Bacterial expression and characterization of molluscan IDO-like myoglobin

The indoleamine 2,3-dioxygenase (IDO)-like myoglobin (Mb) is a unique type of Mb isolated from the buccal mass of several archgastropod species. Here, we expressed Sulculus diversicolor IDO-like Mb as a GST-fusion protein in bacteria. The visible spectrum of GST-fusion IDO-like Mb shows characteristic α- and β-peaks, indicating that it binds oxygen. To identify residues important in heme and oxygen binding, we constructed site-directed mutants. We initially replaced each of the 7 histidines of S. diversicolor IDO-like Mb with alanine. The spectra of three mutants (H74A, H288A, and H332A) revealed a remarkable loss of absorbance around 414 nm, indicating that they cannot bind heme. His⁷⁴, His²⁸⁸, and His³³² were also replaced by arginine or tyrosine. Neither H332R nor H332Y contains heme, suggesting that His³³² is the proximal ligand of IDO-like Mb. In contrast, both H74R and H288Y mutants were isolated in the heme-binding oxy-form. The autoxidation rates of these two mutants showed that they can bind oxygen as stably as wild-type. His⁷⁴ and His²⁸⁸ might be partially associated with heme-binding, but do not act as the distal ligand. The S. diversicolor IDO-like Mb seems to stably bind oxygen in a different manner from normal myoglobins.     

Rosmarinic acid formation and differential expression of tyrosine aminotransferase isoforms in Anchusa officinalis cell suspension cultures

Time-course changes in rosmarinic acid (RA) formation and activities of tyrosine aminotransferase (TAT) isoforms were examined in Anchusa officinalis suspension cultures. Three TAT isoforms (TAT-1, TAT-3, TAT-4) were resolved by Mono-Q anion-exchange column chromatography. The proportion of the TAT-3 activity within the total TAT activity remained high regardless of the growth stage of the cultured cells. TAT-1 activity was positively correlated with the rate of RA biosynthesis during linear growth stage of the culture cycle, while TAT-4 activity was rapidly induced in conjunction with transfer to fresh medium coincident with a transient increase in RA synthesis. Based on these results, as well as the substrate specificity of each TAT isoform, it was concluded that both TAT-1 and TAT-4 are closely involved in RA biosynthesis. TAT-1 controls conversion of tyrosine to 4-hydroxyphenyl pyruvate, and TAT-4 acts by participating in the formation of tyrosine and phenylalanine via prephenate.Abbreviations PAL phenylalanine ammonia-lyase - TAT tyrosine aminotransferase - RA rosmarinic acid     

Induction of rosmarinic acid biosynthesis in Lithospermum erythrorhizon cell suspension cultures by yeast extract

Summary A transient increase in rosmarinic acid (RA) content in cultured cells of Lithospermum erythrorhizon was observed after addition of yeast extract (YE) to the suspension cultures, reaching a maximum at 24 hr. The highest increase of the RA content (2.5-fold) was obtained when 6-day-old cells in the exponential growth phase were treated with YE. Preceding the induced RA accumulation, phenylalanine ammonia-lyase (PAL) activity increased rapidly, whereas tyrosine aminotransferase (TAT) activity was largely unaffected by the treatment. The incorporation of both ¹⁴C-phenylalanine and ¹⁴C-tyrosine into RA was enhanced in the YE-treated cells, consistent with increased synthesis of the ester.Abbreviations 2,4-D 2,4 dichlorophenoxyacetic acid - PAL phenylalanine ammonia-lyase - TAT tyrosine aminotransferase - RA rosmarinic acid - YE yeast extract     

Color discrimination in wild boars

Two experiments were carried out in order to clarify the color perception of Japanese wild boarsSus scrofa leucomystax. Two females were trained using an operant conditioning technique to press a switch under a positive stimulus color card in order to receive food as a reward. In Exp. 1, they were tested for discrimination between 3 colors (red, green and blue) and gray. The luminosity of all colors was the same. The wild boars succeeded in discrimination tests between blue and gray, but failed to discriminate red from gray. They also did not discriminate green from gray so clearly as blue from gray. In Exp. 2, the same wild boars were tested to discriminate between 8 kinds of color, which were created by gradating green yellow into red purple except for the 3 colors used in Exp. 1, and gray. They could clearly discriminate blue, purple blue and a part of purple from gray. In these experiments, wild boars were capable of recognizing bluish colors. However, for colors approaching green or yellow, they failed the test by degrees.     

Oxygen concentration-dependent induction of a 140-kDa protein in magnetic bacterium Magnetospirillum magnetotacticum MS-1

Abstract The magnetic bacterium Magnetospirillum magnetotacticum prefers a microaerobic habitat and should be able to sense oxygen. Therefore, the bacterium was cultured under atmospheres containing 0–5% O₂ and analyzed for oxygen-dependent changes in the levels of its protein components by sodium dodecyl sulfate-polyccrylamide gel electrophoresis (SDS-PAGE). The analysis revealed a marked anaerobic induction of a 140-kDa protein, which was suppressed when M. magnetotacticum was switched from microaerobic (<1% O₂) to aerobic (>1% O₂) growth conditions. Although its function remains to be determined, the 140-kDa protein may serve as a useful tool to gain insight into the physiology of the organism.     

Pathway of Glycine Betaine Biosynthesis in Aspergillus fumigatus

The choline oxidase (CHOA) and betaine aldehyde dehydrogenase (BADH) genes identified in Aspergillus fumigatus are present as a cluster specific for fungal genomes. Biochemical and molecular analyses of this cluster showed that it has very specific biochemical and functional features that make it unique and different from its plant and bacterial homologs. A. fumigatus ChoAp catalyzed the oxidation of choline to glycine betaine with betaine aldehyde as an intermediate and reduced molecular oxygen to hydrogen peroxide using FAD as a cofactor. A. fumigatus Badhp oxidized betaine aldehyde to glycine betaine with reduction of NAD⁺ to NADH. Analysis of the AfchoAΔ::HPH and AfbadAΔ::HPH single mutants and the AfchoAΔAfbadAΔ::HPH double mutant showed that AfChoAp is essential for the use of choline as the sole nitrogen, carbon, or carbon and nitrogen source during the germination process. AfChoAp and AfBadAp were localized in the cytosol of germinating conidia and mycelia but were absent from resting conidia. Characterization of the mutant phenotypes showed that glycine betaine in A. fumigatus functions exclusively as a metabolic intermediate in the catabolism of choline and not as a stress protectant. This study in A. fumigatus is the first molecular, cellular, and biochemical characterization of the glycine betaine biosynthetic pathway in the fungal kingdom.     

New ellagitannin and galloyl esters of phenolic glycosides from sapwood of Quercus mongolica var. crispula (Japanese oak)

Two novel glycosides, 4,5-dimethoxy-3-hydroxyphenol 1-O-β-(6′-O-galloyl)-glucopyranoside (1) and (+)-2α-O-galloyl lyoniresinol 3α-O-β-d-xylopyranoside (2), as well as a novel ellagitannin named epiquisqualin B (3), were isolated from sapwood of Quercus mongolica var. crispula along with 19 known phenolic compounds. The structures of the novel compounds were elucidated on the basis of chemical and spectroscopic investigation. Compound 2 is the first example of a lignan galloyl ester, and 3 is the oxidation product of vescalagin, which is the major ellagitannin of this plant.     

Insulin resistance dysregulates CYP7B1 leading to oxysterol accumulation: a pathway for NAFL to NASH transition

NAFLD is an important public health issue closely associated with the pervasive epidemics of diabetes and obesity. Yet, despite NAFLD being among the most common of chronic liver diseases, the biological factors responsible for its transition from benign nonalcoholic fatty liver (NAFL) to NASH remain unclear. This lack of knowledge leads to a decreased ability to find relevant animal models, predict disease progression, or develop clinical treatments. In the current study, we used multiple mouse models of NAFLD, human correlation data, and selective gene overexpression of steroidogenic acute regulatory protein (StarD1) in mice to elucidate a plausible mechanistic pathway for promoting the transition from NAFL to NASH. We show that oxysterol 7α-hydroxylase (CYP7B1) controls the levels of intracellular regulatory oxysterols generated by the “acidic/alternative” pathway of cholesterol metabolism. Specifically, we report data showing that an inability to upregulate CYP7B1, in the setting of insulin resistance, results in the accumulation of toxic intracellular cholesterol metabolites that promote inflammation and hepatocyte injury. This metabolic pathway, initiated and exacerbated by insulin resistance, offers insight into approaches for the treatment of NAFLD.     

Floral fragrances in two closely related fruit fly orchids,Bulbophyllum hortorum and B. macranthoides (Orchidaceae): assortments of phenylbutanoids to attract tephritid fruit fly males

Floral chemical components are important cues used by plants to attract pollinators. One outstanding case is “fruit fly orchids” in the genus of Bulbophyllum to attract their pollinators by releasing characteristic fragrances. Dacini fruit flies are main or exclusive pollinators which are strongly attracted to certain natural chemicals, either methyl eugenol (ME: a phenylpropanoid) or raspberry ketone (RK: a phenylbutanoid). Furthermore, zingerone (ZN: a phenylbutanoid) has been characterized as the attractant for both ME- and RK-sensitive fruit fly species. In the present study, we examined chemical profiles of two closely related Bulbophyllum orchids—B. hortorum, and B. macranthoides subsp. tollenoniferum—distributed in Papua New Guinea and the Southeast Asian countries, respectively. We first observed that RK-sensitive flies were attracted to these orchids by ex situ cultivation in Penang, Malaysia. These Bulbophyllum orchids contained RK and/or ZN as their main floral components. Other than these attractants, multiple phenylbutanoids including potential attractants for RK-sensitive species were identified from these orchids. Therefore, we examined attractiveness of potential phenylbutanoid attractants to an RK-sensitive melon fly, Zeugodacus cucurbitae, using laboratory-reared flies. Furthermore, we analyzed molecular phylogenetic relationships among phenylpropanoid- or phenylbutanoid-producing orchids to see a relation between chemical profiles and phylogenetic classification in the related species.