Impact of Field Dodder (<Emphasis Type="Italic">Cuscuta campestris</Emphasis> Yunk.) on Chlorophyll Fluorescence and Chlorophyll Content of Alfalfa and Sugar Beet Plants

The impact that the parasitic plant field dodder (Cuscuta campestris Yunk.) has on chlorophyll fluorescence and chlorophyll content of infested alfalfa (Medicago sativa L.) and sugar beet (Beta vulgaris L.) was examined under controlled conditions. Several parameters of chlorophyll fluorescence were measured in infested and non-infested alfalfa and sugar beet plants over a period of twenty days, beginning with the day of infestation. Chlorophyll contents (total, relative and ratio of chlorophyll a to b) were determined 1, 7, 14 and 20 days after infestation (DAI). Field dodder was found to affect both the total and relative chlorophyll contents in infested alfalfa and sugar beet, causing significant reduction in chlorophyll content in both host plants. This parasitic plant also affects a number of parameters of chlorophyll fluorescence (F_o, F_v/F_m, Φ_PSII, F_v and IF), showing that these parameters may be considered sensitive indicators of the impact that field dodder has on its host plants.     

First report of parasite dodder (Cuscuta campestris) on jujube trees (Ziziphus jujuba) from Iran

Jujube (Zizyphus jujuba Mill.) as a naturally host for dodder (Cuscuta campestris Yunck.) is newly recorded from Southern Khorasan province of Iran. This is the first report of C. campestris, a stem parasite plant, naturally infecting jujube trees worldwide.     

Host-synthesized cysteine protease-specific inhibitor disrupts <Emphasis Type="Italic">Cuscuta campestris</Emphasis> parasitism in tomato

Dodder (Cuscuta campestris) is one of the most important pests of tomato causing severe losses in yield. Cuscutain is a pre-pro-protein produced by dodder that has a cysteine proteinase function essential for normal development of the haustoria and parasitism, which involves the secretion and activation of cuscutain cysteine protease in the host plant tissue. The propeptide subunit of this enzyme has an inhibitory function and restricts the enzymatic activity of cuscutain. Here, we transformed the inhibitory propeptide segment of this enzyme into tomato and examined the tomato resistance to C. campestris. We demonstrate the expression of inhibitory propeptide in transgenic plants and find that it effectively interrupted cuscutain enzyme activity and haustoria development at the endophytic stage. Mature haustoria infecting transgenic hosts showed defects in searching hyphae development and these structures were not elongate, and in most cases no functional haustoria were formed due to inhibitor expression in the transgenic plants after prehaustoria contact. Dodder grown on transgenic lines showed an overall reduction in vigor and fecundity due to defective attachment of haustoria. The increased growth of dodder-challenged transgenic plants relative to controls, demonstrates the efficacy of cysteine protease inhibition in parasite plant control.     

Gypsy moth herbivory induced volatiles and reduced parasite attachment to cranberry hosts

Interactions between species can have cascading effects that shape subsequent interactions. For example, herbivory can induce plant defenses that affect subsequent interactions with herbivores, pathogens, mycorrhizae, and pollinators. Parasitic plants are present in most ecosystems, and play important roles in structuring communities. However, the effects of host herbivory on parasitic plants, and the potential mechanisms underlying such effects, are not well known. We conducted a greenhouse study to ask whether gypsy moth (Lymantria dispar) damage, host cultivar, and their interaction affected preference of the stem parasite dodder (Cuscuta spp.) on cranberry hosts (Vaccinium macrocarpum). We then assessed the mechanisms that could underlie such effects by measuring induced changes in phytohormones and secondary compounds. We found that damage by gypsy moths delayed dodder attachment by approximately 0.3 days when dodder stems were added 2 days after damage, and reduced attachment by more than 50% when dodder stems were added 1 week after host plant damage. Gypsy moth damage significantly increased jasmonic acid (JA) levels, total volatile emissions, and the flavonol, quercetin aglycone, suggesting possible mechanisms underlying variation in dodder ability to locate or attach to hosts. Dodder preference also differed between cranberry cultivars, with the highest attachment on the cultivar that had significantly lower levels of total volatile emissions and total phenolic acids, suggesting that volatile composition and phenolics may mediate dodder preference. Our results indicate that herbivory can reduce subsequent attachment by a highly damaging parasitic plant, demonstrating the potential importance of early damage for shaping subsequent species interactions.     

Diet mixing in a parasitic plant: adaptation or constraint?

Some herbivores deliberately consume a mixed diet, either to obtain a superior mix of nutrients or to avoid consuming too much of any one toxin. Few studies have examined diet mixing in parasitic plants, which typically have very broad host ranges. We offered the parasitic plant Cuscuta indecora (dodder), a range of mixtures of two hosts (Iva frutescens and Borrichia frutescens) in the greenhouse, and observed correlations between the host community and Cuscuta infection in the field. In the greenhouse, Cuscuta performed better on mixtures with a higher relative abundance of Iva. Cuscuta selectively foraged on whichever host was more abundant (diet switching), the exact opposite of the behavior that would be expected if diet mixing was advantageous. In the field, the intensity of Cuscuta infections was decreased by the presence of non-hosts (grasses), not strongly affected by the presence of intermediate hosts, and increased by the presence of Borrichia. We conclude that Cuscuta does not obtain nutritional benefits from a broad diet, but instead is constrained by its relative lack of mobility to attack hosts of intermediate value. In general, the lack of mobility of parasitic plants compared to herbivores probably selects for broad host ranges in parasitic plants.     

Factors restraining parasitism of the invasive vine Mikania micrantha by the holoparasitic plant Cuscuta campestris

Mikania micrantha (Asteraceae) is one of the 10 most invasive weeds in the world and has caused tremendous economic and environmental losses in southern China. The dodder Cuscuta campestris (Convolvulaceae) is a native holoparasite that can parasitize and suppress M. micrantha, and thus is recommended as an effective control agent. However, the natural growth of dodder lags behind that of M. micrantha and fails to exert direct year-round suppression. To verify the effective parasitic distance, we placed a dodder seedling at a designated distance from the stem of M. micrantha and monitored coiling, haustorium formation, and survival. To verify suitable host stems for the parasite, we grew M. micrantha for more than 6 months to form stems of different sizes, taped dodder seedlings to the stems, and monitored. We used various temperatures to determine the effect on dodder seed germination and M. micrantha sprouting. The results showed that a dodder–host distance of 4 cm decreased the probability of successful parasitism to 0; dodder seedlings cannot parasitize M. micrantha stem diameters ≥0.3 cm; and the temperatures for the highest dodder seed germination and M. micrantha sprouting are 26 and 30 °C, respectively. We conclude that the lack of suitable M. micrantha parts within the dodder’s effective parasitism distance is the major cause of restricted dodder parasitism and that the lower temperature for the highest dodder germination compared to that for the highest M. micrantha sprouting may decrease the possibility of parasitism. To acquire aggressive parasitism, dodder should be manually assisted by dispersing its vegetative form.     

Improvement of in vitro embryo maturation,plantlet regeneration and transformation efficiency from alfalfa (<Emphasis Type="Italic">Medicago sativa</Emphasis> L.) somatic embryos using <Emphasis Type="Italic">Cuscuta campestris</Emphasis> extract

Developmental deficiency of somatic embryos and regeneration to plantlets, especially in the case of transformation, are major problems of somatic embryo regeneration in alfalfa. One of the ways to overcome these problems is the use of natural plant regulators and nutrients in the culture medium of somatic embryos. For investigating the influence of Cuscuta campestris extract on the efficiency of plant regeneration and transformation, chimeric tissue type plasminogen activator was transferred to explants using Agrobacterium tumefaciens, and transgenic plants were recovered using medium supplemented with different concentration of the extract. Transgenic plants were analyzed by PCR and RT-PCR. Somatic embryos of Medicago sativa L. developed into plantlets at high frequency level (52 %) in the maturation medium supplemented with 50 mg 1^?1 C. campestris extract as compared to the medium without extract (26 %). Transformation efficiency was 29.3 and 15.2 % for medium supplemented with dodder extract and without the extract, respectively. HPLC and GC/MS analysis of the extract indicated high level of ABA and some compounds such as Phytol, which can affect the somatic embryo maturation. The antibacterial assay showed that the extract was effective against some strains of A. tumefaciens. These results have provided a scientific basis for using of C. campestris extract as a good natural source of antimicrobial agents and plant growth regulator as well, that can be used in tissue culture of transgenic plants.     

Trans-species small RNAs move long distances in a parasitic plant complex

Parasitic plants exchange various types of RNAs with their host plants, including mRNA, and small non-coding RNA. Among small non-coding RNAs, miRNA production is known to be induced at the haustorial interface. The induced miRNAs transfer to the host plant and activate secondary siRNA production to silence target genes in the host. In addition to interfacial transfer, long-distance movement of the small RNAs has also been known to mediate signaling and regulate biological processes. In this study, we tested the long-distance movement of trans-species small RNAs in a parasitic-plant complex. Small RNA-Seq was performed using a complex of a stem parasitic plant, Cuscuta campestris, and a host, Arabidopsis thaliana. In the host plant’s parasitized stem, genes involved in the production of secondary siRNA, AtSGS3 and AtRDR6, were upregulated, and 22-nt small RNA was enriched concomitantly, suggesting the activation of secondary siRNA production. Stem-loop RT-PCR and subsequent sequencing experimentally confirmed the mobility of the small RNAs. Trans-species mobile small RNAs were detected in the parasitic interface and also in distant organs. To clarify the mode of long-distance translocation, we examined whether C. campestris-derived small RNA moves long distances in A. thaliana sgs3 and rdr6 mutants or not. Mobility of C. campestris-derived small RNA in sgs3 and rdr6 mutants suggested the occurrence of direct long-distance transport without secondary siRNA production in the recipient plant.     

Sterol biosynthesis in heterotrophic plant parasites

Cycloartenol derivatives are present in the non-photosynthetic parasitic plants Cuscuta europaea (dodder), Cuscuta epithymum and Orobanche lutea (broomrape). C.europaea and O.lutea are capable of biosynthesizing their own sterols. There is therefore no direct link, in a chlorophyll-containing phylum, between the cycloartenol pathway to sterols and photosynthesis.     

Physiological and ecological warnings that dodders pose an exigent threat to farmlands in Eastern Africa

Invasive holoparasitic plants of the genus Cuscuta (dodder) threaten African ecosystems due to their rapid spread and attack on various host plant species. Most Cuscuta species cannot photosynthesize and hence rely on host plants for nourishment. After attachment through a peg-like organ called a haustorium, the parasites deprive hosts of water and nutrients, which negatively affects host growth and development. Despite their rapid spread in Africa, dodders have attracted limited research attention, although data on their taxonomy, host range, and epidemiology are critical for their management. Here, we combine taxonomy and phylogenetics to reveal the presence of field dodder (Cuscuta campestris) and C. kilimanjari (both either naturalized or endemic to East Africa), in addition to the introduction of the giant dodder (C. reflexa), a south Asian species, in continental Africa. These parasites have a wide host range, parasitizing species across 13 angiosperm orders. We evaluated the possibility of C. reflexa to expand this host range to tea (Camelia sinensis), coffee (Coffea arabica), and mango (Mangifera indica), crops of economic importance to Africa, for which haustorial formation and vascular-bundle connections in all three crops revealed successful parasitism. However, only mango mounted a successful postattachment resistance response. Furthermore, species distribution models predicted high habitat suitability for Cuscuta spp. across major tea- and coffee-growing regions of Eastern Africa, suggesting an imminent risk to these crops. Our findings provide relevant insights into a poorly understood threat to biodiversity and economic wellbeing in Eastern Africa, and provide critical information to guide development of management strategies to avert Cuscuta spp. spread.

Microscopy and habitat suitability modeling provide an early warning that dodder’s invasion in Eastern Africa poses a threat to important cash crops.     

Epidermal cell-patterning genes of the stem parasitic plant Cuscuta campestris are involved in the development of holdfasts

Cuscuta campestris, a stem parasitic plant, commences its parasitic behavior by forming a specialized disk-like adhesive structure called a holdfast, which facilitates tight adhesion to the stem surface of the host plant. The morphology of epidermal cells in the holdfast is similar to that of the leaf trichome and root hairs of dicotyledonous plants. However, the regulatory network underlying the development of the holdfast has not been elucidated to date. In this study, we assessed the roles of epidermal cell-patterning genes in the development of a holdfast. Epidermal cell-patterning genes of C. campestris, including CcWER, CcGL3, CcTTG1, CcGL2, and CcJKD, were expressed slightly before the initiation of the outgrowth of stem epidermal cells. CcJKD-silencing repressed CcJKD, CcWER, CcGL3, CcTTG1, CcGL2; therefore, CcJKD is an upstream regulator of other epidermal cell-patterning genes. Unlike other genes, CcCPC was not upregulated after attachment to the host, and was not repressed by CcJKD-silencing. Protein interaction assays demonstrated that CcJKD interacted with CcTTG1 and CcCPC. Furthermore, CcJKD-silencing repressed the outgrowth of holdfast epidermal cells. Therefore, C. campestris invokes epidermal cell-patterning genes for the outgrowth of holdfast epidermal cells, and their regulatory mechanism is different from those for leaf trichome or root hairs.     

Proteomic analysis of blue light-induced twining response in Cuscuta australis

The parasitic plant Cuscuta australis (dodder) invades a variety of species by entwining the stem and leaves of a host and developing haustoria. The twining response prior to haustoria formation is regarded as the first sign for dodders to parasitize host plants, and thus has been the focus of studies on the host-parasite interaction. However, the molecular mechanism is still poorly understood. In the present work, we have investigated the different effects of blue and white light on the twining response, and identified a set of proteins that were differentially expressed in dodder seedlings using a proteomic approach. Approximately 1,800 protein spots were detected on each 2-D gel, and 47 spots with increased or decreased protein levels were selected and analyzed with MALDI-TOF-MS. Peptide mass fingerprints (PMFs) obtained for these spots were used for protein identification through cross-species database searches. The results suggest that the blue light-induced twining response in dodder seedlings may be mediated by proteins involved in light signal transduction, cell wall degradation, cell structure, and metabolism.     

Host-produced ethylene is required for marked cell expansion and endoreduplication in dodder search hyphae

The genus Cuscuta comprises stem holoparasitic plant species with wide geographic distribution. Cuscuta spp. obtain water, nutrients, proteins, and mRNA from their host plants via a parasitic organ called the haustorium. As the haustorium penetrates into the host tissue, search hyphae elongate within the host tissue and finally connect with the host’s vascular system. Invasion by Cuscuta spp. evokes various reactions within the host plant’s tissues. Here, we show that, when Arabidopsis (Arabidopsis thaliana) is invaded by Cuscuta campestris, ethylene biosynthesis by the host plant promotes elongation of the parasite’s search hyphae. The expression of genes encoding 1-aminocylclopropane-1-carboxylic acid (ACC) synthases, ACC SYNTHASE2 (AtACS2) and ACC SYNTHASE6 (AtACS6), was activated in the stem of Arabidopsis plants upon invasion by C. campestris. When the ethylene-deficient Arabidopsis acs octuple mutant was invaded by C. campestris, cell elongation and endoreduplication of the search hyphae were significantly reduced, and the inhibition of search hyphae growth was complemented by exogenous application of ACC. In contrast, in the C. campestris-infected Arabidopsis ethylene-insensitive mutant etr1-3, no growth inhibition of search hyphae was observed, indicating that ETHYLENE RESPONSE1-mediated ethylene signaling in the host plant is not essential for parasitism by C. campestris. Overall, our results suggest that C. campestris recognizes host-produced ethylene as a stimulatory signal for successful invasion.

Growth of Cuscuta campestris search hyphae is inhibited in ethylene-deficient Arabidopsis mutants, suggesting that host-derived ethylene acts as a stimulatory signal for parasitism by Cuscuta spp.     

Genetic diversity of dodder (<Emphasis Type="Italic">Cuscuta</Emphasis> spp.) collected from commercial cranberry production as revealed in the<Emphasis Type="Italic">trn</Emphasis>L (UAA) intron

Swamp dodder (Cuscuta gronovii) is a parasitic plant detrimental to cranberries. Observation of emergence of dodder seeds collected from a cultivated cranberry bog in Massachusetts revealed 2 or more peak emergence times during 4 consecutive growing seasons. Molecular methods were used to investigate genetic variation among the emerging dodder seedlings. On emergence, dodder seedlings were collected and analyzed for DNA sequence diversity in thetrnL (UAA) intron, a noncoding region of chloroplast DNA. DNA sequence analysis of 87 seedlings collected during the 1999 and 2000 growing seasons revealed the presence of 2 dodder ecotypes, designated A and B. Comparative DNA sequence analysis indicated that in thetrnL (UAA) intron, the sequence of ecotype A is identical to that ofCuscuta gronovii, whereas the sequence of ecotype B is closest to that ofCuscuta attenuata (99.3% sequence identity; 293 bases considered). ABg/II restriction enzyme cut site was identified that distinguished between thetrnL (UAA) introns of ecotypes A and B. Restriction fragment length polymorphism (RFLP) was used to analyze the sequences of 100 seedlings collected during the growing seasons of 2001 and 2002. Only 10 of the 187 samples were ecotype A, all of which emerged on or before May 7 in the growing seasons. Therefore, the predominant dodder haplotype found in this study may be a close relative ofC. attenuata and notC. gronovii, the common species found in cranberry bogs.     

Transmission Characteristics of the Clover Phyllody Agent by Dodder*

The results obtained in investigations on the biological characteristics of the clover phyllody agent (CPA) in respect to its transmission by the experimental vector Cuscuta campestris Younk, using Catbarantus roseus L. as constant host, are reported. Transmission efficiency of CPA was comparable whether the “stable bridge” or the “cut strand” of dodder method was adopted. The acquisition and inoculation threshold was between 4 and 6 days. The efficiency of transmission became greater by lengthening the test period up to 15 days. In cuttings of dodder maintained in water after recision, the maximum retention of infectivity, in respect to transmission capacity of CPA, was 28 days. It was proved that CPA invades C. campestris in a persistent manner. In comparative tests between CPA and APA (apple proliferation agent) it was demonstrated that the former is more efficiently transmitted than the latter. Moreover there is a much higher pathogenic effect of APA than CPA in dodder; in fact C. campestris as well as C. subinclusa Dur. and Hilg. develops poorly and shows deformations when growing on AP infected periwinkles. The basic distinguishable symptoms of the two diseases in C. roseus are: virescence and phyllody for CP; small but never virescent flowers for AP. MLOs have been detected, by electron microscopy, in sieve elements of C. roseus and C. campestris infected by CPA.