Isolation and identification of potent allelopathic substances in rattail fescue

Aqueous methanol extracts of rattail fescue (Vulpia myuros) inhibited the growth of roots and shoots of cress (Lepidium sativum), lettuce (Lactuca sativa), alfalfa (Medicago sativa), timothy (Phleum pratense), Digitaria sanguinalis and Lolium multiflorum. Increasing the extract concentration increased the inhibition, suggesting that rattail fescue may have growth inhibitory substances and possess allelopathic potential. The aqueous methanol extract of rattail fescue was purified and two main inhibitory substances were isolated and identified by spectral data as (−)-3-hydroxy-β-ionone and (+)-3-oxo-α-ionol. Both substances inhibited root and shoot growth of cress at concentrations greater than 0.3 μM. The concentrations required for 50% growth inhibition on root and shoot growth of cress, lettuce, alfalfa, timothy, D. sanguinalis and L. multiflorum were 2.7–19.7 μM for (−)-3-hydroxy-β-ionone, and 2.1–34.5 μM for (+)-3-oxo-α-ionol. The concentration of (−)-3-hydroxy-β-ionone and (+)-3-oxo-α-ionol, respectively, in rattail fescue was 7.8 and 3.7 μg g⁻¹ fresh weight. Considering the endogenous level and the inhibitory activity, (−)-3-hydroxy-β-ionone and (+)-3-oxo-α-ionol may work as allelopathic substances in rattail fescue through the growth inhibition of neighboring plant species.     

Prolyl Aminopeptidase from Streptomyces thermoluteus subsp. fuscus Strain NBRC14270 and Synthesis of Proline-Containing Peptides by Its S144C Variant

We specifically examined an exopeptidase, prolyl aminopeptidase (PAP), as a target for synthesis of proline-containing peptides. A PAP from Streptomyces thermoluteus subsp. fuscus NBRC14270 ({"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270) was obtained using sequence-based screening. From {"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270, 144Ser was replaced by Cys (scPAP14270) to give aminolysis activity. In contrast to wild-type {"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270, scPAP14270 produced a polymer of proline benzyl ester and cyclo[Pro-Pro]. The product mass was confirmed using liquid chromatography-mass spectrometry (LC/MS). Several factors affecting the reaction, such as the pH, concentration of the substrate, and reaction time, were measured to determine their effects. Furthermore, a correlation was found between substrate specificity in proline peptide synthesis and the log D value of acyl acceptors in aminolysis catalyzed by scPAP14270. Results showed that dipeptide synthesis proceeded in a weakly acidic environment and that cyclization and polymerization occurred under alkaline conditions. Furthermore, results suggest that almost all amino acid esters whose log D value is greater than 0, except hydroxyproline benzyl ester (Hyp-OBzl), can be recognized as acyl acceptors. These findings support the use of PAPs as a tool for production of physiologically active proline peptides.Prolyl aminopeptidase (PAP) (EC 3.4.11.5), belonging to the S33 family, is an exopeptidase that catalyzes the hydrolysis of the N terminus prolyl residue of peptides or proteins. This family has catalytic Ser. To date, few applications of this enzyme for peptide synthesis have been reported. However, from the perspective of biotechnology, PAP might be a good tool for synthesizing proline-containing peptides by catalyzing aminolysis.Recently nutraceutical properties of peptides containing proline have received increasing attention. For example, prolyl hydroxyproline (Pro-Hyp) stimulates the growth of fibroblasts from mouse skin (11). Pro-Arg can protect against oxidative stress/damage and H₂O₂-induced human diploid fibroblast cell death (13). Furthermore, the lactotripeptides Ile-Pro-Pro and Val-Pro-Pro exhibit angiotensin I-converting enzyme-inhibiting activity (9). In addition to these dipeptides and tripeptides, a cyclic dipeptide (namely, diketopiperazine) containing proline shows several physiological functions. Cyclo[Pro-Pro] (cPP) exerts antibacterial activity against Micrococcus luteus and Pseudomonas aeruginosa (8). Caspase-3 activation by cyclo[Pro-Phe] in HT-29 cells has been described (3). However, its synthesis method has not been established. Enzymatic peptide synthesis presents a useful and desirable strategy because it can conduct specific reactions under milder conditions than those of chemical synthesis.Engineered endoserine proteases that have Cys substituted for catalytic Ser have also been applied for peptide synthesis since subtiligase was constructed by Abrahmsén et al. (1). Because of the weakened hydrolytic activity of the parent enzyme, it is considered that Ser/Cys-substituted protease can trap the substrate (acyl donor). Then, a nucleophilic reaction occurs between another substrate (acyl acceptor) and the trapped acyl donor (2). This is a so-called “aminolysis” reaction. Although aminolysis can conduct peptide synthesis in an aqueous solution, the problem of the necessity of using an N-protected amino acid as an acyl donor remains when using endoproteases.These problems would be solved using exoprotease as a catalyst, because N-terminal free amino groups of acyl donors are recognized by enzymes. It is rarely reported that exoprotease was applied for peptide synthesis, except in the report of Oshiro et al., in which Pro-Phe, Pro-Tyr, and Pro-Trp were synthesized (10). Recently our group reported that the Ser/Cys variant of exoprotease, aminolysin-S, has been constructed and has produced l-Phe-l-Phe ethyl ester and their derivatives from non-N-protected phenylalanine and phenylalanine ethyl ester as acyl donors in aqueous solution (12). However, aminolysin-S cannot produce proline-containing dipeptides.In this study, we describe a PAP from Streptomyces thermoluteus subsp. fuscus strain NBRC14270 ({"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270). Furthermore, synthesis of various proline peptides was attempted through catalysis by its Ser/Cys variant (scPAP14270) from proline ester and several amino acids and their esters in aqueous solution. A basic characterization to determine the effect of pH and the amount of substrate was conducted. Moreover, correlation was found between proline peptide synthesis and the log D value, which is the distribution coefficient between octanol and water, of acyl acceptors in aminolysis mediated by scPAP14270.     

Study on the effects of chloride depletion on photosystem II using different chloride depletion methods

Chloride is an indispensable factor for the functioning of oxygen evolving complex (OEC) and has protective and activating effects on photosystem II. In this study we have investigated mainly by EPR, the properties of chloride-sufficient, chloride-deficient and chloride-depleted thylakoid membranes and photosystem II enriched membranes from spinach. The results on the effects of different chloride depletion methods on the structural and functional aspects of photosystem II showed that chloride-depletion by treating PS II membranes with high pH is a relatively harsh way causing a significant and irreparable damage to the PS II donor side. Damage to the acceptor side of PS II was recovered almost fully in chloride-deficient as well as chloride-depleted PS II membranes.     

A vacuolar carboxypeptidase mutant of Arabidopsis thaliana is degraded by the ERAD pathway independently of its N-glycan

Misfolded proteins produced in the endoplasmic reticulum (ER) are degraded by a mechanism, the ER-associated degradation (ERAD). Here we report establishment of the experimental system to analyze the ERAD in plant cells. Carboxypeptidase Y (CPY) is a vacuolar enzyme and its mutant CPY∗ is degraded by the ERAD in yeast. Since Arabidopsis thaliana has AtCPY, an ortholog of yeast CPY, we constructed and expressed fusion proteins consisting of AtCPY and GFP and of AtCPY∗, which carries a mutation homologous to yeast CPY∗, and GFP in A. thaliana cells. While AtCPY-GFP was efficiently transported to the vacuole, AtCPY∗-GFP was retained in the ER to be degraded in proteasome- and Cdc48-dependent manners. We also found that AtCPY∗-GFP was degraded by the ERAD in yeast cells, but that its single N-glycan did not function as a degradation signal in yeast or plant cells. Therefore, AtCPY∗-GFP can be used as a marker protein to analyze the ERAD pathway, likely for nonglycosylated substrates, in plant cells.     

Replacement of C305 in Heart/Muscle-Type Isozyme of Human Carnitine Palmitoyltransferase I with Aspartic Acid and Other Amino Acids

Liver- and heart/muscle-type isozymes of human carnitine palmitoyltransferase I (L- and M-CPTI, respectively) show a certain similarity in their amino acid sequences, and mutation studies on the conserved amino acids between these two isozymes often show essentially the same effects on their enzymatic properties. Earlier mutation studies on C305 in human M-CPTI and its counterpart residue, C304, in human L-CPTI showed distinct effects of the mutations, especially in the aspect of enzyme stability; however, simple comparison of these effects on the conserved Cys residue between L- and M-CPTI was difficult, because these studies were carried out using different expression systems and distinct amino acids as replacements. In the present study, we carried out mutation studies on the C305 in human M-CPTI using COS cells for the expression system. Our results showed that C305 was replaceable with aspartic acid but that substitution with other amino acids caused both loss of function and reduced expression.     

Phylogeny of Local Sheep Breeds in East Asia, Focusing on the Bayanbulak Sheep in China and the Sipsu Sheep in Bhutan

The phylogenetic positions of the Bayanbulak sheep in China and the Sipsu sheep in Bhutan in the northern Asian sheep group were determined on the basis of allele frequency data for five informative and polymorphic loci of blood protein and nonproteins, such as transferrin (TF), arylesterase (ES), hemoglobin-β (HB-β), X-protein (XP), and potassium transport (KE), using different electrophoretic and ion-densitometric techniques. Based on Nei’s genetic distance, clustering analysis by the UPGMA method showed that the Bayanbulak sheep is clustered in the northern Asian sheep group. Furthermore, the Bayanbulak sheep belongs to a subgroup containing the Khalkhas and Hu sheep of the Mongolian sheep group, which is distinguished from another subgroup of the small-tailed Han, Tan, Tong, and Wadi sheep. The Bayanbulak sheep was closest to the Hu sheep, despite a morphological difference in the fat deposits. In addition to these findings, the Sipsu sheep was verified to belong to the Baruwal sheep.     

Surface-induced phase separation of a sphingomyelin/cholesterol/ganglioside GM1-planar bilayer on mica surfaces and microdomain molecular conformation that accelerates Aβ oligomerization

Ganglioside GM1 mediates the amyloid beta (Aβ) aggregation that is the hallmark of Alzheimer's disease (AD). To investigate how ganglioside-containing lipid bilayers interact with Aβ, we examined the interaction between Aβ40 and supported planar lipid bilayers (SPBs) on mica and SiO₂ substrates by using atomic force microscopy, fluorescence microscopy, and molecular dynamics computer simulations. These SPBs contained several compositions of sphingomyelin, cholesterol, and GM1 and were treated at physiological salt concentrations. Surprisingly high-speed Aβ aggregation of fibril formations occurred at all GM1 concentrations examined on the mica surface, but on the SiO₂ surface, only globular agglomerates formed and they formed slowly. At a GM1 concentration of 20 mol%, unique triangular regions formed on the mica surface and the rapidly formed Aβ aggregations were observed only outside these regions. We have found that some unique surface-induced phase separations are induced by the GM1 clustering effects and the strong interactions between the GM1 head group and the water layer adsorbed in the ditrigonal cavities on the mica surface. The speed of Aβ40 aggregation and the shape of the agglomerates depend on the molecular conformation of GM1, which varies depending on the substrate materials. We identified the conformation that significantly accelerates Aβ40 aggregation, and we think that the detailed knowledge about the GM1 molecular conformation obtained in this work will be useful to those investigating Aβ-GM1 interactions.     

Crystal structure of cyclic Lys48-linked tetraubiquitin

Lys48-linked polyubiquitin chains serve as a signal for protein degradation by 26S proteasomes through its Ile44 hydrophobic patches interactions. The individual ubiquitin units of each chain are conjugated through an isopeptide bond between Lys48 and the C-terminal Gly76 of the preceding units. The conformation of Lys48-linked tetraubiquitin has been shown to change dynamically depending on solution pH. Here we enzymatically synthesized a wild-type Lys48-linked tetraubiquitin for structural study. In the synthesis, cyclic and non-cyclic species were obtained as major and minor fractions, respectively. This enabled us to solve the crystal structure of tetraubiquitin exclusively with native Lys48-linkages at 1.85 Å resolution in low pH 4.6. The crystallographic data clearly showed that the C-terminus of the first ubiquitin is conjugated to the Lys48 residue of the fourth ubiquitin. The overall structure is quite similar to the closed form of engineered tetraubiquitin at near-neutral pH 6.7, previously reported, in which the Ile44 hydrophobic patches face each other. The structure of the second and the third ubiquitin units [Ub(2)-Ub(3)] connected through a native isopeptide bond is significantly different from the conformations of the corresponding linkage of the engineered tetraubiquitins, whereas the structures of Ub(1)-Ub(2) and Ub(3)-Ub(4) isopeptide bonds are almost identical to those of the previously reported structures. From these observations, we suggest that the flexible nature of the isopeptide linkage thus observed contributes to the structural arrangements of ubiquitin chains exemplified by the pH-dependent closed-to-open conformational transition of tetraubiquitin.     

The Met268Pro mutation of mouse TRPA1 changes the effect of caffeine from activation to suppression

The transient receptor potential A1 channel (TRPA1) is activated by various compounds, including isothiocyanates, menthol, and cinnamaldehyde. The sensitivities of the rodent and human isoforms of TRPA1 to menthol and the cysteine-attacking compound CMP1 differ, and the molecular determinants for these differences have been identified in the 5th transmembrane region (TM5) for menthol and TM6 for CMP1. We recently reported that caffeine activates mouse TRPA1 (mTRPA1) but suppresses human TRPA1 (hTRPA1). Here we aimed to identify the molecular determinant that is responsible for species-specific differences in the response to caffeine by analyzing the functional properties of various chimeras expressed in Xenopus oocytes. We initially found that the region between amino acids 231 and 287, in the distal N-terminal cytoplasmic region of mTRPA1, is critical. In a mutagenesis study of this region, we subsequently observed that introduction of a Met268Pro point mutation into mTRPA1 changed the effect of caffeine from activation to suppression. Because the region including Met-268 is different from other reported ligand-binding sites and from the EF-hand motif, these results suggest that the caffeine response is mediated by a unique mechanism, and confirm the importance of the distal N-terminal region for regulation of TRPA1 channel activity.