Light-harvesting chlorophyll protein (LHCII) drives electron transfer in semiconductor nanocrystals

Type-II quantum dots (QDs) are capable of light-driven charge separation between their core and the shell structures; however, their light absorption is limited in the longer-wavelength range. Biological light-harvesting complex II (LHCII) efficiently absorbs in the blue and red spectral domains. Therefore, hybrid complexes of these two structures may be promising candidates for photovoltaic applications. Previous measurements had shown that LHCII bound to QD can transfer its excitation energy to the latter, as indicated by the fluorescence emissions of LHCII and QD being quenched and sensitized, respectively. In the presence of methyl viologen (MV), both fluorescence emissions are quenched, indicating an additional electron transfer process from QDs to MV. Transient absorption spectroscopy confirmed this notion and showed that electron transfer from QDs to MV is much faster than fluorescence energy transfer between LHCII and QD. The action spectrum of MV reduction by LHCII-QD complexes reflected the LHCII absorption spectrum, showing that light absorbed by LHCII and transferred to QDs increased the efficiency of MV reduction by QDs. Under continuous illumination, at least 28 turnovers were observed for the MV reduction. Presumably, the holes in QD cores were filled by a reducing agent in the reaction solution or by the dihydrolipoic-acid coating of the QDs. The LHCII-QD construct can be viewed as a simple model of a photosystem with the QD component acting as reaction center.     

A new and phylogenetically suggestive morphotype ofKeratella lenzi (Rotifer,Monogononta), from Argentina

The morphological characteristics ofKeratella lenzi (f.ayui) f. nov. and the phylogenetic and ecological implications of the appearance of posterolateral spines inK. lenzi Hauer, 1953 are discussed. The morphotype is described after detailed observations using light and scanning electron microscopy, and compared with otherKeratella species of the superspecies valga. The pores of the lateral antennae are described, and proposed as a new character for future comparative research. Some ecological information is also given.     

ELIPs – Light-induced stress proteins

Exposure of plants to light intensities higher than those required to saturate photosynthesis leads to a reduction in photosynthetic capacity. This effect is known as photoinhibition. Photoinhibition is followed by destruction of carotenoids, bleaching of chlorophylls and increased lipid peroxidation due to damage by oxygen-derivatives. The oxygen concentration in chloroplasts in the light is high because of oxygen production by photosystem II (PSII). This can result in the release of reactive intermediates of reduced dioxygen such as superoxide radicals, hydroxyl radicals, hydrogen peroxide or singlet oxygen. In order to maintain their normal function under light stress conditions, chloroplasts have developed multiple repair and protection systems. The induction of specific light stress proteins, the ELIPs (for early light-induced proteins) can be considered to be part of these protective responses. The accumulation of ELIPs under light stress conditions is correlated with the photoinactivation of PSII, degradation of the D_l-protein of PSII reaction centre and changes in the level of pigments. Futhermore, the accumulation of ELIPs in the thylakoids is strictly controlled by the pigment content, especially by chlorophylls. Isolation of ELIPs in a native form and analysis of pigments bound to these proteins revealed that ELIPs can bind chlorophyll a and lutein. These data indicate that ELIPs might represent unique chlorophyll-binding proteins which have a transient function(s) during light stress. A transient 'pigment-carrier' function is postulated for ELIPs.     

稻虱缨小蜂触角感器的扫描电镜观察

在稻虱缨小蜂触角上共观察到毛形感器(Ⅰ,Ⅱ型)、板状感器、捧状感器、剑状感器和蒲姆氏鬃感器等五种感器．而雄性触角上则缺少毛形感器Ⅱ型和棒状感器。各类感器的数量和分布在两性间亦存在明显差异。     

Tonic and modulatory subsystems of the complex gravity receptor system in crickets, Gryllus bimaculatus

The gravity receptor system of crickets Gryllus bimaculatus is composed of antennal, cercal and leg subsystems. The cercal gravity receptors are the club-shaped sensilla. Each of these subsystems elicits compensatory head movements during passive roll.The extent of compensatory head movements depends on the strength of the gravitational stimulus applied to the leg subsystem. Amputation of 2 legs never causes a decrease in reflex amplitude. Unilateral amputation of 1 to 3 legs always induces a roll movement of the head to the intact body side. Therefore, the leg gravity receptor system exerts a modulatory and tonic effect on the neck muscles.The gravity receptors of 1 cercus or 1 antenna only elicit compensatory head movements. They exert no tonic effect on the neck muscles.The results are discussed with respect to (i) the proposed connectivity of the cercus-neck muscle pathway, (ii) mutual inhibitory interactions between the sensory pathways originating in the leg gravity receptors, and (iii) the influence of non-gravitationally induced excitation on the occurrence of compensatory head movements during passive roll of the crickets.     

昆虫触角转录组研究进展

昆虫通过信息交流感受内外坏境的变化,影响着昆虫定位、搜索食物源、寻找产卵地点和选择配偶等行为。在昆虫中,触角分布着较多的嗅觉感受器,可以感知挥发性分子、气味和激素,是昆虫重要的嗅觉器官,参与信息交流。综述和展望昆虫触角转录组的研究进展,有利于促进害虫管理、害虫防治和社会性昆虫级型分化与劳动分工的研究,也能为昆虫触角后续研究和昆虫触角仿生的应用提供参考。     

CHLOROPLAST PIGMENT PATTERNS IN DINOFLAGELLATES1

The chlorophylls and carotenoids of 22 species of dinoflagellates were analysed by thin layer chromatography, using 2-dimensional sucrose plates, and 1-dimensional polyethylene plates for chlorophylls c₁ and c₂. Peridinin was the major carotenoid in 19 of the species, while fucoxanthin was the major carotenoid in 3. In the peridinin-containing species, 5 carotenoid fractions, constituting more than 95% of the total carotenoids, were always present. These were peridinin (± neo-peridinin), averaging 64% of the total carotenoid, diadinoxanthin, dinoxanthin, β-carotene and a polar, unidentified pink xanthophyll. Six other carotenoid fractions occurred in minor or trace quantities among the species, but were not identified. Two of these had, a wide distribution; the other 4 were restricted to one or 2 species. The chlorophyll content of the dinoflagellate cultures ranged from 1–141 μg chlorophyll a + c/10⁶ cells, a pattern which was broadly correlated with cell size. In the peridinin-containing species the ratio of chlorophyll a to c on a molar basis was approximately 2 (range 1.60–4.39); in the fucoxanthin-containing species this ratio was approximately 4 (range 2.65–5.73). Both chlorophylls c₁ and c₂ occurred in the fucoxanthin-containing dinoflagellates, and only chlorophyll c₂ (one exception) occurred in the peridinin-containing dinoflagellates. These patterns of chlorophyll c and major carotenoid correspond to patterns previously observed in the Pyrrhophyta and the Chrysophyta, suggesting different phylogenetic origins for the “dinoflagellate” chloroplasts.     

Host selection by ovipositing cowpea weevils: patterning of input from separate sense organs

Ablations were performed to identify the sense organs used in host selection by ovipositing cowpea weevils, Callosobruchus maculatus. Antennae, foretarsi and palpi (maxillary + labial) were removed singly or in combination, and females were offered pairwise choices of four host species. Removal of the palpi consistently had the greatest effect on host choice, whereas the relative importance of other organs depended on the pair of hosts tested. Different organs may provide conflicting input as to the preferred host; certain ablations led to a complete reversal in preference (as opposed to a simple loss of discrimination). Input from separate organs appeared to be received in a dominance hierarchy.

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Sélection de l'hôte lors de la ponte de Callosobruchus maculatus: modélisation des influx provenant séparément des divers organes sensoriels

Résumé Les ablations ont servi d'étape initiale lors de la détermination des organes sensoriels impliqués dans la sélection du lieu de ponte par C. maculatus. Les antennes, les tarses antérieurs, les palpes (maxillaires et labiaux) ont été retirés seuls ou en combinaison. Les femelles ont eu des choix binaires entre les graines de 4 légumineuses: Cicer arietinum, Glycine max, Phaseolus vulgaris, Vigna unguiculata. Chaque combinaison d'ablations était accompagnée d'un témoin chez lequel les mêmes ablations étaient unilatérales. C'est l'ablation des palpes qui a le plus modifié le choix de l'hôte; l'influence relative des autres organes dépendait des paires d'hôtes offerts. Différents organes peuvent fournir des influx opposés quant à l'hôte préféré certaines ablations ont conduit à une inversion complète des préférences. Il semble que les influx sensoriels formaient une gamma avec hiérarchie dominante. Dans les choix binaires, les préférences initiales des femelles intactes ont été supprimées avec l'ablation des palpes seuls, cependant elles n'avaient pas été modifiées par l'ablation conjointe des palpes et des tarses. Dans ces expériences, l'influx antennaire ne devenait dominant qu'après ablation des deux autres organes sensoriels. Les préférences des femelles avec ablations unilatérales ne différaient pas de celles des femelles intactes.

     

Salt tolerance of soybean cultivars

Soybean (Glycine max) cv. Clark tolerated NaCl salinity up to osmotic potential in soil -1800 kPa, cv. Forest to -1500 kPa and cv. Kint to -1200 kPa. The tolerance of cvs. Clark and Forest was found to be related to the accumulation of soluble proteins, amino acids, proline, K and Ca. The sensitivity of cv. Kint was found to be associated with decrease in water, saccharide, protein, K and Ca contents. The leaf osmotic potential decreased in cvs. Clark and Forest while remained unchanged in cv. Kint. This revised version was published online in July 2006 with corrections to the Cover Date.