Phylogeny and pathogenicity of Fusarium oxysporum isolates from cottonseed imported from Australia into California for dairy cattle feed

A unique biotype of the Fusarium wilt pathogen, Fusarium oxysporum Schlecht. f.sp. vasinfectum (Atk) Sny. & Hans., found in Australia in 1993 is favored by neutral or alkaline heavy soils and does not require plant parasitic nematodes to cause disease. This makes it a threat to 4-6 million acres of USA Upland cotton ( Gossypium hirsutum L.) that is grown on heavy alkaline soil and currently is not affected by Fusarium wilt. In 2001-2002, several shiploads of live cottonseed were imported into California for dairy cattle feed. Thirteen F. oxysporum f.sp. vasinfectum isolates and four isolates of a Fusarium spp. that resembled F. oxysporum were isolated from the imported cottonseed. The isolates, designated by an AuSeed prefix, formed four vegetative compatibility groups (VCG) all of which were incompatible with tester isolates for 18 VCGs found in the USA. Isolate AuSeed14 was vegetatively compatible with the four reference isolates of Australian biotype VCG01111. Phylogenetic analyses based on EF-1α, PHO, BT, Mat1-1, and Mat1-2 gene sequences separated the 17 seed isolates into three lineages (race A, race 3, and Fusarium spp.) with AuSeed14 clustering into race 3 lineage or race A lineage depending on the genes analyzed. Indel analysis of the EF-1α gene sequences revealed a close evolutionary relationship among AuSeed14, Australian biotype reference isolates, and the four Fusarium spp. isolates. The Australian seed isolates and the four Australian biotype reference isolates caused disease with root-dip inoculation, but not with stem-puncture inoculation. Thus, they were a vascular incompetent pathotype. In contrast, USA race A lineage isolates readily colonized vascular tissue and formed a vascular competent pathotype when introduced directly into xylem vessels. The AuSeed14 isolate was as pathogenic as the Australian biotype, and it or related isolates could cause a severe Fusarium wilt problem in USA cotton fields if they become established.     

Biological control of chickpea Fusarium wilt by antagonistic bacteria under greenhouse condition

In this survey, Fusarium oxysporum was isolated from roots infected plants and was shown to be pathogenic. Experiment were carried out with seven antagonistic bacteria. Based on biochemical, Physiological and morphological tests, isolates B-120, B-32, B-28 and B-22 were identified as Bacillus subtilis and isolates Pf-100, Pf-10 and CHAO as Pseudomonas fluorescens. In greenhouse studies, only isolate B-120 (Less than benomyl) reduced Fusarium wilt of chickpea in both seed and soil treatments. The application of antagonistic bacteria had no different effects on plant growth factors. Soil treatment of bacteria had a better effects on plant growth than that of bacterial seed treatment. The use of antagonists (B-120, B-28, B-120 and CHAO) in combination had no significant effect on plant growth factors and reduction wilt disease than that each isolate was applied individually.     

Isolation and characterization of endophytic streptomycete antagonists of Fusarium wilt pathogen from surface-sterilized banana roots

A total of 131 endophytic actinomycete strains were successfully isolated from surface-sterilized banana roots. These isolates belonged to Streptomyces (n=99), Streptoverticillium (n=28), and Streptosporangium (n=2) spp. The remaining 2 isolates were not identified. About 18.3% of the isolates inhibited the growth of pathogenic Fusarium oxysporum f. sp. cubense on banana tissue extract medium. The most frequently isolated Streptomyces sp. strain S96 was similar to Streptomyces griseorubiginosus. About 37.5% of the S. griseorubiginosus strains were antagonistic to F. oxysporum f. sp. cubense. The antagonism of strain S96 was lost when FeCl(3) was introduced into the inhibition zone. In vivo biocontrol assays showed that the disease severity index (DSI) was significantly (P=0.05) reduced and mean fresh weight increased (P=0.001) in plantlets treated with strain S96 compared to those grown in the absence of the biocontrol strain. These findings indicate the potential of developing siderophore-producing Streptomyces endophytes for the biological control of fusarium wilt disease of banana.     

生防菌根系定殖竞争作用对西瓜枯萎病发病机理的影响

【目的】西瓜枯萎病是由西瓜专化型尖孢镰刀菌(Fusarium oxysporum f.sp.niveum)引起的一种常见的毁灭性土传病害,对镰刀菌同属非致病性菌株与致病性菌株存在的竞争作用进行研究,有助于获得新的具有生防效果的菌株,从而拓宽西瓜枯萎病生物防治的手段。【方法】利用选择性培养基和稀释平板计数法对温室盆栽试验中西瓜根际和非根际土壤及植物组织中非致病性轮枝镰刀菌菌株(Fusarium verticillioides XA)与致病性尖孢镰刀菌(Fusarium oxysporum LD)进行计数,确定其在西瓜植株根际和组织中的定殖情况。【结果】将从田间西瓜枯萎病发病植株根部分离获得的菌株XA和LD接入健康土壤中,接种菌株XA既不会引起西瓜枯萎病发病症状,也不会影响西瓜植株生物量,但接种菌株LD导致严重发病症状。与单接种LD处理相比较,双接种(XA+LD)处理地上部鲜重和地上部干重都分别增加了151.2%和110%。XA菌株能成功定殖于西瓜根系,但在茎基部没有检测到。在接种菌株LD的处理中植物组织和土壤中致病性镰刀菌的数量达到(1.58 4.85)×104CFU/g。与单接种LD处理相比,双接种菌株XA和LD处理植物茎基部、根系、根际土壤和土体土壤致病性镰刀菌的数量分别下降63.3%、66.1%、3.3%和24.4%,根系、根际土壤和土体土壤非致病性镰刀菌的数量增加到(0.35 3.84)×104CFU/g;双接种处理对西瓜枯萎病的防效达57.8%。【结论】非致病性轮枝镰刀菌菌株XA可有效降低致病性尖孢镰刀菌LD对西瓜植株的定殖侵染能力,对西瓜枯萎病具有一定的生防效果。     

Mutational analysis of genes determining antagonism of Alcaligenes sp. strain MFA1 against the phytopathogenic fungus Fusarium oxysporum.

Alcaligenes sp. strain MFA1 inhibits microconidial germination and germination-tube elongation of Fusarium oxysporum f.sp. dianthi and reduces the severity of fusarium wilt of carnation, presumably as a result of its production of a siderophore (G.Y. Yuen and M.N. Schroth. 1986. Phytopathology, 76:171-176). Derivative strains of MFA1, deficient in antagonism against F. oxysporum and in iron-limited growth, were obtained by Tn5 mutagenesis. The presence of a single Tn5 insertion in the genomic DNA of each derivative strain was detected by Southern analysis. Marker-exchange mutagenesis of strain MFA1 with DNA fragments, containing Tn5 and flanking sequences cloned from representative mutants, confirmed the association of single Tn5 insertions with the loss of antifungal activity and iron-independent growth of MFA1. These results are consistent with the involvement of siderophore biosynthesis by MFA1 in the inhibition of F. oxysporum.     

Gene expression profile changes in cotton root and hypocotyl tissues in response to infection with Fusarium oxysporum f. sp. vasinfectum

Microarray analysis of large-scale temporal and tissue-specific plant gene expression changes occurring during a susceptible plant-pathogen interaction revealed different gene expression profile changes in cotton root and hypocotyl tissues. In hypocotyl tissues infected with Fusarium oxysporum f. sp. vasinfectum, increased expression of defense-related genes was observed, whereas few changes in the expression levels of defense-related genes were found in infected root tissues. In infected roots, more plant genes were repressed than were induced, especially at the earlier stages of infection. Although many known cotton defense responses were identified, including induction of pathogenesis-related genes and gossypol biosynthesis genes, potential new defense responses also were identified, such as the biosynthesis of lignans. Many of the stress-related gene responses were common to both tissues. The repression of drought-responsive proteins such as aquaporins in both roots and hypocotyls represents a previously unreported response of a host to pathogen attack that may be specific to vascular wilt diseases. Gene expression results implicated the phytohormones ethylene and auxin in the disease process. Biochemical analysis of hormone level changes supported this observation.     

儿茶素对棉枯萎病菌胞壁降解酶的抑制及在棉花抗病性中的作用

在含有儿茶素的培养液中棉枯萎病菌(Fusarium oxysporum f. sp. vasinfectum)的多聚半乳糖醛酸酶(PG)和果胶裂解酶(PL)活性明显降低。儿茶素可明显抑制初步纯化的PG和PL活性以及它们对棉苗组织的浸软作用。对棉苗组织中儿茶素含量的测定结果表明:抗病品种棉苗组织中儿茶素含量较高;氟乐灵处理可诱发棉苗产生对枯萎病的诱导抗性,同时也提高棉苗组织中的儿茶素的含量;枯萎病菌侵染后棉苗组织中儿茶素含量明显升高,以抗病品种棉苗和氟乐灵诱发处理棉苗组织中儿茶素含量的增加更为明显。棉苗组织提取液中的酚类物质可抑制PG和PL的活性,且证明这种抑制作用主要是由儿茶素引起。提取液对PG和PL活性的抑制作用与棉苗组织中儿茶素的含量呈直接的正相关关系。因此,作者认为棉苗组织中的儿茶素可能通过对病菌PG和PL等胞壁降解酶的抑制而与棉花对枯萎病的抗病性及氟乐灵诱发的诱导抗性有关。     

丛枝菌根真菌对黄瓜枯萎病的影响

Pot experiment was conducted to explore whether nursery inoculation of cucumber with Glomus etunicatum could alleviate fusarium wilt caused by Fusarium oxysporum f. sp. cucumerinum. Four-week-old seedlings inoculated with Glomus etunicatum were infected with F. oxysporum f. sp. cucumerinum by pouring conidial suspension. Biomass, contents of malonaldehyde (MDA), soluble sugar and free proline in roots, as well as the quantity of bacteria and fungi in rhizosphere were determined. The results indicated that the root dry weight of seedlings preinoculated with Glomus etunicatum increased by 9.3%; contents of soluble sugar and free proline in roots increased, and the quantity of fungi in rhizosphere decreased significantly. The disease incidence and disease index of Fusarium wilt were reduced. On the contrary, root dry weight of seedlings without inoculation with Glomus etunicatum was reduced by 28.0%. It is concluded that Glomus etunicatum is beneficial to biocontrol of Fusarium wilt of cucumber seedlings.     

丛枝菌根真菌对黄瓜枯萎病的影响

盆栽条件下播种黄瓜Cucumis sativus同时接种丛枝菌根真菌Glomus etunicatum,4周后对接种处理和对照黄瓜苗分别浇灌Fusairum oxysporum f.sp.cucumerinum分生孢子悬液,2周后测定幼苗生物量、根内丙二醛、可溶性糖与游离脯氨酸含量及根围真菌和细菌数量。结果表明:接种Glomus etunicatum根系干重增加了9.3%,提高了根内可溶性糖和游离脯氨酸含量,显著减少了根围真菌数量,降低了黄瓜枯萎病的发病率和病情指数。而不接种Glomus etunicatum的黄瓜苗根系干重减少了28.0%。研究认为AM真菌Glomus etunicatum对黄瓜枯萎病具有一定的生防价值。     

Biological Control of Fusarium spp. in Cotton, Wheat and Muskmelon by Trichoderma harzianum

A new isolate of Trichoderma harzianum (T-35) was isolated from the rhizosphere of cotton plants from a field infested with Fusarium. Under glasshouse conditions, the antagonist was applied to soil growing in a bran/peat mixture (1:1, v/v) or as a conidial suspension or used as a seed coating. When T. harzianum was tested against Fusarium oxysporum f. sp. vasinfectum, F. oxysporum f. sp. melonis or F. roseum‘Culmorum”, a significant disease reduction, was obtained in cotton, melon and wheat, respectively. Biological control of Fusarium wilt of cotton was achieved when tested at two inoculum levels of the pathogen (2 × 10⁷ and 2 × 10⁸ microconidia/kg soil), decreasing the Fusarium spp. soil population. The long term effect of T. harzianum on Fusarium wilt of cotton was studied using successive plantings. The antagonist persisted in soil throughout three consecutive plantings, reducing the Fusarium, wilt incidence in each growth cycle. At the first planting the largest amount of preparation was found superior, whereas at the third planting, no significant difference could be observed between the four rates of Trichoderma preparation. T. harzianum (T-35) controlled Fusarium wilt in cotton and muskmelon when applied in both naturally or artificially infested alluvial vertisol and sandy-loam soils, respectively. Soil or seed treatments with the antagonist provided a similar disease control of F. roseum‘Culmorum’ and of F. oxysporum f. sp. melonis.     

The Inhibition of Fungal Growth in Resistant Cotton Plants Infected by Fusarium oxysporum f. sp. vasinfectum

The vascular colonization of cotton plants by Fusarium oxysporum f. sp. vasinfectum was determined by examining growth of the fungus from free-hand cross sections taken from 0 to six days after inoculation at various distances above the points of root inoculation. Fungal spread in both longitudinal and lateral directions in the susceptible cultivar Rowden was evident four days after inoculation, whereas fungal spread in the resistant cultivar Seabrook Sea Island was restricted. The quantity of viable fungus in infected tissues was determined from macerated tissues plated on Czapek- Dox agar. The colony counts declined within six days after inoculation in resistant Seabrook Sea Island, but not in susceptible Rowden, implying that an inhibition of fungal growth in vascular tissues occurred in resistant Seabrook Sea Island. This inhibition could contribute to the restriction of fungal spread and thus be a factor in the resistance of cotton plants to F. oxysporum f. sp. vasinfectum .     

己二酸二异丁酯对辣椒种子萌发及枯萎菌的化感效应

采用模拟的方式,利用生物测定和室内培养的方法,研究了不同浓度的己二酸二异丁酯对辣椒种子萌发、幼苗生长及辣椒枯萎菌的化感效应.结果表明:己二酸二异丁酯对辣椒种子萌发和幼苗生长具有低浓度促进、高浓度抑制的化感效应;己二酸二异丁酯对辣椒和茄子种子的化感效应存在较大差异,在低浓度时对辣椒种子萌发和幼苗生长的促进作用强于茄子种子,而高浓度时对辣椒种子萌发和幼苗生长的抑制强度弱于茄子种子;各浓度己二酸二异丁酯对辣椒枯萎菌菌丝生长有极显著的抑制作用,且作用强度随着浓度增加而增强,当浓度为1 mnol·L~(-1)时抑制作用最强,抑制率为10.75%;在田间抗病性调查期间内各浓度处理均提高了辣椒幼苗的抗病性,其中以1 mmol·L~(-1)处理抗病性最好,病情指数比对照降低了49.88%.

Abstract：

By the methods of laboratory incubation and bioassay, a simulation test was conducted to study the allelopathic effects of different concentration diisobutyl adipate on pepper seed germi-nation and its seedling growth and Fusarium oxysporum f. sp. vasinfectum. For the pepper seed germination and seedling growth, diisobutyl adipate exhibited allelopathic promotion at low con-centration, but allelopathic inhibition at high concentration. There existed greater differences in the allelopathic effects of diisobutyl adipate on the seed germination and seedling growth of pepper and eggplant. The promotion effects of low concentration diisobutyl adipate on pepper were stron-ger than those on eggplant, while the inhibition effects of high concentration diisobutyl adipate on pepper were weaker than those on eggplant. All test concentration diisobutyl adipate had signifi-cant inhibition effects on the mycelium growth of Fusarium oxysporum f. sp. vasinfectum, and the effects increased with increasing diisobutyl adipate concentration, being the strongest (an inhibi-tory rate of 10. 75%) at 1 mnol·L~(-1). Field text indicated that diisobutyl adipate at all test con-centrations enhanced the disease resistance of pepper seedlings. The best effect was observed at 1 mmol·L~(-1) of diisobutyl adipate, with the disease index decreased by 49.88%, compared to the control.     

甘薯兼抗薯瘟病和蔓割病种质筛选鉴定

用甘薯瘟2个致病型菌株对557份甘薯品种(系)分菌系做盆苗和田间接种鉴定,并用蔓割病菌接种鉴定.结果表明,筛选出兼抗薯瘟病2个菌系的品种(系)31份,兼抗甘薯瘟和蔓割病的品种(系)有16份,其中泉薯860、泉薯854、金山93、榕选416、金山908、广薯88-70和泉薯853等7份与我省主栽抗病品种湘薯75-55(CK)相比,具有类似的双抗性能力,而其抗瘟能力更强.福薯87、林泗2号、金山57和湛93-16等4份对照品种只抗单个病害或兼抗单个菌系.     

西瓜枯萎病高效拮抗菌XJUL-12的筛选与鉴定

目的:分离获得西瓜枯萎病高效拮抗菌,为研究西瓜枯萎病高效拮抗菌的拮抗机制奠定基础。方法:用碾碎法从新疆有毒植物麻(Urtica cannabina L.)、亚洲薄荷(Mentha asiatica Boris.)、阿尔泰藜芦(Veratrum lobelianum Bernh.)中分离内生菌,并用琼脂扩散法筛选出对西瓜枯萎病具有较强抗性的内生菌XJUL-12,通过PCR方法扩增XJUL-12的16S rDNA,并与GeneBank中已鉴定菌的16S rDNA序列对比,用N-J方法构建XJUL-12进化树,用Bootstraping法对其评估,同时结合其形态特征、生理生化检测、G C mol%含量对XJUL-12进行鉴定。结果:XJUL-12的16S rDNA序列与Bacillus subtilisstrain CGMCC1869同源性为99%,G C mol%含量为46.72mol%。结论:筛选获得的内生菌XJUL-12对西瓜枯萎病具有较强抗性,并将XJUL-12鉴定为枯草芽孢杆菌。     

高产铁载体棉田土壤细菌SS05的筛选与鉴定

【目的】研究从棉田土壤中筛选得到的高产铁载体细菌产铁载体能力、分类地位和抑菌活性。【方法】通过改良蔗糖-天冬氨酸培养基选择性筛选产铁载体细菌,通过分光光度计法测定铁载体活性,通过混菌法测定产铁载体细菌上清液对棉花枯萎病致病菌尖孢镰刀菌(Fusarium oxysporum)的抑菌效果,采用形态学、生理生化鉴定及16S rDNA序列系统发育分析对高产铁载体菌株进行鉴定。【结果】从棉田土壤中筛选到162株产铁载体细菌,30株产铁载体能力较强的细菌中21株具有较高产铁载体能力,菌株SS05的铁载体活性单位达到98.3%;在低铁条件下,SS05上清液对F.oxysporum具有显著的抑制作用;SS05与莫哈韦芽孢杆菌(Bacillus mojavensis)最为接近。【结论】SS05是高产铁载体菌株,与莫哈韦芽孢杆菌(Bacillus mojavensis)最为接近,在低铁培养条件下其上清液对F.oxysporum具有显著的抑制作用。     

Genomic location of the Fw gene for resistance to Fusarium wilt race 1 in peas

Resistance to fusarium wilt in peas (Pisumsativum L.) caused by Fusarium oxysporum Schlect. f. sp. pisi race 1 (van Hall) Snyd. & Hans. is conferred by a single dominant gene, Fw. The gene was located in the pea genome by analyzing progenies from crosses involving genetic markers across all pea linkage groups. Phenotyping of the progenies for reaction to race 1 of the fusarium wilt pathogen was determined by field screening in a "wilt-sick" plot in Pullman, Washington. Fw was shown to be located on linkage group III, about 13 map units from Lap-1 and b and 14 map units from Td. The relatively large distances between these markers and Fw precludes the use of the linked markers in marker-assisted selection for wilt resistance. Additional markers in this region of the pea genome will be required if marker-assisted selection for Fw is to be successful.     

无叶假木贼和盐爪爪提取物的抗菌活性

无叶假木贼和盐爪爪地上部分乙醇提取物、不同溶剂萃取部分对供试病原细菌和真菌均表现出较好的抑制作用,其乙酸乙酯萃取部分和正丁醇萃取部分的抗菌活性明显强于石油醚萃取部分和水部分。结果表明,无叶假木贼中抗菌活性成分主要为极性中等的化合物,且很可能是具弱碱性、易与酸成盐的生物碱类。盐爪爪中抗菌活性成分同样为极性中等的化合物。     

几株农用拮抗链霉菌的初步研究

从山西蟒河自然保护区分离到5株链霉菌。琼脂移块法和发酵液扩散法试验表明,它们所产生的抗生素对棉花枯萎病菌(Fusarium oxysporum f.sp.vasinfectum)、棉花黄萎病菌(Verticillium dahliae)、棉花立枯病菌(Rhizoctonia solani)、水稻纹枯病菌(Pellicularia sasakii)、黄瓜枯萎病菌(Fusarium oxysporum f.sp.cucumerinum)等十多种植物病原真菌,对果蔬贮藏期间的病原真菌,如木霉(Trichodermasp.)、意大利青霉(Penicillium italicum)、根霉(Rhizopussp.)等都有明显的抑制作用。     

Production and Fungitoxicity of the Terpenoid Phytoalexins in Cotton Inoculated with Fusarium oxysporum f. sp. vasinfectum

Four terpenoid phytoalexins, desoxyhemigossypol (dHG), hemigossypol (HG), desoxyhemigossypol- 6-methyl ether (dMHG) and hemigossypol-6-methyl ether (MHG), were identified with HPLC analysis of extracts from the moderately Fusarium wilt resistant cotton var. TAMCOT CAMD-E ( Gossypium hirsutum ) inoculated with Fusarium oxysporum f. sp. vasinfectum (F. o. v.). Concentrations of dHG, HG, dMHG and MG in stem steles at 10 days after inoculation were 45.1, 175. 0, 38. 3 and 1. 6 (g g^–1 fresh tissue, respectively. The bioassays demonstrated that all four phytoalexins were toxic to F. o. v. The ED₅₀'s of dHG, dMHG and HG were calculated as 8. 8, 13. 4 and 29. 3 (g ml⁻¹, respectively. The very low solubility of MHG in the standard assay medium prevented the determination of its ED₅₀ value. Only dHG is water soluble at levels that appear necessary to act as an effective phytoalexin. At 30 μg ml⁻¹, dHG kills all conidia and mycelia of F. o. v . Viable propagules of F. o. v. were recovered from the steles of inoculated plants 10 days after inoculation; however, the pathogen was restricted to a zone 15 cm above the hypocotyl inoculation site. Thus, the fungistatic action of dHG appears to contribute to the resistance of cotton to Fusarium wilt by preventing the systemic distribution of F. o. v . propagules.     

Plant colonization by the vascular wilt fungus Fusarium oxysporum requires FOW1, a gene encoding a mitochondrial protein

The soil-borne fungus Fusarium oxysporum causes vascular wilts of a wide variety of plant species by directly penetrating roots and colonizing the vascular tissue. The pathogenicity mutant B60 of the melon wilt pathogen F. oxysporum f. sp. melonis was isolated previously by restriction enzyme-mediated DNA integration mutagenesis. Molecular analysis of B60 identified the affected gene, designated FOW1, which encodes a protein with strong similarity to mitochondrial carrier proteins of yeast. Although the FOW1 insertional mutant and gene-targeted mutants showed normal growth and conidiation in culture, they showed markedly reduced virulence as a result of a defect in the ability to colonize the plant tissue. Mitochondrial import of Fow1 was verified using strains expressing the Fow1-green fluorescent protein fusion proteins. The FOW1-targeted mutants of the tomato wilt pathogen F. oxysporum f. sp. lycopersici also showed reduced virulence. These data strongly suggest that FOW1 encodes a mitochondrial carrier protein that is required specifically for colonization in the plant tissue by F. oxysporum.