Nucleoside Azide–Alkyne Cycloaddition Reactions Under Solvothermal Conditions or Using Copper Vials in a Ball Mill

Novel nucleoside analogues containing photoswitchable moieties were prepared using ‘click’ cycloaddition reactions between 5′-azido-5′-deoxythymidine and mono- or bis-N-propargylamide-substituted azobenzenes. In solution, high to quantitative yields were achieved using 5 mol% Cu(I) in the presence of a stabilizing ligand. ‘Click’ reactions using the monopropargylamides were also effected in the absence of added cuprous salts by the application of liquid assisted grinding (LAG) in metallic copper reaction vials. Specifically, high speed vibration ball milling (HSVBM) using a 3/32^″ (2.38 mm) diameter copper ball (62 mg) at 60 Hz overnight in the presence of ethyl acetate lead to complete consumption of the 5′-azido nucleoside with clean conversion to the corresponding 1,3-triazole.     

Characterisation of Bacillus thuringiensis mutant highly producing melanin pigment and active against potato tuber moth

The bacteria Bacillus thuringiensis mutant is highly producing melanin pigment with increased ultra violet resistance and insecticidal activity against the potato tuber moth Phthorimaea operculella (Zeller). The results showed that the high decrease of crystal protein formation rate ranged from 100% (B.t.EMS-M2 and B.t.EMS-M6) to 91.82% (B.t.EMS-M9). The EMS–UV-induced mutants (B.t.EMS–UV-2h-1, B.t. EMS–UV-2h-2, B.t.EMS–UV-2h-3, B.t.EMS–UV-2h-5, B.t.EMS–UV-4h-1, B.t.EMS–UV-4h-3 and B.t.EMS–UV-6h-2) showed 100% decrease in the crystal protein formation. Results also showed that the growth rate of B. thuringiensis isolates was detected by measuring the light absorption of culture broth (BP media at pH 8) at the wavelength of 600 nm. The absorbance values of the standard melanin were 2.055 and 0.134 at wavelengths of 226.5 and 602 nm, respectively. This means that the maximum absorbance at wavelength was 226.5 nm, this result is similar to that of the synthetic melanin which has the absorbance of 226 nm. Our experiments detected that the pigment extracted from the mutant isolate B.t.EMS-M3 (EMS-induced mutant) gave the maximum value of absorbance (2.615) at wavelength of 227.5 nm that was similar to standard melanin which gave absorbance value about 2.055 at a wavelength of 226.5 nm. This may be due to the genetic alterations that happened to the mutant isolates due to the mutation by EMS or/and UV irradiation.     

Extended exposure to substrate regulates the human equilibrative nucleoside transporter 1 (hENT1)

ABSTRACT

Human equilibrative nucleoside transporter 1 (hENT1) is a major route of entry of nucleosides and nucleoside analog drugs. The regulation of hENT1 is poorly understood in spite of its clinical importance as a drug transporter. Immunofluorescence microscopy and fluorescence-activated cell sorting suggested that cytidine pre-treatment (40 μM, 6 h) promotes hENT1 internalization in a way that does not affect either hENT1-mediated nucleoside uptake or gemcitabine-induced cytotoxicity. The Scatchard plot analyses of our NBTI binding data support previous speculations that hENT1 proteins exist as two sub-populations, and suggest that cytidine pre-treatment leads to the internalization of one population.     

Synthesis and Biological Evaluation of (3′S)-3′-Deoxy-3′-Fluoro-3′-C-Ethynylcytidine

The novel pyrimidine nucleoside, (3 ′S)-3 ′-deoxy-3 ′-fluoro-3 ′-C-ethynylcytidine (1) was synthesized from cytidine in seven steps. The key step in the synthesis was the introduction of the tertiary fluorine at the 3 ′-position. Compound 1 was evaluated in vitro against several RNA viruses.     

Effects of light wavelength on growth and survival rate in juvenile Pacific bluefin tuna, Thunnus orientalis

The spectral sensitivity of the fish and the suitable light wavelength range for survival and growth performance of juvenile Pacific bluefin tuna (PBT) were investigated. The spectral sensitivity peak of PBT under photopic condition was observed between 449 and 503 nm, which corresponded to their natural habitat. The fish were reared in tanks irradiated continuously with 4 kinds of light emitting diodes (LEDs). The maximum wavelength of LEDs used for the rearing experiment were 460 nm (blue), 520 nm (green), 630 nm (red), and 450–680 nm (white). There was no notable difference in survival rate among fish in the four LED groups. However, the growth of juvenile PBT was lesser under red light compared to the green and white light wavelengths. These results suggest that PBT juveniles have low sensitivity to red light because the fish are rarely exposed to the red light wavelengths under natural ocean conditions. Thus, low sensitivity to red light negatively influenced the feeding behavior and growth of PBT juveniles.     

Analysis of polyamines in biological samples by HPLC involving pre-column derivatization with o-phthalaldehyde and N-acetyl-l-cysteine

Polyamines (putrescine, spermine and spermidine) play a crucial role in the regulation of cell growth, differentiation, death and function. Accurate measurement of these substances is essential for studying their metabolism in cells. This protocol describes detailed procedures for sample preparation and HPLC analysis of polyamines and related molecules (e.g., agmatine and cadaverine) in biological samples. The method is optimized for the deproteinization of samples, including biological fluids (e.g., 10 μl), plant and animal tissues (e.g., 50 mg), and isolated/cultured cells (e.g., 1 × 10⁶ cells). The in-line reaction of polyamines with o-phthalaldehyde and N-acetyl-l-cysteine yields fluorescent derivatives which are separated on a reversed-phase C₁₈ column and detected by a fluorometer at an excitation wavelength of 340 nm and an emission wavelength of 450 nm. The total running time for each sample (including column regeneration on the automated system) is 30 min. The detection limit is 0.5 nmol/ml or 0.1 nmol/mg tissue in biological samples. The assays are linear between 1 and 50 μM for each of the polyamines. The accuracy (the nearness of an experimental value to the true value) and precision (agreement between replicate measurement) of the HPLC method are 2.5–4.2 % and 0.5–1.4 %, respectively, for biological samples, depending on polyamine concentrations and sample type. Our HPLC method is highly sensitive, specific, accurate, easily automated, and capable for the analysis of samples with different characteristics and small volume/amount, and provides a useful research tool for studying the biochemistry, physiology, and pharmacology of polyamines and related substances.     

Characterizing the photochemical degradation of aquatic humic substances from a dystrophic lake using excitation-emission matrix fluorescence spectroscopy and parallel factor analysis

Three-dimensional excitation-emission matrix (EEM) fluorescence and parallel factor analysis (PARAFAC) were used to monitor composition and reactivity changes caused by the photochemical degradation of aquatic humic substances (AHS) from a dystrophic lake in Kushiro Wetland, Japan. AHS-rich lake water was exposed to three treatments in summer and winter 2014: radiation with the full solar wavelength range, radiation with the >320-nm solar wavelength range, and no solar radiation. Irradiation caused AHS-like peaks to shift to shorter wavelengths in the EEM contour plots, implying that AHS photodegradation caused the formation of lower-molecular-weight fractions or more simply structured components. Three components were identified from PARAFAC analyses: AHS-1 (excitation/emission wavelengths of maxima: <252 and 315 nm/426 nm), AHS-2 (360 and 261 nm/489 nm), and AHS-3 (276 nm/403 nm). These components had different photosensitivities. AHS-1 was most sensitive to full solar radiation, while AHS-2 was most sensitive to >320-nm radiation. More photodegradation of these components occurred in the summer than in the winter, indicating that photodegradation depended on light intensity. AHS-3 was photoresistant. The different characteristics of the components reflected the in situ dynamics of the components. The AHS-3 fluorescence intensity was positively correlated with the dissolved organic carbon concentration but the AHS-1 and AHS-2 fluorescence intensities were not. The EEM–PARAFAC method was found to be a good tool for tracing AHS-like materials in situ and in the laboratory.     

A Novel Fluorometric Method for the Selective Determination of Pro-Gly and Pro-Gly-Pro

Fluorescence (FL) derivatization reactions have often been used for the selective determination of bioactive peptides. Herein, a sensitive and selective fluorometric method has been developed for Pro-Gly and Pro-Gly-Pro using a derivatizing reagent 3,4-dihydroxybenzoic acid (3,4-DHBA). In the presence of borate buffer (pH 8.0) and sodium periodate, peptides were reacted with 3,4-DHBA at 37 °C for 30 min. The resulting FL intensity was measured by spectrofluorometer with the excitation wavelength of 450 nm and the emission wavelength of 535 nm. Different reaction conditions such as concentrations of the reagents, reaction time and pH were optimized to develop the method. Under the optimized conditions, a linear relationship was obtained between FL intensity and peptide concentration from 5–30 µM with a lower detection limit of 5 µM. We found that 3,4-DHBA showed strong preference for Pro-Gly and Pro-Gly-Pro amongst all the peptides tested and no other biogenic substances such as amino acids or proteins produced any FL. The reaction is selective, sensitive and simple which can be applied for the determination of peptides as biomarkers in biological samples or for the assay of various protease activities.     

Study on the Interaction Between Nucleic Acids and Acetamiprid

Abstract

The interaction between deoxyribonucleic acid (DNA) and acetamiprid was studied. It was found that the fluorescence of acetamiprid could be enhanced in the presence of DNA in sulfuric acid solution. The excitation and emission wavelength of acetamiprid was 291 nm and 587 nm, respectively. Under optimal conditions, the calibration graph is over the range of 0.1–10 µg mL^?1. The calibration limit is 0.06 µg mL^?1 (S/N = 3). The determination results of DNA in yeast cell and golden staphylococcus samples by this method were satisfactory. The mechanism of the reaction is discussed.     

A ratiometric fluorescent probe for bisulphite anion,employing intramolecular charge transfer

4‐(1H‐benzimidazol‐2‐yl)benzaldehyde (1) has been developed as a new ratiometric fluorescent probe for bisulphite, based on the modulation of intramolecular charge transfer (ICT). Upon mixing with bisulphite in aqueous ethanol, an aldehyde–bisulphite adduct was formed and the ICT of the probe was switched off, which resulted in a ratiometric fluorescence response with an enhancement of the ratios of emission intensities at 368 and 498 nm. The detection range of the probe for bisulphite is in the 2.0–200 µmol/L concentration range and the detection limit is 0.4 µmol/L. Probe 1 produces a ratiometric fluorescent response to bisulphite with a marked emission wavelength shift (130 nm) and displays high selectivity for bisulphite over other anions. Copyright © 2012 John Wiley & Sons, Ltd.     

Red white and blue – bright light effects in a diurnal rodent model for seasonal affective disorder

Despite the common use of bright light exposure for treatment of seasonal affective disorder (SAD), the underlying biology of the therapeutic effect is not clear. Moreover, there is a debate regarding the most efficacious wavelength of light for treatment. Whereas according to the traditional approach full-spectrum light is used, recent studies suggest that the critical wavelengths are within the range of blue light (460 and 484 nm). Our previous work shows that when diurnal rodents are maintained under short photoperiod they develop depression- and anxiety-like behavioral phenotype that is ameliorated by treatment with wide-spectrum bright light exposure (2500 lux at the cage, 5000 K). Our current study compares the effect of bright wide-spectrum (3,000 lux, wavelength 420- 780 nm, 5487 K), blue (1,300 lux, wavelength 420-530 nm) and red light (1,300 lux, wavelength range 600-780 nm) exposure in the fat sand rat (Psammomys Obesus) model of SAD. We report results of experiments with six groups of sand rats that were kept under various photoperiods and light treatments, and subjected to behavioral tests related to emotions: forced swim test, elevated plus maze and social interactions. Exposure to either intense wide-spectrum white light or to blue light equally ameliorated depression-like behavior whereas red light had no effect. Bright wide-spectrum white light treatment had no effect on animals maintained under neutral photoperiod, meaning that light exposure was only effective in the pathological-like state. The resemblance between the effects of bright white light and blue light suggests that intrinsically photosensitive retinal ganglion cells (ipRGCs) are involved in the underlying biology of SAD and light therapy.     

Effect of 4-Pyridone-3-Carboxamide Ribonucleoside (4PYR)-Potential Cardiovascular Toxin in Perfused Rat Heart

We recently described a new nicotinamide derivative: 4-pyridone-3-carboxamide ribonucleoside (4PYR) and its conversion to intracellular metabolites (4PYR monophosphate: 4PYMP and 4PYR adenylate diphosphate: 4PYRAD). The aim of this study was to clarify the metabolism and physiological effects of brief exposure to 4PYR in perfused rat heart. Rat hearts were perfused in Langendorff mode. After 15 min equilibration, 100 μM 4PYR (or solvent in controls) was infused into coronary circulation for 5 min. Coronary flow was recorded with electromagnetic flow meter and left ventricular mechanical function was assessed with intraventricular baloon by constructing pressure–volume relations. After perfusion hearts were freeze-clamped and analyzed using HPLC for phosphocreatine, creatine, ATP with metabolites as well as 4PYR metabolites. 4PYR infused into the coronary circulation was rapidly converted in the heart into 4PYMP and 4PYRAD with concentrations reaching 85.6 ± 46.9 and 43.9 ± 6.4 nmol/g dry weight, respectively, while control concentrations were below 20 nmol/g. 4PYR had no effect on baseline coronary flow (11.9 ± 2.3 ml/min versus 11.0 ± 2.7 ml/min in control) or stimulated by shear stress (23.2 ± 4.5 ml/min versus 23.1 ± 5.2 ml/min in control). Both systolic and diastolic left ventricular mechanical function were not affected by 4PYR. No difference was noted for heart rate. Myocardial concentrations of ATP or phosphocreatine were also not affected by 4PYR. We conclude that 4PYR has no immediate effect on coronary endothelium or cardiomyocyte functions such as coronary flow, rhythm, diastolic properties, or contractility despite rapid incorporation into intracellular metabolites. This study also indicates the lack of effect on purinergic receptors.     

Red‐shifted emission from 1,2‐dioxetane‐based chemiluminescent reactions

Commercial chemiluminescent reagents emit across a broad portion of the electromagnetic spectrum (400–500 nm). A challenge to the use of chemiluminescence to monitor biological processes is the presence of interfering substances in the biological optical window. In the present study, longer wavelength emitting fluorophores (the organic dyes Alexa 568 and Alexa 647), and a semiconductor nanoparticle (QDOT800) were used to red‐shift the emission from commercially available 1,2‐dioxetane‐based chemiluminescent substrate reactions. By adding non‐conjugated fluorescent emitters into chemiluminescent reaction mixtures, an emission peak occurred at the predicted wavelength of the fluorescent emitter. The excitation and emission from QDOT800 was preserved in the presence of a 100 µm‐thick glass barrier separating it from the chemiluminescent reaction components. The maximum tissue phantom penetration by QDOT800 emission was 8.5 mm; in comparison, the native chemiluminescent emission at 500 nm was unable to penetrate the thinnest tissue phantom of 2.5 mm. The described method for red‐shifted emissions from chemiluminescent reactions does not require direct interaction between the chemiluminescent reaction and the fluorescent emitters. This suggests that the mechanism of chemiluminescent excitation of fluorophores and QDOT800 is not exclusive to chemiluminescence resonance energy transfer or sensitized chemiluminescence, but rather by broad energization from the native chemiluminescent emission. Copyright © 2014 John Wiley & Sons, Ltd.     

Copper residues in meat from wild artiodactyls hunted with two types of rifle bullets manufactured from copper

Copper content in muscle and the presence of bullet fragments were assessed in samples from red deer (Cervus elaphus), roe deer (Capreolus capreolus), fallow deer (Dama dama) and wild boar (Sus scrofa) (total of 46 animals) which had been hunted with two types of solid copper bullets. Also, the release of copper from bullets or fragments remaining in muscle was tested. For bullet type “B”, a fragment was detected in only 1 out of 34 carcasses whereas for type “A”, fragments were detected in all 12 carcasses, with up to 24 fragments (maximum size, 5?×?7?×?2 mm). Median copper concentrations around the shot wound (0–30 mm distance) were 1.25 and 1.77 mg/kg fresh weight for bullet types B and A, respectively, and thus in the expected range for venison. Around bullet fragments that had remained in muscles, the copper content increased significantly. In roe deer longissimus muscle that had been exposed for 7 days at +7 °C to bullets of type B, up to 1,000 mg/kg copper (fresh weight) was found in a distance of 0–2 mm. However, in a distance of 10–20 mm, maximum copper contents were <10 mg/kg fresh weight. Bullet fragments can constitute physical hazards and will release copper under acidic conditions as those prevailing in meat. Removal of bullet fragments prior to culinary preparation should ensure that a recommended dietary copper intake of 1.25 mg per adult consumer per day is not exceeded. From a food hygiene viewpoint, non-fragmenting bullets seem to be preferable.     

Biosynthesis of nucleoside analogues via thermostable nucleoside phosphorylase

Biocatalyzed synthesis of nucleoside analogues was carried out using two thermostable nucleoside phosphorylases from the hyperthermophilic aerobic crenarchaeon Aeropyrum pernix K1. The synthesis of the 2,6-diaminopurine nucleoside and 5-methyluridine was used as a reaction model to test the process. Both the purine nucleoside phosphorylase (apPNP) and uridine phosphorylase (apUP) were functionally expressed in Escherichia coli. The recombinant enzymes were characterized after purification, and both enzymes showed high thermostability and broad substrate specificity. Both enzymes retained 100 % of their activity after 60 min at high temperature, and the optimum temperature for the enzymes was 90–100 °C. The nucleoside phosphorylases obtained from A. pernix are valuable industrial biocatalysts for high-temperature reactions that produce nucleoside drugs in high yields.     

Simultaneous visualization of two protein complexes in a single plant cell using multicolor fluorescence complementation analysis

Bimolecular fluorescence complementation (BiFC) is an approach used to analyze protein–protein interaction in vivo, in which non-fluorescent N-terminal and C-terminal fragments of a fluorescent protein are reconstituted to emit fluorescence only when they are brought together by interaction of two proteins to fuse both fragments. A method for simultaneous visualization of two protein complexes by multicolor BiFC with fragments from green fluorescent protein (GFP) and its variants such as cyan and yellow fluorescent proteins (CFP and YFP) was recently reported in animal cells. In this paper we describe a new strategy for simultaneous visualization of two protein complexes in plant cells using the multicolor BiFC with fragments from CFP, GFP, YFP and a red fluorescent protein variant (DsRed-Monomer). We identified nine different BiFC complexes using fragments of CFP, GFP and YFP, and one BiFC complex using fragments of DsRed-Monomer. Fluorescence complementation did not occur by combinations between fragments of GFP variants and DsRed-Monomer. Based on these findings, we achieved simultaneous visualization of two protein complexes in a single plant cell using two colored fluorescent complementation pairs (cyan/red, green/red or yellow/red).     

Tracking of fluorescence nanoparticles with nanometre resolution in a biological system: assessing local viscosity and microrheology

The aim of the study was to establish a user-friendly approach for single fluorescence particle 3D localization and tracking with nanometre precision in a standard fluorescence microscope using a point spread function (PSF) approach, and to evaluate validity and precision for different analysis methods and optical conditions with particular application to microcirculatory flow dynamics and cell biology. Images of fluorescent particles were obtained with a standard fluorescence microscope equipped with a piezo positioner for the objective. Whole pattern (WP) comparison with a PSF recorded for the specific set-up and measurement of the outermost ring radius (ORR) were used for analysis. Images of fluorescent particles were recorded over a large range (about $7\,\upmu \text{ m }$ ) of vertical positions, with and without distortion by overlapping particles as well as in the presence of cultured endothelial cells. For a vertical range of $6.5\,\upmu \text{ m }$ , the standard deviation (SD) from the predicted value, indicating validity, was 9.3/8.7 nm (WP/ORR) in the vertical and 8.2/11.7 nm in the horizontal direction. The precision, determined by repeated measurements, was 5.1/3.8 nm in the vertical and 2.9/3.7 nm in the horizontal direction. WP was more robust with respect to underexposure or overlapping images. On the surface of cultured endothelial cells, a layer with 2.5 times increased viscosity and a thickness of about $0.8\,\upmu \text{ m }$ was detected. With a validity in the range of 10 nm and a precision down to about 3–5 nm obtained by standard fluorescent microscopy, the PSF approach offers a valuable tool for a variety of experimental investigations of particle localizations, including the assessment of endothelial cell microenvironment.     

Effects of Ferrofluid and Phytoalexin Spirobrassinin on Thioflavin-T-Based Fluorescence in Cerebrospinal Fluid of the Elderly and Multiple Sclerosis Patients

It is well known that misfolded peptides/proteins can play a role in processes of normal ageing and in the pathogenesis of many diseases including Alzheimer’s disease. Previously, we evaluated samples of cerebrospinal fluid from patients with Alzheimer’s disease and multiple sclerosis by means of thioflavin-T-based fluorescence. We observed attenuated effects of magnetite nanoparticles operated via anti-aggregation actions on peptides/proteins from patients with Alzheimer’s disease but not from those with multiple sclerosis when compared to age-related controls. In this study, we have evaluated the in vitro effects of anti-aggregation operating ferrofluid and phytoalexin spirobrassinin in the cerebrospinal fluid of patients with multiple sclerosis and Alzheimer’s disease. We have found significant differences in native fluorescence (λ excitation = 440 nm, λ emission = 485 nm) of samples among particular groups (young controls < multiple sclerosis, Alzheimer’s disease < old controls). Differences among groups were observed also in thioflavin-T-based fluorescence (young controls = multiple sclerosis < Alzheimer’s disease < old controls) and the most marked change from native to thioflavin-T-based fluorescence was found in young controls (28–40 years old people). Both ferrofluid and spirobrassinin evoked drops in thioflavin-T-based fluorescence; however, ferrofluid was more efficient in old controls (54–75 years old people) and spirobrassinin in multiple sclerosis patients, both compared to young controls. The results are discussed especially in relation to aggregated peptides/proteins and liposoluble fluorescent products of lipid peroxidation. Based on the significant effect of spirobrassinin in vitro, we suggest that spirobrassinin may be of therapeutic value in multiple sclerosis.     

Determination of l-carnitine,acetyl-l-carnitine and propionyl-l-carnitine in human plasma by high-performance liquid chromatography after pre-column derivatization with 1-aminoanthracene

A new sensitive high-performance liquid chromatographic procedure for the determination of l-carnitine (LC), acetyl-l-carnitine (ALC) and propionyl-l-carnitine (PLC) in human plasma has been developed. Precolumn derivatization with 1-aminoanthracene (1AA), performed in phosphate buffer in the presence of 1-(3-dimethylaminopropyl)-3-ethylcarbodiimide hydrochloride (EDC) as catalyst, is involved. The fluorescent derivatives were isocratically separated on a reversed-phase column (C₁₈). The eluate was monitored with a fluorimetric detector set at 248 nm (excitation wavelength) and 418 nm (emission wavelength). Because of the presence of endogenous carnitines, the validation was performed using dialyzed plasma. The identity of the derivatized compounds was assessed by mass spectrometry and the purity of the chromatographic peaks was confirmed by HPLC-tandem mass spectrometry. The limits of quantitation were 5 nmol/ml for LC, 1 nmol/ml for ALC and 0.25 nmol/ml for PLC. The recovery of the extraction procedure was in the range 82.6%–95.4% for all 3 compounds. Good linearity (R≈0.99) was observed within the calibration ranges studied: 5–160 nmol/ml for LC, 1–32 nmol/ml for ALC and 0.25–8 nmol/ml for PLC. Precision was in the range 0.3–16.8% and accuracy was always lower than 10.6%.     

Phototactic behaviour of Eucryptorrhynchus scrobiculatus and E. brandti (Coleoptera: Curculionidae) adults*

Eucryptorrhynchus scrobiculatus and E. brandti (Coleoptera: Curculionidae) are destructive weevils on Ailanthus altissima in China. This study examined phototactic behaviour of E. scrobiculatus and E. brandti in response to eight light-emitting diodes (LEDs) in the laboratory and field. Effects of gender, starvation, and light and dark experience on the phototactic behaviour of the insects were evaluated. The results demonstrated that, the two species of weevil were phototactic insects and most sensitive to violet light (400–405?nm), followed by blue–violet light (420–430?nm). They were less sensitive to red (655–660?nm), white (6000–6500?k), blue–green (470–480?nm), yellow (590–595?nm), blue (450–455?nm), and green (515–530?nm) light. In the light intensity range of 200–1000?lux, the light intensity had no significant effect on the phototatic behaviour of E. scrobiculatus and E. brandti. Phototactic behaviour of the insects was affected by gender. The phototaxis indices of the two species of weevil increased with starvation, reaching a plateau after 2 or 3?d of starvation. The phototaxis indices of E. scrobiculatus and E. brandti were significantly affected by various wavelengths of light following exposure to the light for 3?h or in different dark experience time. In the mark-release-recapture test, the number of E. scrobiculatus and E. brandti adults trapped by violet (400–405?nm) light traps is the largest. The information provided here provides a basis for survey and control of E. scrobiculatus and E. brandti.