27 results on '"Lenk, I."'
Search Results
2. Mycelial biomass and concentration of loline alkaloids driven by complex population structure in Epichloë uncinataand meadow fescue (Schedonorus pratensis)
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Cagnano, G., Lenk, I., Roulund, N., Jensen, C. S., Cox, M. P., and Asp, T.
- Abstract
ABSTRACTMany efforts have been made to select and isolate naturally occurring animal-friendly Epichloëstrains for later reinfection into elite cultivars. Often this process involves large-scale screening of Epichloë-infected wild grass populations where strains are characterized and alkaloids measured. Here, we describe for the first time the use of genotyping-by-sequencing (GBS) on a collection of 217 Epichloë-infected grasses (7 S. arundinaceum, 4 L. perenne, and 206 S. pratensis). This genotyping strategy is cheaper than complete genome sequencing, is suitable for a large number of individuals, and, when applied to endophyte-infected grasses, conveniently genotypes both organisms. In total, 6273 single nucleotide polymorphisms (SNPs) in the endophyte data set and 38 323 SNPs in the host data set were obtained. Our findings reveal a composite structure with three distinct endophyte clusters unrelated to the three main S. pratensisgene pools that have most likely spread from different glacial refugia in Eurasia. All three gene pools can establish symbiosis with E. uncinata. A comparison of the endophyte clusters with microsatellite-based fingerprinting of the same samples allows a quick test to discriminate between these clusters using two simple sequence repeats (SSRs). Concentrations of loline alkaloids and mycelial biomass are correlated and differ significantly among the plant and endophyte subpopulations; one endophyte strain has higher levels of lolines than others, and one specific host genotype is particularly suitable to host E. uncinata. These findings pave the way for targeted artificial inoculations of specific host-endophyte combinations to boost loline production in the symbiota and for genome association studies with the aim of isolating genes involved in the compatibility between meadow fescue and E. uncinata.
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- 2020
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3. A new member of the LIR family from perennial ryegrass is cold-responsive, and promotes vegetative growth in ¤Arabidopsis¤
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Ciannamea, S., Jensen, Christian Sig, Agerskov, Henrik, Petersen, Klaus, Lenk, I., Didion, Thomas, Immink, R.G.H., Angenent, G.C., Nielsen, Klaus K., Ciannamea, S., Jensen, Christian Sig, Agerskov, Henrik, Petersen, Klaus, Lenk, I., Didion, Thomas, Immink, R.G.H., Angenent, G.C., and Nielsen, Klaus K.
- Abstract
A cold-regulated gene Lolium perenne LIR1 (LpLIR1) was isolated from perennial ryegrass using a subtractive approach. The gene has strong homology to the Light Induced Rice1 (LIR1) gene and is regulated at the transcriptional level by cold, and by a diurnal rhythm. Expression of LpLIR1 in perennial ryegrass was upregulated by vernalization but did not follow a standard vernalization-responsive expression pattern. LpLIR1 expression was restricted to vegetative tissues and absent in apices during floral induction and in flowers. LpLIR1 mRNA levels displayed diurnal fluctuations, which peaked before dusk and declined during the night. Heterologous expression of LpLIR1 in Arabidopsis led to a significant increase in leaf formation under short days (SD) conditions but only when plants had received a preceding vernalization treatment. Furthermore, dissection of plant development under SD revealed a minor but significant delay of flowering in the transgenic lines compared to wildtype plants. (c) 2006 Elsevier Ireland Ltd. All rights reserved.
- Published
- 2007
4. Functional characterization of tobacco transcription factor TGA2.1
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Kegler, C., Lenk, I., Krawczyk, S., Scholz, R., Gatz, C., Kegler, C., Lenk, I., Krawczyk, S., Scholz, R., and Gatz, C.
- Abstract
Activation sequence-1 (as-1)-like regulatory cis elements mediate transcriptional activation in response to increased levels of plant signalling molecules auxin and salicylic acid (SA). Our earlier work has shown that tobacco cellular as-1-binding complex SARP (salicylic acid responsive protein) is primarily comprised of bZIP protein TGA2.2 and of minor amounts of a protein that cross-reacts with an antibody directed against related bZIP factor TGA2.1. As this protein was significantly smaller than recombinant TGA2.1, the origin of this protein had remained unresolved. Here we demonstrate that it corresponds to a distinct cleavage product of TGA2.1 generated during extract preparation. Overexpression of TGA2.1 led to increased levels of the TGA2.1/TGA2.2 heterodimer which was as effective with regard to enhancing the SA-inducibility of as-1 containing target gene Nt103 as corresponding amounts of the TGA2.2 homodimer. Thus, the TGA2.1 specific N-terminal domain, which had revealed transcriptional activation potential in yeast, did not show enhanced transcriptional activation in planta. TGA2.1 even had a negative effect on the SA-induced expression of the truncated CaMV 35S (-90) promoter that contains an isolated as-1-element upstream of the TATA-box. Plants expressing a TGA mutant deficient in DNA binding (TGA2.1trd) showed reduced levels of SA-inducible Nt103 expression, thus resembling plants expressing the analogous TGA2.2 derivative TGA2.2trd. In contrast to TGA2.2trd, TGA2.1trd did not reduce auxin-induced expression of Nt103 and SA-induced expression of pathogenesis related protein PR-1a, indicating that TGA2.1trd and TGA2.2trd differ in their capacity to outcompete regulatory factors involved in these regulatory pathways.
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- 2004
5. Analysis of two heterologous flowering genes in Brachypodium distachyon demonstrates its potential as a grass model plant
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Olsen, P., primary, Lenk, I., additional, Jensen, C.S., additional, Petersen, K., additional, Andersen, C.H., additional, Didion, T., additional, and Nielsen, K.K., additional
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- 2006
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6. Heterologous expression of Arabidopsis phytochrome B in transgenic potato influences photosynthetic performance and tuber development.
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Thiele, A, Herold, M, Lenk, I, Quail, P H, and Gatz, C
- Abstract
Transgenic potato (Solanum tuberosum) plants expressing Arabidopsis phytochrome B were characterized morphologically and physiologically under white light in a greenhouse to explore their potential for improved photosynthesis and higher tuber yields. As expected, overexpression of functional phytochrome B caused pleiotropic effects such as semidwarfism, decreased apical dominance, a higher number of smaller but thicker leaves, and increased pigmentation. Because of increased numbers of chloroplasts in elongated palisade cells, photosynthesis per leaf area and in each individual plant increased. In addition, photosynthesis was less sensitive to photoinactivation under prolonged light stress. The beginning of senescence was not delayed, but deceleration of chlorophyll degradation extended the lifetime of photosynthetically active plants. Both the higher photosynthetic performance and the longer lifespan of the transgenic plants allowed greater biomass production, resulting in extended underground organs with increased tuber yields.
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- 1999
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7. Promoters that respond to chemical inducers
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Gatz, C. and Lenk, I.
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- 1998
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8. Genetic architecture of inter-specific and -generic grass hybrids by network analysis on multi-omics data.
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Bornhofen E, Fè D, Nagy I, Lenk I, Greve M, Didion T, Jensen CS, Asp T, and Janss L
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- Multiomics, Phenotype, Metabolomics, Poaceae, Oryza
- Abstract
Background: Understanding the mechanisms underlining forage production and its biomass nutritive quality at the omics level is crucial for boosting the output of high-quality dry matter per unit of land. Despite the advent of multiple omics integration for the study of biological systems in major crops, investigations on forage species are still scarce., Results: Our results identified substantial changes in gene co-expression and metabolite-metabolite network topologies as a result of genetic perturbation by hybridizing L. perenne with another species within the genus (L. multiflorum) relative to across genera (F. pratensis). However, conserved hub genes and hub metabolomic features were detected between pedigree classes, some of which were highly heritable and displayed one or more significant edges with agronomic traits in a weighted omics-phenotype network. In spite of tagging relevant biological molecules as, for example, the light-induced rice 1 (LIR1), hub features were not necessarily better explanatory variables for omics-assisted prediction than features stochastically sampled and all available regressors., Conclusions: The utilization of computational techniques for the reconstruction of co-expression networks facilitates the identification of key omic features that serve as central nodes and demonstrate correlation with the manifestation of observed traits. Our results also indicate a robust association between early multi-omic traits measured in a greenhouse setting and phenotypic traits evaluated under field conditions., (© 2023. The Author(s).)
- Published
- 2023
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9. Relative importance of genotype, gene expression, and DNA methylation on complex traits in perennial ryegrass.
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Malinowska M, Ruud AK, Jensen J, Svane SF, Smith AG, Bellucci A, Lenk I, Nagy I, Fois M, Didion T, Thorup-Kristensen K, Jensen CS, and Asp T
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- Multifactorial Inheritance, DNA Methylation, Bayes Theorem, Genotype, Transcriptome, Lolium genetics
- Abstract
The growing demand for food and feed crops in the world because of growing population and more extreme weather events requires high-yielding and resilient crops. Many agriculturally important traits are polygenic, controlled by multiple regulatory layers, and with a strong interaction with the environment. In this study, 120 F
2 families of perennial ryegrass (Lolium perenne L.) were grown across a water gradient in a semifield facility with subsoil irrigation. Genomic (single-nucleotide polymorphism [SNP]), transcriptomic (gene expression [GE]), and DNA methylomic (MET) data were integrated with feed quality trait data collected from control and drought sections in the semifield facility, providing a treatment effect. Deep root length (DRL) below 110 cm was assessed with convolutional neural network image analysis. Bayesian prediction models were used to partition phenotypic variance into its components and evaluated the proportion of phenotypic variance in all traits captured by different regulatory layers (SNP, GE, and MET). The spatial effects and effects of SNP, GE, MET, the interaction between GE and MET (GE × MET) and GE × treatment (GEControl and GEDrought ) interaction were investigated. Gene expression explained a substantial part of the genetic and spatial variance for all the investigated phenotypes, whereas MET explained residual variance not accounted for by SNPs or GE. For DRL, MET also contributed to explaining spatial variance. The study provides a statistically elegant analytical paradigm that integrates genomic, transcriptomic, and MET information to understand the regulatory mechanisms of polygenic effects for complex traits., (© 2022 The Authors. The Plant Genome published by Wiley Periodicals LLC on behalf of Crop Science Society of America.)- Published
- 2022
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10. Leveraging spatiotemporal genomic breeding value estimates of dry matter yield and herbage quality in ryegrass via random regression models.
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Bornhofen E, Fè D, Lenk I, Greve M, Didion T, Jensen CS, Asp T, and Janss L
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- Plant Breeding, Genomics, Genome, Phenotype, Lolium genetics
- Abstract
Joint modeling of correlated multienvironment and multiharvest data of perennial crop species may offer advantages in prediction schemes and a better understanding of the underlying dynamics in space and time. The goal of the present study was to investigate the relevance of incorporating the longitudinal dimension of within-season multiple measurements of forage perennial ryegrass (Lolium perenne L.) traits in a reaction-norm model setup that additionally accounts for genotype × environment (G × E) interactions. Genetic parameters and accuracy of genomic estimated breeding value (gEBV) predictions were investigated by fitting three genomic random regression models (gRRMs) using Legendre polynomial functions to the data. Genomic DNA sequencing of family pools of diploid perennial ryegrass was performed using DNA nanoball-based technology and yielded 56,645 single-nucleotide polymorphisms, which were used to calculate the allele frequency-based genomic relationship matrix. Biomass yield's estimated additive genetic variance and heritability values were higher in later harvests. The additive genetic correlations were moderate to low in early measurements and peaked at intermediates with fairly stable values across the environmental gradient except for the initial harvest data collection. This led to the conclusion that complex (G × E) arises from spatial and temporal dimensions in the early season with lower reranking trends thereafter. In general, modeling the temporal dimension with a second-order orthogonal polynomial improved the accuracy of gEBV prediction for nutritive quality traits, but no gain in prediction accuracy was detected for dry matter yield (DMY). This study leverages the flexibility and usefulness of gRRM models for perennial ryegrass breeding and can be readily extended to other multiharvest crops., (© 2022 The Authors. The Plant Genome published by Wiley Periodicals LLC on behalf of Crop Science Society of America.)
- Published
- 2022
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11. Targeted mutagenesis in ryegrass (Lolium spp.) using the CRISPR/Cas9 system.
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Zhang Y, Ran Y, Nagy I, Lenk I, Qiu JL, Asp T, Jensen CS, and Gao C
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- CRISPR-Cas Systems genetics, Clustered Regularly Interspaced Short Palindromic Repeats, Gene Editing, Mutagenesis genetics, Lolium genetics
- Published
- 2020
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12. Transcriptional and Metabolomic Analyses Indicate that Cell Wall Properties are Associated with Drought Tolerance in Brachypodium distachyon .
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Lenk I, Fisher LHC, Vickers M, Akinyemi A, Didion T, Swain M, Jensen CS, Mur LAJ, and Bosch M
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- Brachypodium genetics, Cell Wall genetics, Dehydration genetics, Dehydration metabolism, Plant Proteins genetics, Brachypodium metabolism, Cell Wall metabolism, Gene Expression Regulation, Plant, Oxidative Stress, Plant Proteins biosynthesis, Stress, Physiological
- Abstract
Brachypodium distachyon is an established model for drought tolerance. We previously identified accessions exhibiting high tolerance, susceptibility and intermediate tolerance to drought; respectively, ABR8, KOZ1 and ABR4. Transcriptomics and metabolomic approaches were used to define tolerance mechanisms. Transcriptional analyses suggested relatively few drought responsive genes in ABR8 compared to KOZ1. Linking these to gene ontology (GO) terms indicated enrichment for "regulated stress response", "plant cell wall" and "oxidative stress" associated genes. Further, tolerance correlated with pre-existing differences in cell wall-associated gene expression including glycoside hydrolases, pectin methylesterases, expansins and a pectin acetylesterase. Metabolomic assessments of the same samples also indicated few significant changes in ABR8 with drought. Instead, pre-existing differences in the cell wall-associated metabolites correlated with drought tolerance. Although other features, e.g., jasmonate signaling were suggested in our study, cell wall-focused events appeared to be predominant. Our data suggests two different modes through which the cell wall could confer drought tolerance: (i) An active response mode linked to stress induced changes in cell wall features, and (ii) an intrinsic mode where innate differences in cell wall composition and architecture are important. Both modes seem to contribute to ABR8 drought tolerance. Identification of the exact mechanisms through which the cell wall confers drought tolerance will be important in order to inform development of drought tolerant crops.
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- 2019
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13. Genomic Prediction in Tetraploid Ryegrass Using Allele Frequencies Based on Genotyping by Sequencing.
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Guo X, Cericola F, Fè D, Pedersen MG, Lenk I, Jensen CS, Jensen J, and Janss LL
- Abstract
Perennial ryegrass is an outbreeding forage species and is one of the most widely used forage grasses in temperate regions. The aim of this study was to investigate the possibility of implementing genomic prediction in tetraploid perennial ryegrass, to study the effects of different sequencing depth when using genotyping-by-sequencing (GBS), and to determine optimal number of single-nucleotide polymorphism (SNP) markers and sequencing depth for GBS data when applied in tetraploids. A total of 1,515 F
2 tetraploid ryegrass families were included in the study and phenotypes and genotypes were scored on family-pools. The traits considered were dry matter yield (DM), rust resistance (RUST), and heading date (HD). The genomic information was obtained in the form of allele frequencies of pooled family samples using GBS. Different SNP filtering strategies were designed. The strategies included filtering out SNPs having low average depth (FILTLOW), having high average depth (FILTHIGH), and having both low average and high average depth (FILTBOTH). In addition, SNPs were kept randomly with different data sizes (RAN). The accuracy of genomic prediction was evaluated by using a "leave single F2 family out" cross validation scheme, and the predictive ability and bias were assessed by correlating phenotypes corrected for fixed effects with predicted additive breeding values. Among all the filtering scenarios, the highest estimates for genomic heritability of family means were 0.45, 0.74, and 0.73 for DM, HD and RUST, respectively. The predictive ability generally increased as the number of SNPs included in the analysis increased. The highest predictive ability for DM was 0.34 (137,191 SNPs having average depth higher than 10), for HD was 0.77 (185,297 SNPs having average depth lower than 60), and for RUST was 0.55 (188,832 SNPs having average depth higher than 1). Genomic prediction can help to optimize the breeding of tetraploid ryegrass. GBS data including about 80-100 K SNPs are needed for accurate prediction of additive breeding values in tetraploid ryegrass. Using only SNPs with sequencing depth between 10 and 20 gave highest predictive ability, and showed the potential to obtain accurate prediction from medium-low coverage GBS in tetraploids.- Published
- 2018
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14. Optimized Use of Low-Depth Genotyping-by-Sequencing for Genomic Prediction Among Multi-Parental Family Pools and Single Plants in Perennial Ryegrass ( Lolium perenne L.).
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Cericola F, Lenk I, Fè D, Byrne S, Jensen CS, Pedersen MG, Asp T, Jensen J, and Janss L
- Abstract
Ryegrass single plants, bi-parental family pools, and multi-parental family pools are often genotyped, based on allele-frequencies using genotyping-by-sequencing (GBS) assays. GBS assays can be performed at low-coverage depth to reduce costs. However, reducing the coverage depth leads to a higher proportion of missing data, and leads to a reduction in accuracy when identifying the allele-frequency at each locus. As a consequence of the latter, genomic relationship matrices (GRMs) will be biased. This bias in GRMs affects variance estimates and the accuracy of GBLUP for genomic prediction (GBLUP-GP). We derived equations that describe the bias from low-coverage sequencing as an effect of binomial sampling of sequence reads, and allowed for any ploidy level of the sample considered. This allowed us to combine individual and pool genotypes in one GRM, treating pool-genotypes as a polyploid genotype, equal to the total ploidy-level of the parents of the pool. Using simulated data, we verified the magnitude of the GRM bias at different coverage depths for three different kinds of ryegrass breeding material: individual genotypes from single plants, pool-genotypes from F
2 families, and pool-genotypes from synthetic varieties. To better handle missing data, we also tested imputation procedures, which are suited for analyzing allele-frequency genomic data. The relative advantages of the bias-correction and the imputation of missing data were evaluated using real data. We examined a large dataset, including single plants, F2 families, and synthetic varieties genotyped in three GBS assays, each with a different coverage depth, and evaluated them for heading date, crown rust resistance, and seed yield. Cross validations were used to test the accuracy using GBLUP approaches, demonstrating the feasibility of predicting among different breeding material. Bias-corrected GRMs proved to increase predictive accuracies when compared with standard approaches to construct GRMs. Among the imputation methods we tested, the random forest method yielded the highest predictive accuracy. The combinations of these two methods resulted in a meaningful increase of predictive ability (up to 0.09). The possibility of predicting across individuals and pools provides new opportunities for improving ryegrass breeding schemes.- Published
- 2018
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15. Severity of Inhalation Injury is Predictive of Alterations in Gas Exchange and Worsened Clinical Outcomes.
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Sutton T, Lenk I, Conrad P, Halerz M, and Mosier M
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- Adult, Aged, Burns therapy, Female, Humans, Injury Severity Score, Length of Stay, Lung Diseases epidemiology, Male, Middle Aged, Multiple Organ Failure epidemiology, Outcome Assessment, Health Care, Predictive Value of Tests, Respiration, Artificial, Retrospective Studies, Smoke Inhalation Injury physiopathology, Burns complications, Burns physiopathology, Pulmonary Gas Exchange physiology, Smoke Inhalation Injury complications, Smoke Inhalation Injury diagnosis
- Abstract
Inhalation injury (INH) is present in one third of large burn injuries and increases oxygenation and fluid resuscitation requirements, incidences of pulmonary complications, risk for multiple organ dysfunction syndrome (MODS), and overall mortality. Previous studies have demonstrated inconsistent correlation between bronchoscopic evaluation and clinical outcomes. The authors reviewed 161 patients admitted with a diagnosis of INH or underwent diagnostic bronchoscopy for suspected INH over a period of 8.5 years. One hundred one patients had concomitant burn injury and 60 had isolated INH. Seventeen patients had abbreviated injury score (AIS) 0, 81 patients had low-grade injury (AIS 1 and 2), and 63 patients had high-grade injury (AIS 3 and 4). Patients with high-grade INH had worse pulmonary dysfunction, worse oxygenation indices (P = 0.01) and plasma carboxyhemoglobin (COHgb; P < 0.01) on admission, increased fluid requirements (P < 0.01 at 24 hours; P = 0.04 at 48 hours), MODS (P = 0.04), pneumonia (P < 0.01), acute respiratory distress syndrome (P = 0.01 at 48 hours), fewer 28-day ventilator-free days (P < 0.01), greater ventilator dependence (P = 0.03), and longer length of stay (P < 0.01). Multivariate analyses demonstrated increased risk of MODS (P = 0.03), acute respiratory distress syndrome at 48 hours (P < 0.01), pneumonia (P = 0.01), prolonged ventilator dependence (P = 0.03), and a trend toward mortality (P = 0.08) with higher AIS groups. More severe INH correlates with early oxygenation impairments and is associated with more complicated hospitalization, fluid resuscitation requirements, and ventilation demands. Severe INH is associated with and predictive of increased morbidity and mortality.
- Published
- 2017
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16. Evidence for Active Uptake and Deposition of Si-based Defenses in Tall Fescue.
- Author
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McLarnon E, McQueen-Mason S, Lenk I, and Hartley SE
- Abstract
Silicon (Si) is taken up from the soil as monosilicic acid by plant roots, transported to leaves and deposited as phytoliths, amorphous silica (SiO
2 ) bodies, which are a key component of anti-herbivore defense in grasses. Silicon transporters have been identified in many plant species, but the mechanisms underpinning Si transport remain poorly understood. Specifically, the extent to which Si uptake is a passive process, driven primarily by transpiration, or has both passive and active components remains disputed. Increases in foliar Si concentration following herbivory suggest plants may exercise some control over Si uptake and distribution. In order to investigate passive and active controls on Si accumulation, we examined both genetic and environmental influences on Si accumulation in the forage grass Festuca arundinacea. We studied three F. arundinacea varieties that differ in the levels of Si they accumulate. Varieties not only differed in Si concentration, but also in increases in Si accumulation in response to leaf damage. The varietal differences in Si concentration generally reflected differences in stomatal density and stomatal conductance, suggesting passive, transpiration-mediated mechanisms underpin these differences. Bagging plants after damage was employed to minimize differences in stomatal conductance between varieties and in response to damage. This treatment eliminated constitutive differences in leaf Si levels, but did not impair the damage-induced increases in Si uptake: damaged, bagged plants still had more leaf Si than undamaged, bagged plants in all three varieties. Preliminary differential gene expression analysis revealed that the active Si transporter Lsi2 was highly expressed in damaged unbagged plants compared with undamaged unbagged plants, suggesting damage-induced Si defenses are regulated at gene level. Our findings suggest that although differences in transpiration may be partially responsible for varietal differences in Si uptake, they cannot explain damage-induced increases in Si uptake and deposition, suggesting that wounding causes changes in Si uptake, distribution and deposition that likely involve active processes and changes in gene expression.- Published
- 2017
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17. Accuracy of Genomic Prediction in a Commercial Perennial Ryegrass Breeding Program.
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Fè D, Ashraf BH, Pedersen MG, Janss L, Byrne S, Roulund N, Lenk I, Didion T, Asp T, Jensen CS, and Jensen J
- Subjects
- Genomics, Genotype, Phenotype, Genome, Plant genetics, Lolium genetics, Models, Genetic, Plant Breeding
- Abstract
The implementation of genomic selection (GS) in plant breeding, so far, has been mainly evaluated in crops farmed as homogeneous varieties, and the results have been generally positive. Fewer results are available for species, such as forage grasses, that are grown as heterogenous families (developed from multiparent crosses) in which the control of the genetic variation is far more complex. Here we test the potential for implementing GS in the breeding of perennial ryegrass ( L.) using empirical data from a commercial forage breeding program. Biparental F and multiparental synthetic (SYN) families of diploid perennial ryegrass were genotyped using genotyping-by-sequencing, and phenotypes for five different traits were analyzed. Genotypes were expressed as family allele frequencies, and phenotypes were recorded as family means. Different models for genomic prediction were compared by using practically relevant cross-validation strategies. All traits showed a highly significant level of genetic variance, which could be traced using the genotyping assay. While there was significant genotype × environment (G × E) interaction for some traits, accuracies were high among F families and between biparental F and multiparental SYN families. We have demonstrated that the implementation of GS in grass breeding is now possible and presents an opportunity to make significant gains for various traits., (Copyright © 2016 Crop Science Society of America.)
- Published
- 2016
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18. Estimating genomic heritabilities at the level of family-pool samples of perennial ryegrass using genotyping-by-sequencing.
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Ashraf BH, Byrne S, Fé D, Czaban A, Asp T, Pedersen MG, Lenk I, Roulund N, Didion T, Jensen CS, Jensen J, and Janss LL
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- Disease Resistance genetics, Gene Frequency, Gene Library, Genotyping Techniques methods, Models, Genetic, Phenotype, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Sequence Analysis, DNA methods, Gene Pool, Genome, Plant, Genomics methods, Lolium genetics
- Abstract
Keymessage: By using the genotyping-by-sequencing method, it is feasible to characterize genomic relationships directly at the level of family pools and to estimate genomic heritabilities from phenotypes scored on family-pools in outbreeding species. Genotyping-by-sequencing (GBS) has recently become a promising approach for characterizing plant genetic diversity on a genome-wide scale. We use GBS to extend the concept of heritability beyond individuals by genotyping family-pool samples by GBS and computing genomic relationship matrices (GRMs) and genomic heritabilities directly at the level of family-pools from pool-frequencies obtained by sequencing. The concept is of interest for species where breeding and phenotyping is not done at the individual level but operates uniquely at the level of (multi-parent) families. As an example we demonstrate the approach using a set of 990 two-parent F2 families of perennial ryegrass (Lolium Perenne). The families were phenotyped as a family-unit in field plots for heading date and crown rust resistance. A total of 728 K single nucleotide polymorphism (SNP) variants were available and were divided in groups of different sequencing depths. GRMs based on GBS data showed diagonal values biased upwards at low sequencing depth, while off-diagonals were little affected by the sequencing depth. Using variants with high sequencing depth, genomic heritability for crown rust resistance was 0.33, and for heading date 0.22, and these genomic heritabilities were biased downwards when using variants with lower sequencing depth. Broad sense heritabilities were 0.61 and 0.66, respectively. Underestimation of genomic heritability at lower sequencing depth was confirmed with simulated data. We conclude that it is feasible to use GBS to describe relationships between family-pools and to estimate genomic heritability directly at the level of F2 family-pool samples, but estimates are biased at low sequencing depth.
- Published
- 2016
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19. Genomic dissection and prediction of heading date in perennial ryegrass.
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Fè D, Cericola F, Byrne S, Lenk I, Ashraf BH, Pedersen MG, Roulund N, Asp T, Janss L, Jensen CS, and Jensen J
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- Breeding, Genetics, Population, Genome-Wide Association Study, Linkage Disequilibrium, Phenotype, Polymorphism, Single Nucleotide, Reproducibility of Results, Selection, Genetic, Genome, Plant, Genomics methods, Lolium genetics, Quantitative Trait, Heritable
- Abstract
Background: Genomic selection (GS) has become a commonly used technology in animal breeding. In crops, it is expected to significantly improve the genetic gains per unit of time. So far, its implementation in plant breeding has been mainly investigated in species farmed as homogeneous varieties. Concerning crops farmed in family pools, only a few theoretical studies are currently available. Here, we test the opportunity to implement GS in breeding of perennial ryegrass, using real data from a forage breeding program. Heading date was chosen as a model trait, due to its high heritability and ease of assessment. Genome Wide Association analysis was performed to uncover the genetic architecture of the trait. Then, Genomic Prediction (GP) models were tested and prediction accuracy was compared to the one obtained in traditional Marker Assisted Selection (MAS) methods., Results: Several markers were significantly associated with heading date, some locating within or proximal to genes with a well-established role in floral regulation. GP models gave very high accuracies, which were significantly better than those obtained through traditional MAS. Accuracies were higher when predictions were made from related families and from larger training populations, whereas predicting from unrelated families caused the variance of the estimated breeding values to be biased downwards., Conclusions: We have demonstrated that there are good perspectives for GS implementation in perennial ryegrass breeding, and that problems resulting from low linkage disequilibrium (LD) can be reduced by the presence of structure and related families in the breeding population. While comprehensive Genome Wide Association analysis is difficult in species with extremely low LD, we did identify variants proximal to genes with a known role in flowering time (e.g. CONSTANS and Phytochrome C).
- Published
- 2015
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20. Comparative sequence analysis of VRN1 alleles of Lolium perenne with the co-linear regions in barley, wheat, and rice.
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Asp T, Byrne S, Gundlach H, Bruggmann R, Mayer KF, Andersen JR, Xu M, Greve M, Lenk I, and Lübberstedt T
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- Alleles, Base Sequence, Genes, Plant, Hordeum genetics, Molecular Sequence Data, Oryza genetics, Triticum genetics, Lolium genetics, Repressor Proteins genetics, Sequence Analysis
- Abstract
Vernalization, a period of low temperature to induce transition from vegetative to reproductive state, is an important environmental stimulus for many cool season grasses. A key gene in the vernalization pathway in grasses is the VRN1 gene. The objective of this study was to identify causative polymorphism(s) at the VRN1 locus in perennial ryegrass (Lolium perenne) for variation in vernalization requirement. Two allelic Bacterial Artificial Chromosome clones of the VRN1 locus from the two genotypes Veyo and Falster with contrasting vernalization requirements were identified, sequenced, and characterized. Analysis of the allelic sequences identified an 8.6-kb deletion in the first intron of the VRN1 gene in the Veyo genotype which has low vernalization requirement. This deletion was in a divergent recurrent selection experiment confirmed to be associated with genotypes with low vernalization requirement. The region surrounding the VRN1 locus in perennial ryegrass showed microcolinearity to the corresponding region on chromosome 3 in Oryza sativa with conserved gene order and orientation, while the micro-colinearity to the corresponding region in Triticum monococcum was less conserved. Our study indicates that the first intron of the VRN1 gene, and in particular the identified 8.6 kb region, is an important regulatory region for vernalization response in perennial ryegrass.
- Published
- 2011
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21. Genetic variation, population structure, and linkage disequilibrium in European elite germplasm of perennial ryegrass.
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Brazauskas G, Lenk I, Pedersen MG, Studer B, and Lübberstedt T
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- Chromosome Mapping, Europe, Genetic Markers genetics, Genotype, Microsatellite Repeats genetics, Population Dynamics, Principal Component Analysis, Genetic Variation, Linkage Disequilibrium genetics, Lolium genetics, Seeds genetics
- Abstract
Perennial ryegrass (Lolium perenne L.) is a highly valued temperate climate grass species grown as forage crop and for amenity uses. Due to its outbreeding nature and recent domestication, a high degree of genetic diversity is expected among cultivars. The aim of this study was to assess the extent of linkage disequilibrium (LD) within European elite germplasm and to evaluate the appropriate methodology for genetic association mapping in perennial ryegrass. A high level of genetic diversity was observed in a set of 380 perennial ryegrass elite genotypes when genotyped with 40 SSRs and 2 STS markers. A Bayesian structure analysis identified two subpopulations, which were confirmed by principal coordinate analysis (PCoA). One subpopulation consisted mainly of genotypes originating from the UK, while germplasm mostly from Continental Europe was grouped into the second subpopulation. LD (r(2)) decay was rapid and occurred within 0.4cM across European varieties, when population structure was taken into consideration. However, an extended LD of up to 6.6cM was detected within the variety Aberdart. High genetic diversity and rapid LD decay provide means for high resolution association mapping in elite materials of perennial ryegrass. However, different strategies need to be applied depending on the material used. Genome-wide association study (GWAS) with several hundred markers can be applied within synthetic varieties to identify large (up to 10cM) genomic regions affecting trait variation. A combination of available and novel DNA markers is needed to achieve resolution required for GWAS in elite breeding materials. An even higher marker density of several million SNPs might be needed for GWAS in diverse ecotype collections, potentially resulting in quantitative trait polymorphism (QTP) identification., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)
- Published
- 2011
- Full Text
- View/download PDF
22. Nucleotide diversity and linkage disequilibrium of nine genes with putative effects on flowering time in perennial ryegrass (Lolium perenne L.).
- Author
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Fiil A, Lenk I, Petersen K, Jensen CS, Nielsen KK, Schejbel B, Andersen JR, and Lübberstedt T
- Subjects
- Alleles, Chromosome Mapping, Flowers genetics, Flowers physiology, Haplotypes genetics, Heterozygote, Linkage Disequilibrium physiology, Lolium physiology, MADS Domain Proteins physiology, Plant Immunity genetics, Plant Immunity physiology, Polymorphism, Genetic physiology, Promoter Regions, Genetic, Quantitative Trait Loci, Selection, Genetic, Sequence Alignment, Sequence Analysis, DNA, Time Factors, Genes, Plant, Linkage Disequilibrium genetics, Lolium genetics, MADS Domain Proteins genetics, Polymorphism, Genetic genetics
- Abstract
Optimization of flowering is an important breeding goal in forage and turf grasses, such as perennial ryegrass (Lolium perenne L.). Nine floral control genes including Lolium perenne CONSTANS (LpCO), SISTER OF FLOWERING LOCUS T (LpSFT), TERMINAL FLOWER1 (LpTFL1), VERNALIZATION1 (LpVRN1, identical to LpMADS1) and five additional MADS-box genes, were analyzed for nucleotide diversity and linkage disequilibrium (LD). For each gene, about 1 kb genomic fragments were isolated from 10 to 20 genotypes of perennial ryegrass of diverse origin. Four to twelve haplotypes per gene were observed. On average, one single nucleotide polymorphism (SNP) was present per 127 bp between two randomly sampled sequences for the nine genes (π = 0.00790). Two MADS-box genes, LpMADS1 and LpMADS10, involved in timing of flowering showed high nucleotide diversity and rapid LD decay, whereas MADS-box genes involved in floral organ identity were found to be highly conserved and showed extended LD. For LpMADS4, LpMADS5, LpCO, LpSFT and LpTFL1, LD extended over the entire region analyzed. The results are compared to previously published results on resistance genes within the same collection of genotypes and the prospects for association mapping of floral control in perennial ryegrass are discussed., (Copyright © 2010 Elsevier Ireland Ltd. All rights reserved.)
- Published
- 2011
- Full Text
- View/download PDF
23. Comparative analysis of transgenic tall fescue (Festuca arundinacea Schreb.) plants obtained by Agrobacterium-mediated transformation and particle bombardment.
- Author
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Gao C, Long D, Lenk I, and Nielsen KK
- Subjects
- Blotting, Southern, DNA, Plant metabolism, Gene Dosage, Gene Expression Regulation, Plant, Genetic Vectors genetics, Plants, Genetically Modified, Selection, Genetic, Tissue Culture Techniques, Transgenes, Biolistics, Festuca genetics, Festuca microbiology, Rhizobium metabolism, Transformation, Genetic
- Abstract
Agrobacterium-mediated transformation and particle bombardment are the two most widely used methods for genetically modifying grasses. Here, these two systems are compared for transformation efficiency, transgene integration and transgene expression when used to transform tall fescue (Festuca arundinacea Schreb.). The bar gene was used as a selectable marker and selection during tissue culture was performed using 2 mg/l bialaphos in both callus induction and regeneration media. Average transformation efficiency across the four callus lines used in the experiments was 10.5% for Agrobacterium-mediated transformation and 11.5% for particle bombardment. Similar transgene integration patterns and co-integration frequencies of bar and uidA were observed in both gene transfer systems. However, while GUS activity was detected in leaves of 53% of the Agrobacterium transformed lines, only 20% of the bombarded lines showed GUS activity. Thus, Agrobacterium-mediated transformation appears to be the preferred method for producing transgenic tall fescue plants.
- Published
- 2008
- Full Text
- View/download PDF
24. A high-throughput Agrobacterium-mediated transformation system for the grass model species Brachypodium distachyon L.
- Author
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Păcurar DI, Thordal-Christensen H, Nielsen KK, and Lenk I
- Subjects
- Blotting, Southern, Genes, Plant, Transgenes, Models, Genetic, Poaceae genetics, Rhizobium physiology, Transformation, Genetic
- Abstract
In the ongoing process of developing Brachypodium distachyon as a model plant for temperate cereals and forage grasses, we have developed a high-throughput Agrobacterium-mediated transformation system for a diploid accession. Embryogenic callus, derived from immature embryos of the accession BDR018, were transformed with Agrobacterium tumefaciens strain AGL1 carrying two T-DNA plasmids, pDM805 and pWBV-Ds-Ubi-bar-Ds. Transient and stable transformation efficiencies were optimised by varying the pre-cultivation period, which had a strong effect on stable transformation efficiency. On average 55% of 17-day-old calli co-inoculated with Agrobacterium regenerated stable transgenic plants. Stable transformation frequencies of up to 80%, which to our knowledge is the highest transformation efficiency reported in graminaceous species, were observed. In a study of 177 transgenic lines transformed with pDM805, all of the regenerated transgenic lines were resistant to BASTA, while the gusA gene was expressed in 88% of the transgenic lines. Southern blot analysis revealed that 35% of the tested plants had a single T-DNA integration. Segregation analysis performed on progenies of ten selected T(0) plants indicated simple Mendelian inheritance of the two transgenes. Furthermore, the presence of two selection marker genes, bar and hpt, on the T-DNA of pWBV-Ds-Ubi-bar-Ds allowed us to characterize the developed transformation protocol with respect to full-length integration rate. Even when not selected for, full-length integration occurred in 97% of the transformants when using bialaphos as selection agent.
- Published
- 2008
- Full Text
- View/download PDF
25. Functional characterization of tobacco transcription factor TGA2.1.
- Author
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Kegler C, Lenk I, Krawczyk S, Scholz R, and Gatz C
- Subjects
- Binding Sites genetics, Blotting, Northern, Blotting, Western, Electrophoretic Mobility Shift Assay, Gene Expression Regulation, Plant drug effects, Mutation, Plant Proteins genetics, Plants, Genetically Modified, Protein Binding, RNA, Plant genetics, RNA, Plant metabolism, Salicylic Acid pharmacology, Nicotiana genetics, Transcription Factors genetics, Plant Proteins metabolism, Nicotiana metabolism, Transcription Factors metabolism
- Abstract
Activation sequence-1 (as-1)-like regulatory cis elements mediate transcriptional activation in response to increased levels of plant signalling molecules auxin and salicylic acid (SA). Our earlier work has shown that tobacco cellular as-1-binding complex SARP (salicylic acid responsive protein) is primarily comprised of bZIP protein TGA2.2 and of minor amounts of a protein that cross-reacts with an antibody directed against related bZIP factor TGA2.1. As this protein was significantly smaller than recombinant TGA2.1, the origin of this protein had remained unresolved. Here we demonstrate that it corresponds to a distinct cleavage product of TGA2.1 generated during extract preparation. Overexpression of TGA2.1 led to increased levels of the TGA2.1/TGA2.2 heterodimer which was as effective with regard to enhancing the SA-inducibility of as-1 containing target gene Nt103 as corresponding amounts of the TGA2.2 homodimer. Thus, the TGA2.1 specific N-terminal domain, which had revealed transcriptional activation potential in yeast, did not show enhanced transcriptional activation in planta. TGA2.1 even had a negative effect on the SA-induced expression of the truncated CaMV 35S (-90) promoter that contains an isolated as-1-element upstream of the TATA-box. Plants expressing a TGA mutant deficient in DNA binding (TGA2.1trd) showed reduced levels of SA-inducible Nt103 expression, thus resembling plants expressing the analogous TGA2.2 derivative TGA2.2trd. In contrast to TGA2.2trd, TGA2.1trd did not reduce auxin-induced expression of Nt103 and SA-induced expression of pathogenesis related protein PR-1a, indicating that TGA2.1trd and TGA2.2trd differ in their capacity to outcompete regulatory factors involved in these regulatory pathways.
- Published
- 2004
- Full Text
- View/download PDF
26. Technical advance: transcriptional activator TGV mediates dexamethasone-inducible and tetracycline-inactivatable gene expression
- Author
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Bohner S, Lenk I I, Rieping M, Herold M, and Gatz C
- Abstract
A chemically regulated gene expression system that can be switched on with dexamethasone and switched off with tetracycline was constructed. It is based on a transcriptional activator (TGV) that consists of the Tn10 encoded Tet repressor, the rat glucocorticoid receptor hormone binding domain and the transcriptional activation domain of Herpes simplex virion protein VP16. When stably expressed in transgenic tobacco plants, it mediates dexamethasone-inducible transcription from a synthetic promoter (PTop10) consisting of seven tet operators upstream of a TATA-box. Tetracycline interferes with induction by negatively regulating the DNA-binding activity of the TetR moiety of TGV. The boundaries of the expression window of the TGV-driven PTop10 reach from undetectable levels of the reporter enzyme beta-glucuronidase in the absence of dexa- methasone to induced levels reaching 15-20% of the Cauliflower Mosaic Virus 35S promoter (PCaMV35S). By modifying the sequence of PTop10, we generated a new target promoter (PTax) that is stably expressed over several generations and that can be activated to levels comparable to PCaMV35S, while yielding only slightly elevated background activities.
- Published
- 1999
- Full Text
- View/download PDF
27. [Work protection is also necessary in sanitary affairs; ether explosioo resulting in fire caused by the non-observance of work protection regulations].
- Author
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LENK I
- Subjects
- Humans, Ether, Ethers, Pharmacies, Pharmacy
- Published
- 1959
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