Seed Transmission of Pseudoperonospora cubensis

Pseudoperonospora cubensis, an obligate biotrophic oomycete causing devastating foliar disease in species of the Cucurbitaceae family, was never reported in seeds or transmitted by seeds. We now show that P. cubensis occurs in fruits and seeds of downy mildew-infected plants but not in fruits or seeds of healthy plants. About 6.7% of the fruits collected during 2012–2014 have developed downy mildew when homogenized and inoculated onto detached leaves and 0.9% of the seeds collected developed downy mildew when grown to the seedling stage. This is the first report showing that P. cubensis has become seed-transmitted in cucurbits. Species-specific PCR assays showed that P. cubensis occurs in ovaries, fruit seed cavity and seed embryos of cucurbits. We propose that international trade of fruits or seeds of cucurbits might be associated with the recent global change in the population structure of P. cubensis.     

Resurgence of cucurbit downy mildew in the United States: Insights from comparative genomic analysis of Pseudoperonospora cubensis

Pseudoperonospora cubensis, the causal agent of cucurbit downy mildew (CDM), is known to exhibit host specialization. The virulence of different isolates of the pathogen can be classified into pathotypes based on their compatibility with a differential set composed of specific cucurbit host types. However, the genetic basis of host specialization within P. cubensis is not yet known. Total genomic DNA extracted from nine isolates of P. cubensis collected from 2008 to 2013 from diverse cucurbit host types (Cucumis sativus, C. melo var. reticulatus, Cucurbita maxima, C. moschata, C. pepo, and Citrullus lanatus) in the United States were subjected to whole‐genome sequencing. Comparative analysis of these nine genomes confirmed the presence of two distinct evolutionary lineages (lineages I and II) of P. cubensis. Many fixed polymorphisms separated lineage I comprising isolates from Cucurbita pepo, C. moschata, and Citrullus lanatus from lineage II comprising isolates from Cucumis spp. and Cucurbita maxima. Phenotypic characterization showed that lineage II isolates were of the A1 mating type and belonged to pathotypes 1 and 3 that were not known to be present in the United States prior to the resurgence of CDM in 2004. The association of lineage II isolates with the new pathotypes and a lack of genetic diversity among these isolates suggest that lineage II of P. cubensis is associated with the resurgence of CDM on cucumber in the United States.     

Arrangement and size distribution of repeat and single copy DNA sequences in four species ofCucurbitaceae

DNA sequence organization patterns have been studied in fourCucurbitaceae plant species, namely,Luffa cylindrica (sponge gourd),L. acutangula (ridge gourd),Benincasa hispida (ash gourd) andCoccinia indica (ivy gourd). Extensive interspersion of repeat and single copy sequences has been observed in sponge gourd and ridge gourd. In ash gourd and ivy gourd, however, there is a limited interspersion of these sequences and a large portion of the single copy DNA remains uninterspersed. The interspersed repetitive sequences are composed of a major class (75–80%) of short repeats (300 base pairs long) and a minor class (15–20%) of long repeats (2 000–4 000 base pairs) in all the four species. The average length of single copy sequences dispersed among repeats is 1 800–2 900 base pairs. In spite of these gross similarities in the genome organization in the four species, the fraction of repeats and single copy sequences involved in short and long period interspersion patterns, and fraction of single copy sequences remaining uninterrupted by repeats are vastly different. The probable implications of these differences with respect to speciation events and rates of genome evolution are discussed.Molecular Analysis ofCucurbitaceae Genomes, III. — NCL Communication No.: 3595.     

Variation of Fungicide Resistance in Czech Populations of Pseudoperonospora cubensis

During the growing seasons between the years 2001 and 2004, 98 isolates of Pseudoperonospora cubensis from nine regions of Czech Republic were collected and screened for tolerance/resistance to the three frequently used fungicides (propamocarb, fosetyl‐Al, metalaxyl). Fungicides were tested in five different concentrations, using a floating disc bioassay. Fungicide effectiveness varied considerably. Propamocarb appeared most effective and all the isolates collected in the years 2001–2003 were found sensitive to all tested concentrations [607–9712 μg active ingredient (a.i.)/ml]. In 2004, some strains with increased resistance to propamocarb were detected. These strains were characterized by tolerance at the lowest concentrations (607 μg a.i./ml, eventually on 1214 μg a.i./ml); however, they were controlled by 2428 μg a.i./ml. Fosetyl‐Al was effective at the recommended concentration of 1600 μg a.i./ml against all isolates. However, the occurrence of isolates (collected in 2001) which sporulated at low concentrations (400 and 800 μg a.i./ml) indicated that the selection for tolerance occurs in the pathogen population. Nevertheless, this phenomenon was not confirmed with the P. cubensis isolates collected between the years 2002 and 2004. Metalaxyl was found ineffective, because 97% of the isolates showed the resistance to the recommended concentration (200 μg a.i./ml), and the other 3% of isolates expressed tolerant response. The majority of the isolates showed profuse and/or limited sporulation at higher concentrations (400 and 800 μg a.i./ml). A substantial shift to highly metalaxyl resistant strains was evident in the Czech P. cubensis populations during 2001–2004.     

Fungicide resistance in cucurbit downy mildew – methodological, biological and population aspects

Cucurbit downy mildew, caused by Pseudoperonospora cubensis, is among the most devastating diseases of cucurbitaceous plants. In spite of improved cultural practices and breeding for resistant cultivars, chemical control is still a very important tool to manage the disease. During the last several decades, many fungicides from various chemical classes have been developed. The occurrence of strains of P. cubensis resistant/tolerant to some fungicides encouraged research of this phenomenon. The first part of this article summarises the many different methodological approaches such as field trials, in vitro testing on active plant tissues or molecular diagnoses developed for the detection of resistant/tolerant strains of P. cubensis, as well as methods to collect and maintain pathogen isolates. The second part outlines the commonly used fungicides to control P. cubensis and their features like systemicity, biological and biochemical mode of action and translocation behaviour within plants. The last part deals with geographical aspects such as first appearance of resistance problems, distribution of resistance, temporal development of resistance under selection pressure by a fungicide, fitness of resistant subpopulations in competition with sensitive ones in the absence of a fungicide, as well as genetic and molecular sources of resistance.     

Molecular evidence of occurrence of Tomato Leaf Curl New Delhi Virus infecting cucurbits in several states in India

Abstract

Tomato Leaf Curl New Delhi Virus (ToLCNDV) is an important begomovirus constraint to the production of cucurbitaceous and other crops in India and its subcontinent. In this study first time, symptomatic samples of different cucurbits were collected from Telangana, Uttar Pradesh (Varanasi) and Madhya Pradesh location in India. The symptomatic samples were associated with begomovirus infection was confirmed by PCR amplification using specific universal primers Deng 540/541. Thirteen out of fifteen samples were amplified with newly designed bipartite specific primers JKR 58?F and JKR 59?R. In eleven out of thirteen bipartite samples contain betasatellite, confirmed by PCR amplification using specific primer CLB36F and CLB37R. The amplified PCR product with JKR58F and 59R of bitter gourd sample collected from Telangana was sequenced. The sequence was share 97.53% similarity with ToLCNDV infecting bottle gourd in Haryana in India (FN645905). Phylogenic analysis revealed that ToLCNDV infecting cucurbits are different, from ToLCNDV infecting tomato.     

The bottle gourd genome provides insights into Cucurbitaceae evolution and facilitates mapping of a Papaya ring‐spot virus resistance locus

Bottle gourd (Lagenaria siceraria) is an important vegetable crop as well as a rootstock for other cucurbit crops. In this study, we report a high‐quality 313.4‐Mb genome sequence of a bottle gourd inbred line, USVL1VR‐Ls, with a scaffold N50 of 8.7 Mb and the longest of 19.0 Mb. About 98.3% of the assembled scaffolds are anchored to the 11 pseudomolecules. Our comparative genomic analysis identifies chromosome‐level syntenic relationships between bottle gourd and other cucurbits, as well as lineage‐specific gene family expansions in bottle gourd. We reconstructed the genome of the most recent common ancestor of Cucurbitaceae, which revealed that the ancestral Cucurbitaceae karyotypes consisted of 12 protochromosomes with 18 534 protogenes. The 12 protochromosomes are largely retained in the modern melon genome, while have undergone different degrees of shuffling events in other investigated cucurbit genomes. The 11 bottle gourd chromosomes derive from the ancestral Cucurbitaceae karyotypes followed by 19 chromosomal fissions and 20 fusions. The bottle gourd genome sequence has facilitated the mapping of a dominant monogenic locus, Prs, conferring Papaya ring‐spot virus (PRSV) resistance in bottle gourd, to a 317.8‐kb region on chromosome 1. We have developed a cleaved amplified polymorphic sequence (CAPS) marker tightly linked to the Prs locus and demonstrated its potential application in marker‐assisted selection of PRSV resistance in bottle gourd. This study provides insights into the paleohistory of Cucurbitaceae genome evolution, and the high‐quality genome sequence of bottle gourd provides a useful resource for plant comparative genomics studies and cucurbit improvement.     

Suppression of melon fly (Diptera: Tephritidae) populations with releases of Fopius arisanus and Psyttalia fletcheri (Hymenoptera: Braconidae) in North Shore Oahu, HI, USA

Field experiments and surveys were conducted to evaluate the efficacy of releasing Fopius arisanus (Sonan) and Psyttalia fletcheri (Silvestri) parasitoids for suppression of Bactrocera cucurbitae (Coquillett) infesting wild Coccinia grandis L. In 2003 and 2004, P. fletcheri releases combined with natural emergence from wild fly populations resulted in better fly suppression, compared to the control site. While P. fletcheri developed freely on melon fly, F. arisanus was less successful at producing its own progeny, yet causing mortality and a twofold decrease in pupae recovered from ivy gourds. Concurrent releases of both parasitoids exerted a compounded suppressive effect on the melon fly population 2–3 times higher than during the pre-release phase. A similar, less obvious, pattern occurred in 2004, due to reduction of the ivy gourd fruit canopy. In 2005, only P. fletcheri was released, with greatly reduced impact, due to ivy gourd destruction and by growers leaving crop culls in fields, producing large numbers of melon flies unaffected by parasitoid releases.     

Novel hosts of the Eucalyptus canker pathogen Chrysoporthe cubensis and a new Chrysoporthe species from Colombia

The pathogen Chrysoporthe cubensis (formerly Cryphonectria cubensis) is best known for the important canker disease that it causes on Eucalyptus species. This fungus is also a pathogen of Syzygium aromaticum (clove), which is native to Indonesia, and like Eucalyptus, is a member of Myrtaceae. Furthermore, C. cubensis has been found on Miconia spp. native to South America and residing in Melastomataceae. Recent surveys have yielded C. cubensis isolates from new hosts, characterized in this study based on DNA sequences for the ITS and β-tubulin gene regions. These hosts include native Clidemia sericea and Rhynchanthera mexicana (Melastomataceae) in Mexico, and non-native Lagerstroemia indica (Pride of India, Lythraceae) in Cuba. Isolates from these hosts and areas group in the sub-clade of C. cubensis accommodating the South American collections of the fungus. This sub-clade also includes isolates recently collected from Eucalyptus in Cuba, which are used to epitypify C. cubensis. New host records from Southeast Asia include exotic Tibouchina urvilleana from Singapore and Thailand and native Melastoma malabathricum (Melastomataceae) in Sumatra, Indonesia. Consistent with their areas of occurrence isolates from the latter collections group in the Asian sub-clade of C. cubensis. DNA sequence comparisons of isolates from Tibouchina lepidota in Colombia revealed that they represent a new sub-clade within the greater Chrysoporthe clade. Isolates in this clade are described as Chrysoporthe inopina sp. nov., based on distinctive morphological differences.     

Distribution,Host Range and Disease Severity of Pseudoperonospora cubensis on Cucurbits in the Czech Republic

Cucurbit downy mildew, caused by Pseudoperonospora cubensis, is a major cucumber disease in the Czech Republic. Disease prevalence, host range and disease severity were evaluated from 2001 to 2009. The geographical distribution of P. cubensis was assessed on ca 80–100 locations per year in two main regions of the Czech Republic (central and southern Moravia, and eastern, northern and central Bohemia). Infection by P. cubensis was observed primarily on cucumber (Cucumis sativus) but only on the leaves. During the study, disease prevalence ranged from 66 to 100%. The majority of C. sativus crops were heavily infected at the end of the growing season (second half of August). Generally, P. cubensis was present at high or very high disease severity. The loss of foliage results in the reduction in the quality and quantity of marketable yield of fruit. Pseudoperonospora cubensis was widespread across the whole area of the Czech Republic studied. Very rarely, infection was recorded in muskmelon (Cucumis melo) and Cucurbita moschata. Of other pathogens, the most frequently recorded was the cucurbit powdery mildew (Golovinomyces cichoracearum and Podosphaera xanthii).     

Which Morphological Characteristics Are Most Influenced by the Host Matrix in Downy Mildews? A Case Study in Pseudoperonospora cubensis

Before the advent of molecular phylogenetics, species concepts in the downy mildews, an economically important group of obligate biotrophic oomycete pathogens, have mostly been based upon host range and morphology. While molecular phylogenetic studies have confirmed a narrow host range for many downy mildew species, others, like Pseudoperonospora cubensis affect even different genera. Although often morphological differences were found for new, phylogenetically distinct species, uncertainty prevails regarding their host ranges, especially regarding related plants that have been reported as downy mildew hosts, but were not included in the phylogenetic studies. In these cases, the basis for deciding if the divergence in some morphological characters can be deemed sufficient for designation as separate species is uncertain, as observed morphological divergence could be due to different host matrices colonised. The broad host range of P. cubensis (ca. 60 host species) renders this pathogen an ideal model organism for the investigation of morphological variations in relation to the host matrix and to evaluate which characteristics are best indicators for conspecificity or distinctiveness. On the basis of twelve morphological characterisitcs and a set of twelve cucurbits from five different Cucurbitaceae tribes, including the two species, Cyclanthera pedata and Thladiantha dubia, hitherto not reported as hosts of P. cubensis, a significant influence of the host matrix on pathogen morphology was found. Given the high intraspecific variation of some characteristics, also their plasticity has to be taken into account. The implications for morphological species determination and the confidence limits of morphological characteristics are discussed. For species delimitations in Pseudoperonospora it is shown that the ratio of the height of the first ramification to the sporangiophore length, ratio of the longer to the shorter ultimate branchlet, and especially the length and width of sporangia, as well as, with some reservations, their ratio, are the most suitable characteristics for species delimitation.     

Morphological variability in Rhizoctonia solani isolates from different agro-ecological zones of West Bengal,India

Sheath blight caused by Rhizoctonia solani Kühn is one of the most important diseases of rice, resulting in significant yield loss in rice every year. The rice-based intensified cropping system, edapho-climatological and host variations make the disease problem more complicated. However, the incidence and severity of the disease differ from one location to other, one geographical area to other and even differs from country and region wise. The reasons for this disease severity have been attributed to the variation in host genotype, virulence of the pathogen, prevalence of congenial soil physico-chemical and plants’ surrounding environment and cultural practices. Sixty-seven number of isolates of R. solani from rice, 12 no. of R. solani isolates associated with maize, sugarcane, weeds, cabbage, pointed gourd, watermelon, potato, dolichos bean and aparajita were isolated from different agro-ecological region of West Bengal and three no. of isolates of R. oryzae-sativae obtained from Department of Plant Pathology, BCKV, were used in the present study. Cultural and morphological characteristics revealed considerable diversity among the R. solani isolates. Cultural and morphological analysis of WB isolates of rice has indicated that the diversity among the isolates does not correlated with their origin. On the basis of morphological characteristics, R. solani isolates could be easily separated from R. oryzae-sativae isolates. The no. of sclerotia, hyphal length, wt. of sclerotia and mycelial growth rate are the important morphological markers for differentiation of R. oryzae-sativae from R. solani isolates.     

Host specificity shapes population structure of pinworm parasites in Caribbean reptiles

Host specificity is one of the potential factors affecting parasite diversification because gene flow may be facilitated or constrained by the number of host species that a parasite can exploit. We test this hypothesis using a costructure approach, comparing two sympatric pinworm parasites that differ in host specificity – Parapharyngodon cubensis and Spauligodon anolis – on the Puerto Rican Bank and St. Croix in the Caribbean. Spauligodon anolis specializes on Anolis lizards, whereas P. cubensis parasitizes Anolis lizards as well as many other species of lizards and snakes. We collected lizards from across the Puerto Rican Bank and St. Croix, sampled them for S. anolis and P. cubensis and generated nuclear and mitochondrial sequence data from the parasites. We used these data to show that P. cubensis is comprised of multiple cryptic species that exhibit limited population structure relative to S. anolis, which is consistent with our prediction based on their host specificity. We also provide evidence that the distribution of P. cubensis species is maintained by competitive exclusion, and in contrast to previous theoretical work, the parasites with the greatest number of host species also reach the highest prevalence rates. Overall, our results are consistent with the hypothesis that host specificity shapes parasite diversification, and suggest that even moderate differences in host specificity may contribute to substantial differences in diversification.     

Variability in the production of amylase by three isolates ofMyrothecium roridum

Amylase production by three isolates ofMyrothecium roridum under different cultural conditions was studied. Starch followed by dextrin induced maximum amylase production (dextrinizing and saccharifying) by all the three isolates. Glucose was a poor substrate for the production of amylases. Bitter gourd isolate was a comparatively more efficient producer of amylases than the other two isolates. Addition of glucose to the starch medium resulted in a repression of amylases. Urea was a good source of nitrogen for induction of dextrinizing amylase in bitter gourd and pearl millet isolates.l-Asparagine,l-tyrosine were good sources of nitrogen for induction of saccharifying amylase in bitter gourd, water melon and pearl millet isolate, respectively. With a few exceptions, dextrinizing amylase production was inhibited by gibberellic acid, cycocel, calcium chloride and calcium sulfate, while these substances stimulated saccharifying-amylase production. No correlation could be observed between amylase production and vegetative growth. Amylases of all the three isolates ofM. roridum were characterized.     

NO和钙信使系统在草酸诱导黄瓜叶片抗霜霉病中的作用

通过草酸及其与不同抑制剂亚甲基蓝、EGTA、氯丙嗪和Li+组合处理黄瓜叶片,研究了草酸与抑制剂不同处理组合方式对黄瓜叶片POD活性和叶片病情指数的影响,探讨NO、钙信使系统在草酸诱导叶片抗霜霉病中的作用.结果显示,10～70mmol/L草酸均能不同程度诱导黄瓜叶片POD活性的升高,提高叶片对黄瓜霜霉病的抗病性,降低叶片病情指数,并以30mmol/L效果最好.4种抑制剂分别与30mmol/L草酸同时或先于草酸处理,或草酸处理后一定时间再用抑制剂处理,均明显抑制黄瓜叶片POD活性的升高及病情指数的降低.研究表明,NO、Ca2+、钙调素(CaM)和磷酸肌醇均可能参与了草酸诱导黄瓜霜霉病抗性的信号转导过程.     

Zucchini Yellow Fleck Virus is an Emergent Virus on Melon in Sicily (Italy)

Since 2006, winter melon plants (Cucumis melo L. var inodorus) showing symptoms of pin‐point yellow spots were noticed in Sicily (Italy). Leaf samples were tested by enzyme‐linked immunosorbent assay to the most important viruses‐infecting cucurbits. Zucchini yellow fleck virus (ZYFV, genus Potyvirus) was the only virus detected. Surveys in 2007 and 2008 revealed an increasing number of sites in Sicily with ZYFV‐infected winter melon plants. To confirm the identity of the virus as ZYFV, two isolates from different locations were sequenced and shown to be approximately 85% identical to the published sequences of isolates previously identified in Italy and France. This is the first report of ZYFV occurring on melon in Italy.     

Development of Pathogenicity and AFLP to Characterize Fusarium oxysporum f.sp. momordicae Isolates from Bitter Gourd in China

Bitter gourd (Momordica charantia L.) cultivated in China is regarded as an important vegetable crop and is of considerable economic importance. However, it is susceptible to fusarium wilt, which causes heavy economic losses. Forty‐eight isolates were isolated from diseased bitter gourd plants that displayed typical fusarium wilt symptoms. Based on the morphological features, the rDNA internal transcribed space (ITS) sequences, pathogenicity and host biotypes, all of the isolates tested were pathogenic to the susceptible bitter gourd plants species (cv. ‘Guinongke No. 2’) and were identified as Fusarium oxysporum f. sp. momordicae (FOM). Our results classified different isolates as slightly, moderately or highly virulent. Among the isolates tested, 43 isolates slightly infected bottle gourd (Lagenaria siceraria var. clavata), whereas they did not infect other species from the family Cucurbitaceae. Genetic diversity among 48 isolates was characterized using amplified fragment length polymorphism (AFLP) analysis. The number of bands amplified by each primer pairs ranged from 41 to 66, with sizes ranging from 200 to 500 bp. A total of 366 bands were observed, out of which 363 were polymorphic (99.14%). The Nei's genetic identity of the six geographical populations varied from 0.7362 to 0.9707. The mean Nei's gene diversity index (H = 0.2644) and the mean Shannon's information index (I = 0.4071) at species level were higher than ones at populations level, indicated that the variation within populations was greater than that among populations. The Nei's GST (0.5103) and gene flow (Nm = 0.4923) revealed that genetic differentiation was mainly among populations and few gene exchanges. The dendrogram obtained from AFLP marker showed that there was a good correlation between isolates from different geographical locations and their pathogenicity. The AFLP marker effectively distinguished the high virulent isolates from the less virulent isolates. The highly virulent isolates were distinctly separated in different clusters, which indicated a significantly high correlation with the geographical origin in the AFLP dendrogram. The pathogenicity and molecular marker analysis confirmed the presence of variation in virulence as well as genetic diversity among the FOM isolates studied.     

Molecular Characterization of Jordanian Isolates of Cucurbit yellow stunting disorder virus

Cucurbit yellow stunting disorder virus (CYSDV) causes high yield losses to cucurbits in many parts of the world. In 1995, it was detected for the first time in Jordan but Jordanian isolates have never been characterized at the molecular level. In 2005 and 2006, leaf samples (2344) from symptomatic plants were collected from Jordan Valley, Ma'daba, Al‐Mafraq, Al‐Karak, Jarash, Al‐Tafila, Al‐Balqa’, Al‐Zarqa’, Amman and Irbid. Detection by tissue blot immunoassay (TBIA) showed that the infection rate of CYSDV in collected samples was 58.5%. The coat protein (CP) gene of CYSDV was amplified from 36 selected samples by IC‐RT‐PCR. The amplicons (753 bp) from 16 isolates, representing all surveyed regions, were cloned and used for the single‐strand conformation polymorphism (SSCP) analysis. Seven different SSCP patterns (P1–P7) were observed for the analysed Jordanian isolates. For further characterization, the CP genes from isolates with different SSCP patterns were sequenced, and the sequences were deposited in the GenBank under the accession numbers DQ903105 – DQ903111 . Sequence alignment and phylogenetic analysis revealed that all CYSDV isolates investigated in this study were most closely related to isolates previously reported to belong to the Western group of CYSDV.     

瓜类白粉病的生物防治研究进展

白粉病是危害瓜类作物最为严重的一种气传病害,引起该病的病原菌为单囊壳白粉菌Podosphaera xanthii(synonym Podosphaera fusca)和二孢白粉菌Golovinomyces cichoracearum(synonym Erysiphe cichoracearum),其中对Podosphaera xanthii的报道较为常见。主要概述了瓜类白粉病病原菌的分类地位、病理特征和生物防治方面的研究进展,重点阐述了微生物源生防制剂和植物源生防制剂对瓜类白粉病的防治成果,并对当前研究与应用中存在的问题进行了探讨,为该病的深入研究和有效防治提供参考。