Effect of the new fluorescent brightener Rylux BSU on morphology and biosynthesis of cell walls in Saccharomyces cerevisiae

Rylux BSU, a new fluorescent brightener from the family of 4,4-diaminostilbene-2,2disulfonic acid derivatives, inhibited growth and cytokinesis of the yeast Saccharomyces cerevisiae. In the presence of 0.1–1 mg/ml Rylux BSU the cells grew in clumps, had irregular shape and were larger than controls. They formed apparently normal primary septa but their secondary septa and lateral cell walls, especially those in older cells, were abnormally thick with large deposits of amorphous wall material in the periplasmic spaces all over the cell surface. Chitin content in the cell walls of cells grown in the presence of Rylux BSU was increased 2 to 5 times in comparison to that of the controls and glucan content was reduced by up to 30%. In the in vitro assays with particulate membrane fractions, Rylux BSU acted as a non-competitive inhibitor of -1,3-glucan synthase with inhibitory constant K _i=1.75 mg/ml whereas the chitin synthase was inhibited to a much lesser extent. From the difference of the effects of Rylux BSU on the synthesis of chitin in vivo and in vitro it is concluded that the brightener interacts with chitin synthase only indirectly, possibly by influencing the properties of integral plasma membrane.Abbreviations RBSU Rylux BSU, 1,4-benzenedisulfonic acid-2,2-[ethyleneidy]bis[(3-sulpho-4,1-phenylene)imino[6-bis(2-hydroxyethyl)amino]-1,3,5-triazine-4,2-diylamino]]bis-, hexasodium salt - FB fluorescent brightener     

Viral-enhancing activity of an optical brightener for Spodoptera littoralis (Lepidoptera: Noctuidae) nucleopolyhedrovirus

The effect of an optical brightener on the insecticidal activity of a Spodoptera littoralis (Boisduval) (Lepidoptera: Noctuidae) nucleopolyhedrovirus (SpliNPV) were examined in three instars of S. littoralis. LD₅₀ values of the SpliNPV were reduced from 33 to <5, 73 to 5.7 and 342 321 to 288 412 occlusion bodies for second, third and fourth instars, respectively, by the addition of 1% Tinopal UNPA-GX. Relative potencies were >66, 12.8, and 1.2 for second-. third- and fourth-instar S. littoralis larvae, respectively. Relative mortality between the treatments with and without the brightener decreased from third- to fourth-stage larvae. In terms of speed of kill, the ST₅₀ values of the baculovirus-infected larva were reduced from 210 to 159, 213 to 147, and 207 to 165 h for second-, third- and fourth-instar larvae, respectively, by the addition of the optical brightener at biologically equivalent doses.     

荧光增白剂对杆状病毒的增效机理研究概况

荧光增白剂对杆状病毒增效作用的机制或作用方式存在歧异,目前主要存在两种学术观点:一种认为荧光增白剂对杆状病毒的增强效应是通过作用于昆虫中肠细胞实现的;另一种观点则认为荧光增白剂对杆状病毒的增强作用是通过破坏昆虫围食膜结构的完整性实现的.就这两种学术观点及荧光增白剂增效作用研究概况作详细的介绍.     

Impact of moisture and UV degradation on Beauveria bassiana (Balsamo) Vuillemin conidial viability in turfgrass

Beauveria bassiana conidial viability in turfgrass was evaluated using a two-component nucleic acid stain and fluorescence microscopy. Turfgrass samples along with the top 5 cm of soil were used for conidial extraction and viability evaluation on 1, 2, 3, 7, 14 and 21 days after treatment. There were no differences in conidial viability between two Orthoptera strains, 3622 and 5977, and both strains were able to persist in a sandy loam soil for up to three weeks after application. High and low irrigation levels were applied to each of the two strains and results show that higher irrigation (5.1 cm/week) maintains conidial viability better than a low irrigation level (2.5 cm/week). Mean conidial viability was approximately 8–12% greater in plots with the high irrigation regime. Rather than significantly increase soil moisture levels, it is hypothesized that the greater amount of irrigation helps to move the conidia deeper into the thatch layer and soil profile, an area that provides protection from damaging surface temperatures and UV exposure. Rainfall that occurred during the beginning of the 2005 test minimized the irrigation effect, and the irrigation treatment differences were more pronounced after 48 h. Four different UV protectants were evaluated for an impact on conidial viability of strain 3622. Two protectants, an optical brightener and magnesium silicate clay, when added to an emulsifiable oil formulation, significantly increased conidial viability on all evaluation dates. The clay particles act as a sunlight blocker while the optical brightener absorbs UV light. The combined protection from the oil and the additive increased conidial viability by approximately 10% on all evaluation dates. Results from this study provide insight into ways to increase entomopathogenic fungal viability under field conditions.     

A Stilbene Optical Brightener can Enhance Bacterial Pathogenicity to Gypsy Moth (Lepidoptera: Lymantriidae) and Colorado Potato Beetle (Coleoptera: Chrysomelidae)

Stilbene optical brighteners were first investigated to protect biological control agents such as viruses, fungi, and nematodes against ultraviolet light. Some are known to enhance the activity of insect viruses in Lepidoptera. In this work, one stilbene brightener, Tinopal LPW, also increased mortality of gypsy moth and Colorado potato beetle larvae when treated with bacteria/optical brightener combinations. This increase in mortality, however, did not occur for every bacteria/insect combination. In gypsy moth, a significant increase in larval mortality was observed only with Bacillus thuringiensis combined with Tinopal LPW. In Colorado potato beetle, however, the addition of Tinopal LPW increased larval mortality with all bacteria tested (B. thuringiensis, Serratia marcescens, Photorhabdus luminescens, and Chromobacterium sp.). The brightener also decreased the time to kill for these pathogens. This decrease in LT₅₀ was observed not only for bacteria+Tinopal LPW combinations, but also for combinations of Chromobacterium sp. toxin+Tinopal LPW. The mechanism for increase in bacterial toxicity by optical brighteners is compatible with mechanisms proposed for enhancement based on viral/lepidopteran/optical brightener systems that are not dependent on replication.     

Lack of interaction between the milky disease bacterium Paenibacillus popilliae and stilbene-derived optical brighteners in Japanese beetle larvae

Optical brighteners cansynergistically enhance nucleopolyhedrovirusinfectivity to lepidopteran larvae by blockingthe sloughing of infected primary midgut cellsand inhibiting the formation of the peritrophicmembrane in the hosts. Because of similaritiesin the route of infection, we investigatedwhether optical brighteners would also enhanceinfection with the milky disease bacterium,Paenibacillus popilliae, of Japanesebeetle, Popillia japonica, larvae. Thelarvae were kept in soil mixed with P.popilliae spore preparations and the opticalbrighteners Blankophor BBH, P167, or RKH withperennial ryegrass provided as food. Noenhancing effect of any of the opticalbrighteners on P. popilliae infection wasobserved at a concentration of 0.1% (w/w). Rather, when mixed into the soil at 0.02, 0.1,or 0.5% (w/w) BBH reduced P. popilliaeinfection at the highest rate.     

Photostabilized titanium dioxide and a fluorescent brightener as adjuvants for a nucleopolyhedrovirus

Titanium dioxide (TiO₂)reflects ultraviolet light, and so could beexpected to protect the occlusion bodies (OBs)of nucleopolyhedroviruses (NPVs) fromdegradation by sunlight. However, in thepresence of sunlight and water, TiO₂catalyzes the formation of hydrogen peroxide,which can degrade OBs. We tested microfineTiO₂ that had been photostabilized(particles were coated to prevent catalyticactivity), as a UV protectant for the OBs ofthe NPV of Helicoverpa zea (Boddie). Inthe absence of UV, activity of the OBs wasreduced by nonphotostabilized TiO₂ but wasunaffected by photostabilized TiO₂ or byzinc oxide (ZnO). None of these materialsinfluenced larval feeding rates. Undersimulated sunlight, photostabilizedTiO₂ protected the OBs to a greater degreethan did ZnO. Photostabilized TiO₂ wascompatible with a viral enhancer, thefluorescent brightener Blankophor HRS. Undersimulated sunlight, both materials increasedactivity of the OBs, relative to OBs withneither material, in a largely additive manner. In bioassays of foliage collected from fieldplots of lima bean plants sprayed with OBs withor without one or both of these materials,TiO₂ increased persistence of the OBs, butBlankophor HRS had no significant effect.     

Effects of an optical brightener and an abrasive on iridescent virus infection and development of Aedes aegypti

The insecticidal properties of certain entomopathogenic viruses can be greatly improved in mixtures with substances that affect the integrity of the insect peritrophic membrane, particularly optical brighteners. We aimed to determine the effect of an optical brightener, Blankophor BBH, and an abrasive compound, silicon carbide, alone and in mixtures, on the prevalence of patent and covert infection of Aedes aegypti (L.) (Diptera: Culicidae) by Invertebrate iridescent virus 6 (IIV‐6) (Iridoviridae). The prevalence of patent infection by IIV‐6 was < 1.5% in all treatments involving virus. Contrary to predictions, there were significantly fewer patent infections in virus treatments involving Blankophor with or without silicon carbide compared with controls. Covert infection of adults detected by insect bioassay was between 6.7 and 12.2%, although no significant differences were observed between treatments. Exposure to IIV‐6 alone or silicon carbide alone did not significantly increase larval mortality compared to the controls, whereas exposure to Blankophor alone, or in any combination with IIV‐6 or silicon carbide, clearly increased larval mortality. These effects did not carry‐over to the pupal stage. Adult females emerged ～1.5 days later than males. Compared to control insects, female development rate was extended by 11.4 and 12.6% in the treatments involving IIV‐6 alone and silicon carbide alone, respectively. The sex ratio at adult emergence did not differ significantly between control insects and those of other treatments. These results support the hypothesis that the gut is unlikely to represent the principal point of infection of mosquito larvae by iridescent viruses.     

昆虫病毒增效剂研究进展

概述了昆虫病毒增效剂方面的研究进展,重点述及生物增效剂病毒增强素及化学增效剂荧光增白剂的增效活性特点和增效机理,以及病毒增强素分子生物学方面研究进展。在颗粒体病毒、核型多角体病毒、昆虫痘病毒中均发现了病毒增强素,它是一种金属蛋白酶。已克隆多个病毒增效基因,并构建了含增效基因的重组病毒和转基因作物。二苯乙烯类荧光增白剂对病毒具有增效作用。已明确病毒增强素和荧光增白剂增效作用与昆虫围食膜的破坏有关,其他增效机理有待进一步研究。还就增效剂的应用前景进行了展望。     

荧光增白剂Tinopal LPW对蜀柏毒蛾核型多角体病毒增效作用研究

用1%TinopalLPW荧光增白剂作为蜀柏毒蛾核型多角体病毒增效剂对蜀柏毒蛾2龄幼虫进行室内毒力测定,结果表明1%TinonalLPW对ParocneriaorientaNPV有较强的增效作用。使用3.6×1011PIB/hm2 1%TinopalLPW、1.8×1011PIB/hm2 1%TinopalLPW、9.0×1010PIB/hm2 1%TinopalLPW和3.6×1011PIB/hm2、1.8×1011PIB/hm2、9.0×1010PIB/hm26种处理对林间越冬代2-3龄幼虫进行超低容量喷雾防治,结果表明除9.0×1010PIB/hm2 1%TinopalLPW表现出显著的增效作用外,其余剂量有增效作用但不显著。