23 results on '"Noel Ellis"'
Search Results
2. An Integrated Linkage Map of Three Recombinant Inbred Populations of Pea (Pisum sativum L.)
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Chie Sawada, Carol Moreau, Gabriel H. J. Robinson, Burkhard Steuernagel, Luzie U. Wingen, Jitender Cheema, Ellen Sizer-Coverdale, David Lloyd, Claire Domoney, and Noel Ellis
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pea ,genetic map ,recombinant inbred population ,integrated map ,Genetics ,QH426-470 - Abstract
Biparental recombinant inbred line (RIL) populations are sets of genetically stable lines and have a simple population structure that facilitates the dissection of the genetics of interesting traits. On the other hand, populations derived from multiparent intercrosses combine both greater diversity and higher numbers of recombination events than RILs. Here, we describe a simple population structure: a three-way recombinant inbred population combination. This structure was easy to produce and was a compromise between biparental and multiparent populations. We show that this structure had advantages when analyzing cultivar crosses, and could achieve a mapping resolution of a few genes.
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- 2022
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3. NMR Metabolomics Defining Genetic Variation in Pea Seed Metabolites
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Noel Ellis, Chie Hattori, Jitender Cheema, James Donarski, Adrian Charlton, Michael Dickinson, Giampaolo Venditti, Péter Kaló, Zoltán Szabó, György B. Kiss, and Claire Domoney
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genetic map ,genetic variation ,pea ,seed ,metabolite ,nuclear magnetic resonance ,Plant culture ,SB1-1110 - Abstract
Nuclear magnetic resonance (NMR) spectroscopy profiling was used to provide an unbiased assessment of changes to the metabolite composition of seeds and to define genetic variation for a range of pea seed metabolites. Mature seeds from recombinant inbred lines, derived from three mapping populations for which there is substantial genetic marker linkage information, were grown in two environments/years and analyzed by non-targeted NMR. Adaptive binning of the NMR metabolite data, followed by analysis of quantitative variation among lines for individual bins, identified the main genomic regions determining this metabolic variability and the variability for selected compounds was investigated. Analysis by t-tests identified a set of bins with highly significant associations to genetic map regions, based on probability (p) values that were appreciably lower than those determined for randomized data. The correlation between bins showing high mean absolute deviation and those showing low p-values for marker association provided an indication of the extent to which the genetics of bin variation might be explained by one or a few loci. Variation in compounds related to aromatic amino acids, branched-chain amino acids, sucrose-derived metabolites, secondary metabolites and some unidentified compounds was associated with one or more genetic loci. The combined analysis shows that there are multiple loci throughout the genome that together impact on the abundance of many compounds through a network of interactions, where individual loci may affect more than one compound and vice versa. This work therefore provides a framework for the genetic analysis of the seed metabolome, and the use of genetic marker data in the breeding and selection of seeds for specific seed quality traits and compounds that have high commercial value.
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- 2018
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4. Genetic Variation Controlling Wrinkled Seed Phenotypes in Pisum: How Lucky Was Mendel?
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Tracey Rayner, Carol Moreau, Mike Ambrose, Peter G. Isaac, Noel Ellis, and Claire Domoney
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genetic markers ,myoinositol ,pea germplasm ,r and rb mutations ,seed phenotype ,seed coat (testa) metabolites ,wrinkled seeds ,Biology (General) ,QH301-705.5 ,Chemistry ,QD1-999 - Abstract
One of the traits studied by Mendel in pea (Pisum sativum L.) was the wrinkled-seeded phenotype, and the molecular basis for a mutation underlying this phenotype was discovered in the 1990s. Although the starch-branching enzyme gene mutation identified at the genetic locus r is most likely to be that in seeds available to Mendel in the mid-1800s, it has remained an open question as to whether or not additional natural mutations in this gene exist within Pisum germplasm collections. Here, we explore this question and show that all but two wrinkled-seeded variants in one such collection correspond to either the mutant allele described previously for the r locus or a mutation at a second genetic locus, rb, affecting the gene encoding the large subunit of Adenosine diphosphoglucose (ADP-glucose) pyrophosphorylase; the molecular basis for the rb mutation is described here. The genetic basis for the phenotype of one (JI 2110) of the two lines which are neither r nor rb has been studied in crosses with a round-seeded variant (JI 281); for which extensive genetic marker data were expected. In marked contrast to the trait studied by Mendel and the rb phenotype; the data suggest that the wrinkled-seeded phenotype in JI 2110 is maternally determined, controlled by two genetic loci, and the extent to which it is manifested is very sensitive to the environment. Metabolite analysis of the cotyledons of JI 2110 revealed a profile for sucrose and sucrose-derived compounds that was more similar to that of wild-type round-seeded, than that of wrinkled-seeded r, pea lines. However, the metabolite profile of the seed coat (testa) of JI 2110 was distinct from that of other round-seeded genotypes tested which, together with analysis of recombinant inbred progeny lines, suggests an explanation for the seed phenotype.
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- 2017
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5. The Taxonomic Status of Genera within the Fabeae (Vicieae), with a Special Focus on Pisum
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T. H. Noel Ellis, Petr Smýkal, Nigel Maxted, Clarice J. Coyne, Claire Domoney, Judith Burstin, Yanis Bouchenak-Khelladi, and Noam Chayut
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Leguminosae ,systematics ,phylogenetics ,Pisum sativum ,Lathyrus oleraceus ,nomenclature ,Biology (General) ,QH301-705.5 - Abstract
The taxonomy of the tribe Fabeae (Vicieae) has long been problematic, but an analysis by Schaefer et al. in 2012 gave an exceptionally clear view of the tribe and noted the possibility that some nomenclatural adjustments may be required at some future date. These authors suggested several options, expressing some preferences. However, there has been a recent change to formally accepted names, implementing one of these possibilities, but without any additional relevant information. This change seems unjustified and unhelpful. We therefore present an argument for the retention, or re-instatement, of the genera Pisum, Vavilovia, and Lens until such time as new data support this requirement and there is no nomenclatural solution that is both accurate and convenient.
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- 2024
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6. Mendel’s terminology and notation reveal his understanding of genetics
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T. H. Noel Ellis and Peter J. van Dijk
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Mendel ,Terminology ,Symbols ,Genetic nomenclatutre ,Olby ,Genetics ,QH426-470 - Abstract
Abstract We describe both the terminology and use of symbols introduced by Mendel in his 1866 paper and discuss some misconceptions concerning their interpretation.
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- 2023
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7. THREaD Mapper Studio: a novel, visual web server for the estimation of genetic linkage maps.
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Jitender Cheema, T. H. Noel Ellis, and Jo L. Dicks
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- 2010
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8. Evidence for the presence of hairpin chloroplast DNA molecules in barley cultivars
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Collin, Sylvie and Noel Ellis, T. H.
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- 1991
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9. Methylated and undermethylated rDNA repeats are interspersed at random in two higher plant species
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Noel Ellis, T. H., Delseny, Michel, Lee, David, and Burcham, Kenneth W. G.
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- 1990
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10. Corrigendum: Relacorilant, a Selective Glucocorticoid Receptor Modulator, Induces Clinical Improvements in Patients With Cushing Syndrome: Results From A Prospective, Open-Label Phase 2 Study
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Rosario Pivonello, Irina Bancos, Richard A. Feelders, Atil Y. Kargi, Janice M. Kerr, Murray B. Gordon, Cary N. Mariash, Massimo Terzolo, Noel Ellison, and Andreas G. Moraitis
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clinical trial ,cortisol ,Cushing syndrome ,glucocorticoid ,hypercortisolism ,hyperglycemia ,Diseases of the endocrine glands. Clinical endocrinology ,RC648-665 - Published
- 2022
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11. Relacorilant, a Selective Glucocorticoid Receptor Modulator, Induces Clinical Improvements in Patients With Cushing Syndrome: Results From A Prospective, Open-Label Phase 2 Study
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Rosario Pivonello, Irina Bancos, Richard A. Feelders, Atil Y. Kargi, Janice M. Kerr, Murray B. Gordon, Cary N. Mariash, Massimo Terzolo, Noel Ellison, and Andreas G. Moraitis
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clinical trial ,cortisol ,Cushing syndrome ,glucocorticoid ,hypercortisolism ,hyperglycemia ,Diseases of the endocrine glands. Clinical endocrinology ,RC648-665 - Abstract
Introduction/PurposeRelacorilant is a selective glucocorticoid receptor modulator (SGRM) with no progesterone receptor activity. We evaluated the efficacy and safety of relacorilant in patients with endogenous Cushing syndrome (CS).Materials and MethodsA single-arm, open-label, phase 2, dose-finding study with 2 dose groups (NCT02804750, https://clinicaltrials.gov/ct2/show/NCT02804750) was conducted at 19 sites in the U.S. and Europe. Low-dose relacorilant (100-200 mg/d; n = 17) was administered for 12 weeks or high-dose relacorilant (250-400 mg/d; n = 18) for 16 weeks; doses were up-titrated by 50 mg every 4 weeks. Outcome measures included proportion of patients with clinically meaningful changes in hypertension and/or hyperglycemia from baseline to last observed visit. For patients with hypertension, clinical response was defined as a ≥5-mmHg decrease in mean systolic or diastolic blood pressure, measured by a standardized and validated 24-h ABPM. For patients with hyperglycemia, clinical response was defined ad-hoc as ≥0.5% decrease in HbA1c, normalization or ≥50-mg/dL decrease in 2-h plasma glucose value on oral glucose tolerance test, or decrease in daily insulin (≥25%) or sulfonylurea dose (≥50%).Results35 adults with CS and hypertension and/or hyperglycemia (impaired glucose tolerance or type 2 diabetes mellitus) were enrolled, of which 34 (24 women/10 men) received treatment and had postbaseline data. In the low-dose group, 5/12 patients (41.7%) with hypertension and 2/13 patients (15.4%) with hyperglycemia achieved response. In the high-dose group, 7/11 patients (63.6%) with hypertension and 6/12 patients (50%) with hyperglycemia achieved response. Common (≥20%) adverse events included back pain, headache, peripheral edema, nausea, pain at extremities, diarrhea, and dizziness. No drug-induced vaginal bleeding or hypokalemia occurred.ConclusionsThe SGRM relacorilant provided clinical benefit to patients with CS without undesirable antiprogesterone effects or drug-induced hypokalemia.
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- 2021
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12. Developmental specialisations in the legume family.
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Hofer, Julie MI and Noel Ellis, TH
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LEGUMES , *PLANT development , *PLANT diversity , *MERISTEMS , *INTERCALATION reactions , *INFLORESCENCES - Abstract
Highlights: [•] The legume family is large and very diverse. [•] Sequence and genetic information is rich in the papilionoid legumes. [•] Developmental specialisations include intercalated meristems and novel organs. [•] Genes underlying both inflorescence complexity and nodule identity are discussed. [•] Developmental novelties are considered in a phylogenetic context. [ABSTRACT FROM AUTHOR]
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- 2014
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13. Organotrifluoroborates: Protected Boronic Acids That Expand the Versatility of the Suzuki Coupling Reaction.
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Gary A. Molander and Noel Ellis
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BORON compounds , *CHEMICAL bonds , *BORATES , *CHEMICAL reagents - Abstract
Organotrifluoroborates represent an alternative to boronic acids, boronate esters, and organoboranes for use in Suzuki−Miyaura and other transition-metal-catalyzed cross-coupling reactions. The trifluoroborate moiety is stable toward numerous reagents that are often problematic for other boron species. Consequently, remote functional groups within the organotrifluoroborates can be manipulated, while retaining the valuable carbon−boron bond. [ABSTRACT FROM AUTHOR]
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- 2007
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14. Germplasm resources in legumes.
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Noel Ellis, T. H.
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PLANT germplasm , *LEGUMES , *PLANT genetics , *PLANT diversity , *PLANT breeding , *PLANT species - Abstract
The collected articles in this volume are discussed in their wider context. [ABSTRACT FROM AUTHOR]
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- 2011
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15. Mendel’s pea crosses: varieties, traits and statistics
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T. H. Noel Ellis, Julie M. I. Hofer, Martin T. Swain, and Peter J. van Dijk
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Gregor Mendel ,Pea varieties ,RA Fisher ,Statistical controversy ,Genetics ,QH426-470 - Abstract
Abstract A controversy arose over Mendel’s pea crossing experiments after the statistician R.A. Fisher proposed how these may have been performed and criticised Mendel’s interpretation of his data. Here we re-examine Mendel’s experiments and investigate Fisher’s statistical criticisms of bias. We describe pea varieties available in Mendel’s time and show that these could readily provide all the material Mendel needed for his experiments; the characters he chose to follow were clearly described in catalogues at the time. The combination of character states available in these varieties, together with Eichling’s report of crosses Mendel performed, suggest that two of his F3 progeny test experiments may have involved the same F2 population, and therefore that these data should not be treated as independent variables in statistical analysis of Mendel’s data. A comprehensive re-examination of Mendel’s segregation ratios does not support previous suggestions that they differ remarkably from expectation. The χ2 values for his segregation ratios sum to a value close to the expectation and there is no deficiency of extreme segregation ratios. Overall the χ values for Mendel’s segregation ratios deviate slightly from the standard normal distribution; this is probably because of the variance associated with phenotypic rather than genotypic ratios and because Mendel excluded some data sets with small numbers of progeny, where he noted the ratios “deviate not insignificantly” from expectation.
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- 2019
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16. Potential and limits of exploitation of crop wild relatives for pea, lentil, and chickpea improvement
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Clarice J. Coyne, Shiv Kumar, Eric J.B. vonWettberg, Edward Marques, Jens D. Berger, Robert J. Redden, T.H. Noel Ellis, Jan Brus, Lenka Zablatzká, and Petr Smýkal
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chickpea ,climate change ,crop wild relatives ,genetic diversity ,introgression ,lentil ,Plant culture ,SB1-1110 - Abstract
Abstract Legumes represent the second most important family of crop plants after grasses, accounting for approximately 27% of the world's crop production. Past domestication processes resulted in a high degree of relatedness between modern varieties of crops, leading to a narrower genetic base of cultivated germplasm prone to pests and diseases. Crop wild relatives (CWRs) harbor genetic diversity tested by natural selection in a range of environments. To fully understand and exploit local adaptation in CWR, studies in geographical centers of origin combining ecology, physiology, and genetics are needed. With the advent of modern genomics and computation, combined with systematic phenotyping, it is feasible to revisit wild accessions and landraces and prioritize their use for breeding, providing sources of disease resistances; tolerances of drought, heat, frost, and salinity abiotic stresses; nutrient densities across major and minor elements; and food quality traits. Establishment of hybrid populations with CWRs gives breeders a considerable benefit of a prebreeding tool for identifying and harnessing wild alleles and provides extremely valuable long‐term resources. There is a need of further collecting and both ex situ and in situ conservation of CWR diversity of these taxa in the face of habitat loss and degradation and climate change. In this review, we focus on three legume crops domesticated in the Fertile Crescent, pea, chickpea, and lentil, and summarize the current state and potential of their respective CWR taxa for crop improvement.
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- 2020
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17. Genome-Wide Association Mapping for Agronomic and Seed Quality Traits of Field Pea (Pisum sativum L.)
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Krishna Kishore Gali, Alison Sackville, Endale G. Tafesse, V.B. Reddy Lachagari, Kevin McPhee, Mick Hybl, Alexander Mikić, Petr Smýkal, Rebecca McGee, Judith Burstin, Claire Domoney, T.H. Noel Ellis, Bunyamin Tar'an, and Thomas D. Warkentin
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field pea ,genetic diversity ,genome-wide association study ,genotyping-by-sequencing ,single nucleotide polymorphisms ,Plant culture ,SB1-1110 - Abstract
Genome-wide association study (GWAS) was conducted to identify loci associated with agronomic (days to flowering, days to maturity, plant height, seed yield and seed weight), seed morphology (shape and dimpling), and seed quality (protein, starch, and fiber concentrations) traits of field pea (Pisum sativum L.). A collection of 135 pea accessions from 23 different breeding programs in Africa (Ethiopia), Asia (India), Australia, Europe (Belarus, Czech Republic, Denmark, France, Lithuania, Netherlands, Russia, Sweden, Ukraine and United Kingdom), and North America (Canada and USA), was used for the GWAS. The accessions were genotyped using genotyping-by-sequencing (GBS). After filtering for a minimum read depth of five, and minor allele frequency of 0.05, 16,877 high quality SNPs were selected to determine marker-trait associations (MTA). The LD decay (LD1/2max,90) across the chromosomes varied from 20 to 80 kb. Population structure analysis grouped the accessions into nine subpopulations. The accessions were evaluated in multi-year, multi-location trials in Olomouc (Czech Republic), Fargo, North Dakota (USA), and Rosthern and Sutherland, Saskatchewan (Canada) from 2013 to 2017. Each trait was phenotyped in at least five location-years. MTAs that were consistent across multiple trials were identified. Chr5LG3_566189651 and Chr5LG3_572899434 for plant height, Chr2LG1_409403647 for lodging resistance, Chr1LG6_57305683 and Chr1LG6_366513463 for grain yield, Chr1LG6_176606388, Chr2LG1_457185, Chr3LG5_234519042 and Chr7LG7_8229439 for seed starch concentration, and Chr3LG5_194530376 for seed protein concentration were identified from different locations and years. This research identified SNP markers associated with important traits in pea that have potential for marker-assisted selection towards rapid cultivar improvement.
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- 2019
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18. Diversity of Pod Shape in Pisum
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Thomas Henry Noel Ellis, Julie M. I. Hofer, Eleni Vikeli, Michael J. Ambrose, Paola Higuera-Poveda, Luzie U. Wingen, and Noam Chayut
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pea ,germplasm ,Pisum sativum ,Pisum fulvum ,cv Afghanistan ,pod ,Biology (General) ,QH301-705.5 - Abstract
The seed-containing pod is the defining structure of plants in the legume family, yet pods exhibit a wide range of morphological variation. Within a species pod characters are likely to be correlated with reproductive strategy, and within cultivated forms will correspond to aspects of yield determination and/or end use. Here variation in pod size, described as pod length: pod width ratio, has been analyzed in pea germplasm represented by 597 accessions. This pod size variation is discussed with respect to population structure and to known classical pod morphology mutants. Variability of the pod length: width ratio can be explained by allelic variation at two genetic loci that may correspond to organ-specific negative regulators of growth.
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- 2021
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19. Natural Variation in Host-Specific Nodulation of Pea Is Associated with a Haplotype of the SYM37 LysM-Type Receptor-Like Kinase
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Ronghui Li, Maggie R. Knox, Anne Edwards, Bridget Hogg, T. H. Noel Ellis, Gehong Wei, and J. Allan Downie
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Microbiology ,QR1-502 ,Botany ,QK1-989 - Abstract
Rhizobium leguminosarum bv. viciae, which nodulates pea and vetch, makes a mixture of secreted nodulation signals (Nod factors) carrying either a C18:4 or a C18:1 N-linked acyl chain. Mutation of nodE blocks the formation of the C18:4 acyl chain, and nodE mutants, which produce only C18:1-containing Nod factors, are less efficient at nodulating pea. However, there is significant natural variation in the levels of nodulation of different pea cultivars by a nodE mutant of R. leguminosarum bv. viciae. Using recombinant inbred lines from two pea cultivars, one which nodulated relatively well and one very poorly by the nodE mutant, we mapped the nodE-dependent nodulation phenotype to a locus on pea linkage group I. This was close to Sym37 and PsK1, predicted to encode LysM-domain Nod-factor receptor-like proteins; the Sym2 locus that confers Nod-factor-specific nodulation is also in this region. We confirmed the map location using an introgression line carrying this region. Our data indicate that the nodE-dependent nodulation is not determined by the Sym2 locus. We identified several pea lines that are nodulated very poorly by the R. leguminosarum bv. viciae nodE mutant, sequenced the DNA of the predicted LysM-receptor domains of Sym37 and PsK1, and compared the sequences with those derived from pea cultivars that were relatively well nodulated by the nodE mutant. This revealed that one haplotype (encoding six conserved polymorphisms) of Sym37 is associated with very poor nodulation by the nodE mutant. There was no such correlation with polymorphisms at the PsK1 locus. We conclude that the natural variation in nodE-dependent nodulation in pea is most probably determined by the Sym37 haplotype.
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- 2011
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20. Nodule-Expressed Cyp15a Cysteine Protease Genes Map to Syntenic Genome Regions in Pisum and Medicago spp.
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Jason L. Vincent, Maggie R. Knox, T. H. Noel Ellis, Péter Kaló, György B. Kiss, and Nicholas J. Brewin
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transformation ,Microbiology ,QR1-502 ,Botany ,QK1-989 - Abstract
PsCyp15a is a gene that encodes a vacuolar cysteine protease expressed in wilt-induced shoots of Pisum sativum (pea) and in root nodules. To further the understanding of nodular PsCyp15a expression, a region 5′ to the coding sequence of the gene was cloned. Varying lengths of 5′ untranslated sequence were fused with the uidA coding region and introduced from Agrobacterium rhizogenes into “hairy roots” of Vicia hirsuta. In this transgenic root nodulation assay, a promoter sequence of 900 bp was sufficient to give an expression pattern indistinguishable from that obtained in pea nodules by in situ hybridization. An orthologue of PsCyp15a was cloned from nodule mRNA of Medicago sativa and a corresponding gene identified in M. truncatula was also shown to express strongly in nodules. With molecular mapping techniques, it was demonstrated that these genes map to a syntenic genome location in pea and Medicago spp., but the map positions of the Cyp15a genes cannot be correlated with existing nodulation mutants.
- Published
- 2000
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21. Identification of Mendel's white flower character.
- Author
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Roger P Hellens, Carol Moreau, Kui Lin-Wang, Kathy E Schwinn, Susan J Thomson, Mark W E J Fiers, Tonya J Frew, Sarah R Murray, Julie M I Hofer, Jeanne M E Jacobs, Kevin M Davies, Andrew C Allan, Abdelhafid Bendahmane, Clarice J Coyne, Gail M Timmerman-Vaughan, and T H Noel Ellis
- Subjects
Medicine ,Science - Abstract
The genetic regulation of flower color has been widely studied, notably as a character used by Mendel and his predecessors in the study of inheritance in pea.We used the genome sequence of model legumes, together with their known synteny to the pea genome to identify candidate genes for the A and A2 loci in pea. We then used a combination of genetic mapping, fast neutron mutant analysis, allelic diversity, transcript quantification and transient expression complementation studies to confirm the identity of the candidates.We have identified the pea genes A and A2. A is the factor determining anthocyanin pigmentation in pea that was used by Gregor Mendel 150 years ago in his study of inheritance. The A gene encodes a bHLH transcription factor. The white flowered mutant allele most likely used by Mendel is a simple G to A transition in a splice donor site that leads to a mis-spliced mRNA with a premature stop codon, and we have identified a second rare mutant allele. The A2 gene encodes a WD40 protein that is part of an evolutionarily conserved regulatory complex.
- Published
- 2010
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22. Gregor Mendel and the theory of species multiplication.
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van Dijk PJ and Noel Ellis TH
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- History, 19th Century, Phenotype, Inheritance Patterns, Pisum sativum genetics, Databases, Genetic, Hybridization, Genetic, Genetics
- Abstract
According to the revisionist interpretation of Mendel's pea crosses, his primary aim was not to study the inheritance of traits. Instead, he was interested in the question raised by Linnaeus as to whether new species could arise from the hybridization of existing species. The genetic interpretation is therefore seen as ahistorical by the revisionists. This view goes back to the 1979 article "Mendel no Mendelian?" by the historian of science R.C. Olby. A closer analysis shows that Olby implicitly assumed Mendel adhered to the unusual strictest species definition for Pisum. However, we argue that Mendel only mentions the hypothetical application of this strict definition in his 1866 paper. Like most of his contemporaries, Mendel accepted variation within species where the differences between varieties and species were a matter of degree. After researching variable hybrids in peas (Pisum; 1854-1863), Mendel also studied constant hybrids in hawkweeds (Hieracium; 1866-1873), which he considered to be new species. There is no debate about the latter, but the matter becomes muddled because Olby lumps Pisum and Hieracium together, despite their having completely different reproduction systems. Based on newly discovered historical sources, we also dispute several other assumptions made by Olby. We do not consider Olby's claim that Mendel conducted the Pisum experiments to investigate species multiplication to be tenable., Competing Interests: Conflicts of interest The authors declare no conflict of interest., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Genetics Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)
- Published
- 2023
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23. The potyvirus recessive resistance gene, sbm1, identifies a novel role for translation initiation factor eIF4E in cell-to-cell trafficking.
- Author
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Gao Z, Johansen E, Eyers S, Thomas CL, Noel Ellis TH, and Maule AJ
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- Alleles, Amino Acid Sequence, Eukaryotic Initiation Factor-4E chemistry, Eukaryotic Initiation Factor-4E genetics, Gene Expression Regulation, Plant, Gene Expression Regulation, Viral, Genes, Recessive, Immunity, Innate genetics, Molecular Sequence Data, Pisum sativum genetics, Pisum sativum virology, Plant Proteins chemistry, Plant Proteins genetics, Protein Conformation, Sequence Alignment, Sequence Homology, Amino Acid, Species Specificity, Virus Replication, Eukaryotic Initiation Factor-4E physiology, Pisum sativum physiology, Plant Proteins physiology, Potyvirus physiology
- Abstract
From the characterization of the recessive resistance gene, sbm1, in pea we have identified the eukaryotic translation initiation factor, eIF4E, as a susceptibility factor required for infection with the Potyvirus, Pea seed-borne mosaic virus. A functional analysis of the mode of action of the product of the dominant allele revealed a novel function for eIF4E in its support for virus movement from cell-to-cell, in addition to its probable support for viral RNA translation, and hence replication. Different resistance specificities in two independent pea lines were explained by different mutations in eIF4E. On the modelled structure of eIF4E the coding changes were in both cases lying in and around the structural pocket involved in binding the 5'-m7G cap of eukaryotic mRNAs. Protein expression and cap-binding analysis showed that eIF4E encoded by a resistant plant could not bind to m7G-Sepharose, a result which may point to functional redundancy between eIF4E and the paralogous eIF(iso)4E in resistant peas. These observations, together with related findings for other potyvirus recessive resistances, provide a more complete picture of the potyvirus life cycle.
- Published
- 2004
- Full Text
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