Prepenetration stages in infection of clematis by Phoma clematidina

A detailed study of conidial germination, germ-tube growth and the formation of infection structures in Phoma clematidina , the causal agent of clematis wilt, is described for two clematis varieties differing in disease resistance. On both the resistant and susceptible varieties, the fungus entered leaves and stems by direct penetration of the cuticle, often, but not always, following the formation of infection structures. More germ tubes per conidium were formed on the susceptible host, but these germ tubes were on average shorter than on the resistant host. Although germ tubes regularly entered the plant via trichomes, stomata were not found to be sites of entry. Following penetration of the cuticle of resistant plants, germ-tube growth was sometimes restricted to the subcuticular region, and halo formation occurred at the sites where penetration was attempted. Subcuticular growth and halo formation were not observed on susceptible plants. These observations may partly explain the resistance of small-flowered clematis varieties to P. clematidina .     

青海省牛隐孢子虫感染状况的调查研究

对青海省牦牛、奶牛和黄牛的281份牛粪样进行隐孢子虫检查,发现隐孢子虫感染率为36.65%,其中牦牛为39.74%、黄牛为35.00%、奶牛为32.73%。犊牛感染率高于成年牛,暖季感染率高于冷季。     

影响持续感染的因素研究进展

持续感染是指病原体在宿主体内持续存在而不被清除的状态,其潜伏期长达数月至数年甚至终生,但不引起症状,病原体不一定持续增殖。不同病原体所致持续感染的定义不同,如口蹄疫病毒(FMDV)引起的持续感染被定义为动物感染28d后仍然携带活的病毒。持续感染是造成免疫失败、肿瘤形成或药物敏感性下降的重要原因。存在持续感染的宿主是重要的传染源,还是病原体发生变异的来源,但因无症状常被忽视。充分了解持续感染的形成机理及持续感染状态中宿主与病原体之间的相互作用,有助于寻找诊断、治疗和预防感染性疾病的最佳方法。论文从病原体和宿主因素两个方面阐述了持续感染的形成机理。     

一例荚膜血清A型多杀性巴氏杆菌和牛肺炎支原体混合感染犊牛的诊治

新疆某牛场的犊牛出现咳喘、鼻镜干燥、精神不振、食欲废绝、呼吸困难甚至出现死亡的症状,通过对患病牛群的发病情况、剖检、细菌分离鉴定、PCR鉴定等试验方法进行检查。结果显示:病死牛肺部可见明显出血并且伴有肺部实质性肝变;牛支原体和多杀性巴氏杆菌PCR检测都为阳性,曼氏杆菌PCR检测为阴性。通过实验室诊断最终确定该牛场为多杀性巴士杆菌和牛肺炎支原体混合感染。本研究通过病理变化、实验室诊断等方法找到病因,为此类疾病的防控提供借鉴意义。     

青海地区野生狐狸棘球绦虫感染情况调查研究

野生狐狸是棘球绦虫的主要终末宿主,在棘球蚴病的传播中有重要作用.为了解青海省狐狸中棘球绦虫感染状况,我们用棘球绦虫粪抗原检测试剂盒,对收集于青海省称多县、贵南县、祁连县的野生狐狸粪便进行了检测.结果表明,称多县收集的129份狐狸粪便阳性15份,阳性率11.6％;祁连县收集的84份狐狸粪便阳性3份,阳性率3.6％;贵南县...     

蓝狐多重感染的病原学及主要病原的分子生物学特性

2006-2007年期间,山东6地区规模化毛皮动物养殖场出现母狐空怀、流产,幼狐呼吸困难,鼻孔出血,气喘并伴有腹泻、死亡等症状,为探明病因,对发病场进行流行病学调查和送检的236份病料组织进行病原学检查,结果表明造成该病的主要原因是由绿脓杆菌(Pseudomonas aerudinosa)、沙门菌(Salmonella)、大肠杆菌(Escherichia coli)和普通变形杆菌(Proteus vulgaris)共感染所致.这4种细菌单独感染、二重感染、三重感染和四重感染的平均感染率分别为50%、45.8%、3.8%和0.4 0%.在分离的4种细菌中以绿脓杆菌的分离率为最高,达到86%,对该痛原又进行(G+C)mol%、16SrRNA序列同源性和系统发育分析,构建了包括9株邻近种属细菌在内的系统发育树,其中与绿脓杆菌(AJ249451)同源性最高,为99.2%,进一步确定该病原菌属于假单胞菌属中绿脓杆菌.本研究为目前规模化毛皮动物养殖场蓝狐病的原因提出了新的思路,为疾病的防治提供了依据.     

Arachidonic acid immunoregulation in lambs persistently infected with border disease virus

To evaluate arachidonic acid-related immunoregulatory mechanisms during long-term persistent pestivirus infection, we measured plasma contents of leukotriene C4 (LTC4), prostaglandin D2 (PGD2) and their plasma fatty acid (FA) precursor, arachidonic acid (AA), in six lambs with congenital border disease (BD). Significantly elevated average plasma LTC4 during the first half year of life was associated with increased PDG2 when compared to uninfected control lambs. Significantly elevated total plasma esterified AA stores suggest an effective BDV-mediated prostenoid immunostimulation. However, at 1 yr old, prostenoid secretion had fallen to normal (LTC4) or below normal (PGD2) levels. In contrast, there remained significantly elevated plasma esterified AA, present as available substrate for formation of these anti-viral immunoregulatory agents. These results suggested that preventing mobilization of AA from lipid stores for effective immune responses may be a viral strategy of BD virus that is associated with long term border disease effects.     

Identification of Neofabraea species causing bull's eye rot of apple in Poland and their direct detection in apple fruit using multiplex PCR

Based on partial sequence analysis of the β‐tubulin gene, 19 isolates of fungi causing bull's eye rot on apple in Poland were classified into species: Neofabraea alba, N. perennans and N. kienholzii. To the authors’ knowledge, the detection of N. kienholzii is the second in Europe and the first in Poland. Species affiliation of these fungi was confirmed by a new species‐specific multiplex PCR assay developed on the basis of previously published methods. The new protocol allowed for the specific identification of bull's eye rot‐causing species, both from pure cultures and directly from the skin of diseased or apparently healthy apples. In 550 samples of diseased fruits collected from nine cold storage rooms located in three regions of Poland, in 2011 and 2012, N. alba was detected as the predominant species causing bull's eye rot, occurring on average in 94% of the tested samples. Neofabraea perennans was found in a minority of apple samples, N. kienholzii was found only in two apple samples, while N. malicorticis was not detected in any sample tested. In tests on 120 apparently healthy fruits, only N. perennans was detected in a single sample. The results of genetic diversity analyses of bull's eye rot‐causing fungi based on the β‐tubulin gene sequence and an ISSR (inter‐simple sequence repeat) PCR assay with two primers were consistent, showing the expected segregation of tested isolates with respect to their species boundaries. However, the genetic distance between N. perennans and N. malicorticis was very low, as reported previously.     

稻曲病菌致病机制研究进展

 稻曲病是一种水稻穗部病害,在世界各水稻主产区均有发生,已成为世界性病害,在我国也属于水稻主要病害之一。稻曲病的发生严重影响水稻产量和稻米品质。研究其病原菌致病机制,对找寻防治药物的特异性靶标具有重要作用,可为抗病分子育种提供新的思路,为稻曲病菌防治药剂研发提供新的靶标。本文综述了稻曲病菌侵染过程、致病相关基因功能研究、水稻响应稻曲病菌侵染等方面的研究进展,提出进一步研究的策略。现有研究表明,稻曲病菌能成功侵染水稻孕穗期雄蕊的花丝引起发病。病原菌可通过抑制多个水稻免疫途径实现成功侵染;还可模仿胚珠受精激活水稻灌浆、糖代谢等途径为稻曲球的形成提供营养物质;全基因组测序完成和基因编辑技术在基因敲除中的成功应用,为稻曲病菌功能基因研究提供了很好的基础。稻曲病菌独特的侵染过程和营养利用机制是未来研究的重要方向。