Stylochus tauricus,a predator of the barnacle Balanus improvisus in the Black Sea

The flatworm Stylochus tauricus Jacubova has been found associated with the barnacle Balanus improvisus Darwin, on which it feeds. The predation rate (the number of barnacles eaten by one polyclad in a month) ranges between 5–10. Inside the empty shells of B. improvisus some egg-plates of S. tauricus were observed. Pelagic Götte's larvae aged 2–3 days possess 4 lobes while those aged 7–8 days have 5 lobes. Flatworms can prey on the young of another species Balanus eburneus Gould, whereas predation on the mussels Mytilus galloprovincialis Lam. is rare. There is a direct correlation between predator abundance and prey ingested.     

Effects of intracellular Ca2+ chelation on the light response in Drosophila photoreceptors

In order to test the hypothesis that excitation in Drosophila photoreceptors is mediated by Ca²⁺ released from internal stores, the Ca²⁺ buffers EGTA, BAPTA and di-bromo-BAPTA (DBB) were introduced into dissociated photoreceptors via whole-cell recording pipettes. All buffers were preloaded with Ca²⁺ to provide the same free Ca²⁺ concentration (250 nM). EGTA (up to 18 mM free buffer) had only weak effects upon voltage-clamped flash responses in normal Ringer's solution (1.5 mM Ca ₀ ²⁺ ), and no effect in Ca²⁺-free solution. The maximum BAPTA concentration tested (14.4 mM free BAPTA) reduced the initial rate of rise by ca. 5000-fold in normal Ringer's solution; by ca. 500-fold in Ca²⁺free solution; and only ca. 60-fold in the absence of Mg²⁺, which preferentially blocks one component of the light-sensitive current. Although BAPTA delayed the time-to-peak in normal Ringer's solution, responses in Ca²⁺ free Ringer's solution were accelerated. These results support the role of Ca²⁺ influx in regulating sensitivity and response kinetics; however, in view of the high concentrations required to attenuate responses in Ca²⁺ free Ringer's solution, the role of Ca²⁺ release in excitation remains unclear. DBB was ca. 2–3 fold more potent than BAPTA, and at concentrations > 5 mM had a qualitatively different action, greatly delaying the time-to-peak. This suggests DBB may have distinct pharmacological actions or access to compartments inaccessible to BAPTA.The only current activated by introducing 5–500 M Ca²⁺ (buffered with nitrilo-triacetic acid) was electrogenic Na⁺/Ca²⁺ exchange. When this was blocked by removing Nao ₀ ⁺ , a novel cationic conductance was activated. However, its properties did not resemble those the light-activated conductance, and thus do not support the hypothesis that Ca²⁺ is sufficient for excitation.Abbreviations BAPTA bis-(o-aminophenoxy)-ethane-N,N,N-tetracetic acid - DBB Di-bromo-bapta - NTA nitrilo-triacetic acid - InsP ₃ inositol 1,4,5-trisphosphate     

Calcium ion,a putative intracellular messenger for light-adaptation in Limulus ventral photoreceptors

Calcium ion fulfills several criteria for identifying an intracellular messenger for light-adaptation in Limulus photoreceptors. Direct injection of Ca⁺⁺ mimicks two aspects of light-adaptation; sequestration of intracellular calcium tends to prevent light-adaptation; and light induces an increase in intracellular Ca⁺⁺ as demonstrated by two independent techniques.Presented at the EMBO-Workshop on Transduction Mechanism of Photoreceptors, Jülich, Germany, October 4–8, 1976     

Evidence for two photoreceptors controlling growth in de-etiolated seedlings

The effect of blue light on hypocotyl extension in de-etiolated seedlings of lettuce, cucumber and tomato was investigated under conditions which precluded the involvement of phytochrome. Small but highly inhibitory amounts of blue light were added to a high intensity background illumination from low pressure sodium lamps. A log-linear response for inhibition of hypocotyl extension against the blue light fluence rate was obtained for lettuce and cucumber, and inhibition in tomato was also related to the blue light fluence rate. The added blue light did not alter phytochrome photostationary state and its effect was independent of the total fluence rate. Growth inhibition by Pfr could be demonstrated in tomato and cucumber but not in lettuce. The results indicate that two photoreceptors may normally be involved in the control of seedling growth but their relative importance varies greatly between species.Abbreviations HIR high irradiance reaction - Pfr far red absorbing form of phytochrome - Pr red absorbing form of phytochrome     

Kinetic properties of single-ion channels activated by light in Limulus ventral nerve photoreceptors

Previous results on Limulus ventral photoreceptors have suggested that besides inositol trisphosphate, another unknown transmitter may also work in the transduction cascade. This assumption has been supported by the finding of two light-activated channel types. The present report furnishes further evidence of the dual transmitter mechanism in phototransduction by analyzing the kinetic properties and voltage dependency of these cation channels with conductances of 12 pS and 30 pS. Single-channel currents were recorded in Limulus ventral nerve photoreceptors in cell-attached configuration at 14°C. At V _m + 80 mV the open-time histograms of both channels were fit best by the sum of two exponentials; time constants (and weights) were: 0.81 ms (0.62) and 6.20 ms (0.38) for the 12 pS channels and 2.38 ms (0.43) and 19.4 ms (0.57) for the 30 pS channels. At this potential the mean open times were 2.7 ms for the 12 pS and 13.3 ms for the 30 pS channels, about two-times larger than at hyperpolarizing potentials. The deactivation kinetics were also different for the two channels. The time constants of the decay of the channel activity, after switching off the light, were 2.5 s for the 12 pS and 12.9 s for the 30 pS channels. The 12 pS channel exhibits bursting and subconductance states at positive potentials. The subconductances are about 20%, 46% and 72% of the fully open state. Results show that the two types of light-activated channels have different kinetic parameters, voltage dependence and gating mechanisms. The two channels are suggested to be gated by different transmitters or processes. It is proposed that for the 30 pS channel the transmitter could be calcium ion or a calcium-dependent transmitter.     

The promoter proximal region in the virD locus of Agrobacterium tumefaciens is necessary for the plant-inducible circularization of T-DNA

Summary The formation of crown gall tumours involves the transfer of the T-DNA region of the Ti plasmid from Agrobacterium to plant cells and its subsequent integration into plant chromosomes. When agrobacteria are incubated with plant protoplasts or exudates of plants, the T-DNA region is circularized by recombination or cleavage and rejoining between the 25 bp terminal repeats; the formation of circular T-DNAs is thought to be one step in T-DNA transfer (Koukolikova-Nicola et al. 1985; Machida et al. 1986). We previously showed that the virulence region of the Ti plasmid is required for T-DNA circularization. In the present paper, we examined the circularization event in agrobacteria harbouring octopine Ti plasmids with mutations in various loci of the virulence region. The results clearly demonstrate that the gene(s) encoded in the virD locus are necessary for T-DNA circularization. In particular, the gene(s) present in the region proximal to the virD promoter are essential. We propose that roduct(s) of this gene have recombinase or endonuclease activity which specifically recognizes the 25 bp terminal repeats of T-DNA.     

Calcium is involved in the gravitactic orientation in colorless flagellates

The colorless flagellate Astasia longa shows a pronounced negative gravitaxis. The calcium fluorescence indicator Calcium Crimson was used to detect changes of the intracellular calcium concentration during gravitactical orientation. Astasia shows an increase of the fluorescence after a lag phase of about 10 s, a maximum after about 30 s and a decrease to the basic level within 60 s during gravitactic reorientation. The observed change in fluorescence corresponds to an almost doubling of the initial free calcium concentration. The influence of inhibitors, known to impair gravitaxis, on the calcium concentration of Astasia longa was tested. Addition of caffeine, an inhibitor of phosphodiesterase, increases, while addition of gadolinium, an inhibitor of mechanosensitive ion channels decreases the fluorescence signal. While gravitactic stimulation of caffeine-treated cells resulted in a kinetics of fluorescence intensity changes comparable to control cells the addition of gadolinium inhibited any calcium concentration change. Dynamic fluorescence imaging was used during a sounding rocket experiment (MAXUS 3 campaign). Different accelerations interrupted by microgravity intervals were applied to Astasia cells. The cells show an increase in the calcium signal upon acceleration and a decrease during the microgravity state. The results strongly reemphasize the working model of gravitaxis which is based on the activation of mechano-sensitive ion channels as one of the primary events in signal perception.     

Anti-actin immunoreactivity is retained in rhabdoms of Drosophila ninaC photoreceptors

Summary The Drosophila ninaC mutation produces small rhabdomeres with the axial filament of the microvillar cytoskeleton reduced or missing. Using post-embedding immunogold labelling of LR White-embedded eyes, we show that several alleles of this mutation retain positive anti-actin immunoreactivity in the rhabdomeres, comparable to that of wild-type flies.     

Mutations responsible for high light sensitivity in an atrazine-resistant mutant of Synechcystis 6714

The primary target of photoinhibition is the photosystem II reaction center. The process involves a reversible damage, followed by an irreversible inhibition of photosystem II activity. During cell exposition to high light intensity, the D₁ protein is specially degraded. An atrazine-resistant mutant of Synechocystis 6714, AzV, reaches the irreversible step of photoinhibition faster than wild-type cells. Two point mutations present in the psbA gene of AzV (coding for D₁) lead to the modification of Phe 211 to Ser and Ala 251 to Val in D₁. Transformation of wild-type cells with the AzV psbA gene shows that these two mutations are sufficient to induce a faster photodamage of PSII. Other DCMU-and/or atrazine-resistant mutants do not differ from the wild type when photoinhibited. We conclude that the Q_B pocket is involved in PSII photodamage and we propose that the mutation of Ala 251 might be related to a lower rate of proteolysis of the D₁ protein than in the wild type.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - PSII photosystem II - RCII reaction center II     

The secreted integrin ligand nephronectin is necessary for forelimb formation in Xenopus tropicalis

While limb regeneration has been extensively studied in amphibians, little is known about the initial events in limb formation in metamorphosing anurans. The small secreted integrin ligand nephronectin (npnt) is necessary for development of the metanephros in mouse. Although expressed in many tissues, its role in other developmental processes is not well-studied. Here we show that a transgene insertion that disrupts this gene ablates forelimb formation in Xenopus tropicalis. Our results suggest a novel role for integrin signalling in limb development, and represent the first insertional phenotype to be cloned in amphibians.     

Calcium/aluminium interactions in the cell wall and plasma membrane of Chara

The proposal that aluminium (Al) toxicity in plants is caused by either inhibition of Ca²⁺ influx or by displacement of Ca²⁺ from the cell wall, was examined. For this study the giant alga Chara corallina Klein ex Will. em. R.D. Wood was selected because it shows a similar sensitivity to Al as in roots of higher plants and, more importantly, it is possible to use the large single internodal cells to make accurate and unambiguous measurements of Ca²⁺ influx and Ca²⁺ binding in cell walls. Growth of Chara was inhibited by Al at concentrations comparable to those required to inhibit growth of roots, and with a similar speed of onset and pH dependence. At Al concentrations which inhibited growth, influx of calcium (Ca²⁺) was only slightly sensitive to Al. The maximum inhibition of Ca²⁺ influx at 0.1 mol·m^–3 Al at pH 4.4 was less than 50%. At the same concentration, lanthanum (La³⁺) inhibited influx of Ca²⁺ by 90% but inhibition of growth was similar for both La³⁺ and Al. Removal of Ca²⁺ from the external solution did not inhibit growth for more than 8 h whereas inhibition of growth by Al was apparent after only 2.5 h. Ca²⁺ influx was more sensitive to Al when stimulated by addition of high concentrations of potassium (K⁺) or by action potentials generated by electrical stimulation. Other membrane-related activities such as sodium influx, rubidium influx and membrane potential difference and conductance, were not strongly affected by Al even at high concentrations. In isolated cell walls equilibrated in 0.5 mol·m^–3 Ca²⁺ at pH 4.4, 0.1 mol·m^–3 Al displaced more than 80% of the bound Ca²⁺ with a half-time of 25 min. From the poor correlation between inhibition of growth and reduction in Ca²⁺ influx, it was concluded that Al toxicity was not caused by limitation of the Ca²⁺ supply. Short-term changes in other membrane-related activities induced by Al also appeared to be too small to explain the toxicity. However the strong displacement, and probable replacement, of cell wall ca²⁺ by Al may be sufficient to disrupt normal cell development.Abbreviations CPW artificial pond water - PD potential difference The technical assistance of Dawn Verlin is gratefully acknowledged. This work was supported by the Australian Research Council.     

Inheritance of a striped-leaf mutant is associated with the cytoplasmic genome in maize

A striped-leaf mutant has been identified in a Taiwanese maize line, Tainan White. The striped area is pale green at the seedling stage, and turns yellow and white at maturity, extending from the leaf blade to the sheath and the internode below the sheath. The mutant does not breed true and following self-pollination, produces three different types of progeny: green, striped and completely affected. The green type permanently loses the mutant character, while the completely affected type is lethal, without any green tissue. Only the striped type transmits the mutant phenotype to progeny, and it has a clonal distribution on the ear. Its phenotype is inherited maternally and its expression is unaffected by the paternal genotype. It cannot be inherited through the paternal parent. This pattern of inheritance, which persists after three cycles of backcrossing with the affected types as the recurrent pistillate parent, suggests that the responsible gene is located in the cytoplamic genome.     

Normal glomerular organization of the antennal lobes is not necessary for odor-modulated flight in female moths

A prominent hypothesis for the function of the glomerular structures in the primary olfactory neuropil of many groups of vertebrate and invertebrate animals is that they enable the processing and coding of information about the chemical compounds that compose complex odors. Previous studies have indicated that various degrees of glomerulus formation in the antennal lobes of the brain of the moth Manduca sexta can be effected by reducing the number of olfactory sensory axons that grow from the antenna into the antennal lobe during metamorphosis. To test the hypothesis that the presence of glomerular structure is necessary to process and identify odors, we substantially reduced, by surgery, the number of antennal segments in developing moths and upon metamorphosis we observed and quantified behavioral responses known to be elicited by odors. Intact and lesioned adult female moths were challenged to fly upwind to the source of an attractive host-plant odor in a wind tunnel. Some of the moths that had developed with reduced olfactory input flew upwind to the odor source. The flight behavior of these individuals was similar to the odor-mediated flight typically observed in moths that had developed normally. Histological analysis of the moths antennal lobes revealed that the lobes of more than half of the respondents that had been lesioned during development lacked normal glomerular organization. The neuropil of these abnormally developed antennal lobes was mostly aglomerular, but with a few isolated, clearly abnormal glomerulus-like structures. This suggests either that even a few abnormal glomeruli are sufficient to mediate this specific behavior or that canonical glomerular organization per se is not necessary for this odor-mediated behavior.     

Inositol 1,4,5-trisphosphate-induced calcium release is necessary for generating the entire light response of limulus ventral photoreceptors

The experiments reported here were designed to answer the question of whether inositol 1,4,5-trisphosphate (IP3)-induced calcium release is necessary for generating the entire light response of Limulus ventral photoreceptors. For this purpose the membrane-permeable IP3 receptor antagonist 2-aminoethoxydiphenyl borate (2APB) (Maruyama, T., T. Kanaji, S. Nakade, T. Kanno, and K. Mikoshiba. 1997. J. Biochem. (Tokyo). 122:498-505) was used. Previously, 2APB was found to inhibit the light activated current of Limulus ventral photoreceptors and reversibly inhibit both light and IP3 induced calcium release as well as the current activated by pressure injection of calcium into the light sensitive lobe of the photoreceptor (Wang, Y., M. Deshpande, and R. Payne. 2002. Cell Calcium. 32:209). In this study 2APB was found to inhibit the response to a flash of light at all light intensities and to inhibit the entire light response to a step of light, that is, both the initial transient and the steady-state components of the response to a step of light were inhibited. The light response in cells injected with the calcium buffer 1,2-bis(o-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (BAPTA) was reversibly inhibited by 2APB, indicating that these light responses result from IP3-mediated calcium release giving rise to an increase in Cai. The light response obtained from cells after treatment with 100 microM cyclopiazonic acid (CPA), which acts to empty intracellular calcium stores, was reversibly inhibited by 2APB, indicating that the light response after CPA treatment results from IP3-mediated calcium release and a consequent rise in Cai. Together these findings imply that IP3-induced calcium release is necessary for generating the entire light response of Limulus ventral photoreceptors.     

Is the membrane voltage amplifier of drone photoreceptors useful at physiological light intensities?

Free-flying drones (Apis mellifera) were attracted by pheromone to an elevated observation site where they looked for small distant objects, a visual task similar to nuptial pursuit. The brightness of the sky against which drones performed this task was measured as the radiance over a range of wavelengths covering the absorbance spectra of the principal drone rhodopsin and its metarhodopsin. This brightness varied relatively little, by just over one log unit. In laboratory experiments on the intact drone, the amplitude of photoreceptor responses to small decrements in intensity showed a marked maximum when the background intensity depolarized the cells to about –35mV. The radiance of this optimal background was only 0.2 log units greater than the sky radiance at which most drones were seen. It is argued that because of probable systematic errors the true difference may be less. It is known that in superfused retinal slices voltage-dependent sodium channels amplify small signals under these stimulus conditions. We therefore conclude that this amplification is useful for the major visual activity of the drone.     

Thenef gene of SIVmac239 is necessary for efficient growth in H9 cells

AIDS viruses require an intact functionalnef gene in order to inducedisease. The nonpathogenic molecular cloned virus SIVmac239nef-deletion encodes a truncatednef gene. This attenuated reading frame is expressed both in vitro and in a virus-infected animal in vivo. Encoding the first 58 amino acids of Nef, the reading frame retained its ability to down-modulate CD4 from the surface of T cells. CD4-down-modulated stable cell lines expressing full-length and truncatednef genes were significantly less infected by SIV. SIV-mac239nef-open and SIVmacnef-deletion encoding a truncatednef clearly differed in replication kinetics in H9 cells and H9-derived cell lines. SIV-mac239nef-deletion replication was delayed in H9.     

A histidine kinase sensor protein gene is necessary for induction of low pH tolerance in Sinorhizobium sp. strain BL3

The aim of this investigation was to identify and isolate genes involved in acid tolerance from Sinorhizobium sp. strain BL3. It was hypothesized that acid tolerance of strain BL3 could be enhanced by high level expression of certain genes involved in acid tolerance, following insertion of these genes in a multiple copy plasmid. A cosmid clone library of BL3 was introduced into BL3, and the transconjugant colonies were selected at low pH. A single cosmid containing genes for acid tolerance was isolated from 40 different colonies. By transposon–insertion mutagenesis, subcloning and DNA sequencing, a gene involved in acid tolerance, actX, was identified in a 4.4-kb fragment of this cosmid. The actX mutant of BL3 showed increased acid sensitivity and was complemented by the 4.4-kb subcloned fragment. Phaseolus lathyroides seedlings inoculated with recombinant strains containing multiple copies of actX showed increased symbiotic performance at low pH. By constructing an actX::gus fusion, it was shown that actX was induced at low pH. actX encodes a putative histidine kinase sensor protein of a two-component regulatory system. The method of gene identification used in this study for isolation of actX may be applied for the isolation of other genes involved in tolerance to adverse environmental factors.