Localization of the pupil trigger in insect superposition eyes

Summary In the superposition eyes of the sphingid moth Deilephila and the neuropteran Ascalaphus, adjustment to different intensities is subserved by longitudinal migrations of screening pigment in specialized pigment cells. Using ophthalmoscopic techniques we have localized the light-sensitive trigger that controls pigment position.In both species, local illumination of a small spot anywhere within the eye glow of a dark-adapted eye evokes local light adaptation in the ommatidia whose facets receive the light. Details of the response pattern demonstrate that a distal light-sensitive trigger is located axially in the ommatidium, just beneath the crystalline cone, and extends with less sensitivity deep into the clear zone. The distal trigger in Deilephila was shown to be predominantly UV sensitive, and a UV-absorbing structure, presumably the distal trigger, was observed near the proximal tip of the crystalline cone.In Ascalaphus we also found another trigger located more proximally, which causes local pigment reaction in the ommatidia whose rhabdoms are illuminated (the centre of the eye glow). The light-sensitive trigger for this response appears to be the rhabdom itself.     

The influence of extracellular calcium on the response of fly photoreceptors

Summary This paper presents a systematic investigation of the influence of the extracellular concentration of calcium ([Ca²⁺]₀) on the electrophysiological response of the fly's photoreceptors (R1–R6) to light. The hemisected heads of flies were perfused with a standard medium containing 10^–4 mol/1 CaCl₂ and in this medium the intracellularly recorded response of the cell was virtually identical to the normal response obtained in vivo. All the effects of changing the [Ca²⁺]₀ could be reversed within 5 min by perfusing the eye with the standard medium.Changing the [Ca²⁺]₀ did not influence the frequency with which quantum bumps occurred or the resting membrane potential, but did lead to changes in the latency and amplitude of the response and, most significantly, in the repolarization time (t _r). The plot oft _r versus the [Ca²⁺]₀ revealed that the value oft _r changes significantly in two distinct regions representing a [Ca²⁺]₀ of between 2×10^–8 and 10^–7 mol/l and 10^–4 and 10^–2 mol/l, respectively. Lowering the [Ca²⁺]₀ did not affect the amplitude of the response but did lead to a drastic increase int _r which was accompanied by an increase in latency and peak time. Raising the [Ca²⁺]₀ led to a reduction in the duration and amplitude of the response. The latter effect is evidence of reduction in the sensitivity of the photoreceptor cell which is dependent on the [Ca²⁺]₀.It is postulated that two types of binding site for calcium exist, high affinity binding sites (HABS) and low affinity binding sites (LABS), which modulate the functioning of ion channels in the cell membrane that are activated as a consequence of light absorption. The results indicate that the sensitivity of the photoreceptor cell is determined by the degree of saturation of the LABS.     

Mapping of human X-linked hypophosphataemic rickets by multilocus linkage analysis

Summary Eleven families with X-linked dominant hypophosphataemic rickets (HPDR) have been typed for a series of X chromosome markers. Linkage with probe 99.6 (DXS41) was demonstrated with a peak lod score of 4.82 at 10% recombination. Multilocus linkage analysis showed that HPDR maps distal to 99.6; this probe has previously been located at Xp22.31-p21.3 by in situ hybridisation. In the mouse hypophosphataemia (Hyp) maps to the distal part of the X chromosome; our location in man is consistent with a scheme which relates the mouse and human X chromosomes by two rearrangements. No marker has yet been found which shows no recombination with HPDR.     

Der Sauerstoffverbrauch des Facettenauges von Calliphora erythrocephala in Abhängigkeit von der Temperatur und dem Ionenmilieu

Zusammenfassung Es wird der Sauerstoffverbrauch der Retinula der Schmeißfliege (Mutante chalky) in Abhängigkeit von Lichtintensität und Temperatur sowie vom Ionenmilieu bestimmt.Die Atmungsmessungen wurden mit einem weiterentwickelten Mikrorespirometer nach Prop durchgeführt. Das neue Gerät wird ausführlich beschrieben.Der Sauerstoffverbrauch der Augen (auf Frischgewicht bezogen) ist bei Männchen und Weibchen gleich. Die Atmung steigt (bei 25° C) von 3,9 ml O₂/g × Std im Dunkeln auf maximal 8,9 ml O₂/g × Std bei Belichtung an.Die Höhe des Sauerstoffverbrauchs ist abhängig vom Alter der Imagines. Während der ersten Tage nimmt die Atmung schnell zu und nähert sich dann langsamer im Laufe der 2. Woche einem Höchstwert.Im Temperaturbereich 15–40° C wurden für den Dunkelstoffwechsel und den maximalen Hellstoffwechsel gleiche Q ₁₀- und -Werte ermittelt (Q ₁₀ 1,95, 12000 cal/Mol).Der Sauerstoffverbrauch in Abhängigkeit vom log₁₀ der Lichtintensität aufgetragen ergibt steile S-förmige Kurven, die mit steigender Versuchstemperatur zu höheren Lichtintensitäten parallel verschoben werden.Bei Erhöhung der K⁺-Ionenkonzentration sinkt der Dunkelstoffwechsel, während der maximale Hellstoffwechsel nicht beeinflußt wird. Mit steigender Kaliumkonzentration verlagern sich die S-Kurven (Sauerstoffverbrauch in Abhängigkeit vom log₁₀ der Intensität) nach rechts, mit steigender Natriumkonzentration nach links.Mit Unterstützung der Deutschen Forschungsgemeinschaft.Mit Unterstützung der Alexander von Humboldt-Stiftung.     

Ion gradient and photoreceptor sensitivity

Summary In superposition eyes of moths (Deilephila elpenor, Manduca sexta) and a neuropteran (Ascalaphus macaronius) receptor excitation and adaptation depend on the limited store of available ion charges in the extra-cellular space.Na⁺ is the main charge carrier necessary for excitation. Receptor mass responses (measured by extracellular electrodes) can, however, be elicited also after complete removal of Na⁺ from the extra-ommatidial space. Responses are also obtained when Na⁺ is partially replaced by Ca⁺⁺ or Mg⁺⁺. These results suggest that the extra-ommatidial space is separated from the intra-ommatidial (rhabdomeric) extra-cellular space. Ion flow between these spaces is slow. The ion exchange during illumination probably takes place over the rhabdomeric part of the photoreceptor membrane.The Na⁺ concentration in the rhabdomeric extracellular space is about 150 mM, as shown by flame photometry. This result supports the assumption that this space is the common Na⁺ store for the three receptor types (UV, green, violet).Positive (optic lobe positive) DC polarization of the retina causes a reduction in the amplitude of the mass responses to light. After cessation of the polarization the amplitude increases with a time constant similar to that after strong illumination. Negative polarization accelerates the rate of increase in amplitude during dark adaptation, while positive polarization retards the increase. These results suggest that one important factor determining the time course of sensitivity increase during dark adaptation is the reestablishment of the Na⁺ gradient over the rhabdomeric membrane.There is a strong electric coupling between the three receptor types in the ommatidium, since all receptors share the same limited intra-ommatidial extra-cellular ion store. Strong illumination of one receptor reduces the ion gradient (extra- to intracellular) also for the other receptors (not absorbing the light). Thereby the sensitivity of the non-illuminated receptors is also reduced. The electric coupling probably improves the wavelength discrimination by the receptors, by keeping almost constant the relative sensitivity of all three receptor types during shortlasting strong selective adaptation of one or two receptor types.The time course of the resistance change over the receptor membrane (measured extra-cellularly) during and after illumination, suggests that during illumination the Na⁺ influx is reduced, and that the ion gradient over the receptor membrane is at least partially re-established already during the illumination.We are grateful to Dr. A.H. Baumhover (United States Department of Agriculture, Agricultural Research Service, Oxford, North Carolina 27565, USA) for supplying theManduca pupae. The work was supported by the Deutsche Forschungsgemeinschaft, SFB 114 and Rezeptorphysiologie; and by Karolinska Institutets Fonder.     

Differentiation of Isomeric Purine and Pyrimidine Mononucleotides by Fast Atom Bombardment Tandem Mass Spectrometry

Abstract

The use of positive ion fast atom bombardment mass-analysed ion kinetic energy (FAB/MIKE) spectroscopy to differentiate the 2′, 3′-and 5′-monophosphate isomers of adenosine, guanosine and cytidine is described.     

Effects of flooding on recruitment and abundance of Golden Perch (Macquaria ambigua ambigua) in the lower River Murray

Flooding is often considered a stimulus for production of fish in floodplain rivers. In the southern Murray–Darling Basin (MDB), Australia, however, few native fish species have been shown to use the floodplain for spawning, and recruitment has been positively and negatively associated with flooding. In 2010/11, extensive flooding in the lower River Murray provided an opportunity to investigate the recruitment response of Golden Perch (Macquaria ambigua ambigua) following 10 years of drought and floodplain isolation. Annual variation in Golden Perch abundance and recruitment were investigated in anabranch and main channel habitats at Chowilla in the floodplain geomorphic region of the lower River Murray over a 7‐year period incorporating the flood and 6 years of in‐channel flow. Spatial variation in recruitment in the lower River Murray was also investigated by comparing the age structure of Golden Perch in the swamplands/lakes, gorge and floodplain geomorphic regions. Golden Perch abundance in the Chowilla region increased significantly postflooding compared with drought years. Age structures indicated that increased abundance was due predominantly to fish spawned during the flood (2010/11) and the previous year (2009/10), which was characterised by in‐channel flows. Age structure was similar in the nearby Katarapko Anabranch system indicating a uniform postflood recruitment response in the floodplain geomorphic region. Juvenile Golden Perch from the 2010/11 and 2009/10 cohorts were less apparent in the gorge and swamplands/lakes regions. Golden Perch have flexible life histories and will spawn and recruit in association with in‐channel rises in flow and overbank flows, but significant increases in abundance in the lower River Murray may result from overbank flooding. Contemporary approaches to flow restoration in the MDB emphasise overbank flows and floodplain processes. We suggest, however, that environmental flow management that incorporates floodplain and in‐channel processes, at appropriate spatio‐temporal scales, will result in more robust populations of Golden Perch.     

Genetic and genomic resources of sorghum to connect genotype with phenotype in contrasting environments

With the recent development of genomic resources and high‐throughput phenotyping platforms, the 21st century is primed for major breakthroughs in the discovery, understanding and utilization of plant genetic variation. Significant advances in agriculture remain at the forefront to increase crop production and quality to satisfy the global food demand in a changing climate all while reducing the environmental impacts of the world's food production. Sorghum, a resilient C₄ grain and grass important for food and energy production, is being extensively dissected genetically and phenomically to help connect the relationship between genetic and phenotypic variation. Unlike genetically modified crops such as corn or soybean, sorghum improvement has relied heavily on public research; thus, many of the genetic resources serve a dual purpose for both academic and commercial pursuits. Genetic and genomic resources not only provide the foundation to identify and understand the genes underlying variation, but also serve as novel sources of genetic and phenotypic diversity in plant breeding programs. To better disseminate the collective information of this community, we discuss: (i) the genomic resources of sorghum that are at the disposal of the research community; (ii) the suite of sorghum traits as potential targets for increasing productivity in contrasting environments; and (iii) the prospective approaches and technologies that will help to dissect the genotype–phenotype relationship as well as those that will apply foundational knowledge for sorghum improvement.     

Arginine/serine repeats are sufficient to constitute a splicing activation domain

SR proteins are essential pre-mRNA splicing factors that have been shown to bind a number of exonic splicing enhancers where they function to stimulate the splicing of adjacent introns. Members of the SR protein family contain one or two N-terminal RNA binding domains, as well as a C-terminal arginine–serine (RS) rich domain. The RS domains mediate protein–protein interactions with other RS domain containing proteins and are essential for many, but not all, SR protein functions. Hybrid proteins containing an RS domain fused to the bacteriophage MS2 coat protein are sufficient to activate enhancer-dependent splicing in HeLa cell nuclear extract when bound to the pre-mRNA. Here we report progress towards determining the protein sequence requirements for RS domain function. We show that the RS domains from non-SR proteins can also function as splicing activation domains when tethered to the pre-mRNA. Truncation experiments with the RS domain of the human SR protein 9G8 identified a 29 amino acid segment, containing 26 arginine or serine residues, that is sufficient to activate splicing when fused to MS2. We also show that synthetic domains composed solely of RS dipeptides are capable of activating splicing, although their potency is proportional to their size.     

Inhibition of neutrophil leukotriene B4 production by a novel synthetic N-3 polyunsaturated fatty acid analogue, beta-oxa 21:3n-3

We recently reported the synthesis and anti-inflammatory properties of a novel long chain polyunsaturated fatty acid (PUFA) with an oxygen atom in the beta-position, beta-oxa-21:3 n-3 (Z,Z,Z)-(octadeca-9,12,15-trienyloxy) acetic acid). Our data, from studies aimed at elucidating the mechanism of its action, show that pretreatment of human neutrophils with the beta-oxa-PUFA substantially depresses the production of leukotriene B(4) (LTB(4)) in response to calcium ionophore, A23187, comparable to standard leukotriene inhibitors such as zileuton and nordihydroguaiaretic acid. Interestingly, the n-6 equivalent, beta-oxa 21:3 n-6, is also a strong inhibitor of LTB(4) production. In contrast, naturally occurring PUFA only slightly reduce, for eicosapentaenoic (20:5n-3) and docosahexaenoic (22:6n-3) acids, or increase, for arachidonic acid (20:4n-6), the formation of LTB(4). The parent beta-oxa-21:3n-3 molecule, rather than its derivatives (methyl ester, saturated, monohydroperoxy, or monohydroxy forms), is exclusively responsible for attenuation of LTB(4) formation. beta-Oxa-21:3n-3 inhibits the conversion of [(3)H]20:4n-6 to [(3)H]5-hydroxyeicosatetraenoic acid and [(3)H]LTB(4) by neutrophils in the presence of calcium ionophore and also suppresses the activity of purified 5-lipoxygenase, but not cyclooxygenase 1 and 2. Beta-oxa-21:3n-3 is taken up by neutrophils and incorporated into phospholipids and neutral lipids. In the presence of calcium ionophore, the leukocytes convert a marginal amount of beta-oxa-21:3n-3 to a 16-monohydroxy-beta-oxa-21:3n-3 derivative. After administration to rodents by gavage or i.p. injection, beta-oxa-21:3n-3 is found to be incorporated into the lipids of various tissues. Thus, beta-oxa-21:3n-3 has the potential to be used in the treatment of inflammatory diseases, which are mediated by products of the lipoxygenase pathway.