Inheritance of Resistance to Pratylenchus penetrans in Alfalfa

Fifty-two alfalfa (Medicago sativa L.) clones, randomly selected from the cultivar Baker and the experimental line MNGRN-4, were evaluated for resistance (based on nematode reproduction) to Pratylenchus penetrans in growth chamber tests (25 C). Twenty-five clones, representing the range of nematodes and eggs per plant, were selected and retested. Four moderately resistant and two susceptible alfalfa clones were identified. Inheritance of resistance to P. penetrans was studied in these six clones using a diallel mating design. The S₁, Fl, and reciprocal progenies differed for numbers of nematodes and eggs per g dry root and for shoot and root weights (P < 0.05). Resistance, measured as numbers of nematodes in roots, was correlated between parental clones and their S₁ families (r = 0.94), parental clones and their half-sib families (r = 0.81), and S₁ and half-sib families (r = 0.88). General combining ability (GCA) effects were significant for nematode resistance traits. Both GCA and specific combining ability (SCA) effects were significant for plant size traits, but SCA was more important than GCA in predicting progeny plant size. Reciprocal effects were significant for both nematode resistance and plant size traits, which may slow selection progress in long-term selection programs. However, the GCA effects are large enough that breeding procedures that capitalize on additive effects should be effective in developing alfalfa cultivars with resistance to P. penetrans.     

Development of Full-Length cDNAs from Chinese Cabbage (Brassica rapa Subsp. pekinensis) and Identification of Marker Genes for Defence Response

Arabidopsis belongs to the Brassicaceae family and plays an important role as a model plant for which researchers have developed fine-tuned genome resources. Genome sequencing projects have been initiated for other members of the Brassicaceae family. Among these projects, research on Chinese cabbage (Brassica rapa subsp. pekinensis) started early because of strong interest in this species. Here, we report the development of a library of Chinese cabbage full-length cDNA clones, the RIKEN BRC B. rapa full-length cDNA (BBRAF) resource, to accelerate research on Brassica species. We sequenced 10 000 BBRAF clones and confirmed 5476 independent clones. Most of these cDNAs showed high homology to Arabidopsis genes, but we also obtained more than 200 cDNA clones that lacked any sequence homology to Arabidopsis genes. We also successfully identified several possible candidate marker genes for plant defence responses from our analysis of the expression of the Brassica counterparts of Arabidopsis marker genes in response to salicylic acid and jasmonic acid. We compared gene expression of these markers in several Chinese cabbage cultivars. Our BBRAF cDNA resource will be publicly available from the RIKEN Bioresource Center and will help researchers to transfer Arabidopsis-related knowledge to Brassica crops.     

Optimizing Phytoplasma DNA purification for genome analysis.

Genome analysis of uncultivable plant pathogenic phytoplasmas is hindered by the difficulty in obtaining sufficient quantities of phytoplasma enriched DNA. We investigated a combination of conventional enrichment techniques such as cesium chloride (CsCl) buoyant gradient centrifugation, and new methods such as rolling circle amplification (RCA), suppression subtractive hybridization (SSH), and mirror orientation selection (MOS) to obtain DNA with a high phytoplasma:host ratio as the major first step in genome analysis of Candidatus Phytoplasma australiense. The phytoplasma:host ratio was calculated for five different plasmid libraries. Based on sequence data, 90% of clones from CsCl DNA enrichment contained chromosomal phytoplasma DNA, compared to 60% from RCA CsCl DNA and 20% from SSH subtracted libraries. Based on an analysis of representative libraries, none contained plant DNA. A high percentage of clones (80-100%) from SSH libraries contained extrachromosomal DNA (eDNA), and we speculate that eDNA in the original DNA preparation was amplified in subsequent SSH manipulations. Despite the availability of new techniques for nucleic acid amplification, we found that conventional CsCl gradient centrifugation was the best enrichment method for obtaining chromosomal phytoplasma DNA with low host DNA content.     

Comparative gene expression in the symbiotic and aposymbiotic Aiptasia pulchella by expressed sequence tag analysis

Intracellular symbiotic relationships are prevalent between cnidarians, such as corals and sea anemones, and the photosynthetic dinoflagellate symbionts. However, there is little understanding about how the genes express when the symbiotic relationship is set up. To characterize genes involved in this association, the endosymbiosis between sea anemone, Aiptasia pulchella, and dinoflagellate zooxanthellae, Symbiodinium spp., was employed as a model. Two complementary DNA (cDNA) libraries were constructed from RNA isolated from symbiotic and aposymbiotic A. pulchella. Using single-pass sequencing of cDNA clones, a total of 870 expressed sequence tags (ESTs) clones were generated from the two libraries: 474 from symbiotic animal and 396 from aposymbiotic animal. The initial ESTs consisted of 143 clusters and 231 singletons. A BLASTX search revealed that 147 unique genes had similarities with protein sequences available from databases; 120 of these clones were categorized according to their putative function. However, many ESTs could not assign functionally. The putative roles of some of the identified genes relative to endosymbiosis were discussed. This is the first report of the use of EST analysis to examine the gene expression in symbiotic and aposymbiotic states of the cnidarians. The systematic analysis of EST from this study provides a useful database for future investigations of the molecular mechanisms involved in algal-cnidarian symbiosis.     

Expression cloning screening of a unique and full-length set of cDNA clones is an efficient method for identifying genes involved in Xenopus neurogenesis

Functional screens, where a large numbers of cDNA clones are assayed for certain biological activity, are a useful tool in elucidating gene function. In Xenopus, gain of function screens are performed by pool screening, whereby RNA transcribed in vitro from groups of cDNA clones, ranging from thousands to a hundred, are injected into early embryos. Once an activity is detected in a pool, the active clone is identified by sib-selection. Such screens are intrinsically biased towards potent genes, whose RNA is active at low quantities. To improve the sensitivity and efficiency of a gain of function screen we have bioinformatically processed an arrayed and EST sequenced set of 100,000 gastrula and neurula cDNA clones, to create a unique and full-length set of approximately 2500 clones. Reducing the redundancy and excluding truncated clones from the starting clone set reduced the total number of clones to be screened, in turn allowing us to reduce the pool size to just eight clones per pool. We report that the efficiency of screening this clone set is five-fold higher compared to a redundant set derived from the same libraries. We have screened 960 cDNA clones from this set, for genes that are involved in neurogenesis. We describe the overexpression phenotypes of 18 single clones, the majority of which show a previously uncharacterised phenotype and some of which are completely novel. In situ hybridisation analysis shows that a large number of these genes are specifically expressed in neural tissue. These results demonstrate the effectiveness of a unique full-length set of cDNA clones for uncovering players in a developmental pathway.     

A modified cDNA subtraction to identify differentially expressed genes from plants with universal application to other eukaryotes

We have designed a simple and efficient polymerase chain reaction (PCR)-based cDNA subtraction protocol for high-throughput cloning of differentially expressed genes from plants that can be applied to any experimental system and as an alternative to DNA chip technology. Sequence-independent PCR-amplifiable first-strand cDNA population was synthesized by priming oligo-dT primer with a defined 5' heel sequence and ligating another specified single-stranded oligonucleotide primer on the 3' ends of first-strand cDNAs by T4 RNA ligase. A biotin label was introduced into the sense strands of cDNA that must be subtracted by using 5' biotinylated forward primer during PCR amplification to immobilize the sense strand onto the streptavidin-linked paramagnetic beads. The unamplified first strand (antisense) of the interrogating cDNA population was hybridized with a large excess of amplified sense strands of control cDNA. We used magnetic bead technology for the efficient removal of common cDNA population after hybridization to reduce the complexity of the cDNA prior to PCR amplification for the enrichment and sequence abundance normalization of differentially expressed genes. Construction of a subtracted and normalized cDNA library efficiently eliminates common abundant cDNA messages and also increases the probability of identifying clones differentially expressed in low-abundance cDNA messages. We used this method to successfully isolate differentially expressed genes from Pennisetum seedlings in response to salinity stress. Sequence analysis of the selected clones showed homologies to genes that were reported previously and shown to be involved in plant stress adaptation.     

The isolation of cDNA clones from cucumber (Cucumis sativus L.) floral buds coming from plants differing in sex

In this study, we found flower cDNA clones which may be connected with the development of flower sex in cucumber. Two pairs of nearly-isogenic lines: gynoecious GY3 (FFMMGG) versus hermaphrodite HGY3 (FFmmGG) and monoecious B10 (ffMMGG) versus gynoecious 2gg (ffMMgg) were used for clone isolation. To obtain differentially-expressed clones, we applied the differential screening method. 454 clones from GY3 and 478 from B10 cDNA libraries were isolated. The results of RFLP analysis with 56 cDNA clones showed no clones which cosegregated with sex in cucumber. The 28 cDNA B10 and 33 cDNA GY3 clones isolated using the differential screening method were sequenced. Some of them seem to may play a role in cell differentiation or flower development. Among the 61 identified clones, 14 show high homology to plant proteins, although of unknown function. 11 show high homology to known proteins, and the possible function of some of them is discussed. For 3 clones, no significant similarity was found. The 31 clones displayed high homology to plant cDNA in EST database. The patterns of expression of five differential cDNA clones, 35GY3, 216GY3, 47GY3, 100B10 and 157B10, were analyzed in cucumber flower buds using in situ RT-PCR. The most interesting clone is 35GY3, because of its possible role in the inhibition of the development of male specific elements in the female cucumber flower.     

Transgene expression in broccoli (Brassica oleracea var. italica) clones propagated in vitro via leaf explants

We have developed an efficient protocol for the in vitro propagation of transgenic broccoli plants using leaf explants as starting material. A high frequency of shoot formation from leaf explants was obtained on Murashige and Skoog medium containing benzyladenine (BA, 5 mg/l) and naphthaleneacetic acid (0.5 mg/l). Frequent subcultures of existing shoots and shoot clusters to medium containing only BA (2 mg/l) promoted rapid shoot multiplication. The use of a 1:1 mixture of Agargel and Gelrite in the rooting medium increased the number of healthy roots per rooted plant. Applying this protocol, we obtained thousands of clonal rooted plantlets within 6 months from a transgenic broccoli plant carrying the cry1Ac and cry1C genes from Bacillus thuringiensis associated with kanamycin and hygromycin selectable markers, respectively. Thirty randomly selected clones that had been propagated for 1 year on medium containing kanamycin (50 mg/l) all showed resistance to both kanamycin and hygromycin. Genomic DNA and total soluble proteins were isolated from 16 of these clones. Polymerase chain reaction analysis indicated that the cry1Ac and cry1C genes were both maintained. ELISA assays showed that all of the clones produced a high level of Cry1Ac protein similar to the original transgenic plant; however, most clones had significantly lower levels of Cry1C protein than the original plant. This variation indicates that it is important to evaluate transgene expression in transgenic clones propagated long-term in vitro. In vitro propagation starting from leaf explants was also successful with other transgenic and non-transgenic Brassica oleracea materials, including broccoli, cauliflower, and collard.     

Insect feeding preferences and plant phenolic glucosides in the system Gonioctena linnaeana–Salix triandra

The aim of this study was to investigate the preference of a leaf beetle to different Salix clones, and to relate this preference to plant chemistry. The preference of Gonioctena linnaeana Schrank (Coleoptera: Chrysomelidae) was tested in cafeteria experiments using its host Salix triandra L. (Salicaeae) from three Swedish isolated populations and one Russian population from the main distribution range of the host. The leaves from the different host clones were used to analyse the content of phenolic glucosides and the amount of condensed tannins. The larvae did not show any feeding preferences for host clones from the population they originated from, but all Swedish host populations were preferred over the Russian host population. This suggests a preference for regional hosts. We analyzed whether leaf chemistry parameters may explain host plant preferences. Chemical analysis of the leaves showed that the quantities, but not the quality, of the phenolic compounds differed between populations. A Principal Component Analysis of the chemical data also highlighted a difference between the Swedish and Russian host plant populations. The two most important compounds separating Russian from Swedish clones were gallocatechin and salidroside. However, the difference in preference could also be a result of, for example, nutritional quality, water content, or leaf texture. The relative importance of these different factors should be evaluated in future experiments.     

Generation of expressed sequence tags of random root cDNA clones of Brassica napus by single-run partial sequencing.

Two hundred thirty-seven expressed sequence tags (ESTs) of Brassica napus were generated by single-run partial sequencing of 197 random root cDNA clones. A computer search of these root ESTs revealed that 21 ESTs show significant similarity to the protein-coding sequences in the existing data bases, including five stress- or defense-related genes and four clones related to the genes from other kingdoms. Northern blot analysis of the 10 data base-matched cDNA clones revealed that many of the clones are expressed most abundantly in root but less abundantly in other organs. However, two clones were highly root specific. The results show that generation of the root ESTs by partial sequencing of random cDNA clones along with the expression analysis is an efficient approach to isolate genes that are functional in plant root in a large scale. We also discuss the results of the examination of cDNA libraries and sequencing methods suitable for this approach.     

Use of isogenic lines and simultaneous probing to identify DNA markers tightly linked to the tm-2a gene in tomato

The Tm-2a gene of tomato confers resistance to the viral pathogen, tobacco mosaic virus. Like many economically important plant genes, Tm-2a has been characterized phenotypically and by classical linkage analysis, yet nothing is known about its gene product. We report here the isolation of two DNA clones which are very tightly linked to the Tm-2a gene. These clones were identified by testing 122 genomic clones as hybridization probes against Southern blots consisting of DNA from pairs of nearly isogenic lines with or without the Tm-2a gene. Screening such a large number of clones in a short period of time was facilitated by co-labeling and simultaneous probing of sets of up to 10 random genomic clones. Tightly linked clones were distinguished by the fact that they exhibited one or more restriction fragment length polymorphisms between the nearly isogenic lines. Tight linkage of the clones with Tm-2a was verified in a segregating F(2) population. Both mapped to the same locus 0.4 +/- 0.4 centimorgans away from Tm-2a and may provide starting points for a genomic ;;walk' to this gene. Due to the availability of isogenic lines in many plant species, the strategy outlined in this paper should be widely applicable for selecting DNA clones tightly linked to genes of interest.     

Effects of bacterial secondary symbionts on host plant use in pea aphids

Aphids possess several facultative bacterial symbionts that have important effects on their hosts'' biology. These have been most closely studied in the pea aphid (Acyrthosiphon pisum), a species that feeds on multiple host plants. Whether secondary symbionts influence host plant utilization is unclear. We report the fitness consequences of introducing different strains of the symbiont Hamiltonella defensa into three aphid clones collected on Lathyrus pratensis that naturally lack symbionts, and of removing symbionts from 20 natural aphid–bacterial associations. Infection decreased fitness on Lathyrus but not on Vicia faba, a plant on which most pea aphids readily feed. This may explain the unusually low prevalence of symbionts in aphids collected on Lathyrus. There was no effect of presence of symbiont on performance of the aphids on the host plants of the clones from which the H. defensa strains were isolated. Removing the symbiont from natural aphid–bacterial associations led to an average approximate 20 per cent reduction in fecundity, both on the natural host plant and on V. faba, suggesting general rather than plant-species-specific effects of the symbiont. Throughout, we find significant genetic variation among aphid clones. The results provide no evidence that secondary symbionts have a major direct role in facilitating aphid utilization of particular host plant species.     

Occurrence and genetic diversity of Arcobacter spp. in a spinach-processing plant and evaluation of two Arcobacter-specific quantitative PCR assays

Some species of the genus Arcobacter are considered to be emerging food pathogens. With respect to recent vegetable-borne outbreaks, the aim of this work was to investigate the occurrence and diversity of Arcobacter within the production chain of a spinach-processing plant by a combination of cultivation and molecular methods. Samples including spinach, water, and surface biofilm were taken over a period of three years from the entire processing line. Ten 16S rRNA (rrs) gene clone libraries were constructed and analysed using amplified rRNA gene restriction analysis (ARDRA). Approximately 1200 clones were studied that resulted in 44 operational taxonomic units (OTUs). Sequences with high similarities to Arcobacter cryaerophilus (13% of clones, 3 OTUs), A. ellisii (4%, 6 OTUs), A. suis (15%, 3 OTUs), and the type strain of A. nitrofigilis (1%, 7 OTUs) were identified. This represents the first report of the detection of the recently described species A. ellisii, A. suis and, in addition, A. venerupis from alternative habitats. A total of 67% of the clones (22 OTUs) could not be assigned to a genus, which indicated the presence of uncharacterised Arcobacter species.     

Generation and analysis of expressed sequence tags from the salt-tolerant mangrove species Avicennia marina (Forsk) Vierh

Salinization poses an increasingly serious problem in coastal and agricultural areas with negative effects on plant productivity and yield. Avicennia marina is a pantropical mangrove species that can survive in highly saline conditions. As a first step towards the characterization of genes that contribute to combating salinity stress, the construction of a cDNA library of A. marina genes is reported here. Random expressed sequence tag (EST) sequencing of 1,841 clones produced 1,602 quality reads. These clones were classified into functional categories, and blast comparisons revealed that 113 clones were homologous to genes earlier implicated in stress responses, of which the dehydrins are the most predominant in this category. Of the ESTs analyzed, 30% showed homology to previously uncharacterized genes in the public plant databases. Of these 30%, 52 clones were selected for reverse Northern analysis: 26 were shown to be up-regulated and five shown to be down-regulated. The results obtained by reverse Northern analysis were confirmed by Northern analysis for three clones.     

Characterization of the full-length sequences of phospholipase A2 induced during flower development

The suppression subtractive hybridization (SSH) method was used to isolate developmentally regulated genes during carnation flower maturation. Carnation flower maturation-related clones obtained by the SSH were serially assigned as CFMI (carnation flower maturation-induced) clones. Northern blot analysis showed that several CFMI clones were differentially expressed during flower development. One of the clones, CFMI-3, showed similarity to various animal secretory phospholipases A2 (PLA2). Since little is known about PLA2 gene sequence in plant species, the CFMI-3 clone was selected for further characterization by sequence analysis. Full sequence analysis reveals that the CFMI-3 contains a Ca2+ binding domain, a PLA2 active site, and 12 conserved Cys residues, which is a distinct characteristic of PLA2. Amino acid sequence alignment of CFMI-3 to various putative plant PLA2 confirmed that the CFMI-3 cDNA is the full-length putative PLA2 cDNA identified in plant species.     

Combining ability and parental evaluation in five selected clones of sugarcane (Saccharum sp. hybrids)

Summary Five Hawaiian commercial sugarcane (Saccharum sp. hybrids) clones were crossed in a full diallel. Four morphological characters were studied in the progeny: number of millable stalks per plant, stalk diameter, stalk length, and sucrose content. A fifth character, plant volume, was calculated from stalk number, stalk diameter and stalk length. The five selected parental clones were treated as fixed variables in the analysis. General combining ability (gca) was significant for all five characters; specific combining ability (sca) was significant for stalk diameter, stalk length, and plant volume. The variance for gca was large in all progeny populations. However, the variance for sca was large in the progeny of only some clones and/or for some individual characters. Parents were evaluated on the basis of their general combining ability: clone H49-3533 had high gca for sucrose content, while clone H53-5356 had high gca for plant vigor.Published with the approval of the Director as Journal Series Paper No. 455, Experiment Station, Hawaiian Sugar Planters' Association.