Differences in pathogenesis observed among susceptible interactions of carnation with four races of Fusarium oxysporum f.sp. dianthi

Susceptible interactions of Early Sam carnations with races 1,2,4, and 8 ofFusarium oxysporum f. sp.dianthi differed in pathogenesis, both after stem and after root inoculation. Race 1 induced pallescence and withering of leaves. Affected vascular tissue had a uniform pallid to pale brown colour; though heavily colonized, it was not or virtually not degraded. Defence reactions developed only slowly. Race 2 induced yellowing, of the midribs in particular, and withering of leaves. Affected vascular tissue was white with dark brown margins. Colonized tissue was degraded to leave vascular cavities. At lower heights of colonization, many defence reactions developed, which sometimes resulted in localization of the pathogen. Race 4 induced a similar pathogenesis as race 2, except for less intensive defence reactions. Race 8 induced midrib lesions on, and pallescence, withering and necrosis of leaves. Affected vascular tissue had a uniform light brown colour. Degradation of colonized vascular tissues was rare; instead, many defence reactions were observed, even at high heights in the plants.Races 1, 2 and 4 ofF. oxysporum f. sp.dianthi did not induce disease symptoms in Novada carnations, known to be highly resistant to race 2. Stem-inoculated plants localized the infection close to the inoculation site; stems of root-inoculated plants remained unaffected. The localization response also occurred in Early Sam and Novada carnations stem-inoculated withF. oxysporum f. sp.lycopersici.Samenvatting Tussen interacties van Early Sam-anjers met fysio's 1, 2, 4 en 8 vanF. oxysporum f. sp.dianthi werden verschillen in ziekteontwikkeling gevonden na wortel-zowel als stengelinoculatie. Fysio 1 gaf verbleking en verdroging van de bladeren. Aangetast vaatweefsel was gelijkmatig vaal of lichtbruin van kleur, en werd hevig gekoloniseerd, maar vrijwel niet afgebroken. Afweerreacties kwamen slechts traag op gang. Fysio 2 gaf vergeling, in het bijzonder van de hoofdnerven, en verdroging van de bladeren. Aangetast vaatweefsel was wit met donkerbruine randen. Gekoloniseerd weefsel werd afgebroken, hetgeen leidde tot de vorming van holten in het vaatweefsel. In de lagere gekoloniseerde delen traden veel afweerreacties op, hetgeen soms lokalisatie van het pathogeen tot gevolg had. Fysio 4 gaf eenzelfde ziekteontwikkeling als fysio 2, maar minder afweerreacties. Fysio 8 gaf lesies bij de hoofdnerven, en verbleking, verdroging en necrose van bladeren. Aangetast vaatweefsel was gelijkmatig lichtbruin van kleur. Afbraak van gekoloniseerd vaatweefsel werd zelden waargenomen; veel afweerreacties vergezelden de kolonisatie tot hoog in de stengel.Inoculatie van Novada anjers met fysio's 1,2 en 4 vanF. oxysporum f. sp.dianthi had geen ziektesymptomen tot gevolg. Via de stengel geïnoculeerde planten lokaliseerden de infectie ter hoogte van het inoculatiepunt; de stengels van via de wortels geïnoculeerde planten waren onaangetast. De lokalisatiereactie trad ook op in Early Sam en Novada anjers na inoculatie via de stengel metf. oxysporum f. sp.lycopersici.     

Response of carnation cultivars to Fusarium oxysporum f.sp. dianthi in the field

The response of carnation (Dianthus caryophyllus L.) cultivars toFusarium oxysporum f.sp.dianthi (F.o.d.) was evaluated in an artificially infested field from 1988/9 to 1991/2. Disease incidence was highly correlated with disease severity, indicating that disease incidence may be used to estimate the impact ofF.o.d. on the host. Based on the results, the following stepwise procedure was developed for characterizing the response of carnation cultivars toF.o.d. First, the general response of the tested cultivar was classified as resistant or susceptible on the basis of disease incidence values recorded 180 days after planting. Empirical analysis of the data revealed that a disease incidence level of 75% may be taken as a reliable cut-off point for separation of cultivars into the two groups. Within each group, cultivars were then subjected to a more explicit classification: in the resistant group the records of actual disease incidence were used for classification, while in the susceptible group the linear rearrangement of the disease progress curve was calculated according to the Gompertz function, and the value of the intercept was used for classification.Contribution No. 3539-E series, from the Agricultural Research Organization.     

Passive transport of microconidia of Fusarium oxysporum f. sp. dianthi in carnation after root inoculation

Root inoculation of susceptible carnations withFusarium oxysporum f. sp.dianthi induced characteristic unilateral wilt only if root woundings and use of a microconidial suspension had not been combined at the time of inoculation. The combination, however, induced atypical and sudden stem breaking soon followed by death. In all cases wilt was due to destruction of the xylem. Unilateral wilt appeared to follow sparse natural infection of single roots. Stem breaking was due to destruction of the vascular tissues all around the stem and is ascribed to multilateral infection caused by translocation of microconidia at inoculation through several wounded roots directly into the stem.Microconidia were carried passively 5–10(–10) cm into stems of susceptible and resistant carnations within 24 h both after immersing cut ends of the roots in a conidial suspension and after pouring a suspension on the soil. Passive spore transport is an inoculation artefact which may severely affect interpretation of experimental results; it seems to be unimportant in natural Fusarium wilt development in carnation.Samenvatting Inoculatie van de wortels van vatbare anjers metFusarium oxysporum f. sp.dianthi veroorzaakte de kenmerkende eenzijdige verwelking alleen als wortelbeschadigingen bij de inoculatie niet werden gecombineerd met het gebruik van een suspensie van microconidiën. Die combinatie veroorzaakte namelijk afwijkende symptomen waarbij de planten plotseling omknakten en vervolgens snel afstierven. De verwelking leek in alle gevallen veroorzaakt te worden door afbraak van het xyleem. Eenzijdige verwelking leek te volgen op spaarzame natuurlijke wortelinfecties. Bij omgeknakte planten bleek het vaatweefsel rondom in de stengel aangetast te zijn, hetgeen toegeschreven wordt aan infectie van verschillende kanten van de stengel als gevolg van passief transport van microconidiën bij de inoculatie door verscheidene beschadigde wortels direct de stengel in.Microconidiën werden binnen 24 uur 5–10(–30) cm de stengels van vatbare en resistente anjers ingezogen wanneer de wortels afgesneden en met het uiteinde in een sporensuspensie gehangen werden, maar ook wanneer de suspensie op de grond gegoten werd. Passief transport van sporen is een inoculatie-artefact dat echter belangrijke consequenties kan hebben voor de interpretatie van de resultaten van proeven. Bij de natuurlijke verspreiding vanF. oxysporum in anjers lijkt passief sporentransport van weinig belang.     

Histology of roots of resistant and susceptible carnation cultivars from soil infested with fusarium oxysporum f.sp. dianthi

Fusarium wilt-resistant Novada and wilt-susceptible Early Sam carnations were planted in soil infested withFusarium oxysporum f.sp.dianthi, and their roots studied after five and ten weeks. Both in Novada and Early Sam, the extravascular tissue of undamaged young root parts were scarsely colonized. In roots of Novada, infected xylem vessels were usually occluded with gums and surrounded by phellem tissue. In mature parts of roots, the phellem surrounding occluded vessels often merged with the external phellem surrounding the vascular cylinder, after which the occluded vessels were shed from the roots. The phellem at the root surface appeared to be a strong barrier to fungal invasion. In roots of Early Sam carnations, as well as in a few roots of Novada carnations, the defence responses did not result in compartmentation of the fungus, and colonization and degradation of the vascular tissues followed. Diseased roots finally healthy. Shoots of Early Sam carnations, and eventually a few shoots of Novada carnations, were colonized and developed wilt symptoms.Samenvatting Resistente Novada en vatbare Early Sam anjers werden geplant in grond besmet metFusarium oxysporum f.sp.dianthi. Na vijf en tien weken werden de wortels van de planten bestudeerd. De extravasculaire delen van onbeschadigde jonge wortelgedeelten waren in beide cultivars nauwelijks gekoloniseerd. In de wortels van Novada waren geïnfecteerde houtvaten meestal verstopt door gommen en omgeven door kurkweefsel. In oudere wortelgedeelten sloot het kurkweefsel rond verstopte vaten vaak aan op het kurkweefsel aan de buitenkant van het vaatweefsel, waarna de aangetaste vaten werden uitgestoten uit de wortel. Het kurkweefsel aan het worteloppervlak leek een belangrijke barrière te vormen tegen het binnendringen van de schimmel. In de wortels van Early Sam en in enkele wortels van Novada mislukte het afweerproces, en werd het vaatweefsel door de schimmel gekoloniseerd en vervolgens afgebroken. Aangetaste wortels werden na afloop van tijd hol. De bovengrondse delen van de meeste Novada anjers werden niet gekoloniseerd en bleven gezond. De bovengrondse delen van de Early Sam anjers, en op den duur die van enkele Novada anjers, werden gekoloniseerd en verwelkten.     

Colonization and histopathology of susceptible and resistant carnation cultivars infected with Fusarium oxysporum f. sp. dianthi

Stems of the susceptible Early Sam and resistant Novada carnations were inoculated with a conidial suspension ofFusarium oxysporum f. sp.dianthi. Stem segments of either cultivar were sampled regularly and used for determination of fungal growth and for microscopical investigation.Early Sam showed typicalFusarium wilt symptoms and its stems were colonized intensively. The observed vascular browning appeared to be caused by discolouration of primary walls of infected vessels and surrounding cells. Vessels were rarely occluded with gel. Cell wall degradation led to the formation of stem cavities. Hyperplasia of xylem parenchyma was not seen.In Novada, fungal colonization remained low throughout the experiment. Macroscopic symptoms were absent except for longitudinal bursts in the stem, which appeared to be caused by hyperplasia of xylem parenchyma bordering infection. Vascular gelation occurred in the infected tissues, causing some vascular browning also. Xylem vessel regeneration was observed in the hyperplastic layer. Cavities were not formed, and wall discolouration was rare. Vascular gelation is considered part of theFusarium wilt resistance mechanism. It is followed by xylem vessel regeneration, which expresses a general plant response to vascular dysfunction rather than being part of the resistance mechanism.Although of different origin, vascular browning as such occurs in both susceptible and resistant interactions. In breeding for resistance, care should hence be taken with the current use of browning as an indication of disease.Samenvatting Anjers van de vatbare cultivar Early Sam en de resistente cultivar Novada werden geïnoculeerd met een conidiënsuspensie vanFusarium oxysporum f. sp.dianthi. Van beide cultivars werden regelmatig stengeldelen geoogst om deze microscopisch te onderzoeken en om de schimmelgroei te bepalen.Early Sam vertoonde de voor deze verwelkingsziekte kenmerkende symptomen en werd intensief gekoloniseerd. Aan het vaatweefsel waargenomen bruinkleuring bleek veroorzaakt te worden door verkleuring van de primaire wanden van geïnfecteerde vaten en de hen omringende cellen. Zelden trad er in de vaten gomvorming op. Celwandafbraak veroorzaakte de vorming van holten in de stengel. Hyperplasie van het houtparenchym werd niet waargenomen.In Novada bleef de schimmelgroei gedurende het hele experiment beperkt. Macroscopisch waren er enkel lengtescheuren in de stengel te zien, die veroorzaakt bleken te worden door hyperplasie van aan de infectie grenzend houtparenchym. In het geïnfecteerde vaatweefsel optredende gomvorming veroorzaakte ook enige bruinkleuring. In het hyperplastische weefsel werd regeneratie van houtvaten waargenomen. In de stengel werden geen holten gevormd, en verkleuring van de celwanden kwam weinig voor. De vorming van gommen in de houtvaten maakt waarschijnlijk deel uit van het resistentiemechanisme. De daarop volgende houtvatregeneratie is eerder een algemene reactie van de plant op vaatverstopping dan een deel van het resistentiemechanisme.Vaatverbruining, zij het van verschillende oorsprong, komt voor in zowel vatbare als resistente interacties. Om die reden moet men in de resistentieveredeling bij de anjer voorzichtig zijn met het gebruik van bruinkleuring als ziekteïndicatie.     

Inheritance of resistance in carnation against Fusarium oxysporum f.sp. dianthi races 1 and 2, in relation to resistance components

Four carnation cultivars, Novada (resistant to races 1 and 2 ofFusarium oxysporum f.sp.dianthi), Elsy (susceptible to race 1), Lena (susceptible to race 2) and Sam's Pride (susceptible to both races), were selfed and crossed. When three months old, the seedlings were inoculated via the roots or via the stems, after which wilting was recorded weekly according to a 5-point ordinal scale.Analyses were carried out on the proportions of diseased plants. For race 1 variation between the progenies could be described by means of general combining abilities only; GCA values were not affected by the inoculation method used. Also for race 2 GCAs were most important but the GCA values appeared different for the two inoculation methods. It is concluded that resistance to both races is inherited in an additive way.Indications for independently inherited root-specific resistance components (extravascular resistance) were only found with race 2. With both races, the ability to confine the pathogen at the infection site appeared the most important resistance component. Resistant progenies were also characterized by longer latent periods and lower wilting rates.Both race 1 and race 2 induced the accumulation of the phytoalexins dianthalexin and methoxydianthramide S, but race 2 induced higher amounts than race 1. The accumulation of phytoalexins was positively correlated to the resistance level of the progenies against the respective races. The progenies of the double-resistant cultivar Novada appeared to produce particularly high levels of phytoalexins.     

Regeneration of vascular tissues in relation to Fusarium wilt resistance of carnation

Fusarium wilt-resistant Novada carnations responded both to stem inoculation with a conidial suspension ofFusarium oxysporum f. sp.dianthi orF. oxysporum f. sp.lycopersici and to root inoculation by planting in soil infected withF. oxysporum f.sp.dianthi by means of a localization mechanism comprising gel formation in the xylem vessels and hyperplasia of adjacent parenchyma cells. Dye translocation experiments showed that xylem transport was limited by the presence of vascular gels, although wilting did not occur. Overcapacity of the vascular system apparently allowed for sufficient water transport to compensate for local vascular dysfunction. Also, vascular regeneration in the hyperplastic tissue next to occluded xylem vessels created new pathways for water transport to compensate for those lost by occlusion. Regeneration of xylem vessels was eventually followed by regeneration of xylem fibers, xylem parenchyma, cambium, and phloem cells.Early Sam carnations, susceptible to Fusarium wilt, responded to stem inoculation withF. oxysporum f. sp.lycopersici by similar localization of infection and vascular regeneration. Stem inoculation withF. oxysporum f. sp.dianthi, however, resulted in colonization of the xylem vessels followed by lysis of the vascular tissues. Vascular gelation, hyperplasia of parenchyma cells, and vascular regeneration did generally not occur. However, if some hyperplasia occurred in attempted defence, some differentiation of hyperplastic cells into single xylem vessel elements was observed which only rarely resulted in complete vascular regeneration next to colonized xylem. In the absence of hyperplasia, differentiation of medulla parenchyma cells bordering destroyed vascular tissue into xylem vessel elements was even more exceptional. Apparently, vascular regeneration in carnation is a normal defence reaction to fungal invasion.Samenvatting Novada anjers, resistent tegen Fusarium-verwelkingsziekte, reageerden op stengelinoculatie met een conidiënsuspensie vanFusarium oxysporum f.sp.dianthi of vanF. oxysporum f.sp.lycopersici en op wortelinoculatie door te planten in metF. oxysporumf.sp.dianthi besmette grond met een lokalisatiemechanisme dat onder meer bestond uit vorming van gommen in de houtvaten en hyperplasie van naburige parenchymcellen. Uit proeven over kleurstoftransport bleek dat de sapstroom door de gomvorming beperkt werd, hoewel dit geen verwelkingssymptomen veroorzaakte. Overcapaciteit van het vaatstelsel zorgde kennelijk voor voldoende compensatie aan watertransport om plaatselijke verstoring van de sapstroom op te vangen. Daarnaast werd het verlies aan functionele houtvaten ook opgevangen door vaatweefselregeneratie in het hyperplastische weefsel grenzend aan door gommen verstopte houtvaten. Na verloop van tijd werden behalve houtvaten ook houtvezels, houtparenchymcellen, cambium- en floeemcellen geregenereerd.Early Sam anjers, vatbaar voor Fusarium-verwelkingsziekte, reageerden op stengelinoculatie metF. oxysporum f. sp.lycopersici met eenzelfde lokalisatiemechanisme en ook met vaatweefselregeneratie. Stengelinoculatie metF. oxysporum f.sp.dianthi echter had kolonisatie en vervolgens lysis van het vaatweefsel tot gevolg. Meestal trad er geen gomvorming, hyperplasie van parenchymcellen of vaatweefselregeneratie op. Als echter bij pogingen tot afweer toch enige hyperplasie optrad, bleken sommige hyperplastische cellen wel tot houtvatelementen te differentieren. Dit leidde echter maar zelden tot totale vaatweefselregeneratie parallel aan het gekoloniseerde vaatweefsel. In afwezigheid van hyperplasie differentieerden mergparenchymcellen vlak naast lyserend vaatweefsel slechts bij hoge uitzondering tot houtvatelementen. Vaatweefselregeneratie bij anjer is kennelijk een gewone afweerreactie op besmetting met pathogene schimmels.     

Comparison of five stem inoculation methods with respect to phytoalexin accumulation and Fusarium wilt development in carnation

Five methods of stem inoculation of carnations with conidial suspensions ofFusarium oxysporum f.sp.dianthi were compared for uptake of the suspension, induction of phytoalexin accumulation and wilt development. Inoculation was performed by incision of the stem across droplets of inoculum placed on leaves, or by injection of droplets into the stem. With both methods, higher inoculum dosages led to higher wilting rates and higher phytoalexin concentrations. Injection was more effective than incision since a lower inoculum dosage was required to obtain the same phytoalexin levels. Injection therefore appears the most promising technique for the development of routine screening methods for resistance based on phytoalexin accumulation.Samenvatting Vijf methoden om anjers via de stengel te inoculeren met een sporensuspensie vanF. oxysporum f.sp.dianthi werden vergeleken wat betreft de opname van de suspensie, de accumulatie van fytoalexinen en het ziekteverloop. Inoculatie vond plaats door de stengel aan te snijden dwars door een druppel inoculum die op een blad was gelegd, of door druppeltjes inoculum te injecteren. Bij beide methoden leidden hogere doses inoculum tot heviger ziektesymptomen en accumulatie van grotere hoeveelheden fytoalexinen. Injectie van inoculum was effectiever dan aansnijden, daar er minder inoculum nodig was voor eenzelfde resultaat. Injectie biedt daarom meer perspectief voor de ontwikkeling van routinematige resistentietoetsen op basis van de accumulatie van fytoalexinen.     

Physiologic races ofFusarium oxysporum f.sp.melonis in the southeastern anatolia region of turkey and varietal reactions to races of the pathogen

Thirty-four isolates ofFusarium oxysporum f.sp.melonis (F.o.m.) obtained from 205 fields in melon-producing areas in the southeastern Anatolia Region of Turkey were identified on the basis of colony morphology and pathogenicity by the root dip method. In this region the mean prevalence of wilt disease was 88.1% and the mean incidence of disease was 47.5%. Physiologic races 0, 1, 2, and 1,2 of the pathogen were determined by their reactions on differential melon cultivars ‘Charentais T,’ ‘Isoblon’, ‘Isovac’ and ‘Margot’ in the greenhouse. Race 1,2, representating 58.8% (20/34) of all isolates, was widely distributed. Of the other pathogenic isolates, eight were identified as race 0, five as race 1, and one as race 2. This is the first report of physiologic races ofF.o.m. in Turkey. Of 44 melon cultivars tested in the greenhouse for resistance toF.o.m. races, 36 were found to be moderately resistant to race 0, 17 were susceptible to race 1,2, 34.1% were highly resistant to race 1, and 52.2% had moderate resistance to race 2. http://www.phytoparasitica.org posting July 16, 2002.     

甘蓝枯萎病菌1号和2号生理小种的快速检测与鉴定

 甘蓝枯萎病菌生理小种传统鉴定方法费时费力,不能满足生产的要求,因此需要建立一种快速、可靠的分子检测技术。本研究在甘蓝枯萎病菌1号和2号生理小种基因组测序的基础上,通过比较基因组学方法筛选1、2号生理小种各自的特异基因片段并设计引物,并分别以10个甘蓝枯萎病菌1号生理小种菌株、2个2号生理小种菌株、7个尖孢镰刀菌其他专化型菌株及4个外围菌株DNA为模板进行常规PCR扩增,筛选出甘蓝枯萎病菌1号和2号生理小种特异性引物,同时引入尖孢镰刀菌通用引物W106R/W106S,建立起一步三重PCR检测甘蓝枯萎病菌1、2号生理小种的分子检测技术。结果表明,该分子检测技术实现了在一次PCR反应中快速、准确地同步检测出甘蓝枯萎病菌DNA、罹病甘蓝组织和土壤中的甘蓝枯萎病菌1号和2号生理小种,对检测甘蓝植株是否感染枯萎菌及甘蓝种植区土壤是否受到枯萎菌的污染有实用价值。     

香蕉枯萎病菌1号和4号生理小种细胞壁降解酶的比较

对香蕉枯萎病菌1号和4号生理小种的细胞壁降解酶进行比较。通过测定4号生理小种在寄主体内细胞壁降解酶的活性发现,能检测到多聚半乳糖醛酸酶(PG)、果胶甲基半乳糖醛酸酶(PMG)、多聚半乳糖醛酸反式消除酶(PGTE)、果胶甲基反式消除酶(PMTE)和纤维素酶(Cx)的活性。在不同碳源培养条件下,2个生理小种均有以上5种酶的活性,以1%柑桔果胶为碳源时产生的PMG和PG活性明显高于其他几种酶的活性,而以1%CMC为碳源时,所产生的Cx都比其他几种酶的活性高。细胞壁降解酶同工酶电泳后发现,4号生理小种在寄主体内和体外培养时都比1号生理小种多分泌一种PG。2个生理小种在体外培养时分泌的PMG、PGTE和PMTE没有差异。4号生理小种在寄主体内比1号生理小种多分泌一种PMG,却少分泌一种PGTE,2个生理小种在寄主体内的PMTE则没有差异。     

Siderophore-mediated competition for iron and induced resistance in the suppression of fusarium wilt of carnation by fluorescent Pseudomonas spp

The mechanisms of suppression of fusarium wilt of carnation by two fluorescentPseudomonas strains were studied.Treatments of carnation roots withPseudomonas sp. WCS417r significantly reduced fusarium wilt caused byFusarium oxysporum f. sp.dianthi (Fod). Mutants of WCS417r defective in siderophore biosynthesis (sid^–) were less effective in disease suppression compared with their wild-type. Treatments of carnation roots withPseudomonas putida WCS358r tended to reduce fusarium wilt, whereas a sid^– mutant of WCS358 did not.Inhibition of conidial germination of Fod in vitro by purified siderophores (pseudobactins) of bothPseudomonas strains was based on competition for iron. The ferrated pseudobactins inhibited germination significantly less than the unferrated pseudobactins. Inhibition of mycelial growth of Fod by bothPseudomonas strains on agar plates was also based on competition for iron: with increasing iron content of the medium, inhibition of Fod by thePseudomonas strains decreased. The sid^– mutant of WCS358 did not inhibit Fod on agar plates, whereas the sid^– mutants of WCS417r still did. This suggests that inhibition of Fod by WCS358r in vitro was only based on siderophore-mediated competition for iron, whereas also a non-siderophore antifungal factor was involved in the inhibition of Fod by strain WCS417r.The ability of thePseudomonas strains to induce resistance against Fod in carnation grown in soil was studied by spatially separating the bacteria (on the roots) and the pathogen (in the stem). Both WCS417r and its sid^– mutant reduced disease incidence significantly in the moderately resistant carnation cultivar Pallas, WCS358r did not.It is concluded that the effective and consistent suppression of fusarium wilt of carnation by strain WCS417r involves multiple mechanisms: induced resistance, siderophore-mediated competition for iron and possibly antibiosis. The less effective suppression of fusarium wilt by WCS358r only depends on siderophore-mediated competition for iron.     

Development of sequence tagged site markers to identify races of Fusarium oxysporum f. sp. lactucae

By random amplified polymorphic DNA (RAPD) analysis of the representative isolates of each race of Fusarium oxysporum f. sp. lactucae, RAPD fragments of 0.6, 1.6, and 2.9kb were obtained. The 0.6-kb RAPD fragment was common to the representative isolates of all three races. Amplification of the 1.6- and 2.9-kb fragments were unique to the isolates of races 1 and 2, respectively. Sequence tagged site (STS) marker FLA0001, FLA0101, and FLA0201 were generated from the 0.6-, 1.6-, and 2.9-kb RAPD fragments, respectively. Polymerase chain reaction (PCR) analysis showed that FLA0001 was common to all 49 isolates of F. oxysporum f. sp. lactucae. FLA0101 was specifically generated from all 23 isolates of race 1 but not from races 2 or 3. FLA0201 was specifically amplified from all 12 isolates of race 2 but not from races 1 or 3. In two isolates of F. oxysporum f. sp. lactucum, PCR amplified FLA0001 and FLA0101 but not FLA0201. On the other hand, these STS markers were not detected from isolates of five other formae speciales. Because these STS markers were not generated from isolates of other plant pathogenic fungi, bacteria, or plant materials examined in this study, PCR analysis combined with the three STS markers should be a useful means for rapid identification of races of F. oxysporum f. sp. lactucae.     

Physiological races and vegetative compatibility groups of butterhead lettuce isolates of Fusarium oxysporum f. sp. lactucae in Japan

Races were identified among butterhead lettuce isolates of Fusarium oxysporum f. sp. lactucae collected from three geographical areas of Hokkaido, Shizuoka, and Fukuoka in Japan by inoculation tests using Fujinagas race differential cultivars of lettuce (i.e., Patriot, Costa Rica No. 4, and Banchu Red Fire). Eighteen isolates from Shizuoka and Fukuoka were designated race 3, with two unknown vegetative compatibility groups (VCGs) that differed from Ogisos VCG 1 and 2. These two new VCGs were obtained from both Shizuoka and Fukuoka. On the other hand, three isolates from Hokkaido were classified as race 1 and identified as VCG 1, which represents a VCG of crisphead isolates from Nagano.     

番茄枯萎病菌转录因子FolMsn2的生物学功能

为探究转录因子FolMsn2在番茄枯萎病菌Fusarium oxysporum f. sp. lycopersici生长发育及致病过程中的作用,以番茄枯萎病菌野生型菌株4287为材料,利用基因敲除方法获得FolMSN2基因缺失突变体△Folmsn2及回补体菌株△Folmsn2-C,通过测定菌株的生长速率、孢子产量及致病力等表型初步分析番茄枯萎病菌中FolMSN2的生物学功能。结果显示,与野生型菌株4287相比,FolMSN2基因敲除突变体△Folmsn2生长速率显著减慢,菌株产孢量显著下降,仅为野生型菌株4287产孢量的6.7%;外界环境压力胁迫试验结果显示,FolMSN2基因缺失突变体△Folmsn2对渗透压、盐胁迫的敏感性显著提高,而对细胞壁、氧化压力胁迫变得更加耐受。此外,FolMSN2基因缺失突变体△Folmsn2对番茄苗及果实的致病力显著下降,进一步分析发现FolMSN2基因缺失影响其对玻璃纸的穿透能力;亚细胞定位结果表明,FolMsn2蛋白定位于细胞核内。表明FolMsn2参与调控番茄枯萎病菌的营养生长、无性繁殖以及对不同环境胁迫的应答过程,其可能通过影响菌丝对寄主的穿透能...     

Search for sources of wide-spectrum resistance to Fusarium oxysporum f. sp. basilici isolates in accessions of Ocimum species

Ocimum (Lamiaceae) is an important plant genus, with many species used for food flavorings and for essential oils. Fusarium wilt (Fusarium oxysporum f. sp. basilici, FOB) is the most important disease of basil (O. basilicum L.). Twenty-five accessions of O. basilicum, five of O. americanum and two of O. campechianum were initially evaluated for resistance to one FOB isolate (named as FOB-1). Eight accessions (identified as resistant to FOB-1) and one susceptible control were reevaluated to FOB-1 and four other FOB isolates of distinct geographic origins. The FOB isolates varied in aggressiveness and interacted differentially with the Ocimum accessions. Two accessions of O. americanum, one of O. campechianum, and one of O. basilicum had high levels of resistance to all five FOB isolates. The Ocimum germplasm identified here could represent useful sources of resistance genes for developing cultivars with wide-spectrum resistance (i.e., effective against a broad range of FOB isolates). In addition, having a set of potential differential accessions might be useful for large-scale analysis of FOB isolates to demonstrate the presence of physiological races in the Ocimum–FOB pathosystem.     

香蕉枯萎病菌SIX2基因序列及特异性分析

依据侵染的香蕉品种范围不同,引起香蕉枯萎病的尖孢镰刀菌古巴专化型(Fusarium oxysporum f.sp.cubense,Foc)分为4个生理小种。Foc在寄主植物木质部分泌的SIX(secreted in xylem)蛋白可能与不同生理小种侵染的香蕉品种范围不同存在密切关系,找到Foc 4号生理小种(Foc4)特有的SIX蛋白编码基因将有利于进一步分析Foc4寄主范围更广的原因,从而开展抗病育种工作。采用PCR方法比较分析了国内不同地理区域及来源于澳大利亚与南非的Foc1、Foc2、Foc3、Foc4共56株菌株中的SIX2基因,并以8个以上其他专化型或其他种或属的热带作物病原菌共39株菌株分析了Foc4 SIX2基因序列的特异性,分析了SIX2基因的灵敏度及利用其检测感病植株。仅从供试的Foc4菌株基因组DNA中扩增出SIX2基因序列,检测的DNA灵敏度达5pg/25μL,并可用于检测感病的球茎组织。Foc4中特有的SIX2基因序列为特异性鉴定感病植株病原菌种类提供了快速分子检测技术,为明确该基因是否决定性影响Foc4对寄主差异性的选择研究提供了基础。     

A detailed evaluation method to identify sources of quantitative resistance to Fusarium oxysporum f. sp. pisi race 2 within a Pisum spp. germplasm collection

Fusarium oxysporum f. sp. pisi (Fop) is an important pathogen of field pea (Pisum sativum) worldwide. The constant evolution of the pathogen drives the necessity to broaden the genetic basis of resistance to Fop. To achieve this, it is important to have a large germplasm collection available and an accurate and efficient method for disease assessment. Here, a detailed evaluation method coupling disease incidence, disease rating over time and its related area under the disease progression curve (AUDPC) was established and used to screen a Pisum spp. germplasm collection against one isolate of Fop race 2. A large variation in the disease response of specific pea accessions ranging from highly resistant to susceptible was observed within the collection, indicating the quantitative expression of the resistance. The repetition of the inoculation experiments on a subset of 19 accessions, including two susceptible accessions, indicated that the scoring method was robust and reproducible and confirmed the highly resistant phenotypes of 11 accessions. To initiate the characterization of resistance mechanisms within these accessions, the external and internal stem symptoms were compared between these selected pea accessions, together with the extent of fungal colonization within plants. All these tests indicated that, in all resistant accessions, the resistance mechanisms efficiently stopped pathogen progression at the crown. Incorporation of these sources of resistance to breeding programmes will contribute to improved Fop resistance in pea cultivars.     

Reliable detection of the fungal pathogenfusarium oxysporum f.sp.albedinis, causal agent of bayoud disease of date palm, using molecular techniques

Bayoud, caused by the soilborne fungusFusarium oxysporum f.sp.albedinis (FOA), is the most serious disease of date palm. Since the disease is located in the North African countries of Morocco and Algeria, and advancing steadily eastwards, the ultimate goal is to prevent spread of the pathogen to other date-growing areas in the region and farther afield. Molecular diagnostic techniques have been developed for detection of FOA. In view of the fact that the fungus does not exist in Israel, DNA of FOA was obtained to determine the reliability of these methods for diagnostic purposes. Random amplified polymorphic DNA was not reliable enough for differentiation between FOA and various pathogenic and saprophyticFusarium isolates. However, the polymerase chain reaction utilizing FOA-specific primers was accurate and enabled amplification of a unique band specific to FOA DNA alone, and not that of the other tested pathogenic and saprophyticFusaria. The availability of a rapid and reliable diagnostic tool for detection of FOA will enable the Plant Protection and Inspection Services of the Israel Ministry of Agriculture to test date palm tissue for the presence of the pathogen. Contribution no. 513/00 from the Inst. of Plant Protection, ARO, The Volcani Center, Bet Dagan, Israel.     

Screening of cultivated and wild adzuki bean for resistance to race 3 of <Emphasis Type="Italic">Cadophora gregata</Emphasis> f. sp. <Emphasis Type="Italic">adzukicola</Emphasis>, cause of brown stem rot

Two diseases of adzuki bean, brown stem rot (BSR, caused by Cadophora gregata f. sp. adzukicola) and adzuki bean Fusarium wilt (AFW, caused by Fusarium oxysporum f. sp. adzukicola), are serious problems in Hokkaido and have been controlled using cultivars with multiple resistance. However, because a new race of BSR, designated race 3, was identified, sources of parental adzuki bean for resistance to race 3 were needed. Therefore, we examined 67 cultivars and lines of cultivated and wild adzuki bean maintained at the Tokachi Agricultural Experiment Station using a root-dip inoculation method. Consequently, nine adzuki bean cultivars, one wild adzuki bean accession and 30 lines (including two lines resistant to all the three races of BSR and AFW) were confirmed to be resistant or tolerant to race 3 of BSR, and we found a cultivar Akamame as well as a wild adzuki bean Acc2515 to be a new source for a resistance gene to the race 3. This cultivar also holds promise as a source of resistance against other races of BSR and AFW.