able to form β-sheet if the glutamine side-chains extend outward on both faces of the sheet. From our data, we conclude that different stabilizing interactions are responsible for β-sheet formation in trialanine and triglutamine.     

The hypertrehalosaemic neuropeptide conformational twins of cicadas consist of only l-amino acids: are they cis–trans isomers?

Amino Acids - It is known for almost 25 years that the corpora cardiaca (neurosecretory glands) of cicadas synthesize two isobaric peptides with hypertrehalosaemic activity denominated...     

Insulin analogues with modifications in the β-turn of the B-chain

The β-turn formed by the amino acid residues 20–23 of the B-chain of insulin has been implicated as an important structural feature of the molecule. In other biologically active peptides, stabilization of β-turns has resulted in increases in activity. We have synthesized three insulin analogues containing modifications which would be expected to increase the stability of the β-turn. In two analogues, we have substituted α-aminoisobutyric acid (Aib) for the Glu residue normally present in position B21 or for the Arg residue normally present in position B22; in a third compound, we have replaced the Glu residue with its D-isomer. Biological evaluation of these compounds showed that [B21 Aib]insulin displays a potencyca. one-fourth that of natural insulin, while [B22 Aib]insulin is less than 10% as potent. In contrast, [B21 D-Glu]insulin is equipotent with natural insulin. We conclude that the β-turn region of the insulin molecule normally possesses considerable flexibility, which may be necessary for it to assume a conformation commensurate with high biological activity. If this is the case, [B21 D-Glu]insulin may exhibit a stabilized geometry similar to that of natural insulin when bound to the insulin receptor.     

Role of N-Cadherin cis and trans Interfaces in?the Dynamics of Adherens Junctions in Living Cells

Cadherins, Ca²⁺-dependent adhesion molecules, are crucial for cell-cell junctions and remodeling. Cadherins form inter-junctional lattices by the formation of both cis and trans dimers. Here, we directly visualize and quantify the spatiotemporal dynamics of wild-type and dimer mutant N-cadherin interactions using time-lapse imaging of junction assembly, disassembly and a FRET reporter to assess Ca²⁺-dependent interactions. A trans dimer mutant (W2A) and a cis mutant (V81D/V174D) exhibited an increased Ca²⁺-sensitivity for the disassembly of trans dimers compared to the WT, while another mutant (R14E) was insensitive to Ca²⁺-chelation. Time-lapse imaging of junction assembly and disassembly, monitored in 2D and 3D (using cellular spheroids), revealed kinetic differences in the different mutants as well as different behaviors in the 2D and 3D environment. Taken together, these data provide new insights into the role that the cis and trans dimers play in the dynamic interactions of cadherins.     

cis–trans isomerization of carbon double bonds in monounsaturated triacylglycerols via generation of free radicals

We investigated the heat-induced cis/trans isomerization of double bonds in monounsaturated lipids. When triolein (9-cis, 18:1) was heated around 180 °C, small amounts of isomerization products were obtained depending on the heating period. The heat-induced isomerization of triolein was considerably suppressed by the addition of different antioxidants or under nitrogen stream, and these additives simultaneously inhibited the thermal oxidation of double bonds in triolein. Therefore, an intermediate of the thermal oxidation reaction might be responsible for the heat-induced isomerization of the double bonds in triolein. The thermodynamics of the heat-induced isomerization of triolein (9-cis, 18:1) and trielaidin (9-trans, 18:1) were investigated using Arrhenius plot. The Arrhenius activation energies of cis double bonds in triolein and trans double bonds in trielaidin were 106 kJ/mol and 137 kJ/mol, respectively. The calculated internal rotational barrier heights of these double bonds were similar to those of the double bond of 2-butene radical and significantly lower than those of non-radicalized double bonds in 2-butene. These results suggest that heat-induced cis/trans isomerization of triolein and trielaidin occurs mainly through the formation of radical species, which are the intermediates produced during thermal oxidation. The activation energy difference between the two forms suggests that trans trielaidin radicals are more stable than cis triolein radicals. The high thermodynamic stability of the trans double bonds in lipid radicals would influence the population of cis and trans isomers in edible oils and contribute to slight accumulation of trans-18:1 isomers during heating or industrial processing.     

Effect of terminal achiral and chiral residues on the conformational behaviour of poly Δ(z)Phe and analysis of various interactions

Conformational properties of the peptides containing (Δ(Z)Phe)6 with achiral (ΔAla, Gly) and chiral (Ala, Leu) residues at both the N- and C-terminal positions have been studied with a view to design a peptide with desired helical screw sense. In all the peptides, the lowest energy conformational state corresponds to Φ = 0° and Ψ = + 90° or - 90° or both +/- 90°. These structures are characterized by rise per residue of 1.94 ?; rotation per residue of 114° and 3.12 residues per turn and are stabilized by: (i) carbonyl-carbonyl interactions with the carbonyl oxygen of ith residue and carbonyl carbon atom of the carbonyl group of ith+1 residue; and (ii) N-H....π interactions between the amino group of Δ(Z)Phe and its own aromatic moiety. The Ala/Leu residues at the N-terminus further stabilized the structure, through C-H....π interactions with the farthest edge of the aromatic ring of ith+3 Δ(Z)Phe residue. For peptides Ac-L-Ala/L-Leu-(Δ(Z)Phe)6-NHMe, the low energy left handed helical structure (approximately 2.5 Kcalmol?1 higher in energy) state corresponds to Φ = -30°, Ψ = 120° for L-residue and Φ = Ψ = 30° for Δ(Z)Phe residues and is in good agreement with the X-ray crystallography results for the peptide Boc-L-Ala-(Δ(Z)Phe)4-NHMe crystals grown from acetonitrile/ethanol mixture. Computational results suggest that the peptides Ac-DAla/D-Leu-(Δ(Z)Phe)6-NHMe adopt a right handed helical structure in polar solvents with Φ = 30°, Ψ = -120° for D-residues and Φ = Ψ = -30° for Δ(Z)Phe residues. Both in the left handed and right handed structures, the carbonyl oxygen of acetyl group is involved in 10-membered hydrogen bonded ring formation with NH of 3rd Δ(z)Phe residue whereas Δ(Z)Phe residues backbone adopts a 3?? helix structure. Computational results also suggest that the conformational state with Φ = 0° and Ψ = 90° can be realized by keeping D-Ala or D-Leu at the C-terminal. There is hardly any effect of achiral residues Gly/ΔAla on the conformational behaviour of poly-Δ(Z)Phe.     

Enhanced stability of a 2μ-based recombinant plasmid in diploid yeast

Summary The stability of a 2-based recombinant plasmid, pJDB219, has been compared in glucose-limited chemostat cultures of two haploid strains ofSaccharomyces cerevisiae and a diploid derived from them. The stability of the recombinant plasmid differed in the two haploid hosts but was greatest in the diploid. Enhanced stability in the diploid is probably a function of both the increased copy number and reduced selective burden of the plasmid.     

Activity and stability of Escherichia coli β-galactosidase in cosolvent systems

The kinetic parameters of E.coli -galactosidase were not altered by the addition of 2-propanol or ethyl acetate (1.6% v/v). While ethylene glycol (1.6% v/v) doubled the values of both KM (0.29 mM) and kcat (1393 s–), tetraethyleneglycol-dimethylether (Tetraglyme,1.6% v/v) preserved KM, but decreased kcat. At 50°C all the cosolvents dramatically shortened the enzymatic half life, and so did Tetraglyme and 2-propanol at 28°C. At 28°C, both ethyl acetate and ethylene glycol stabilised the enzyme 9- and 6-fold respectively. This fact, together with the activation effect of ethylene glycol may lead to practical applications. © Rapid Science Ltd. 1998     

Variable stability of chromosomes containing amplified α-satellite sequences in human mesenchymal tumours

Alpha-satellite sequences are found in the centromeric region of all human chromosomes and have been implicated in centromeric function. We describe the structure and behaviour of chromosomes containing amplified human alphoid DNA from chromosome 12, in an osteosarcoma cell line (OSA) and an atypical lipomatous tumour (ALT). In OSA, the amplified material was detected in one large marker chromosome, whereas in ALT amplified sequences were observed in chromosomes of variable number and appearance. The marker in OSA was mitotically stable, but those in ALT exhibited a high degree of mitotic instability, forming bridges at anaphase and chromatin strings between interphase nuclei. The amplified α-satellite arrays reacted positively with human anti-centromeric antiserum and anti-centromere protein B antibodies in both tumours. Centromere protein C, previously shown to be present only in functional kinetochores, was invariably detected at the constriction of the marker in OSA, while one-fifth of markers in ALT appeared to exhibit additional centromere protein C-positive regions outside the primary constriction, indicating that the observed chromosomal instability in ALT might, at least in part, be a consequence of the occasional formation of more than one functional kinetochore. In OSA the alphoid DNA was coamplified with unique sequences from central 12q and the amplified material was C-band negative but in ALT amplified material from central 12q as well as sequences from proximal 12p were detected, resulting in C-band-positive areas. A propensity for additional kinetochore formation might thus be associated with the coamplification of alphoid DNA and pericentromeric sequences from chromosome 12. Received: 17 February 1999; in revised form: 6 June 1999 / Accepted: 7 June 1999     

Incorporation of a β-turn mimic in the N-terminal fragment of the B1 domain of streptococcal protein G

Summary A dibenzofuran-based β-turn mimic has been incorporated in the B1_2–29 fragment of the B1 domain of streptococcal protein G. This amino acid sequence adopts a β-hairpin structure in the complete B1 domain (B1_2–56). The modified peptide was studied by CD and NMR spectroscopy and its solution behavior was compared with the conformation adopted by the same sequence in the modified B1 domain.     

Role of different β-turns in β-hairpin conformation and stability studied by optical spectroscopy

Model β-hairpin peptides based on variations in the turn sequence of Cochran's tryptophan zipper peptide, SWTWENGKWTWK, were studied using electronic circular dichroism (ECD), fluorescence, and infrared (IR) spectroscopies. The trpzip2 Asn-Gly turn sequence was substituted with Thr-Gly, Aib-Gly, (D)Pro-Gly, and Gly-Asn (trpzip1) to study the impact of turn stability on β-hairpin formation. Stability and conformational changes of these hairpins were monitored by thermodynamic analyses of the temperature variation of both FTIR (amide I') and ECD spectral intensities. These changes were fit to a two-state model which yielded different T(m) values, representing the folding/unfolding process, for hairpins with different β-turns. Different β-turns show systematic contributions to hairpin structure formation, and their inclusion in hairpin design can modify the folding pathways. Aib-Gly or (D)Pro-Gly sequences stabilize the turn resulting in residual Trp-Trp interaction at high temperatures, but at the same time the β-structure (cross strand H-bonds) can become less stable due to constraints of the turn, as seen for (D)Pro-Gly. The structure of the Aib-Gly turn containing hairpin was determined by NMR and was shown to be like trpzip2 (Asn-Gly turn) as regards turn and strand geometries, but to differ from trpzip1 (Gly-Asn turn). The Munoz and Eaton statistical mechanically derived multistate model, tested as an alternate point of view, represented contributions from H-bonds and hydrophobic interactions as well as conformational change as interdependent. Use of different spectral methods that vary in dependence on these physical interactions along with the structural variations provided insight to the complex folding pathways of these small, well-folded peptides.     

Crystal structures of Trichoderma reesei β-galactosidase reveal conformational changes in the active site

We have determined the crystal structure of Trichoderma reesei (Hypocrea jecorina) β-galactosidase (Tr-β-gal) at a 1.2? resolution and its complex structures with galactose, IPTG and PETG at 1.5, 1.75 and 1.4? resolutions, respectively. Tr-β-gal is a potential enzyme for lactose hydrolysis in the dairy industry and belongs to family 35 of the glycoside hydrolases (GH-35). The high resolution crystal structures of this six-domain enzyme revealed interesting features about the structure of Tr-β-gal. We discovered conformational changes in the two loop regions in the active site, implicating a conformational selection-mechanism for the enzyme. In addition, the Glu200, an acid/base catalyst showed two different conformations which undoubtedly affect the pK(a) value of this residue and the catalytic mechanism. The electron density showed extensive glycosylation, suggesting a structure stabilizing role for glycans. The longest glycan showed an electron density that extends to the eighth monosaccharide unit in the extended chain. The Tr-β-gal structure also showed a well-ordered structure for a unique octaserine motif on the surface loop of the fifth domain.     

Improvement of β-amylase thermostability in transgenic barley seeds and transgene stability in progeny

The genetic improvement of enzymes important in the brewing process is one of the main goals of barley biotechnology. For the improvement of -amylase thermostability in barley seeds, we have already constructed a mutant thermostable -amylase gene, using site-directed mutagenesis and random mutagenesis to achieve the substitution of seven amino acids of the original barley -amylase. This sevenfold-mutant barley -amylase showed a thermostability increased by 11.6 °C compared to the original enzyme. In the present article, a thermostable -amylase gene under the control of the barley -amylase promoter was introduced to barley protoplasts, and fertile plants were generated from 9 independent transgenic lines. Subsequent analyses indicated that the thermostable -amylase gene was expressed and -amylase activity derived from both native and modified genes was detected in the seeds of 6 transgenic lines. The transgene was stably transmitted to progeny, and thermostable -amylase was synthesized in T₄ seeds, demonstrating that our strategy is applicable for the improvement of seed quality for industrial utilization.     

Enhanced NMR signal detection of imino protons in RNA molecules containing 3′ dangling nucleotides

We present a method for improving the quality of nuclear magnetic resonance (NMR) spectra involving exchangeable protons near the base of the stem of RNA hairpin molecules. NMR spectra of five different RNA hairpins were compared. These hairpins consisted of a native RNA structure and four molecules each having different unpaired, or dangling, nucleotides at the 3′ end. NMR experiments were acquired in water for each construct and the quality of the imino proton spectral regions were examined. The imino resonances near the base of the stem of the wild type RNA structure were not observed due to breathing motions. However, a significant increase in spectral quality for molecules with dangling 3′ adenosine or guanosine nucleotides was observed, with imino protons detected in these constructs that were not observed in the wild type construct. A modest improvement in spectral quality was seen for the construct with a 3′ unpaired uridine, whereas no significant improvement was observed for a 3′ unpaired cytidine. This improvement in NMR spectral quality mirrors the increased thermodynamic stability observed for 3′ unpaired nucleotides which is dependant on the stacking interactions of these nucleotides against the base of the stem. The use of a dangling 3′ adenosine nucleotide represents an easy method to significantly improve the quality of NMR spectra of RNA molecules. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Enhanced whole-cell biodehydrogenation of 11β-hydroxyl medroxyprogesterone in a biphasic system containing ionic liquid

A hydrophilic ionic liquid, 1-butyl-3-methylimidazolium (L)-lactate ([bmim][lactate]), was successfully employed as a co-solvent to improve the biodehydrogenation of steroid 11β-hydroxyl medroxyprogesterone (HMP) to pregna-1,4-diene-6α-methyl-3,20-dione-11β,17α-dihydroxy (PDMDD) in an aqueous-organic biphasic system using Arthrobacter simplex UR106 cells. First, a suitable biphasic system was constituted, composed of toluene and Tris-HCl buffer (0.05 mol/L, pH 7.6) at a 0.4 (V _org /V _aq ) volumetric phase ratio. Investigation of biodehydrogenation with the addition of [bmim][lactate] to the aqueous phase was then performed. The results demonstrate that biodehydrogenation is more efficient in a biphasic system containing 2% [bmim][lactate] as a co-solvent compared to an aqueous-toluene two-phase system. Higher bioconversion (83.2% versus 56.4%) was observed after 16 h at a substrate concentration of 80 mg HMP in 8 mL of toluene.     

Validation of the determination of ΔF508 mutations of the cystic fibrosis gene in over 11000 mouthwashes

Mouthwashes can be used as a DNA resource for mutation detection and, because collection and DNA isolation is simple and cheap, they could in particular, be used for large numbers of samples. To determine the failure rate (the proportion of mouth samples in which no PCR product was obtained) and the specificity of buccal epithelial cell mutation detection in large numbers of samples, we collected mouthwashes and blood samples from 11413 blood donors and tested the mouthwashes for the F508 mutation, which has an estimated frequency of 75% among cystic fibrosis chromosomes in The Netherlands. Blood samples were tested for the F508 mutations only if the mutation was identified in the mouthwash or in the case of a failure to obtain PCR products. The sensitivity of the test was determined in mouthwashes of 75 F508 carriers known from earlier family studies. These samples were offered blindly between the mouthwashes of the blood donors. Both specificity and sensitivity of the mouthwash procedure were 100%. The overall failure rate was 5.6%. This large figure was caused mainly by insufficient rinsing of the mouth in one particular blood bank. Exclusion of the results of this blood bank reduced the failure rate to 1.8%. Our results also confirm that for a large number of samples the mouthwash procedure is suitable for mutation detection and, with proper instructions, can be used in community screening.     

Structural stability of amyloid fibrils of β2-microglobulin in comparison with its native fold

Among various amyloidogenic proteins, β₂-microglobulin (β2-m) responsible for dialysis-related amyloidosis is a target of extensive study because of its clinical importance and suitable size for examining the formation of amyloid fibrils in comparison with protein folding to the native state. The structure and stability of amyloid fibrils have been studied with various physicochemical methods, including H/D exchange of amyloid fibrils combined with dissolution of fibrils by dimethylsulfoxide and NMR analysis, thermodynamic analysis of amyloid fibril formation by isothermal calorimetry, and analysis of the effects of pressure on the structure of amyloid fibrils. The results are consistent with the view that amyloid fibrils are a main-chain-dominated structure with larger numbers of hydrogen bonds and pressure-accessible cavities in the interior, in contrast to the side-chain-dominated native structure with the optimal packing of amino acid residues. We consider that a main-chain dominated structure provides the structural basis for various conformational states even with one protein. When this feature is combined with another unique feature, template-dependent growth, propagation and maturation of the amyloid conformation, which cannot be predicted with Anfinsen's dogma, take place.     

Substitutions in the BamA β-barrel domain overcome the conditional lethal phenotype of a ΔbamB ΔbamE strain of Escherichia coli

BamA interacts with the BamBCDE lipoproteins, and together they constitute the essential β-barrel assembly machine (BAM) of Escherichia coli. The simultaneous absence of BamB and BamE confers a conditional lethal phenotype and a severe β-barrel outer membrane protein (OMP) biogenesis defect. Without BamB and BamE, wild-type BamA levels are significantly reduced, and the folding of the BamA β-barrel, as assessed by the heat-modifiability assay, is drastically compromised. Single-amino-acid substitutions in the β-barrel domain of BamA improve both bacterial growth and OMP biogenesis in a bamB bamE mutant and restore BamA levels close to the BamB(+) BamE(+) level. The substitutions alter BamA β-barrel folding, and folding in the mutants becomes independent of BamB and BamE. Remarkably, BamA β-barrel alterations also improve OMP biogenesis in cells lacking the major periplasmic chaperone, SurA, which, together with BamB, is thought to facilitate the transfer of partially folded OMPs to the soluble POTRA (polypeptide-transport-associated) domain of BamA. Unlike the bamB bamE mutant background, the absence of BamB or SurA does not affect BamA β-barrel folding. Thus, substitutions in the outer membrane-embedded BamA β-barrel domain overcome OMP biogenesis defects that occur at the POTRA domain of BamA in the periplasm. Based on the structure of FhaC, the altered BamA residues are predicted to lie on a highly conserved loop that folds inside the β-barrel and in regions pointing outside the β-barrel, suggesting that they influence BamA function by both direct and indirect mechanisms.