新疆野果林苹果腐烂病病原菌鉴定及药用植物内生细菌对其抑菌效果

【背景】药用植物内生细菌能产生与寄主植物相同或相似的化合物及一些新的次级代谢产物等,具有促进宿主植物生长、抵抗病虫害、降解有毒有害化合物等作用。【目的】进一步提高苹果腐烂病生物防治的效率,丰富新疆药用植物内生细菌拮抗功能菌株的资源库。【方法】从新疆伊犁新源县和塔城额敏县野果林中采集带腐烂病病斑的果树枝条,分离鉴定苹果腐烂病病原菌,并采用平板对峙法从药用植物内生细菌中筛选对苹果腐烂病具有抑制作用的拮抗菌株。【结果】从两地共分离获得234株分离株,筛选鉴定出25株Valsa malicola和2株Valsa mali;同时,筛选出92株具有抑菌效果的内生细菌菌株,其中70株来自甘草植物内生细菌。【结论】药用植物甘草中富含较为丰富的抗苹果腐烂病病原菌的微生物菌株资源。本研究在新疆野果林苹果腐烂病的生物防治及药用植物内生细菌的开发利用等方面具有重要意义。     

The apple FERONIA receptor-like kinase MdMRLK2 negatively regulates Valsa canker resistance by suppressing defence responses and hypersensitive reaction

Valsa canker, caused by the fungus Valsa mali, is one of the most destructive diseases of apple trees in China and other East Asian countries. The plant receptor-like kinase FERONIA is involved in plant cell growth, development, and immunity. However, little is known about the function of FERONIA in apple defence against V. mali. In this study, we found that MdMRLK2 was highly induced by V. mali in twigs of V. mali-susceptible Malus mellana but not in those of the resistant species Malus yunnaensis. 35S:MdMRLK2 apple plants showed compromised resistance relative to wild-type (WT) plants. Further analyses indicated that 35S:MdMRLK2 apple plants had enhanced abscisic acid (ABA) levels and reduced salicylic acid (SA) levels relative to the WT on V. mali infection. MdMRLK2 overexpression also suppressed polyphenol accumulation and inhibited the activities of phenylalanine ammonia-lyase (PAL), β-1,3-glucanase (GLU), and chitinase (CHT) during V. mali infection. Moreover, MdMRLK2 interacted with MdHIR1, a hypersensitive-induced response protein, and suppressed the MdHIR1-mediated hypersensitive reaction (HR), probably by impairing MdHIR1 self-interaction. Collectively, these findings demonstrate that overexpression of MdMRLK2 compromises Valsa canker resistance, probably by (a) altering ABA and SA levels, (b) suppressing polyphenol accumulation, (c) inhibiting PAL, GLU, and CHT activities, and (d) blocking MdHIR1-mediated HR by disrupting MdHIR1 self-interaction.     

Screening and biological function of protein elicitor secreted from biocontrol agent Hhs.015

Strain Hhs.015, a PGPR strain well‐studied for biocontrol of apple Valsa canker, was isolated from cucumber roots and classified as a new species of Saccharothrix yanglingensis. Hhs.015 was able to colonize apple tissue culture seedlings and trigger disease resistance. According to the whole‐genome sequence of S. yanglingensis Hhs.015, its secreted proteins were predicted and analysed, which can help to find out Hhs.015 functional substances that are involved in inducing plant system resistance and also the molecular mechanisms of the interaction between Hhs.015 and the host plants. Using the software SignalP4.1, TMHMM2.0, DAS‐TMfilter, HMMTOP, ScanProsite, PSORT and big‐PI predictor, 7,379 ORFs of the genome of S. yanglingensis Hhs.015 were predicted and analysed. Moreover, the function of ORFs where the signal peptides come from was predicted by Swissprot database. The selected proteins were obtained by prokaryotic expression. Their effects in inducing plant resistance to the pathogen Valsa mali, resistance‐related enzyme activity and growth promotion analysis were evaluated. In total, 158 ORFs with known function, such as serine proteinase and transpeptidase, were identified; the remaining 142 ORFs were function‐unknown putative proteins. Five putative proteins were successfully obtained by prokaryotic expression, and the results showed that the protein named 5620g could enhance the plant disease resistance to the pathogen V. mali, inhibit the expansion of lesions and upregulate the defence‐related enzyme activity. The protein named 3176g could prolongate cucumber root. In conclusion, biocontrol strain Hhs.015 may secrete protein elicitors to improve plant resistance to the pathogenic microorganism and promote the growth of host plants.     

云杉腐烂病菌Cytospora piceae全基因组测序及比较基因组分析

【目的】壳囊孢属(Cytospora)真菌引起的林木腐烂病和枝枯病,是一类重要的、分布广泛的枝干病害,可引起重大经济损失和生态破坏。通过全基因组测序和比较基因组学分析,探究不同腐烂病菌的全基因组特征,分析其与寄主选择和致病性相关的基因或基因家族的差异性,将有助于进一步揭示腐烂病菌与寄主互作的分子机制,为腐烂病的有效防治提供基础资料。【方法】采用PacBio测序技术对云杉腐烂病菌Cytosporapiceae进行了全基因组测序和组装,并通过比较基因组学方法,从基因组水平探究引起腐烂病的4种腐烂病菌的基因组的差异,分析其共有的和特有的与致病相关的基因家族。【结果】C. piceae基因组大小为39.25 Mb,GC含量为51.79%。基于单拷贝直系同源基因构建的系统发育树显示,C. piceae与Cytospora chrysosperma的进化关系相近,Valsamali和Valsapyri则更相近。比较基因组学分析表明,4种腐烂病菌均具有重复诱导的点突变(RIP)活性,其中,C. piceae的RIP活性最强。与其他3种腐烂病菌相似,与木质素降解相关的AA3和AA7家族在C. piceae中显著扩张,但木质素降解关键酶AA5家族均缺失;C. piceae和C. chrysosperma基因组中果胶降解关键酶GH28和CE8家族基因的数量与V. mali和V. pyri相近。4种腐烂病菌都含有较多数量的MFS(major facilitator superfamily)超家族转运蛋白和较少的ABC(ATP-binding cassette transporter)超家族转运蛋白,但C. piceae含有更多DHA2、PDR和MDR类转运蛋白。4种腐烂病菌的分泌蛋白的GO分类分子功能主要集中在水解酶活性,其中V. mali含有最多数量的该类别基因;而生物学过程则集中在碳水化合物代谢过程、果胶分解过程和氧化还原过程。在次生代谢核心基因中,C.piceae的PKS基因明显少于V.mali和V.pyri;在C.piceae含有的4个特异性次生代谢基因中,3个为NRPS基因。【结论】4种腐烂病菌含有的碳水化合物活性酶的种类和数量相似,且都具有较强的果胶降解能力。不同腐烂病菌的膜转运蛋白中多药转运体的选择性扩增,以及次生代谢核心基因中NRPS类基因的特异性存在和缺失,表明它们作为重要的致病因子很可能在腐烂病菌寄主选择中发挥了重要的作用。     

拮抗植物病原真菌链霉菌菌株ZH-356的鉴定及其生防评价

[目的]对实验室分离到的菌株ZH-356进行鉴定并评价其对植物病原真菌的生物防治效果,为研发针对植物真菌病害的生防菌剂提供理论指导。[方法]通过平板对峙法确定菌株ZH-356抗菌谱,并通过16S rRNA基因序列分析确定其种属,利用离体枝条的苹果树腐烂病菌感染预防试验和患腐烂病苹果树的防治试验评价其生防效果。[结果]菌株ZH-356鉴定为链霉菌属,与直丝紫链霉菌(Streptomyces rectiviolaceus)相似性最高,为99.71%。抗菌谱试验表明,菌株ZH-356对苹果树腐烂病菌、小麦赤霉病菌、小麦根腐病菌和番茄早疫病菌等多种植物病原真菌均具有较强的抑制作用,这种抑制作用可导致苹果树腐烂病菌菌丝变粗、交叉扭曲、分支变少且容易断裂。此外,ZH-356产生的抑菌活性物质对温度和酸碱度具有高度稳定性,并且该活性物质只存在于其胞内,只有当ZH-356遇到植物病原真菌时才会被分泌出来以抑制它们的生长。在离体枝条的苹果树腐烂病菌感染预防试验中,ZH-356对苹果树腐烂病防效可达94%以上,而在患腐烂病苹果树的防治试验中,ZH-356菌制剂对苹果树腐烂病的防效高达100%。[结论]链霉菌ZH-356抑菌谱广,对多种植物病原真菌均具有良好的拮抗活性,可作为防治植物真菌病害的生防菌株,为基于ZH-356菌株的生防菌剂的开发和防治苹果树腐烂病等植物真菌病害奠定了基础。     

Agrobacterium tumefaciens-Mediated Transformation of the Causative Agent of Valsa canker of Apple Tree Valsa mali var. mali

Valsa mali var. mali (Vmm), which is the causative agent of Valsa canker of apple tree, causes heavy damage to apple production in eastern Asia. In this article, we report Agrobacterium tumefaciens-mediated transformation (ATMT) of Vmm and expression of gfp (green fluorescent protein) in this fungus. The transformation system was optimized to a transformation efficiency of approximately 150 transformants/10⁶ conidia, and a library containing over 4,000 transformants was generated. The tested transformants were mitotically stable. One hundred percent hph (hygromycin B phosphotransferase) integration into Vmm was identified by PCR and five single-copy integration of T-DNA was detected in the eighteen transformants by Southern blot. To our knowledge, this is the first report of ATMT of Vmm. Furthermore, this library has been used to identify genes involved in the virulence of the pathogen, and the transformation system may also be useful to the transformation of other species of the genus Valsa.     

Bacillus amyloliquefaciens GB1 can effectively control apple valsa canker

Apple valsa canker (AVC), caused by Valsa mali, is one of the most serious diseases of apple trees in eastern Asia, and the most important factor limiting apple production in China. This disease is difficult to control by chemical and agricultural measures, thus biocontrol may constitute a desirable alternative strategy. A Bacillus amyloliquefaciens strain denoted GB1 isolated from ageing cucumber stems, exhibited a strong antagonistic activity against V. mali, inhibiting significantly the germination of conidia and the growth of hyphae. GB1 conidial suspensions (above 10⁶ CFU/ml) applied prior to wound inoculation of apple twigs with V. mali resulted in total inhibition of infection. Strain GB1 colonized xylem and phloem tissues surrounding the wounds made on apple twigs and formed biofilms over them. Results indicate that B. amyloliquefaciens GB1 may be a promising agent for the biocontrol of AVC, and provide new insights into the ability of B. amyloliquefaciens to colonize apple trees.     

Hce2 domain-containing effectors contribute to the full virulence of Valsa mali in a redundant manner

Valsa mali is the causal agent of apple Valsa canker, a destructive disease in East Asia. Effector proteins play important roles in the virulence of phytopathogenic fungi, and we identified five Hce2 domain-containing effectors (VmHEP1, VmHEP2, VmHEP3, VmHEP4 and VmHEP5) from the V. mali genome. Amongst these, VmHEP1 and VmHEP2 were found to be up-regulated during the early infection stage and VmHEP1 was also identified as a cell death inducer through its transient expression in Nicotiana benthamiana. Although the deletion of each single VmHEP gene did not lead to a reduction in virulence, the double-deletion of VmHEP1 and VmHEP2 notably attenuated V. mali virulence in both apple twigs and leaves. An evolutionary analysis revealed that VmHEP1 and VmHEP2 are two paralogues, under purifying selection. VmHEP1 and VmHEP2 are located next to each other on chromosome 11 as tandem genes with only a 604 bp physical distance. Interestingly, the deletion of VmHEP1 promoted the expression of VmHEP2 and, vice versa, the deletion of VmHEP2 promoted the expression of VmHEP1. The present results provide insights into the functions of Hce2 domain-containing effectors acting as virulence factors of V. mali, and provide a new perspective regarding the contribution of tandem genes to the virulence of phytopathogenic fungi.     

Re-evaluation of pathogens causing Valsa canker on apple in China

Valsa canker is a destructive disease on apple that causes serious economic losses in eastern Asia. In the present study fungal isolates from cankered apple and pear bark were examined and compared with morphology and rDNA-ITS sequences. Valsa mali was confirmed to be an independent species and a causal pathogen of Valsa canker on apple and pear in China. It was the predominant species (96.7% of isolates) on apple and was complemented by V. malicola (3.3% of isolates). Significant intraspecific genetic differentiation was detected in V. mali with two varieties recognized, V. mali var. mali occurring exclusively on apple and V. mali var. pyri occurring on both apple and pear. Results from genetic analysis and cross-inoculation tests provided support for the hypothesis that host preference probably catalyzed such genetic changes within the pathogen populations.     

Comparison of the responses of two predaceous mites,Typhlodromus pyri and Zetzellia mali,to variation in prey density

The ability of a predator to respond to prey density in a patchy habitat has been the focus of much study in biological control systems and elsewhere. Here we look at the response of two species of predatory mite commonly found in commercial apple orchards, Typhlodromus pyri Scheuten and Zetzellia mali Ewing. The two species differ in several characteristics: T. pyri is a more successful biological control agent, is more mobile, has a slightly narrower breadth of diet and prefers the target prey, Panonychus ulmi Koch. We measured resisdence time as a function of prey density, both under field and laboratory conditions. Both predators showed a wide variation in behaviour; however, Z. mali increased residence time in response to the presence of prey, while T. pyri did not show a significant response. Both predators usually left a patch before all prey were consumed. Patterns from the field and laboratory were similar, although residence time was shorter under field conditions.     

Vm-milR21调控苹果黑腐皮壳侵染致病的功能和机理

苹果黑腐皮壳(Valsamali)引起的腐烂病是苹果最具毁灭性的枝干病害。微小核糖核酸(microRNA-like RNAs, milRNAs)在真菌生长发育、侵染致病和胁迫响应等过程中发挥重要作用。前期研究发现Vm-milR21在病菌侵染阶段特异性下调表达,推测其可能参与V. mali的侵染致病过程。【目的】本文对Vm-milR21的功能进行研究。【方法】制备Vm-milR21前体过表达和沉默转化株,评价不同转化株与野生型菌株表型差异。进而,通过实时荧光定量聚合酶链反应(quantitative real time polymerase chain reaction, qRT-PCR)和共转化技术验证Vm-milR21与其潜在靶标Vm-03494之间的靶向调控关系。在此基础上,构建Vm-03494的基因敲除突变体,并鉴定突变体表型。【结果】与野生型菌株相比,过表达转化株的菌丝生长速率以及对叶片和枝条的致病力均大幅降低,而沉默转化株无明显变化。Vm-milR21能够序列特异性地抑制Vm-03494表达。相较于野生型菌株,Vm-03494敲除突变体菌丝生长速率和致病力均显著降低。【结论】...     

Standing geographic variation in eclosion time and the genomics of host race formation in Rhagoletis pomonella fruit flies

Taxa harboring high levels of standing variation may be more likely to adapt to rapid environmental shifts and experience ecological speciation. Here, we characterize geographic and host‐related differentiation for 10,241 single nucleotide polymorphisms in Rhagoletis pomonella fruit flies to infer whether standing genetic variation in adult eclosion time in the ancestral hawthorn (Crataegus spp.)‐infesting host race, as opposed to new mutations, contributed substantially to its recent shift to earlier fruiting apple (Malus domestica). Allele frequency differences associated with early vs. late eclosion time within each host race were significantly related to geographic genetic variation and host race differentiation across four sites, arrayed from north to south along a 430‐km transect, where the host races co‐occur in sympatry in the Midwest United States. Host fruiting phenology is clinal, with both apple and hawthorn trees fruiting earlier in the North and later in the South. Thus, we expected alleles associated with earlier eclosion to be at higher frequencies in northern populations. This pattern was observed in the hawthorn race across all four populations; however, allele frequency patterns in the apple race were more complex. Despite the generally earlier eclosion timing of apple flies and corresponding apple fruiting phenology, alleles on chromosomes 2 and 3 associated with earlier emergence were paradoxically at lower frequency in the apple than hawthorn host race across all four sympatric sites. However, loci on chromosome 1 did show higher frequencies of early eclosion‐associated alleles in the apple than hawthorn host race at the two southern sites, potentially accounting for their earlier eclosion phenotype. Thus, although extensive clinal genetic variation in the ancestral hawthorn race exists and contributed to the host shift to apple, further study is needed to resolve details of how this standing variation was selected to generate earlier eclosing apple fly populations in the North.     

HOST SWITCHING PROMOTES DIVERSITY IN HOST‐SPECIALIZED MYCOPARASITIC FUNGI: UNCOUPLED EVOLUTION IN THE BIATOROPSIS‐USNEA SYSTEM

Fungal mycoparasitism—fungi parasitizing other fungi—is a common lifestyle in some basal lineages of the basidiomycetes, particularly within the Tremellales. Relatively nonaggressive mycoparasitic fungi of this group are in general highly host specific, suggesting cospeciation as a plausible speciation mode in these associations. Species delimitation in the Tremellales is often challenging because morphological characters are scant. Host specificity is therefore a great aid to discriminate between species but appropriate species delimitation methods that account for actual diversity are needed to identify both specialist and generalist taxa and avoid inflating or underestimating diversity. We use the Biatoropsis‐Usnea system to study factors inducing parasite diversification. We employ morphological, ecological, and molecular data—methods including genealogical concordance phylogenetic species recognition (GCPSR) and the general mixed Yule‐coalescent (GMYC) model—to assess the diversity of fungi currently assigned to Biatoropsis usnearum. The degree of cospeciation in this association is assessed with two cophylogeny analysis tools (ParaFit and Jane 4.0). Biatoropsis constitutes a species complex formed by at least seven different independent lineages and host switching is a prominent force driving speciation, particularly in host specialists. Combining ITS and nLSU is recommended as barcode system in tremellalean fungi.     

新疆野苹果AP2/ERF转录因子家族鉴定与响应腐烂病的表达分析北大核心CSCD

AP2/ERF转录因子家族参与了植物生长发育、抵抗胁迫以及植物激素响应等诸多生物过程,是植物中最重要的转录因子家族之一。该研究基于腐烂病菌侵染后的新疆野苹果(Malus sieversii)全长转录组,使用AP2保守结构域的隐马可夫模型PF00847,鉴定新疆野苹果的AP2/ERF家族成员。利用MEGA6、NCBI CDD-batch、MEME、EXPASY、BUSCA对MsAP2/ERF家族成员进行鉴定、分类和结构分析、理化性质和亚细胞定位分析。通过RNA-seq数据和qRT-PCR实验对差异表达的MsAP2/ERFs基因的表达水平进行分析和验证,旨在鉴定新疆野苹果中潜在具有腐烂病抗性的AP2/ERF家族基因资源。结果显示:(1)在新疆野苹果中共鉴定获得106个AP2/ERF基因,涵盖全部AP2(17个)、ERF(57个)、DREB(25个)、RAV(5个)和Soloist(2个)5个亚家族。(2)进一步的细化分类发现MsERF亚家族包括B1-B6 6个组,而MsDREB亚家族中只有A2、A4、A5、A6共4个组,缺少A1和A3组的基因成员。(3)RNA-seq表达模式分析结果表明,29个MsAP2/ERF基因在腐烂病感染过程中差异表达,其中MsERF亚家族中差异表达基因数量最多(19个)。(4)12个MsAP2/ERF代表基因的qRT-PCR结果表明:8个ERF亚家族基因均受腐烂病病菌诱导显著上调表达,其中B4类ERF成员基因(MsERF40)在腐烂病病菌侵染后5 d表达量上调表达倍数最高;4个MsDREB基因中,3个受到腐烂病病原菌诱导显著上调,1个下调表达;此外,含有TIR保守结构域的MsERF05在腐烂病病菌侵染1 d后上调表达69倍,表明ERF亚家族的MsERF40和MsERF05在新疆野苹果抗腐烂病过程中发挥重要作用。该研究结果为新疆野苹果AP2/ERF基因响应腐烂病的功能和机理研究奠定了基础。     

Co‐evolutionary patterns in congeneric monogeneans: a review of Dactylogyrus species and their cyprinid hosts

Patterns associated with the evolution of parasite diversity, speciation and diversification were analysed using Dactylogyrus species (gill monogeneans) and their cyprinid hosts as a model. The aim of this study was to use this highly specific host–parasite systems to review: (1) the diversity and distribution of Dactylogyrus species, (2) the patterns of organization and structure of Dactylogyrus communities, (3) the evolution and determinants of host specificity and (4) the mode of Dactylogyrus speciation and co‐evolutionary patterns in this Dactylogyrus–cyprinid systems. Dactylogyrus are a highly diverse group of parasites, with their biogeography and distribution clearly linked to the evolutionary history of their cyprinid hosts. The coexistence of several Dactylogyrus species on one host is facilitated by increasing niche distances and the differing morphology of their reproductive organs. The positive interspecific and intraspecific interactions seem to be the most important factors determining the structure of Dactylogyrus communities. Host specificity is partially constrained by parasite phylogeny. Being a strict specialist is an ancestral character for Dactylogyrus, being the intermediate specialists or generalists are the derived characters. The evolution of attachment organ morphology is associated with both parasite phylogeny and host specificity. Considering larger and long‐lived hosts or hosts with several ecological characters as the measures of resource predictability, specialists with larger anchors occurred on larger or longer‐living fish species. Intra‐host speciation, a mode of speciation not often recorded in parasites, was observed in Dactylogyrus infecting sympatric cyprinids. Sister parasite species coexisting on the same host occupied niches that differed in at least one niche variable. Intra‐host speciation, however, was not observed in Dactylogyrus species of congeneric hosts from geographically isolated areas, which suggested association by descent and host‐switching events.     

Differential impact of egg predation by Zetzellia mali (Acari: Stigmaeidae) on Metaseiulus occidentalis and Typhlodromus pyri (Acari: Phytoseiidae)

The differential impact of Zetzellia mali on the phytoseiids Metaseiulus occidentalis and Typhlodromus pyri was studied in the laboratory and by analysis of population from orchard plots that contained either phytoseiid, similar numbers of prey mites and high or low densities of Z. mali. Five hypotheses were evaluated to explain why Z. mali had more impact on M. occidentalis in the field than on T. pyri. Given equal opportunity, Z. mali adult females did not consume more M. occidentalis eggs than T. pyri eggs nor did adult females of either phytoseiid inflict greater mortality on Z. mali eggs or larvae through attack or consumption. There was no difference in the within-tree association of Z. mali adult females with eggs of either phytoseiid species nor were there differences in the way prey mites (all life stages) were spatially partitioned between adult female Z. mali as compared with adults and deutonymphs (combined) of either phytoseiid. The foraging area of adult female Z. mali and the oviposition locations of the two phytoseiids from both field and laboratory data were compared using spatial statistics. Metaseiulus occidentalis laid significantly more eggs in the primary foraging area of adult female Z. mali than T. pyri. This was the only factor identified which may explain the greater impact of Z. mali on M. occidentalis. The impact of these interspecific effects on the persistence of predatory mite guilds and biological control are discussed.