Viviana Echenique

Mapping of main and epistatic effect QTLs associated to grain protein and gluten strength using a RIL population of durum wheat

Quality, specifically protein content and gluten strength are among the main objectives of a durum wheat breeding program. The aim of this work was to validate quantitative trait loci (QTLs) associated with grain protein content (GPC) and gluten strength measured by SDS sedimentation volume (SV) and to find additional QTLs expressed in Argentinean environments. Also, epistatic QTL and QTL x environmental interactions were analyzed. A mapping population of 93 RILs derived from the cross UC1113 x Kofa showing extreme values in gluten quality was used. Phenotypic data were collected along six environments (three locations, two years). Main effect QTLs associated with GPC were found in equivalent positions in two environments on chromosomes 3BS (R2 = 21.0-21.6%) and 7BL (R2 = 12.1-13%), and in one environment on chromosomes 1BS, 2AL, 2BS, 3BL, 4AL, 5AS, 5BL and 7AS. The most important and stable QTL affecting SV was located on chromosome 1BL (Glu-B1) consistently detected over the six environments (R2 = 20.9- 54.2%). Additional QTLs were found in three environments on chromosomes 6AL (R2 = 6.4-12.5%), and in two environments on chromosomes 6BL (R2 = 11.5-12.1%), 7AS (R2 = 8.2-10.2%) and 4BS (R2 = 11–16.4%). In addition, pleiotropic effects were found affecting grain yield, test weight, thousand-kernel- weight and days to heading in some of these QTLs. Epistatic QTLs and QTL x environment interactions were found for both quality traits, mostly for GPC. The flanking markers of the QTLs detected in this work could be efficient tools to select superior genotypes for the mentioned traits.

Variation in cytosine methylation patterns during ploidy level conversions in Eragrostis curvula

In many species polyploidization involves rearrangements of the progenitor genomes, at both genetic and epigenetic levels. We analyzed the cytosine methylation status in a ‘tetraploid-diploid-tetraploid’ series of Eragrostis curvula with a common genetic background by using the MSAP (Methylation-sensitive Amplified Polymorphism) technique. Considerable levels of polymorphisms were detected during ploidy conversions. The total level of methylation observed was lower in the diploid genotype compared to the tetraploid ones. A significant proportion of the epigenetic modifications occurring during the tetraploid–diploid conversion reverted during the diploid–tetraploid one. Genetic and expression data from previous work were used to analyze correlation with methylation variation. All genetic, epigenetic and gene expression variation data correlated significantly when compared by pairs in simple Mantel tests. Dendrograms reflecting genetic, epigenetic and expression distances as well as principal coordinate analysis suggested that plants of identical ploidy levels present similar sets of data. Twelve (12) different genomic fragments displaying different methylation behavior during the ploidy conversions were isolated, sequenced and characterized.

Plant regeneration in weeping lovegrass, (Eragrostis curvula) through inflorescence culture

Plant regeneration from four genotypes of weeping lovegrass (Eragrostis curvula (Schrad.) Nees), is reported via three developmental pathways: embryogenesis, organogenesis and direct regeneration. Organogenic and embryogenic callus cultures were initiated from young inflorescence segments on Murashige and Skoogs medium supplemented with 2,4-d and BA at different concentrations. The most suitable concentrations of 2,4-d for callus growth and development were 9 and 18 μM combined with a BA concentration of 0.044 μM. Genotypical differences were observed in the morphogenetic capacity. Direct regeneration was observed under similar culture conditions (culture medium, temperature and photoperiod) but with high light intensity (66 μmol m-2 s-1). Young plants were successfully transplanted to pots and grown to maturity in the greenhouse.

Increased apomixis expression concurrent with genetic and epigenetic variation in a newly synthesized Eragrostis curvula polyploid

Eragrostis curvula includes biotypes reproducing through obligate and facultative apomixis or, rarely, full sexuality. We previously generated a “tetraploid-dihaploid-tetraploid” series of plants consisting of a tetraploid apomictic plant (T), a sexual dihaploid plant (D) and a tetraploid artificial colchiploid (C). Initially, plant C was nearly 100% sexual. However, its capacity to form non-reduced embryo sacs dramatically increased over a four year period (2003–2007) to reach levels of 85–90%. Here, we confirmed high rates of apomixis in plant C, and used AFLPs and MSAPs to characterize the genetic and epigenetic variation observed in this plant in 2007 as compared to 2003. Of the polymorphic sequences, some had no coding potential whereas others were homologous to retrotransposons and/or protein-coding-like sequences. Our results suggest that in this particular plant system increased apomixis expression is concurrent with genetic and epigenetic modifications, possibly involving transposable elements.

New insights into the wheat chromosome 4D structure and virtual gene order, revealed by survey pyrosequencing

Highlights • Survey sequence of T. aestivum chromosome 4D was obtained by pyrosequencing.• Near 5700 genes were predicted on 4D chromosome, ∼2200 on 4DS and ∼3500 on 4DL.• A 4D virtual gene order based on synteny with orthologous gene loci is proposed.• Among group 4, higher collinearity exists between 4D and 4B as compared to 4A.• Complementary data to that provided by IWGSC is presented, available at NCBI.

Evaluation of different methods for assessing the reproductive mode of weeping lovegrass plants, Eragrostis curvula (Schrad.) Nees

Weeping lovegrass is a forage grass cultivated in semiarid regions of the world that reproduces mainly by apomixis (diplospory), a process that involves the formation of asexual seeds and bypasses the processes of meiosis and fertilisation. The aim of this work was to evaluate and compare different techniques (cytoembryology, callose deposition, flow cytometry and progeny tests) to determine the reproductive mode of weeping lovegrass. Typical sexual and apomictic processes were clearly differentiated using cytoembryology, and different callose deposition patterns were observed in sexual and apomictic genotypes. Previous studies indicated that presence of callose on the cell wall of the megaspore mother cell is associated only with sexual processes. Nevertheless, our results also found callose deposition in apomictic genotypes, although clearly different from the pattern found in sexual processes, allowing discrimination between sexual and apomictic plants. Flow cytometry seed screening using individual seeds did not differentiate between sexual and apomictic plants as the embryo : endosperm DNA content ratio was similar in sexual and apomictic plants. Progeny tests using molecular markers showed uniform patterns in offspring from apomictic plants and variable patterns among the progeny of sexual plants. The results obtained from cytological studies and progeny tests were similar, indicating that both methods provide useful tools for determination of reproductive mode. However, the callose test with aniline blue was faster and easier to use than other techniques.

Apomixis frequency under stress conditions in weeping lovegrass (Eragrostis curvula)

To overcome environmental stress, plants develop physiological responses that are triggered by genetic or epigenetic changes, some of which involve DNA methylation. It has been proposed that apomixis, the formation of asexual seeds without meiosis, occurs through the temporal or spatial deregulation of the sexual process mediated by genetic and epigenetic factors influenced by the environment. Here, we explored whether there was a link between the occurrence of apomixis and various factors that generate stress, including drought stress, in vitro culture, and intraspecific hybridization. For this purpose, we monitored the embryo sacs of different weeping lovegrass (Eragrostis curvula [Schrad.] Nees) genotypes after the plants were subjected to these stress conditions. Progeny tests based on molecular markers and genome methylation status were analyzed following the stress treatment. When grown in the greenhouse, the cultivar Tanganyika INTA generated less than 2% of its progeny by sexual reproduction. Plants of this cultivar subjected to different stresses showed an increase of sexual embryo sacs, demonstrating an increased expression of sexuality compared to control plants. Plants of the cv. Tanganyika USDA did not demonstrate the ability to generate sexual embryo sacs under any conditions and is therefore classified as a fully apomictic cultivar. We found that this change in the prevalence of sexuality was correlated with genetic and epigenetic changes analyzed by MSAP and AFLPs profiles. Our results demonstrate that different stress conditions can alter the expression of sexual reproduction in facultative tetraploid apomictic cultivars and when the stress stops the reproductive mode shift back to the apomixis original level. These data together with previous observations allow us to generate a hypothetical model of the regulation of apomixis in weeping lovegrass in which the genetic/s region/s that condition apomixis, is/are affected by ploidy, and is/are subjected to epigenetic control.

Repetitive sequences in Eragrostis curvula cDNA EST libraries obtained from genotypes with different ploidy

Eragrostis curvula (Schrad) Nees (weeping lovegrass) represents important cultivated forage in semiarid regions, and the most useful cultivars are tetraploid and reproduce by pseudogamous diplosporous apomixis. We previously produced a series of genetically related E. curvula lines that provide a suitable system for the identification of gene(s) involved in diplosporous apomixis and ploidy, including a natural apomictic tetraploid (T), a diploid sexual line (D), and a tetraploid sexual plant (C). A collection of expressed sequence tags (ESTs) was generated from cDNA libraries obtained from panicles of the D, T, and C, and leaves of the T. The present study aimed to analyze the repetitive content of these four cDNA libraries and further identify and characterize transposable element (TE)-related ESTs. Repetitive sequences were identified through the interface RepeatMasker (RM) using the database Repbase Update and further classification of TEs was performed manually from the RM output. The different contribution of ESTs with identity to TEs among libraries was further evaluated, and such differences were validated through RT-qPCR. We found that the percentage of repetitive content in the leaf cDNA library was almost double than in inflorescence libraries, with retrotransposons contributing mostly in all libraries. The expression of TE-related ESTs was compared in cDNA samples extracted from D, T, and C leaves or inflorescences revealing that seven mRNAs containing MuDR-like DNA transposons, Gypsy-like, and Copia-like retrotransposons were differentially represented according to tissue, reproductive mode, or ploidy. The euploid series of Eragrostis curvula is a useful model to the study of epigenomic changes produced after changes in ploidy. The present work constitutes the first detailed report on repetitive sequences of Eragrostis curvula at the transcriptome level.

Allele-specific expression of a weeping lovegrass gene from the lignin biosynthetic pathway, caffeoyl-coenzyme A 3-O-methyltransferase

Eragrostis curvula is an important forage grass in marginal regions for its capacity to grow and develop in sandy, not very fertile soils and for its drought tolerance. However, its widespread use for animal production is limited at present since it has low forage quality. In forage species, lignin content has been recognized as one of the main factors that affects this parameter. The O-methylation at the C3 position of the phenolic ring of caffeic acid constitutes a key step in the lignin biosynthetic pathway. The enzyme caffeoyl-CoA 3-O-methyltransferase (CCoAOMT) catalyzes such methylation and is thus considered an interesting target for molecular breeding programs. Here we report the isolation of the full-length CCoAOMT cDNA from the E. curvula inflorescences library. Primers based on this sequence led to the amplification of seven unigenes from genomic DNA from cvs. Tanganyika, Don Pablo and Kromdraai. Since the major differences were located in the intron regions, these seven sequences resulted in four possible allelic forms. We further evaluated the allelic expression per tissue in cv. Tanganyika, the most variable genotype. The four alleles predicted by the genomic sequences were found to be expressed. Three of them were common to inflorescences, roots and leaves, while the other one seemed to be specific for inflorescences. The statistical analysis showed that the expression was not organ-independent. The information reported here constitutes a valuable tool for E. curvula breeding programs, aiming to alter lignin biosynthesis to improve forage quality without causing undesirable effects.

Biocontrol of Fusarium graminearum sensu stricto, Reduction of Deoxynivalenol Accumulation and Phytohormone Induction by Two Selected Antagonists

Fusarium head blight (FHB) is a devastating disease that causes extensive yield and quality losses to wheat and other small cereal grains worldwide. Species within the Fusarium graminearum complex are the main pathogens associated with the disease, F. graminearum sensu stricto being the main pathogen in Argentina. Biocontrol can be used as part of an integrated pest management strategy. Phytohormones play a key role in the plant defense system and their production can be induced by antagonistic microorganisms. The aims of this study were to evaluate the effect of the inoculation of Bacillus velezensis RC 218, F. graminearum and their co-inoculation on the production of salicylic acid (SA) and jasmonic acid (JA) in wheat spikes at different periods of time under greenhouse conditions, and to evaluate the effect of B. velezensis RC 218 and Streptomyces albidoflavus RC 87B on FHB disease incidence, severity and deoxynivalenol accumulation on Triticum turgidum L. var. durum under field conditions. Under greenhouse conditions the production of JA was induced after F. graminearum inoculation at 48 and 72 h, but JA levels were reduced in the co-inoculated treatments. No differences in JA or SA levels were observed between the B. velezensis treatment and the water control. In the spikes inoculated with F. graminearum, SA production was induced early (12 h), as it was shown for initial FHB basal resistance, while JA was induced at a later stage (48 h), revealing different defense strategies at different stages of infection by the hemibiotrophic pathogen F. graminearum. Both B. velezensis RC 218 and S. albidoflavus RC 87B effectively reduced FHB incidence (up to 30%), severity (up to 25%) and deoxynivalenol accumulation (up to 51%) on durum wheat under field conditions.