Effects of Infection by Plasmodiophora brassicae on Root Anatomy of Rape

The anatomy of five-week old roots of rape (Brassica napus L.) infected by Plasmodiophora brassicae Wor. was studied and compared with corresponding non-infected roots using light microscopy and scanning electron microscopy techniques. The club-root gall was characterized by atypically initiated vascular strands separated by large, proliferating parenchymatic cells originating from secondary tissues and infected by the parasite. Similarities in the anatomy of the club-root gall and storage roots of Brassica are discussed together with aspcets of the pathogen control of the host anatomy.     

Peroxidase and chitinase isoenzyme activities during root infection of Chinese cabbage with Plasmodiophora brassicae

Roots of two Chinese cabbage (Brassica campestris L. ssp. pekinensis) varieties, one tolerant and one susceptible, were inoculated with Plasmodiophora brassicae in liquid medium and in soil. Chitinase and peroxidase activities were determined in roots and shoots 1–21 days after inoculation with resting spores of Plasmodiophora and the enzyme activities compared with healthy tissue of the same age. In infected roots of the susceptible variety ‘Granat’ chitinase activity was higher than in the control 10 days after inoculation with spores. In the tolerant variety ‘Parkin’ we detected an increase in chitinase activity at the same time, which was about twice that of ‘Granat’. Chitinase activity in ‘Granat’ was also enhanced on day 13, 14 and 17 after inoculation, whereas chitinase activity in ‘Parkin’ was lower in the infected roots than in the controls during that period. In the shoots no correlation between chitinase activity and infection in the two varieties was observed. Chitinase from Chinese cabbage was further characterized and showed a pH optimum at pH 4.5–5.5 and a temperature optimum at 35–45°C. After isoelectric focusing 7 isoenzymes were discovered, but there were almost no differences between infected and healthy root extracts. Two isoenzymes with pI 8.7 and 8.8 showed cross-reactivity with an antiserum against bean chitinases. The molecular mass of these isoenzymes was determined as 33 kDa. Total peroxidase activity was generally higher in root tissue of both varieties than in the shoots. Peroxidase activity was increased most prominently in infected ‘Granat’ roots on day 13 after inoculation and of both varieties on day 17 compared to the controls. In clubbed tissue of ‘Granat’ a specific peroxidase isoenzyme appeared the first time 21 days after inoculation and was most prominent 28–30 days after inoculation. This isoenzyme had a molecular mass of ca 24 kDa and a pI of ca 8.8. With respect to our results the strategy of the Plasmodiophorales for plant attack is discussed.     

Constitutive and Inducible Aerobic and Anaerobic Stress Proteins in the Echinochloa Complex and Rice

Anaerobic stress resulted in a change in the protein accumulation patterns in shoots of several Echinochloa (barnyard grass) species and Oryza sativa (L.) (rice) as resolved by two-dimensional gel electrophoresis. Of the six Echinochloa species investigated, E. phyllopogon (Stev.) Koss, E. muricata (Beauv.) Fern, E. oryzoides (Ard.) Fritsch Clayton, and E. crus-galli (L.) Beauv. are tolerant of anaerobiosis and germinate in the absence of oxygen, as does rice. In contrast, E. crus-pavonis (H.B.K.) Schult and E. colonum (L.) Link are intolerant and do not germinate without oxygen. Computer analysis of the protein patterns from the four tolerant species and rice indicated that the anaerobic response is of five classes: class 1 proteins, enhanced under anaerobiosis (9 to 13 polypeptides ranging from 16-68 kD); class 2 proteins, unique to anaerobiosis (1 to 5 polypeptides ranging from 17-69 kD); class 3 proteins, remained constant under aerobiosis and anaerobiosis; class 4 proteins, prominent only in air and repressed under anoxia (3 to 7 polypeptides ranging from 19-45 kD); and class 5 proteins, unique to aerobiosis (1 to 4 polypeptides ranging from 18-63 kD). In the intolerant species, E. colonum and E. crus-pavonis, no polypeptides were enhanced or repressed under anoxia (class 1 and class 4, respectively), whereas in the tolerant Echinochloa species and rice, a total of at least 9 to 13 anaerobic stress proteins and 4 to 7 "aerobic" proteins were noted. Immunoblotting identified two of the major anaerobic stress proteins as fructose-1,6-bisphosphate aldolase and pyruvate decarboxylase. Based on the differential response of the intolerant species to anaerobiosis, we suggest that another set of genes, whose products may not necessarily be among the major anaerobic stress polypeptides, might confer tolerance in Echinochloa under prolonged anaerobic stress.     

结球甘蓝根肿菌鉴定和种质抗性评价

采集湖北省长阳县火烧坪乡根肿病重发区的病土和病根,通过病原菌形态和PCR鉴定,确定是芸薹根肿菌,然后利用欧洲ECD鉴别系统确定生理小种为ECD17/31/13,此病原菌致病力极强。采用田间苗期人工接种鉴定,与田间成株期自然诱发鉴定相结合,对88份甘蓝种质进行抗性评价和筛选,结果表明:苗期获得1份高抗,7份抗病,17份耐病材料;成株期获得4份高抗,4份抗病,15份耐病材料。2个时期88份材料群体抗性鉴定级别基本一致,93.18%材料成株期病指比苗期高。CR21在2个时期均为高抗,抗性最强,表现稳定;CR55在苗期发病最严重,病指达到76.19,成株期为74.10;CR54在成株期发病最严重,病指达到81.54,苗期为75.97,2个时期发病率均达到100%。根肿病菌的鉴定和致病力的确定,及甘蓝种质抗性评价为抗病品种选育和抗病机理的研究奠定基础。     

Chromosome Polymorphism of the Obligate Biotrophic Parasite Plasmodiophora brassicae

Electrophoretic karyotypes of different isolates of Plasmodiophora brassicae, the causative agent of clubroot of cabbage, using contour‐clamped homogeneous electric field gel electrophoresis (CHEF) revealed chromosome polymorphism in this obligate parasite. Ribosomal RNA (rRNA) genes have been localized on three chromosomes (I, IV and V) of P. brassicae of the 16 chromosomal bands, which can be distinguished for the single‐spore isolate ‘e₃’. In comparison with this isolate three other single‐spore isolates showed chromosome polymorphism by size of chromosomal bands and by hybridization pattern with rRNA gene fragments and other Plasmodiophora‐specific DNA fragments.     

Inducible Proteins in Citrus Rootstocks with Different Tolerance Towards the Root Rot Pathogen Phytophthora palmivora

Activities of defence‐related proteins (β‐1,3‐glucanases, chitinases and peroxidases) and concentrations of total soluble phenolics were measured in roots and leaves of non‐infected and infected plants to investigate the response of different citrus rootstock genotypes to the root rot pathogen Phytophthora palmivora Butler. Infection with the pathogen increased concentrations of total proteins, total phenolics and β‐1,3‐glucanase activity in roots of all genotypes, and increases were associated with the extent of root mass reductions and thus susceptibility of the plants. Root chitinase and root peroxidase levels were slightly reduced or unaltered upon infection. β‐1,3‐Glucanase activity was also elevated in leaves of infected plants, but increases did not differ between tolerant and susceptible rootstocks. Effects of root infection on leaves were typically the reverse of effects on roots for chitinase‐ and peroxidase levels and more pronounced in susceptible rootstock genotypes. Although differences in enzyme expression were observed between susceptible and tolerant citrus seedlings, effects were usually associated with disease progression, and not with resistance to P. palmivora. It is suggested that increased activities of the proteins and soluble phenolics studied are not implicated in the primary defence to Phytophthora root diseases, but may contribute to the inhibition of the pathogen during infection in tolerant citrus.     

Induction of trehalase in Arabidopsis plants infected with the trehalose-producing pathogen Plasmodiophora brassicae

Various microorganisms produce the disaccharide trehalose during their symbiotic and pathogenic interactions with plants. Trehalose has strong effects on plant metabolism and growth; therefore, we became interested to study its possible role in the interaction of Arabidopsis thaliana with Plasmodiophora brassicae, the causal agent of clubroot disease. We found that trehalose accumulated strongly in the infected organs (i.e., the roots and hypocotyls) and, to a lesser extent, in the leaves and stems of infected plants. This accumulation pattern of trehalose correlated with the expression of a putative trehalose-6-phosphate synthase (EC 2.4.1.15) gene from P. brassicae, PbTPS1. Clubroot formation also resulted in an induction of the Arabidopsis trehalase gene, ATTRE1, and in a concomitant increase in trehalase (EC 3.2.1.28) activity in the roots and hypocotyls, but not in the leaves and stems of infected plants. Thus, induction of ATTRE1 expression was probably responsible for the increased trehalase activity. Trehalase activity increased before trehalose accumulated; therefore, it is unlikely that trehalase was induced by its substrate. The induction of trehalase may be part of the plant's defense response and may prevent excess accumulation of trehalose in the plant cells, where it could interfere with the regulation of carbon metabolism.     

Molecular Detection and Pathogenicity Assay of Plasmodiophora brassicae in Chicken Manure

To determine the relationship between animal excreta and the occurrence of clubroot disease of cruciferous crops caused by Plasmodiophora brassicae, chickens were fed with resting spores of the pathogen. Their faeces were collected and used to inoculate crucifers. This study proved that both fresh and composted manures could induce clubroot and the presence of the pathogen in the manure was confirmed by PCR amplification. However, composting had detrimental effects on the virulence of the resting spores in the manure. When the temperature was over 32°C, the incidence and severity of clubroot declined with the increase in the exposure time of resting spores to high temperature and the pathogenicity was completely lost when the spores were kept at 48°C for 6 h. The control measures for the clubroot disease were discussed.     

Pathotypes of Plasmodiophora brassicae, the cause of clubroot, in Australia

Variation in pathogenicity of Plasmodiophora brassicae in Australia was studied using the European Clubroot Differential series of brassica hosts. From 41 collections of P. brassicae originating from important vegetable brassica production regions in Victoria, Western Australia, Tasmania, Queensland and New South Wales, 23 triplet codes were generated. These were more similar to populations of P. brassicae reported from the USA than those from Europe. The most common Australian pathotypes had triplet codes of 16/3/12 and 16/3/31 and were each assigned seven times to pathogen collections originating from three states of Australia. Other codes that occurred more than once were 16/2/31, which was assigned to six collections from four states of Australia, and 16/19/31, which was assigned twice to collections originating from Western Australia.     

Electrophoretic Karyotype of the Obligate Biotrophic Parasite Plasmodiophora brassicae Wor.

Classical genetic analysis is not possible with the protist Plasmodiophora brassicae due to the intracellular life of this obligate biotrophic parasite . An electrophoretic karyotype has been obtained using contour-clamped homogeneous electric field gel electrophoresis to facilitate gene mapping of P. brassicae. Using two different separation conditions 16 chromosomal bands of P. brassicae were distinguished ranging in approximate size from 2.2 Mb to 680 kb. According to this determination of chromosome number and size, the total genome size of P. brassicae was estimated to be 20.3 Mb. The chromosomal bands were further designated by their hybridization pattern with repetitive elements of P. brassicae . The repetitive element H4 (1800 bp) hybridized with 14 chromosomal bands, but the sequence of H4 showed no homology to known centromere or telomere structures and revealed no repetitive motifs.     

来源于解淀粉芽胞杆菌的芸薹根肿菌抑菌活性物质的分离与鉴定

十字花科根肿病是由芸薹根肿菌引起的较为严重的世界性病害之一,至今还无有效控制该病害的生物农药。本研究通过盆栽实验,筛选到一株解淀粉芽胞杆菌HB_26,对根肿病原菌具有60%以上的抑制活性。通过高效液相质谱(LC_MS)对活性物质进行分离纯化,根据分子量和紫外吸收光谱初步鉴定活性物质为肽类,命名为BA30。抑真菌实验证明BA30在150μg·mL-1的浓度下,对小麦赤霉和灰霉病菌有70%的抑菌活性,对蚕豆锈病和水稻纹枯病菌有50%的抑菌活性,对番茄早疫病菌有30%的抑菌活性。