Pollination efficiencies of flower-visiting insects as determined by direct genetic analysis of pollen origin

The amount and genetic composition of pollen grains that are transported to flowers influence the reproduction and fitness of plants. Despite the importance of insect-pollination systems, an understanding of those systems is still lacking due to the absence of a genetic analysis of pollen grains that are transported to flowers. We evaluated the pollination efficiencies of bumblebees (Apidae, Bombus spp.), flower beetles (Scarabaeidae, subfamily Cetoniinae, Protaetia and Eucetonia sp.), and small beetles (Lagriidae, Arthromacra sp.) that visited the flowers of Magnolia obovata (Magnoliaceae) using quantitative (flower visitation frequency, amount of adherent pollen per insect) and qualitative (origin and genetic diversity of adherent pollen per insect) criteria. Most of the pollen adhering to bumblebees and small beetles was self-pollen. This result suggests that visitation by these insects may cause geitonogamous pollen flow and negatively affect the reproduction of M. obovata, causing inbreeding depression. In contrast, flower beetles transported large amounts of genetically diverse outcross pollen. Our results suggest that certain beetle species contribute quantitatively and qualitatively to the pollination of M. obovata. Direct genetic analysis of pollen grains will advance our understanding of plant mating systems and may shed light on the mutualism and coevolution of plants and flower visitors.     

The amino acids involved in the distinct carbohydrate specificities between macrophage galactose-type C-type lectins 1 and 2 (CD301a and b) of mice

Binding specificities of mouse macrophage galactose-type C-type lectin 1 (MGL1/CD301a) and 2 (MGL2/CD301b) toward various oligosaccharides were compared by frontal affinity chromatography. MGL1 preferentially bound oligosaccharides containing Lewis(X) (Le(X)) trisaccharides among 111 oligosaccharides tested, whereas MGL2 preferentially bound globoside Gb4. The important amino acids for the preferential bindings were investigated by pair-wise site-directed mutagenesis at positions 61, 89, 97, 100, 110-113, 115, 124, and 125 in the soluble recombinant carbohydrate recognition domains (CRD) prepared in Escherichia coli and purified with galactose-Sepharose. Mutations of Val, Ala, Thr, and Phe at positions 61, 89, 111 and 125 on MGL1 CRD caused reductions in Le(X) binding. Mutations of MGL2 CRD at Leu, Arg, Arg, and Tyr at positions 61, 89, 115 and 125 were implicated in the preference for beta-GalNAc. Le(X) binding was observed with MGL2 mutants of Arg89Ala and Arg89Ala/Ser111Thr. MGL1 mutants of Ala89Arg and Ala89Arg/Pro115Arg showed beta-GalNAc bindings. Molecular modeling illustrated potential direct molecular interactions of Leu61, Arg89, and His109 in MGL2 CRD with GalNAc.     

Epithelial Na+ channel delta subunit mediates acid-induced ATP release in the human skin

The amiloride-sensitive epithelial Na⁺ channel (ENaC) regulates Na⁺ homeostasis in cells and across epithelia. Although we described that ENaCδ is a candidate molecule for a pH sensor in the human brain, the physiological and pathological roles of ENaCδ in non-neuronal tissues are still unknown. Here we show a novel physiological function of ENaCδ in peripheral tissues in humans. Expression analyses at the level of mRNA clearly revealed that ENaCδ was abundantly expressed in human epidermis and keratinocytes. In addition, ENaCδ protein was detected in there. In cultured keratinocytes, acidic stress (pH 5.0) evoked ATP release, which was significantly reduced in the presence of 100 μM amiloride or 10 μM benzamil. In conclusion, ENaCδ may be involved in the mechanism underlying pH sensing followed by the regulation of cell viability in the human skin.     

Docosahexaenoic acid disrupts in vitro amyloid β1‐40 fibrillation and concomitantly inhibits amyloid levels in cerebral cortex of Alzheimer’s disease model rats

We have previously reported that dietary docosahexaenoic acid (DHA) improves and/or protects against impairment of cognition ability in amyloid beta_1‐40 (Aβ_1‐40)‐infused Alzheimer’s disease (AD)‐model rats. Here, after the administration of DHA to AD model rats for 12 weeks, the levels of Aβ_1‐40, cholesterol and the composition of fatty acids were investigated in the Triton X100‐insoluble membrane fractions of their cerebral cortex. The effects of DHA on the in vitro formation and kinetics of fibrillation of Aβ_1‐40 were also investigated by thioflavin T fluorescence spectroscopy, transmission electron microscopy and fluorescence microscopy. Dietary DHA significantly decreased the levels of Aβ_1‐40, cholesterol and saturated fatty acids in the detergent insoluble membrane fractions of AD rats. The formation of Aβ fibrils was also attenuated by their incubation with DHA, as demonstrated by the decreased intensity of thioflavin T‐derived fluorescence and by electron micrography. DHA treatment also decreased the intensity of thioflavin fluorescence in preformed‐fibril Aβ peptides, demonstrating the anti‐amyloidogenic effects of DHA. We then investigated the effects of DHA on the levels of oligomeric amyloid that is generated during its in vitro transformation from monomers to fibrils, by an anti‐oligomer‐specific antibody and non‐reducing Tris‐Glycine gradient (4–20%) gel electrophoresis. DHA concentration‐dependently reduced the levels of oligomeric amyloid species, suggesting that dietary DHA‐induced suppression of in vivo Aβ_1‐40 aggregation occurs through the inhibitory effect of DHA on oligomeric amyloid species.     

Occurrence of headless sperms in adolescent rat urine

Increased incidence of headless sperms (HS) was spontaneously observed in the urine of adolescent na?ve male SPF/VAF Crl:CD(SD) rats. To clarify the factors contributing to this event, the HS incidence in urine and the epididymis was periodically examined in conjunction with measurements of testis and epididymis weights, motility and morphology of sperms and testosterone, transferrin or follicle-stimulating hormone (FSH) concentrations in serum and/or the testis. The urinary HS incidence was 61%, 69%, 44%, 30%, 14%, 9% and 7% in 100 sperms counted at ages 8, 9, 10, 11, 12, 13 and 14 weeks, respectively; namely, HS peaked at 9 weeks, gradually decreased from 10 weeks and became almost a plateau from 12 weeks onwards. The epididymal HS incidence, which was lower than that in urine, peaked at 8 weeks, decreased from 10 weeks and became almost zero from 12 weeks. By scanning electron microscopy of HS in the epididymis, a narrow gap between the sperm head and neck was clearly seen along with the posterior ring. Concentrations of testicular testosterone and transferrin, a marker for Sertoli cell maturation, reached mature animal levels at 12 weeks. In contrast, no change in serum FSH concentration was seen throughout the study period. These results demonstrate that a marked increase in urinary HS incidence in na?ve rats at ages 8-11 weeks would be a physiological phenomenon seen in connection with the process of Sertoli cell maturation.     

Proteomic identification of haptoglobin as a stroke plasma biomarker in spontaneously hypertensive stroke-prone rats

AIMS: We investigated changes in the expression of plasma proteins in spontaneously hypertensive stroke-prone rats (SHRSP) to identify stroke biomarkers. MAIN METHODS AND KEY FINDINGS: The present analysis using surface-enhanced laser desorption/ionization time of flight mass spectrometry (SELDI-TOF-MS) demonstrated that three peaks at mass/charge ratios (m/z) of 9330, 9480 and 9700 decreased in intensity during the development and progression of hypertensive stroke in SHRSPs, but not in age-matched control SHR and Wistar rats. Administration of verapamil, an L-type calcium channel blocker which was effective for hypertension in SHRSP rats, prevented the decrease in plasma protein expression. A candidate biomarker protein (m/z 9330) was identified using LC-MS/MS as haptoglobin (Hp). Immunoblotting with anti-Hp antibody demonstrated the decreased expression of both Hpalpha and Hpbeta chains in SHRSP. In contrast, haptoglobin mRNA expression in the liver of SHRSPs slightly increased as compared with control rats. SIGNIFICANCE: These findings suggest that Hp is a biomarker candidate for discriminating pathogenic alterations of stroke.     

Overproduction of C4 photosynthetic enzymes in transgenic rice plants: an approach to introduce the C4-like photosynthetic pathway into rice

Four enzymes, namely, the maize C(4)-specific phosphoenolpyruvate carboxylase (PEPC), the maize C(4)-specific pyruvate, orthophosphate dikinase (PPDK), the sorghum NADP-malate dehydrogenase (MDH), and the rice C(3)-specific NADP-malic enzyme (ME), were overproduced in the mesophyll cells of rice plants independently or in combination. Overproduction individually of PPDK, MDH or ME did not affect the rate of photosynthetic CO(2) assimilation, while in the case of PEPC it was slightly reduced. The reduction in CO(2) assimilation in PEPC overproduction lines remained unaffected by overproduction of PPDK, ME or a combination of both, however it was significantly restored by the combined overproduction of PPDK, ME, and MDH to reach levels comparable to or slightly higher than that of non-transgenic rice. The extent of the restoration of CO(2) assimilation, however, was more marked at higher CO(2) concentrations, an indication that overproduction of the four enzymes in combination did not act to concentrate CO(2) inside the chloroplast. Transgenic rice plants overproducing the four enzymes showed slight stunting. Comparison of transformants overproducing different combinations of enzymes indicated that overproduction of PEPC together with ME was responsible for stunting, and that overproduction of MDH had some mitigating effects. Possible mechanisms underlying these phenotypic effects, as well as possibilities and limitations of introducing the C(4)-like photosynthetic pathway into C(3) plants, are discussed.