Assessing the influence of the entomopathogenic nematode Heterorhabditis baujardi LPP7 (Rhabiditina) on embryogenesis and hatching of the plant-parasitic nematode Meloidogyne mayaguensis (Tylenchina)

Two assays were conducted to assess the influence of infective juveniles (IJs) of Heterorhabditis baujardi LPP7 on the embryogenesis and hatching of Meloidogyne mayaguensis. In the first assay, eggs were incubated in water alone or in the presence of infective juveniles, and completion of embryogenesis was evaluated 14 days later. In the second assay, unhatched second-stage juveniles were incubated in distilled water alone or in the presence of infective juveniles. Cumulative hatching was compared at various time intervals. Embryogenesis was not affected, whereas second-stage juveniles hatching was delayed probably because of the eggs permeability to noxious metabolites released by Photorhabdus luminescens, which is the bacterial symbiont of H. baujardi.     

Temperature Effects on Heterorhabditis megidis and Steinernema carpocapsae Infectivity to Galleria mellonella

The effect of temperature on the infection of larvae of the greater wax moth, Galleria mellonella, by Heterorhabditis megidis H90 and Steinernema carpocapsae strain All, was determined. For both species, infection, reproduction, and development were fastest at 20 to 24 °C. Infection by both H. megidis and S. carpocapsae occurred between 8 and 16 °C; however, neither species reproduced at 8 °C. Among the nematodes used in experiments at 8 °C, no H. megidis and very few S. carpocapsae developed beyond the infective juvenile stage. Compared with H. megidis, S. carpocapsae invaded and killed G. mellonella larvae faster at 8 to 16 °C. By comparing invasion rates, differences in infectivity between the two nematode species were detected that could not be detected in conventional petri dish bioassays where mortality was measured after a specified period. Invasion of G. mellonella larvae by H. megidis was faster at 24 than at 16 °C.     

A new species of entomopathogenic nematode Oscheius safricana n. sp. (Nematoda: Rhabditidae) from South Africa

In a recent entomopathogenic nematode (EPN) survey in the North West province of South Africa, Oscheius safricana was isolated from soil samples using the Galleria mellonella bait method. Morphological studies using light microscopy and scanning electron microscopy, molecular analysis of the internal transcribed spacer region (ITS), D2\D3 expansion segments of the large subunit rDNA gene (LSU) and concise small subunit rDNA gene (SSU), revealed that it was a new species, described herein as Oscheius safricana n. sp. Oscheius safricana n. sp. was characterised by unique ribosomal DNA sequences, amphidelphic reproduction, six separate lips each two bristle-like sensillae, narrow pharynx, valvated basal bulb, lateral field with four lines, leptoderan and closed bursa and fused spicules. This EPN belongs to the group Insectivorus and is morphologically closest to O. necromenus, O. chongmingensis and O. carolinensis. Oscheius safricana n. sp. is symbiotically associated with Serratia marcescens strain MCB.

http://www.zoobank.org/urn:lsid:zoobank.org:pub:642E1B7E-B88F-4CE0-9D06-4FA9ECA48847     

光杆菌(NLK-1) Txp40毒蛋白基因克隆表达及预测

【背景】光杆菌存在于嗜菌异小杆线虫肠道内,并与其互惠共生,其能够产生多种高效、广谱的杀虫蛋白及毒素,是近年来继苏云金芽胞杆菌(Bt)之后挖掘新型杀虫蛋白及杀虫基因的热点研究对象。【目的】克隆Photorhabdus luminescens(NLK-1)Txp40毒蛋白基因,分析其与已知其他同属共生菌相似毒蛋白在基因序列、蛋白组成、理化性质及构象的区别,构建原核表达载体并转化大肠杆菌进行诱导表达,初步测定其杀虫活性。【方法】采用侵染的大蜡螟幼虫血腔直接分离初生型共生细菌,根据已报道的序列经比对分析设计引物,扩增目的基因,连接克隆质粒p MD19-T后测序,利用Expasy在线Prot Param tool预测其基本理化特性参数,NPS@-Network Protein Sequence Analysis在线工具进行二级结构预测。通过克隆、酶切、连接目的基因在p ET28a原核表达载体上,转化大肠杆菌BL21中,利用蓝白斑筛选阳性克隆,测序验证后进行IPTG诱导表达;菌体超声破碎离心,以毒蛋白含量较高的上清溶液对大蜡螟幼虫进行饲喂和血腔注射毒性测定。【结果】Photorhabdus luminescens(NLK-1)Txp40毒蛋白基因全长为1 008 bp,与已知相关基因的序列相似性为94%,与已知40 k D相关蛋白的氨基酸相似性达到99%,分子量37.9 k D,p I 8.37,二级结构预测表明其主要由α螺旋35.71%,无规卷曲54.46%,延伸链9.52%组成,跨膜区域与已知蛋白基本相似,克隆构建了原核表达载体p ET28a-(NLK-1)Txp40,SDS-PAGE分析其在38 k D处有特异条带,蛋白分子量与预测值基本一致,且表达相对单一,表达量较高。Photorhabdus luminescens(NLK-1)Txp40蛋白对大蜡螟幼虫具有较高的血腔毒性,大蜡螟幼虫注射5μL蛋白粗提液剂量下48 h内致死率达100%,未发现胃毒活性。【结论】获得Photorhabdus luminescens(NLK-1)Txp40毒蛋白基因,比对、分析了与已知基因在序列组成、蛋白基本理化性质和二级结构的异同,构建了原核表达载体并成功诱导表达,验证了Photorhabdus luminescens(NLK-1)Txp40毒蛋白具有较高的大蜡螟幼虫血腔毒性,为进一步发掘Photorhabdus luminescens(NLK-1)中的杀虫功能基因和蛋白奠定基础。     

Toxicity of the entomopathogenic bacteria Photorhabdus and Xenorhabdus to the mushroom mite (Luciaphorus sp.; Acari: Pygmephoridae)

The mushroom mite, Luciaphorus sp. is a serious pest of tropical mushrooms. We determined the pathogenicity and toxicity of species and strains of the entomopathogenic bacteria, Photorhabdus and Xenorhabdus to the mite. As these bacteria are known to produce antifungal substances, we first determined the effect of 21 species and strains of the bacteria on the mycelial growth of the mushroom, Lentinus squarrosulus. We then determined the toxicity of the eight species and strains of bacteria that did not show any effect on mushroom growth against both the female and male mites. All eight species and strains of the bacteria were toxic to the female mite resulting in significant mite mortality within 24-48 h. Cell-free supernatants from all the eight bacterial species and strains were also toxic to the female mite inflicting significant mortality within 24-48 h. The supernatants of two strains, GPS12 and GPS11, of Photorhabdus luminescens ssp. laumondii were significantly more toxic than the other species and strains to the female mite, resulting in 90-95% mite mortality within 48 h. Both the concentration and age of the bacteria had significant effect on the toxicity of the supernatants to the female mite. None of the bacteria showed toxicity to the male mite which has undeveloped mouthparts. These results indicate that P. luminescens ssp. laumondii and its byproducts are directly toxic to the female mite, suggesting the potential of developing a novel biological approach for the control of this mushroom pest. This is the first report on the miticidal activity of the entomopathogenic bacteria, Photorhabdus and Xenorhabdus.     

Expression and activity of a probable toxin from Photorhabdus luminescens

As an insect pathogen, Photorhabdus luminescens possesses an arsenal of toxins. Here we cloned and expressed a probable toxin from P. luminescens subsp. akhurstii YNd185, designated as Photorhabdus insecticidal toxin (Pit). The pit gene shares 94% nucleotide and 98% predicted amino acid sequence identity with plu1537, a predicted ORF from P. luminescens subsp. laumondii TT01 and 30% predicted amino acid sequence similarity to a fragment of a 13.6 kDa insecticidal crystal protein gene of Bacillus thuringiensis (Bt). The pit was expressed as a GST-Pit fusion protein in E. coli, most of which was insoluble and sequestered into inclusion bodies. The inclusion bodies were harvested and dissolved. The resultant protein was purified and the Pit was cleaved from the fusion protein by thrombin and purified from GST then used for bioassay. Pit killed Galleria mellonella (LD₅₀, 30 ng/larva) and Spodoptera litura (LD₅₀, 191 ng/larva) via hemocoel injection. Relative to a control that lacked toxin, Pit did not significantly increase mortality of S. litura and Helicoverpa armigera when introduced orally, but the treatment did inhibit growth of the insects. The present study demonstrated that Pit possessed insecticidal activity.     

昆虫病原线虫共生细菌共生性的分子生物学研究进展

嗜线虫致病杆菌属Xenorhabdus和发光杆菌属Photorhabdus细菌隶属肠杆菌科Enterobacteriaceae,对多种害虫致病能力强,分别与斯氏属Steinernema和异小杆属Heterorhabditis昆虫病原线虫互惠共生。该两属共生细菌既存在对昆虫寄主的病原性,又存在与线虫寄主的共生性。共生细菌与其线虫寄主的共生性主要表现以下4方面：（1）细菌产生食物信号诱导滞育不取食的感染期线虫恢复;（2）细菌为线虫生长与繁殖提供营养;（3）细菌能于感染期线虫的肠道定殖与生长;（4）细菌产生杀线虫毒素杀死非共生线虫。本文综述了共生菌以上4方面的共生性及其相关的分子机制。     

Photorhabdus: towards a functional genomic analysis of a symbiont and pathogen

Pathogenicity and symbiosis are central to bacteria-host interactions. Although several human pathogens have been subjected to functional genomic analysis, we still understand little about bacteria-invertebrate interactions despite their ecological prevalence. Advances in our knowledge of this area are often hindered by the difficulty of isolating and working with invertebrate pathogenic bacteria and their hosts. Here we review studies on pathogenicity and symbiosis in an insect pathogenic bacterium Photorhabdus and its entomopathogenic nematode vector and model insect hosts. Whilst switching between these hosts, Photorhabdus changes from a state of symbiosis with its nematode vector to one of pathogenicity towards its new insect host and both the bacteria and the nematode then cooperatively exploit the dying insect. We examine candidate genes involved in symbiosis and pathogenicity, their secretion and expression patterns in culture and in the host, and begin to dissect the extent of their genetic coregulation. We describe the presence of several large genomic islands, putatively involved in pathogenicity or symbiosis, within the otherwise Yersinia-like backbone of the Photorhabdus genome. Finally, we examine the emerging comparative genomics of the Photorhabdus group and begin to describe the interrelationship between anti-invertebrate virulence factors and those used against vertebrates.     

Photorhabdus luminescens LN2转座突变菌株的研究

发光杆菌属Photorhabdus细菌与异小杆属Heterorhabditis昆虫病原线虫的共生关系是这类生物杀虫剂产业化生产和田间应用的基础。本文采用Tn5转座方法构建了共生细菌P. luminescens LN2突变体库;从中筛选出一个对其共生线虫H. indica LN2的生长繁殖有显著促进作用的突变菌株（LN2-M2716）;测定了该突变菌株的菌落特征、对大蜡螟Galleria mellonella及非特异共生线虫H. bacteriophora H06的毒性、对线虫产量的影响。结果显示,LN2-M2716菌株在菌落形态、色素分泌、过氧化氢酶反应、荧光、食物信息作用以及对大蜡螟毒力等方面与野生型菌株差异不明显;但对非特异共生线虫H. bacteriophora H06的毒性及对特异共生线虫H. indica LN2生长繁殖的促进作用方面均明显高于野生型菌株。论文结果为构建支持线虫高产的菌株提供了关键技术。