Your search keyword '"Rosaceae genetics"' showing total 261 results

151. Saturated linkage map construction in Rubus idaeus using genotyping by sequencing and genome-independent imputation.

Author

Ward JA, Bhangoo J, Fernández-Fernández F, Moore P, Swanson JD, Viola R, Velasco R, Bassil N, Weber CA, and Sargent DJ

Subjects

Genetic Markers genetics, Microsatellite Repeats genetics, Polymorphism, Single Nucleotide genetics, Chromosome Mapping methods, Genome, Plant genetics, Genotyping Techniques methods, High-Throughput Nucleotide Sequencing methods, Rosaceae genetics

Abstract

Background: Rapid development of highly saturated genetic maps aids molecular breeding, which can accelerate gain per breeding cycle in woody perennial plants such as Rubus idaeus (red raspberry). Recently, robust genotyping methods based on high-throughput sequencing were developed, which provide high marker density, but result in some genotype errors and a large number of missing genotype values. Imputation can reduce the number of missing values and can correct genotyping errors, but current methods of imputation require a reference genome and thus are not an option for most species., Results: Genotyping by Sequencing (GBS) was used to produce highly saturated maps for a R. idaeus pseudo-testcross progeny. While low coverage and high variance in sequencing resulted in a large number of missing values for some individuals, a novel method of imputation based on maximum likelihood marker ordering from initial marker segregation overcame the challenge of missing values, and made map construction computationally tractable. The two resulting parental maps contained 4521 and 2391 molecular markers spanning 462.7 and 376.6 cM respectively over seven linkage groups. Detection of precise genomic regions with segregation distortion was possible because of map saturation. Microsatellites (SSRs) linked these results to published maps for cross-validation and map comparison., Conclusions: GBS together with genome-independent imputation provides a rapid method for genetic map construction in any pseudo-testcross progeny. Our method of imputation estimates the correct genotype call of missing values and corrects genotyping errors that lead to inflated map size and reduced precision in marker placement. Comparison of SSRs to published R. idaeus maps showed that the linkage maps constructed with GBS and our method of imputation were robust, and marker positioning reliable. The high marker density allowed identification of genomic regions with segregation distortion in R. idaeus, which may help to identify deleterious alleles that are the basis of inbreeding depression in the species.

Published

2013

152. Plant P450s as versatile drivers for evolution of species-specific chemical diversity.

Author

Hamberger B and Bak S

Subjects

Color, Cytochrome P-450 Enzyme System genetics, Flowers chemistry, Flowers enzymology, Flowers genetics, Genetic Variation, Multigene Family, Pigments, Biological chemistry, Plant Proteins chemistry, Plant Proteins genetics, Rosaceae genetics, Selection, Genetic, Species Specificity, Cytochrome P-450 Enzyme System chemistry, Evolution, Molecular, Genes, Plant, Rosaceae enzymology

Abstract

The irreversible nature of reactions catalysed by P450s makes these enzymes landmarks in the evolution of plant metabolic pathways. Founding members of P450 families are often associated with general (i.e. primary) metabolic pathways, restricted to single copy or very few representatives, indicative of purifying selection. Recruitment of those and subsequent blooms into multi-member gene families generates genetic raw material for functional diversification, which is an inherent characteristic of specialized (i.e. secondary) metabolism. However, a growing number of highly specialized P450s from not only the CYP71 clan indicate substantial contribution of convergent and divergent evolution to the observed general and specialized metabolite diversity. We will discuss examples of how the genetic and functional diversification of plant P450s drives chemical diversity in light of plant evolution. Even though it is difficult to predict the function or substrate of a P450 based on sequence similarity, grouping with a family or subfamily in phylogenetic trees can indicate association with metabolism of particular classes of compounds. Examples will be given that focus on multi-member gene families of P450s involved in the metabolic routes of four classes of specialized metabolites: cyanogenic glucosides, glucosinolates, mono- to triterpenoids and phenylpropanoids.

Published

2013

153. Using genomics to improve fruit quality.

Author

Meneses C and Orellana A

Subjects

Biotechnology methods, Breeding methods, Fruit growth & development, Genomics, Nutritive Value, Rosaceae classification, Rosaceae growth & development, Fruit genetics, Plants, Genetically Modified, Rosaceae genetics

Abstract

New fruit varieties are needed to satisfy consumers, and the industry is facing new challenges in order to respond to these demands. The emergence of genomic tools is releasing information on polymorphisms that can be utilized to expedite breeding processes in species that are difficult to breed, given the long periods of time required to get new varieties. The present review describes the current stages of the ongoing efforts that are being taken to apply these technologies to obtain varieties with improved fruit quality in species of the family Rosaceae.

Published

2013

154. New insights into the variability of reproduction modes in European populations of Rubus subgen. Rubus: how sexual are polyploid brambles?

Author

Šarhanová P, Vašut RJ, Dančák M, Bureš P, and Trávníček B

Subjects

Apomixis, Diploidy, Endosperm embryology, Endosperm genetics, Endosperm physiology, Flow Cytometry, Genome Size, Geography, Parthenogenesis, Reproduction, Rosaceae embryology, Rosaceae genetics, Seeds embryology, Seeds genetics, Seeds physiology, Species Specificity, Tetraploidy, Polyploidy, Rosaceae physiology

Abstract

Rubus subgen. Rubus includes common European species with highly complicated taxonomy, ongoing hybridisation and facultative apomixis. Out of approximately 750 species recognised in Europe, only 3 diploid sexual species are known, along with numerous apomictic brambles that are highly connected to polyploidy. One exception of a tetraploid taxon is R. ser. Glandulosi, which is known for prevalent sexuality. This taxon highly hybridises with tetraploid members of R. ser. Discolores and leads to the origin of many hybridogenous populations and individuals. In this study, we verify reproduction modes in different diploid, triploid and tetraploid species of subgen. Rubus, with focus on taxa putatively involved in such hybridisation by applying flow cytometric seed screen analysis. We found 100 % sexuality of diploid species, whereas triploid species had obligate unreduced embryo sac development. In contrast, tetraploid plants had varying degrees of sexuality. Additionally, we discovered that R. bifrons has the ability to undergo a reproduction mode switch as a reaction to environmental conditions. These results provide insight into reproductive modes of European brambles and shed light on their reticulate evolution and speciation.

Published

2012

155. Spontaneous hybrids between native and exotic Rubus in the Western United States produce offspring both by apomixis and by sexual recombination.

Author

Clark LV and Jasieniuk M

Subjects

Pacific States, Reproduction, Asexual genetics, Chimera genetics, DNA, Chloroplast genetics, Hybrid Vigor physiology, Introduced Species, Microsatellite Repeats genetics, Rosaceae genetics

Abstract

Facultative asexual reproduction is a trait commonly found in invasive species. With a combination of sexual and asexual reproductive modes, such species may adapt to new environments via sexual recombination during range expansion, while at the same time having the benefits of asexuality such as the maintenance of fitness effects that depend upon heterozygosity. In the Western United States, native species of Rubus (Rosaceae) reproduce sexually whereas exotic naturalized Rubus species reproduce by pseudogamous apomixis. We hypothesized that new asexual lineages of Rubus could arise from hybridization in this range. To detect hybridization between native and exotic Rubus, we genotyped 579 individuals collected across California, Oregon and Washington with eight nuclear microsatellites and two chloroplast markers. Principal Coordinate Analysis and Bayesian clustering revealed a limited amount of hybridization of the native R. ursinus with the exotic R. armeniacus and R. pensilvanicus, as well as cultivated varieties. Genetic distances between these hybrids and their offspring indicated that both R. ursinus × R. armeniacus and R. ursinus × R. pensilvanicus produced a mix of apomictic and sexual seeds, with sexual seeds being more viable. Although neither of these hybrid types is currently considered invasive, they model the early stages of evolution of new invasive lineages, given the potential for fixed heterosis and the generation of novel genotypes. The hybrids also retain the ability to increase their fitness via sexual recombination and natural selection. Mixed reproductive systems such as those described here may be an important step in the evolution of asexual invasive species.

Published

2012

156. Development and cross-species/genera transferability of microsatellite markers discovered using 454 genome sequencing in chokecherry (Prunus virginiana L.).

Author

Wang H, Walla JA, Zhong S, Huang D, and Dai W

Subjects

Base Sequence, DNA, Plant genetics, Genotype, High-Throughput Nucleotide Sequencing, Rosaceae genetics, Sequence Analysis, DNA, Species Specificity, DNA Primers genetics, Genome, Plant genetics, Microsatellite Repeats genetics, Polymorphism, Genetic genetics, Prunus genetics

Abstract

Chokecherry (Prunus virginiana L.) (2n = 4x = 32) is a unique Prunus species for both genetics and disease-resistance research due to its tetraploid nature and X-disease resistance. However, no genetic and genomic information on chokecherry is available. A partial chokecherry genome was sequenced using Roche 454 sequencing technology. A total of 145,094 reads covering 4.8 Mbp of the chokecherry genome were generated and 15,113 contigs were assembled, of which 11,675 contigs were larger than 100 bp in size. A total of 481 SSR loci were identified from 234 (out of 11,675) contigs and 246 polymerase chain reaction (PCR) primer pairs were designed. Of 246 primers, 212 (86.2 %) effectively produced amplification from the genomic DNA of chokecherry. All 212 amplifiable chokecherry primers were used to amplify genomic DNA from 11 other rosaceous species (sour cherry, sweet cherry, black cherry, peach, apricot, plum, apple, crabapple, pear, juneberry, and raspberry). Thus, chokecherry SSR primers can be transferable across Prunus species and other rosaceous species. An average of 63.2 and 58.7 % of amplifiable chokecherry primers amplified DNA from cherry and other Prunus species, respectively, while 47.2 % of amplifiable chokecherry primers amplified DNA from other rosaceous species. Using random genome sequence data generated from next-generation sequencing technology to identify microsatellite loci appears to be rapid and cost-efficient, particularly for species with no sequence information available. Sequence information and confirmed transferability of the identified chokecherry SSRs among species will be valuable for genetic research in Prunus and other rosaceous species. Key message A total of 246 SSR primers were identified from chokecherry genome sequences. Of which, 212 were confirmed amplifiable both in chokecherry and other 11 other rosaceous species.

Published

2012

157. Activity, polypeptide and gene identification of thylakoid Ndh complex in trees: potential physiological relevance of fluorescence assays.

Author

Serrot PH, Sabater B, and Martín M

Subjects

Aging physiology, Fluorescence, Gene Expression Regulation, Plant, Genes, Plant, Laurus genetics, Laurus metabolism, Molecular Sequence Data, NADH Dehydrogenase genetics, Prunus genetics, Prunus metabolism, Rosaceae genetics, Rosaceae metabolism, Seasons, Thuja genetics, Thuja metabolism, Viburnum genetics, Viburnum metabolism, Electrophoresis, Polyacrylamide Gel methods, NADH Dehydrogenase metabolism, Plant Leaves chemistry, Thylakoids genetics, Thylakoids metabolism, Trees genetics, Trees metabolism

Abstract

Three evergreen (Laurus nobilis, Viburnum tinus and Thuja plicata) and two autumnal abscission deciduous trees (Cydonia oblonga and Prunus domestica) have been investigated for the presence (zymogram and immunodetection) and functionality (post-illumination chlorophyll fluorescence) of the thylakoid Ndh complex. The presence of encoding ndh genes has also been investigated in T. plicata. Western assays allowed tentative identification of zymogram NADH dehydrogenase bands corresponding to the Ndh complex after native electrophoresis of solubilized fractions from L. nobilis, V. tinus, C. oblonga and P. domestica leaves, but not in those of T. plicata. However, Ndh subunits were detected after SDS-PAGE of thylakoid solubilized proteins of T. plicata. The leaves of the five plants showed the post-illumination chlorophyll fluorescence increase dependent on the presence of active Ndh complex. The fluorescence increase was higher in autumn in deciduous, but not in evergreen trees, which suggests that the thylakoid Ndh complex could be involved in autumnal leaf senescence. Two ndhB genes were sequenced from T. plicata that differ at the 350 bp 3' end sequence. Comparison with the mRNA revealed that ndhB genes have a 707-bp type II intron between exons 1 (723 bp) and 2 (729 bp) and that the UCA 259th codon is edited to UUA in mRNA. Phylogenetically, the ndhB genes of T. plicata group close to those of Metasequoia, Cryptomeria, Taxodium, Juniperus and Widdringtonia in the cupresaceae branch and are 5' end shortened by 18 codons with respect to that of angiosperms., (Copyright © Physiologia Plantarum 2012.)

Published

2012

158. Construction of black (Rubus occidentalis) and red (R. idaeus) raspberry linkage maps and their comparison to the genomes of strawberry, apple, and peach.

Author

Bushakra JM, Stephens MJ, Atmadjaja AN, Lewers KS, Symonds VV, Udall JA, Chagné D, Buck EJ, and Gardiner SE

Subjects

Chromosomes, Plant genetics, Crosses, Genetic, Genetic Markers, Phylogeny, Chromosome Mapping methods, Fragaria genetics, Genetic Linkage, Genome, Plant genetics, Malus genetics, Prunus genetics, Rosaceae genetics

Abstract

The genus Rubus belongs to the Rosaceae and is comprised of 600-800 species distributed world-wide. To date, genetic maps of the genus consist largely of non-transferable markers such as amplified fragment length polymorphisms. An F(1) population developed from a cross between an advanced breeding selection of Rubus occidentalis (96395S1) and R. idaeus 'Latham' was used to construct a new genetic map consisting of DNA sequence-based markers. The genetic linkage maps presented here are constructed of 131 markers on at least one of the two parental maps. The majority of the markers are orthologous, including 14 Rosaceae conserved orthologous set markers, and 60 new gene-based markers developed for raspberry. Thirty-four published raspberry simple sequence repeat markers were used to align the new maps to published raspberry maps. The 96395S1 genetic map consists of six linkage groups (LG) and covers 309 cM with an average of 10 cM between markers; the 'Latham' genetic map consists of seven LG and covers 561 cM with an average of 5 cM between markers. We used BLAST analysis to align the orthologous sequences used to design primer pairs for Rubus genetic mapping with the genome sequences of Fragaria vesca 'Hawaii 4', Malus × domestica 'Golden Delicious', and Prunus 'Lovell'. The alignment of the orthologous markers designed here suggests that the genomes of Rubus and Fragaria have a high degree of synteny and that synteny decreases with phylogenetic distance. Our results give unprecedented insights into the genome evolution of raspberry from the putative ancestral genome of the single ancestor common to Rosaceae.

Published

2012

159. An alternative cetyltrimethylammonium bromide-based protocol for RNA isolation from blackberry (Rubus L.).

Author

Chen Q, Yu HW, Wang XR, Xie XL, Yue XY, and Tang HR

Subjects

Cetrimonium, Flowers genetics, Fruit genetics, Plant Leaves genetics, Real-Time Polymerase Chain Reaction standards, Reference Standards, Reverse Transcriptase Polymerase Chain Reaction, Cetrimonium Compounds chemistry, Detergents chemistry, RNA, Plant isolation & purification, Rosaceae genetics

Abstract

Isolation of high-quality RNA free of contaminants, such as polyphenols, proteins, plant secondary metabolites, and genomic DNA from plant tissues, is usually a challenging but crucial step for molecular analysis. We developed a novel protocol based on the cetyltrimethylammonium bromide method to isolate high-quality RNA from blackberry plant tissues, especially fruits. Most DNA was removed when acetic acid was utilized, before RNA precipitation. Thus, lithium chloride, a reagent widely used for RNA purification, was not needed. The isolation time was shortened to less than 3 h. The RNA was quite pure, with little DNA contamination. The quality of the RNA was assessed by spectrophotometric readings and electrophoresis on agarose gels. It was good enough for downstream enzymatic reactions, such as reverse transcription-PCR, cloning and real-time PCR assay. The method yielded an amount of total RNA comparable to previously described protocols.

Published

2012

160. Physical mapping of a pollen modifier locus controlling self-incompatibility in apricot and synteny analysis within the Rosaceae.

Author

Zuriaga E, Molina L, Badenes ML, and Romero C

Subjects

Chromosomes, Artificial, Bacterial, Fragaria genetics, Genotype, Malus genetics, Plant Proteins genetics, Pollen genetics, Pollen physiology, Prunus genetics, Prunus physiology, Rosaceae genetics, Rosaceae physiology, Synteny genetics

Abstract

S-locus products (S-RNase and F-box proteins) are essential for the gametophytic self-incompatibility (GSI) specific recognition in Prunus. However, accumulated genetic evidence suggests that other S-locus unlinked factors are also required for GSI. For instance, GSI breakdown was associated with a pollen-part mutation unlinked to the S-locus in the apricot (Prunus armeniaca L.) cv. 'Canino'. Fine-mapping of this mutated modifier gene (M-locus) and the synteny analysis of the M-locus within the Rosaceae are here reported. A segregation distortion loci mapping strategy, based on a selectively genotyped population, was used to map the M-locus. In addition, a bacterial artificial chromosome (BAC) contig was constructed for this region using overlapping oligonucleotides probes, and BAC-end sequences (BES) were blasted against Rosaceae genomes to perform micro-synteny analysis. The M-locus was mapped to the distal part of chr.3 flanked by two SSR markers within an interval of 1.8 cM corresponding to ~364 Kb in the peach (Prunus persica L. Batsch) genome. In the integrated genetic-physical map of this region, BES were mapped against the peach scaffold_3 and BACs were anchored to the apricot map. Micro-syntenic blocks were detected in apple (Malus × domestica Borkh.) LG17/9 and strawberry (Fragaria vesca L.) FG6 chromosomes. The M-locus fine-scale mapping provides a solid basis for self-compatibility marker-assisted selection and for positional cloning of the underlying gene, a necessary goal to elucidate the pollen rejection mechanism in Prunus. In a wider context, the syntenic regions identified in peach, apple and strawberry might be useful to interpret GSI evolution in Rosaceae.

Published

2012

161. Molecular bases and evolutionary dynamics of self-incompatibility in the Pyrinae (Rosaceae).

Author

De Franceschi P, Dondini L, and Sanzol J

Subjects

Plant Proteins genetics, Plant Proteins metabolism, Pollen metabolism, Rosaceae metabolism, Biological Evolution, Pollen genetics, Rosaceae genetics

Abstract

The molecular bases of the gametophytic self-incompatibility (GSI) system of species of the subtribe Pyrinae (Rosaceae), such as apple and pear, have been widely studied in the last two decades. The characterization of S-locus genes and of the mechanisms underlying pollen acceptance or rejection have been topics of major interest. Besides the single pistil-side S determinant, the S-RNase, multiple related S-locus F-box genes seem to be involved in the determination of pollen S specificity. Here, we collect and review the state of the art of GSI in the Pyrinae. We emphasize recent genomic data that have contributed to unveiling the S-locus structure of the Pyrinae, and discuss their consistency with the models of self-recognition that have been proposed for Prunus and the Solanaceae. Experimental data suggest that the mechanism controlling pollen-pistil recognition specificity of the Pyrinae might fit well with the collaborative 'non-self' recognition system proposed for Petunia (Solanaceae), whereas it presents relevant differences with the mechanism exhibited by the species of the closely related genus Prunus, which uses a single evolutionarily divergent F-box gene as the pollen S determinant. The possible involvement of multiple pollen S genes in the GSI system of Pyrinae, still awaiting experimental confirmation, opens up new perspectives to our understanding of the evolution of S haplotypes, and of the evolution of S-RNase-based GSI within the Rosaceae family. Whereas S-locus genes encode the players determining self-recognition, pollen rejection in the Pyrinae seems to involve a complex cascade of downstream cellular events with significant similarities to programmed cell death.

Published

2012

162. Over-seasons analysis of quantitative trait loci affecting phenolic content and antioxidant capacity in raspberry.

Author

Dobson P, Graham J, Stewart D, Brennan R, Hackett CA, and McDougall GJ

Subjects

Antioxidants metabolism, Fruit chemistry, Fruit genetics, Fruit metabolism, Genotype, Phenols metabolism, Rosaceae chemistry, Seasons, Antioxidants analysis, Phenols analysis, Quantitative Trait Loci, Rosaceae genetics, Rosaceae metabolism

Abstract

This study examined the total phenol content (TPC) and total anthocyanin content (TAC) in ripe fruit of progeny of a mapping population generated from a cross between the European red raspberry cv. Glen Moy ( Rubus ideaus var. idaeus) and the North American red raspberry cv. Latham ( Rubus ideaus var. strigosus) over five seasons in two different growing environments. Measurements of antioxidant capacity (FRAP and TEAC) were also carried out. TPC was highly correlated with TEAC and FRAP across the entire data set. The subset of anthocyanin content was genotype-dependent but also correlated with TPC, although the proportion of anthocyanin compounds varied between progeny. Quantitative trait locus (QTL) analysis was carried out, and key markers were tested for consistency of effects over sites and years. Four regions, on linkage groups 2, 3, 5, and 6, were identified. These agree with QTLs from a previous study over a single season and indicate that QTL effects were robust over seasons.

Published

2012

163. Shifts in reproductive assurance strategies and inbreeding costs associated with habitat fragmentation in Central American mahogany.

Author

Breed MF, Gardner MG, Ottewell KM, Navarro CM, and Lowe AJ

Subjects

Central America, Genetic Variation, Heterozygote, Microsatellite Repeats, Rosaceae genetics, Rosaceae growth & development, Ecosystem, Inbreeding, Rosaceae physiology

Abstract

The influence of habitat fragmentation on mating patterns and progeny fitness in trees is critical for understanding the long-term impact of contemporary landscape change on the sustainability of biodiversity. We examined the relationship between mating patterns, using microsatellites, and fitness of progeny, in a common garden trial, for the insect-pollinated big-leaf mahogany, Swietenia macrophylla King, sourced from forests and isolated trees in 16 populations across Central America. As expected, isolated trees had disrupted mating patterns and reduced fitness. However, for dry provenances, fitness was negatively related to correlated paternity, while for mesic provenances, fitness was correlated positively with outcrossing rate and negatively with correlated paternity. Poorer performance of mesic provenances is likely because of reduced effective pollen donor density due to poorer environmental suitability and greater disturbance history. Our results demonstrate a differential shift in reproductive assurance and inbreeding costs in mahogany, driven by exploitation history and contemporary landscape context., (© 2012 Blackwell Publishing Ltd/CNRS.)

Published

2012

164. Molecular characterization of the Andean blackberry, Rubus glaucus, using SSR markers.

Author

Marulanda M, López AM, and Uribe M

Subjects

Agriculture, Alleles, Chromosomes, Plant genetics, Genotype, Polymorphism, Single Nucleotide, DNA, Plant genetics, Microsatellite Repeats genetics, Rosaceae genetics

Abstract

The species Rubus glaucus, also known as the Andean or "Castilla" blackberry, is one of nine edible species of this genus that grow naturally in Central and South America. In Colombia, this species is the most important of all Rubus species for agricultural and commercial purposes. We used 20 SSRs developed for other Rubus species to characterize 44 Colombian R. glaucus genotypes, collected from eight different departments, and to look for molecular differences between thornless and thorny cultivated blackberries. Eighty-two bands were obtained from 28 loci. The genotypes were classified into eight populations, corresponding to collection sites. The mean number of polymorphic alleles per locus in all populations and genotypes ranged from 1.857 to 2.393. Samples collected from Valle del Cauca, Quindío, Caldas, and Risaralda departments had the highest heterozygosity values. The finding of exclusive bands from R. glaucus genotypes from Valle del Cauca, Quindío, and Caldas demonstrates genetic and molecular differentiation between thorny and thornless Andean blackberries.

Published

2012

165. Strategies for transcriptome analysis in nonmodel plants.

Author

Ward JA, Ponnala L, and Weber CA

Subjects

Databases, Genetic, Disease Resistance genetics, Expressed Sequence Tags, Gene Expression Regulation, Plant, Phytophthora genetics, Phytophthora immunology, Phytophthora pathogenicity, Plant Diseases genetics, Plant Diseases immunology, Plant Proteins genetics, Plant Roots genetics, Plant Roots immunology, Plant Roots microbiology, RNA, Plant genetics, Rosaceae immunology, Rosaceae microbiology, Sequence Alignment methods, Gene Expression Profiling methods, Genome, Plant, Rosaceae genetics, Software

Abstract

Even with recent reductions in sequencing costs, most plants lack the genomic resources required for successful short-read transcriptome analyses as performed routinely in model species. Several approaches for the analysis of short-read transcriptome data are reviewed for nonmodel species for which the genome of a close relative is used as the reference genome. Two approaches using a data set from Phytophthora-challenged Rubus idaeus (red raspberry) are compared. Over 70000000 86-nt Illumina reads derived from R. idaeus roots were aligned to the Fragaria vesca genome using publicly available informatics tools (Bowtie/TopHat and Cufflinks). Alignment identified 16956 putatively expressed genes. De novo assembly was performed with the same data set and a publicly available transcriptome assembler (Trinity). A BLAST search with a maximum e-value threshold of 1.0 × 10(-3) revealed that over 36000 transcripts had matches to plants and over 500 to Phytophthora. Gene expression estimates from alignment to F. vesca and de novo assembly were compared for raspberry (Pearson's correlation = 0.730). Together, alignment to the genome of a close relative and de novo assembly constitute a powerful method of transcriptome analysis in nonmodel organisms. Alignment to the genome of a close relative provides a framework for differential expression testing if alignments are made to the predefined gene-space of a close relative and de novo assembly provides a more robust method of identifying unique sequences and sequences from other organisms in a system. These methods are considered experimental in nonmodel systems, but can be used to generate resources and specific testable hypotheses.

Published

2012

166. Fire blight: applied genomic insights of the pathogen and host.

Author

Malnoy M, Martens S, Norelli JL, Barny MA, Sundin GW, Smits TH, and Duffy B

Subjects

Erwinia amylovora pathogenicity, Erwinia amylovora physiology, Genes, Bacterial genetics, Genes, Plant genetics, Host-Pathogen Interactions, Malus genetics, Rosaceae genetics, Virulence, Erwinia amylovora genetics, Genomics, Malus microbiology, Plant Diseases microbiology, Rosaceae microbiology

Abstract

The enterobacterial phytopathogen Erwinia amylovora causes fire blight, an invasive disease that threatens a wide range of commercial and ornamental Rosaceae host plants. The response elicited by E. amylovora in its host during disease development is similar to the hypersensitive reaction that typically leads to resistance in an incompatible host-pathogen interaction, yet no gene-for-gene resistance has been described for this host-pathogen system. Comparative genomic analysis has found an unprecedented degree of genetic uniformity among strains of E. amylovora, suggesting that the pathogen has undergone a recent genetic bottleneck. The genome of apple, an important host of E. amylovora, has been sequenced, creating new opportunities for the study of interactions between host and pathogen during fire blight development and for the identification of resistance genes. This review includes recent advances in the genomics of both host and pathogen.

Published

2012

167. Histochemical screening, metabolite profiling and expression analysis reveal Rosaceae roots as the site of flavan-3-ol biosynthesis.

Author

Hoffmann T, Friedlhuber R, Steinhauser C, Tittel I, Skowranek K, Schwab W, and Fischer TC

Subjects

Biological Transport, Catechin biosynthesis, Fruit metabolism, Gene Expression Regulation, Plant, Genes, Plant, Histocytochemistry, Plant Growth Regulators biosynthesis, Plant Leaves metabolism, Plant Roots chemistry, Proanthocyanidins biosynthesis, Rosaceae genetics, Transcription, Genetic, Flavonoids biosynthesis, Plant Roots metabolism, Rosaceae metabolism

Abstract

Histochemical screening of 30 Rosaceae genera representing all classic subfamilies demonstrated flavan-3-ols (catechins) as general secondary metabolites in roots of Rosaceae. Semi-quantitative LC-MS analyses confirmed the presence of catechin, epicatechin and various dimeric flavan-3-ols (also representing higher polymeric proanthocyanidins) as prominent polyphenols in root tips of Fragaria (strawberry), Malus (apple), Rosa (rose), Pyrus (pear) and Prunus (plum). Distinct patterns of flavan-3-ol distribution at the cellular level were found in strawberry (Fragaria × ananassa) and apple (Malus × domestica) root tips. The calyptras (root caps) showed the most prominent flavan-3-ol staining for these two genera. Border cells of Fragaria and Malus, as first demonstrated here for Rosaceae, were also found to contain flavan-3-ols. Transcript analyses with cDNA demonstrated root expression of known flavonoid genes expressed in the respective fruits and leaves. Primarily, this proves in situ biosynthesis of flavan-3-ols in these roots. Knowledge of the distinct cellular distribution patterns and their in situ biosynthesis in roots provides a basis for analysis of the functional roles of Rosaceae root flavan-3-ols., (© 2011 German Botanical Society and The Royal Botanical Society of the Netherlands.)

Published

2012

168. Development and multiplexing of microsatellite markers using pyrosequencing in the clonal plant Comarum palustre (Rosaceae).

Author

Somme L, Raabová J, Jacquemart AL, and Raspé O

Subjects

Genetic Markers, Genetic Variation, Molecular Sequence Data, Multiplex Polymerase Chain Reaction, Phylogeny, Polymorphism, Genetic, Rosaceae classification, Microsatellite Repeats, Rosaceae genetics, Sequence Analysis, DNA methods

Abstract

Microsatellites represent one of the most commonly used genetic markers for population genetic studies. Traditionally, their development is quite time consuming, requiring construction of a genomic library enriched for repeated motifs. Using pyrosequencing, a fast and cost-effective new generation sequencing technique, we produced 24,340,862 bases in 63,860 short fragment reads, including 1170 dinucleotide motifs with a minimum of six repeats and 1383 trinucleotide motifs with a minimum of four repeats for the Marsh Cinquefoil, Comarum palustre L., an endangered marsh pioneer species. We selected 58 loci with SSR (Short Sequence Repeat) segments (at least 10 repeats) for a preliminary screening. Out of them, we screened 29 loci on a capillary sequencer after ligation in a vector and PCR using T7 forward primer labelled with FAM fluorescent dye and the specific unlabeled reverse primers. This procedure allowed us to screen large number of candidate loci with the same labelled primer and unlabelled specific primers. Finally, we characterized 20 polymorphic microsatellite markers, nine dinucleotides and 11 trinucleotides. We used these markers to assess genetic diversity and clonal structure in two Belgian populations. All loci showed a maximum of two alleles per individual, suggesting that they are from a diploid genome. One genet was detected in a newly extending population while 53 different genets in a long-term ecologically managed population. The number of alleles per locus ranged from 6 to 14 in this old population with an expected heterozygosity, ranging from 0.5964 to 0.8278. These preliminary results show a genet size up to 7.2 m., (© 2011 Blackwell Publishing Ltd.)

Published

2012

169. Past climate change and plant evolution in Western North America: a case study in Rosaceae.

Author

Töpel M, Antonelli A, Yesson C, and Eriksen B

Subjects

Climate, DNA, Plant genetics, North America, Phylogeny, Biological Evolution, Climate Change, Rosaceae genetics

Abstract

Species in the ivesioid clade of Potentilla (Rosaceae) are endemic to western North America, an area that underwent widespread aridification during the global temperature decrease following the Mid-Miocene Climatic Optimum. Several morphological features interpreted as adaptations to drought are found in the clade, and many species occupy extremely dry habitats. Recent phylogenetic analyses have shown that the sister group of this clade is Potentilla section Rivales, a group with distinct moist habitat preferences. This has led to the hypothesis that the ivesioids (genera Ivesia, Horkelia and Horkeliella) diversified in response to the late Tertiary aridification of western North America. We used phyloclimatic modeling and a fossil-calibrated dated phylogeny of the family Rosaceae to investigate the evolution of the ivesioid clade. We have combined occurrence- and climate data from extant species, and used ancestral state reconstruction to model past climate preferences. These models have been projected into paleo-climatic scenarios in order to identify areas where the ivesioids may have occurred. Our analysis suggests a split between the ivesioids and Potentilla sect. Rivales around Late Oligocene/Early Miocene (∼23 million years ago, Ma), and that the ivesioids then diversified at a time when summer drought started to appear in the region. The clade is inferred to have originated on the western slopes of the Rocky Mountains from where a westward range expansion to the Sierra Nevada and the coast of California took place between ∼12-2 Ma. Our results support the idea that climatic changes in southwestern North America have played an important role in the evolution of the local flora, by means of in situ adaptation followed by diversification.

Published

2012

170. Highly efficient transformation protocol for plum (Prunus domestica L.).

Author

Petri C, Scorza R, and Srinivasan C

Subjects

Coculture Techniques, Plant Shoots growth & development, Plants, Genetically Modified, Prunus growth & development, Rosaceae genetics, Tissue Culture Techniques, Transformation, Genetic, Agrobacterium tumefaciens genetics, Gene Transfer Techniques, Prunus genetics

Abstract

A high-throughput transformation system for plum has been developed using hypocotyl slices excised from zygotic embryos as the source of explants. The hypocotyl slices are infected in an Agrobacterium tumefaciens suspension and then cocultivated for 3 days in shoot regeneration ¾ MS basal medium supplemented with 9 μM 2,4-dichlorophenoxyacetic acid. Transgenic shoots are regenerated in a medium containing 7.5 μM thidiazuron and elongated in a medium containing 3 μM benzyladenine in the presence of 80 mg/L kanamycin in both media. Transformed shoots are rooted in ½ MS basal medium supplemented with 5 μM NAA and 40 mg/L kanamycin. The transgenic plants are acclimatized in a growth chamber and transferred to a temperature-controlled greenhouse. This protocol has allowed transformation efficiencies up to 42% and enabled the production of self-rooted transgenic plum plants within 6 months of transformation.

Published

2012

171. The genome of Prunus mume.

Author

Zhang Q, Chen W, Sun L, Zhao F, Huang B, Yang W, Tao Y, Wang J, Yuan Z, Fan G, Xing Z, Han C, Pan H, Zhong X, Shi W, Liang X, Du D, Sun F, Xu Z, Hao R, Lv T, Lv Y, Zheng Z, Sun M, Luo L, Cai M, Gao Y, Wang J, Yin Y, Xu X, Cheng T, and Wang J

Subjects

Base Sequence, Chromosome Mapping, Chromosomes, Plant genetics, Evolution, Molecular, Molecular Sequence Data, Phylogeny, Prunus growth & development, Rosaceae classification, Rosaceae genetics, Rosaceae growth & development, Sequence Analysis, DNA, Genome, Plant, Prunus genetics

Abstract

Prunus mume (mei), which was domesticated in China more than 3,000 years ago as ornamental plant and fruit, is one of the first genomes among Prunus subfamilies of Rosaceae been sequenced. Here, we assemble a 280M genome by combining 101-fold next-generation sequencing and optical mapping data. We further anchor 83.9% of scaffolds to eight chromosomes with genetic map constructed by restriction-site-associated DNA sequencing. Combining P. mume genome with available data, we succeed in reconstructing nine ancestral chromosomes of Rosaceae family, as well as depicting chromosome fusion, fission and duplication history in three major subfamilies. We sequence the transcriptome of various tissues and perform genome-wide analysis to reveal the characteristics of P. mume, including its regulation of early blooming in endodormancy, immune response against bacterial infection and biosynthesis of flower scent. The P. mume genome sequence adds to our understanding of Rosaceae evolution and provides important data for improvement of fruit trees.

Published

2012

172. White-fruited Duchesnea indica (Rosaceae) is impaired in ANS gene expression.

Author

Debes MA, Arias ME, Grellet-Bournonville CF, Wulff AF, Martínez-Zamora MG, Castagnaro AP, and Díaz-Ricci JC

Subjects

Anthocyanins biosynthesis, Crosses, Genetic, Flowers anatomy & histology, Fruit anatomy & histology, Genotype, Plant Leaves anatomy & histology, Plant Proteins metabolism, Rosaceae anatomy & histology, Species Specificity, Anthocyanins genetics, Fruit genetics, Gene Expression Regulation, Plant, Genes, Plant genetics, Pigmentation genetics, Plant Proteins genetics, Rosaceae genetics

Abstract

Premise of the Study: Duchesnea indica is a wild strawberry-like species that has red fruits. In a recent survey in the highlands of Tucumán (Argentina), a plant of D. indica with white fruits was discovered. The aim of this study was to investigate whether the white-fruited character was due to a phenotypic or genotypic change. The stability and heritability of the character and the expression of genes involved in anthocyanins synthesis were studied and compared with red-fruited genotypes. This study contributes to understanding the molecular basis of some factors involved in fruit pigmentation, a horticulturally and taxonomically important trait., Methods: Stability and heritability of the white-fruited character were evaluated in plants obtained by asexual propagation or by sexual crosses between the white- and red-fruited genotypes. Asexual multiplications were carried out by stolon rooting and sexual multiplications by germination of achenes obtained from crosses. The expression level of the genes involved in the synthesis and regulation of the anthocyanins pathway (CHS, F3H, DFR, ANS, and MYB10) were evaluated by RT-PCR using specific primers., Key Results: Plants with the white-fruited character always yielded white-fruited progeny when propagated asexually, whereas in sexually propagated plants fruit color depended on the mother. Red-fruited mothers yielded red-fruited progeny, and white-fruited mothers yielded fruits ranging from dark pink to white. Molecular analysis suggested that the white-fruited character was due to the low expression of the ANS gene., Conclusions: Results obtained indicate that the white-fruited character was stable. Mother progenitors exert a strong influence on the expression of the white-fruited character. The white-fruited phenotype is due to the impairment or downregulation of the ANS gene.

Published

2011

173. Assessing molecular and morpho-agronomical diversity and identification of ISSR markers associated with fruit traits in quince (Cydonia oblonga).

Author

Ganopoulos I, Merkouropoulos G, Pantazis S, Tsipouridis C, and Tsaftaris A

Subjects

Genetic Markers, Greece, Fruit genetics, Phylogeny, Polymorphism, Genetic physiology, Quantitative Trait Loci, Rosaceae genetics

Abstract

Quince is a deciduous tree known to the countries around the Mediterranean since antiquity. Nowadays, quince is used as an ornamental plant, and as a rootstock for pear trees, with its fruit being appreciated mainly for production of jam and sweets rather than for raw consumption. Quince leaves contain compounds with antioxidant, antimicrobial and anticancerous properties that have been the focus of recent research on pharmaceutical and medical uses as well as for food preservatives. An orchard has been established in Greece, composed of quince varieties (Cydonia oblonga, N = 49) collected from different sites of the country (mainly from home gardens), constituting a unique quince gene bank collection for southeast Europe. We made a phenotypic analysis using 26 morphological plus seven agronomical descriptors coupled with molecular techniques in order to examine the genetic diversity within the collection. Principal component analysis using the 33 descriptors identified 10 components explaining the existence of more than 70% of the total variation. Subsequent cluster analysis classified most of the previously identified productive varieties of the quince orchard in the same clade of a dendrogram. Molecular analysis generated by 13 inter-simple sequence repeat primers amplified 139 bands, including 109 polymorphic bands, indicating a level of polymorphism of 79%; mean gene diversity was calculated to be 0.309. Using stepwise multiple regression analysis, a number of markers significantly associated with fire blight susceptibility, yield, mean fruit weight, citric acid content, soluble solid content, and fruit drop were identified. Hence, data extracted by multiple regression analysis could be useful in marker-assisted breeding programs, especially when no previous genetic information is available.

Published

2011

174. Range-wide genetic structure and diversity of the endemic tree line species Polylepis australis (Rosaceae) in Argentina.

Author

Hensen I, Teich I, Hirsch H, von Wehrden H, and Renison D

Subjects

Argentina, Gene Flow, Genetics, Population, Geography, Heterozygote, Population Dynamics, Genetic Structures, Genetic Variation, Rosaceae genetics, Trees genetics

Abstract

Premise of the Study: Knowledge on the range-wide distribution of genetic structure and diversity is required to facilitate the understanding of historical tree migration and for predicting responses to current climate change. With respect to post-glacial migration patterns known from the northern hemisphere, we tested the prediction that the southernmost populations of a subtropical tree line species have lower within-population genetic diversity and higher genetic differentiation than the central and northernmost populations., Methods: We used AFLP to assess the genetic structure of 18 populations of the wind-pollinated Polylepis australis (Rosaceae) sampled over its entire distributional range in three Argentinean high mountain regions. Genetic diversity was calculated as a percentage of polymorphic bands (P) and Nei's expected heterozygosity (He); genetic differentiation was assessed using AMOVA, Φ(ST)--statistics, and Bayesian cluster analysis., Key Results: Contrary to our expectations, the northernmost Polylepis australis stands had lower within-population genetic diversity and higher genetic differentiation than the central and southernmost stands. Populations grouped into two major clusters, the first containing the southern populations and four central populations and the second containing the northern and one central population., Conclusions: Patterns of Polylepis australis genetic structure and diversity differ from historical migration scenarios observed for the northern hemisphere. The decline in genetic diversity toward the north may point to an equatorward migration following past climatic changes. Populations within the south and central part appear to be connected by effective long-distance pollination while gene flow in the northern part is probably hampered by geographic isolation.

Published

2011

175. Assessing the influence of genotype and temperature on polyphenol composition in cloudberry (Rubus chamaemorus L.) using a novel mass spectrometric method.

Author

McDougall GJ, Martinussen I, Junttila O, Verrall S, and Stewart D

Subjects

Anthocyanins analysis, Breeding, Chromatography, Liquid, Fruit chemistry, Fruit growth & development, Hydrolyzable Tannins analysis, Quercetin analysis, Rosaceae growth & development, Temperature, Genotype, Mass Spectrometry methods, Polyphenols analysis, Rosaceae chemistry, Rosaceae genetics

Abstract

A high-throughput abbreviated liquid chromatography mass spectrometric (ACMS) method was used to assess the relative influence of genotype and temperature on polyphenol composition in cloudberries. Principal component analysis (PCA) plots of the collated ACMS data showed a separation between crosses based on their female parents (Nyby or Fjellgull). Crosses with Nyby as the female parent had higher relative levels of masses assignable to certain ellagitannin derivatives. Crosses with Fjellgull had higher levels of distinctive masses assignable to quercetin derivatives (including a hydroxy-3-methylglutaroyl hexose derivative not previously identified in cloudberry) and anthocyanin derivatives. There was also a separation between samples grown at lower and higher temperatures, which was driven by m/z signals associated with ellagitannins and notably a major component, sanguiin H-6. Therefore, abbreviated MS techniques can discern genetic and/or environmental influences in polyphenol composition and can quickly assess quality in breeding programmes or in response to environmental changes.

Published

2011

176. Towards an understanding of the nature of resistance to Phytophthora root rot in red raspberry.

Author

Graham J, Hackett CA, Smith K, Woodhead M, MacKenzie K, Tierney I, Cooke D, Bayer M, and Jennings N

Subjects

Alleles, Chromosome Mapping, Chromosomes, Artificial, Bacterial genetics, Chromosomes, Plant, Cloning, Molecular, Genes, Plant, Genetic Linkage, Genotype, Phytophthora growth & development, Plant Diseases immunology, Plant Diseases microbiology, Plant Immunity, Plant Roots microbiology, Quantitative Trait Loci, Rosaceae immunology, Rosaceae microbiology, Sequence Analysis, DNA, Disease Resistance, Phytophthora pathogenicity, Plant Diseases genetics, Rosaceae genetics

Abstract

A mapping population segregating for root rot resistance was screened under both field and glasshouse conditions over a number of seasons. Few correlations between field and glasshouse scores were significant. Final root rot scores were significantly negatively correlated with measures of root vigour. Two QTL associated with resistance were identified as were overlapping QTL for root vigour assessments. Markers significantly associated with the traits were used to identify BAC clones, which were subsequently sequenced to examine gene content. A number of genes were identified including those associated with stem cell identity, cell proliferation and elongation in the root zone, control of meristematic activity and organisation, cell signalling, stress response, sugar sensing and control of gene expression as well as a range of transcription factors including those known to be associated with defence. For marker-assisted breeding, the SSR marker Rub118b 110 bp allele from Latham was found in resistant germplasm but was not found in any of the susceptible germplasm tested.

Published

2011

177. Development of a novel and efficient strategy for practical identification of Pyrus spp (Rosaceae) cultivars using RAPD fingerprints.

Author

Lin J, Wang XC, Chang YH, and Fang JG

Subjects

Base Sequence, DNA Primers, Genetic Markers, Polymerase Chain Reaction, Genes, Plant, Random Amplified Polymorphic DNA Technique, Rosaceae genetics

Abstract

Accurate and reliable cultivar identification of crop species is essential to guarantee plant material identity for purposes of registration, cultivar protection and production. To facilitate identification of plant cultivars, we developed a novel strategy for efficient recording of DNA molecular fingerprints in genotyped plant individuals. These fingerprints can be used as efficient referential information for quick plant identification. We made a random amplified polymorphic DNA (RAPD) marker analysis of 68 pear cultivars. All pear genotypes could be distinguished by a combination of eight 11-mer primers. The efficiency of the method was further verified by correct identification of four cultivars randomly chosen from the initial 68. The advantages of this identification include use of fewer primers and ease of cultivar separation by the corresponding primers marked on the cultivar identification diagram. The cultivar identification diagram can efficiently serve for pear cultivar identification by readily providing the information needed to separate cultivars. To the best of our knowledge, this is the most efficient strategy for identification of plant varieties using DNA markers; it could be employed for the development of the pear industry and for the utilization of DNA markers to identify other plant species.

Published

2011

178. Comparative analysis of rosaceous genomes and the reconstruction of a putative ancestral genome for the family.

Author

Illa E, Sargent DJ, Lopez Girona E, Bushakra J, Cestaro A, Crowhurst R, Pindo M, Cabrera A, van der Knaap E, Iezzoni A, Gardiner S, Velasco R, Arús P, Chagné D, and Troggio M

Subjects

Chromosome Mapping, Fragaria genetics, Plant Proteins genetics, Prunus genetics, Evolution, Molecular, Genome, Plant, Rosaceae genetics

Abstract

Background: Comparative genome mapping studies in Rosaceae have been conducted until now by aligning genetic maps within the same genus, or closely related genera and using a limited number of common markers. The growing body of genomics resources and sequence data for both Prunus and Fragaria permits detailed comparisons between these genera and the recently released Malus × domestica genome sequence., Results: We generated a comparative analysis using 806 molecular markers that are anchored genetically to the Prunus and/or Fragaria reference maps, and physically to the Malus genome sequence. Markers in common for Malus and Prunus, and Malus and Fragaria, respectively were 784 and 148. The correspondence between marker positions was high and conserved syntenic blocks were identified among the three genera in the Rosaceae. We reconstructed a proposed ancestral genome for the Rosaceae., Conclusions: A genome containing nine chromosomes is the most likely candidate for the ancestral Rosaceae progenitor. The number of chromosomal translocations observed between the three genera investigated was low. However, the number of inversions identified among Malus and Prunus was much higher than any reported genome comparisons in plants, suggesting that small inversions have played an important role in the evolution of these two genera or of the Rosaceae.

Published

2011

179. MARLIN, software to create, run, and analyse spatially realistic simulations.

Author

Meirmans PG

Subjects

Algorithms, Rosaceae genetics, User-Computer Interface, Computer Simulation, Genetics, Population instrumentation, Software

Abstract

MARLIN is a software to create, run, analyse, and visualize spatially explicit population genetic simulations. It provides an intuitive user interface with which the geographical layout of a metapopulation can be drawn by hand or loaded from a map. Furthermore, the interface allows easy selection of the many different simulation settings. MARLIN then uses the program QuantiNemo to run the simulation in the background. When simulations are finished, MARLIN directly analyses and plots the results, thereby greatly simplifying the simulation workflow. This combination of simulation and analysis makes MARLIN ideal for teaching and for scientists who are interested in doing simulations without having to learn command-line operations. MARLIN is available for computers running Mac OS X and can be downloaded from: http://www.patrickmeirmans.com/software., (© 2010 Blackwell Publishing Ltd.)

Published

2011

180. Oxidative stress responses and root lignification induced by Fe deficiency conditions in pear and quince genotypes.

Author

Donnini S, Dell'Orto M, and Zocchi G

Subjects

Cell Wall metabolism, Chlorophyll metabolism, Genotype, Hydrogen Peroxide metabolism, Iron metabolism, Peroxidases metabolism, Plant Leaves drug effects, Plant Leaves genetics, Plant Leaves growth & development, Plant Leaves physiology, Plant Roots drug effects, Plant Roots genetics, Plant Roots growth & development, Plant Roots physiology, Pyrus drug effects, Pyrus genetics, Pyrus growth & development, Reactive Oxygen Species metabolism, Rosaceae drug effects, Rosaceae genetics, Rosaceae growth & development, Soil, Stress, Physiological, Superoxide Dismutase metabolism, Bicarbonates pharmacology, Iron pharmacology, Lignin biosynthesis, Oxidative Stress drug effects, Pyrus physiology, Rosaceae physiology

Abstract

We analysed Pyrus communis cv. Conference and Cydonia oblonga BA29, differently tolerant to lime-induced chlorosis, to identify the key mechanisms involved in their different performance under Fe deficiency induced by the absence of Fe (-Fe) or by the presence of bicarbonate (+FeBic). Under our experimental conditions, a decrease in root elongation was observed in BA29 under bicarbonate supply. Superoxide dismutase (SOD) and peroxidase (POD) activities were analysed and the relative isoforms were detected by native electrophoresis. The data obtained for both genotypes under -Fe and for BA29 +FeBic suggest the occurrence of overproduction of reactive oxygen species (ROS) and, at the same time, of a scarce capacity to detoxify them. The detection of ROS (O(2)(-) and H(2)O(2)) through histochemical localization supports these results and suggests that they could account for the modifications of mechanical properties of the cell wall during stress adaptation. On the other hand, in the cv. Conference +FeBic, an increase in non-specific POD activity was detected, confirming its higher level of protection in particular against H(2)O(2) accumulation. Peroxidases involved in lignification were assayed and histochemical analysis was performed. The results suggest that only in BA29 under bicarbonate supply can the presence of ROS in root apoplast be correlated with lignin deposits in external layers and in endodermis as a consequence of the shift of PODs towards a lignification role. We suggest that in BA29 the decrease in root growth could impair mineral nutrition, generating susceptibility to calcareous soils. In the cv. Conference, the allocation of new biomass to the root system could improve soil exploration and consequently Fe uptake.

Published

2011

181. Ectopic expression of TrPI, a Taihangia rupestris (Rosaceae) PI ortholog, causes modifications of vegetative architecture in Arabidopsis.

Author

Lü S, Fan Y, Liu L, Liu S, Zhang W, and Meng Z

Subjects

Arabidopsis genetics, Gene Expression Regulation, Plant genetics, Gene Expression Regulation, Plant physiology, Plant Proteins genetics, Plants, Genetically Modified genetics, Reverse Transcriptase Polymerase Chain Reaction, Two-Hybrid System Techniques, Arabidopsis metabolism, Plant Proteins metabolism, Plants, Genetically Modified metabolism, Rosaceae genetics

Abstract

In eudicotyledonous model plants, the B-function genes encode a pair of partner MADS-domain proteins, APETALA3 (AP3) and PISTILLATA (PI) in Arabidopsis and DEFICIENS (DEF) and GLOBOSA (GLO) in Antirrhinum. These proteins, which must form heterodimers to function, are required to specify petal and stamen identity during flower development. Here, we report cloning and characterization of TrPI (Taihangia rupestris PISTILLATA), a PI/GLO-like gene from the core eudicot species Taihangia rupestris (Rosaceae). DNA gel blot analysis showed that TrPI is a single copy gene in the T. rupestris genome. Quantitative RT-PCR and in situ hybridization analyses revealed that TrPI is transcribed in both the vegetative and reproductive organs at different levels. Ectopic expression of TrPI in Arabidopsis caused severe modifications in vegetative plant architecture, including rosette leaves and cauline leaves arranged in a non-spiral phyllotaxy, and a flattened primary inflorescence stem that produced two or three offshoots at the base, middle or top. Moreover, we show that the TrPI gene is capable of rescuing pi-1 mutant phenotypes. Yeast two-hybrid assays showed that TrPI forms homodimers. Taken together, these results show that TrPI might function in regulating plant architecture in addition to its function as a floral organ identity gene in T. rupestris, suggesting that the TrPI protein has biochemical features that distinguish it from the well-studied orthologs, PI and GLO., (Copyright © 2010 Elsevier GmbH. All rights reserved.)

Published

2010

182. An Andean radiation: polyploidy in the tree genus Polylepis (Rosaceae, Sanguisorbeae).

Author

Schmidt-Lebuhn AN, Fuchs J, Hertel D, Hirsch H, Toivonen J, and Kessler M

Subjects

Chromosomes, Plant, DNA, Plant genetics, Karyotyping, Plant Stomata anatomy & histology, South America, Polyploidy, Rosaceae genetics, Trees genetics

Abstract

The Andean tree genus Polylepis (Rosaceae) is notorious for the high morphological plasticity of its species and the difficulty in their circumscription. The evolutionary mechanisms that have driven diversification of the genus are still poorly understood, with factors as diverse as ecological specialisation, reticulate evolution, polyploidisation and apomixis being proposed to contribute. In the present study, chromosome counts, flow cytometry and stomata guard cell size measurements were employed to document for the first time the presence of polyploidy in the genus and to infer ploidy levels for most species. Inferred ploidy levels show a clear progression from diploidy in cloud forest species to polyploidy (tetra- to octoploidy) in the morphologically and ecologically specialised incana group, indicating that polyploidisation may have played a major role in speciation processes and the colonisation of novel habitats during the Andean uplift. At least two species of Polylepis comprise populations with varying degrees of ploidy. More extensive studies are needed to obtain a better understanding of the prevalence and effects of intraspecific polyploidy in the genus., (© 2010 German Botanical Society and The Royal Botanical Society of The Netherlands.)

Published

2010

183. Volatile organic compound emissions induced by the aphid Myzus persicae differ among resistant and susceptible peach cultivars and a wild relative.

Author

Staudt M, Jackson B, El-Aouni H, Buatois B, Lacroze JP, Poëssel JL, and Sauge MH

Subjects

Animals, Kinetics, Plant Diseases parasitology, Prunus genetics, Rosaceae genetics, Rosaceae parasitology, Volatile Organic Compounds metabolism, Aphids physiology, Prunus parasitology, Volatile Organic Compounds analysis

Abstract

Little is known on aphid-induced emissions of volatile organic compounds (VOCs) from trees and particularly on their intraspecific variability in association with resistance traits. We compared VOC emissions from five peach cultivars (Prunus persica (L.) Batsch) and a wild relative (Prunus davidiana (Carrière) Franch) that differ in their level (susceptible/resistant) and type (antixenosis, antibiosis) of resistance to the green peach aphid, Myzus persicae (Sulzer). Additionally, the kinetics of VOC induction in response to aphids was compared with that by mechanical wounding. Qualitative and overall quantitative differences among peach genotypes were found in VOC emissions that were mainly composed of methyl-salicylate, farnesenes, (E)-β-ocimene and (E)-4,8-dimethyl-1,3,7-nonatriene. Irrespective of the type of resistance, all resistant genotypes had increased VOC emissions upon aphid attack, while in susceptible genotypes emissions remained low. Emission increases were highest in the genotypes that express increased aphid resistance during second infestations, which had also the highest proportions of methyl-salicylate in their emissions. VOC induction by aphids proceeded slowly with a delay of several hours. Artificial wounding of leaves did not result in emissions of aphid-induced VOCs but caused an immediate burst of green leaf volatiles and benzaldehyde. We conclude that VOC induction in resistant peach cultivars is part of a general defence syndrome that is being avoided or suppressed by M. persicae in the susceptible genotypes. The induction likely involves an aphid-specific elicitor and (methyl)-salicylate in the subsequent signalling and regulation processes that should include gene activation due to the marked delay in the emission response. The results are compared with those of the literature and discussed in view of their ecological and environmental significance.

Published

2010

184. [Microsynteny analysis of tomato and peach genome].

Author

Song C and Wang Y

Subjects

Arabidopsis, Chromosome Mapping, Chromosomes, Artificial, Bacterial, Genome, Plant, Sequence Analysis, DNA, Synteny immunology, Expressed Sequence Tags metabolism, Solanum lycopersicum genetics, Prunus genetics, Rosaceae genetics, Synteny genetics

Abstract

Tomato and peach are two important model species belonging to the families Solanaceae and Rosaceae, respectively. Recently, more and more sequence data generated from their whole genome sequencing projects can be used for bioinformatic analysis. Microsynteny analysis for tomato and peach were conducted to detect conserved syntenic blocks using high quality genetic and physical maps. A large number of microsyntenic regions were detected through three com-parisons: comparison between tomato genetic map and peach physical map, between tomato physical map and peach ge-netic map, and between tomato physical map and peach physical map. Most of the syntenic blocks were short, and each block contained a small number of conserved gene pairs (261 syntenic blocks with only two homolog pairs, and 36 syntenic blocks with more than two homolog pairs). Tomato and peach had noncontinuous fragmentary microsynteny and some syntenic groups composed of complex networks among different chromosomes or BAC contigs. After comparing the ho-mologous proteins with tomato fruit-related EST libraries, a total of 9 proteins were found in different syntenic groups re-lating to fruit development and ripening. Microsynteny identified in this study could facilitate further investigation of fruit development and ripening in these two distantly related species.

Published

2010

185. Genetic and environmental effects influencing fruit colour and QTL analysis in raspberry.

Author

McCallum S, Woodhead M, Hackett CA, Kassim A, Paterson A, and Graham J

Subjects

Anthocyanins biosynthesis, Biosynthetic Pathways genetics, Chromosome Mapping, Genes, Plant genetics, Genetic Markers, Genotype, Models, Genetic, Principal Component Analysis, Quantitative Trait, Heritable, Seasons, Environment, Fruit genetics, Pigmentation genetics, Quantitative Trait Loci genetics, Rosaceae genetics

Abstract

Raspberry (Rubus idaeus) fruit colour was assessed in the Latham x Glen Moy mapping population using a colour meter and visual scores over three seasons and three environments. The colour measurements were found to be significantly associated with pigment content, have high heritability, and stable QTL were identified across environments and seasons. Anthocyanin content has previously been shown to be the major contributor to fruit colour in red raspberry. Major structural genes (F3'H, FLS, DFR, IFR, OMT and GST) and transcription factors (bZIP, bHLH and MYB) influencing flavonoid biosynthesis have been identified, mapped and shown to underlie QTL for quantitative and qualitative anthocyanin composition. Favourable alleles for the selected traits were identified for the aspects of fruit colour and partitioning of individual pigments.

Published

2010

186. Evolutionary patterns at the RNase based gametophytic self - incompatibility system in two divergent Rosaceae groups (Maloideae and Prunus).

Author

Vieira J, Ferreira PG, Aguiar B, Fonseca NA, and Vieira CP

Subjects

Bayes Theorem, Genes, Plant, Mutation, Phylogeny, Protein Structure, Tertiary, Prunus enzymology, Recombination, Genetic, Rosaceae enzymology, Sequence Alignment, Sequence Analysis, Protein, Evolution, Molecular, Prunus genetics, Ribonucleases genetics, Rosaceae genetics

Abstract

Background: Within Rosaceae, the RNase based gametophytic self-incompatibility (GSI) system has been studied at the molecular level in Maloideae and Prunus species that have been diverging for, at least, 32 million years. In order to understand RNase based GSI evolution within this family, comparative studies must be performed, using similar methodologies., Result: It is here shown that many features are shared between the two species groups such as levels of recombination at the S-RNase (the S-pistil component) gene, and the rate at which new specificities arise. Nevertheless, important differences are found regarding the number of ancestral lineages and the degree of specificity sharing between closely related species. In Maloideae, about 17% of the amino acid positions at the S-RNase protein are found to be positively selected, and they occupy about 30% of the exposed protein surface. Positively selected amino acid sites are shown to be located on either side of the active site cleft, an observation that is compatible with current models of specificity determination. At positively selected amino acid sites, non-conservative changes are almost as frequent as conservative changes. There is no evidence that at these sites the most drastic amino acid changes may be more strongly selected., Conclusions: Many similarities are found between the GSI system of Prunus and Maloideae that are compatible with the single origin hypothesis for RNase based GSI. The presence of common features such as the location of positively selected amino acid sites and lysine residues that may be important for ubiquitylation, raise a number of issues that, in principle, can be experimentally addressed in Maloideae. Nevertheless, there are also many important differences between the two Rosaceae GSI systems. How such features changed during evolution remains a puzzling issue.

Published

2010

187. Characterization of anthocyanins and proanthocyanidins in wild and domesticated Mexican blackberries (Rubus spp.).

Author

Cuevas-Rodríguez EO, Yousef GG, García-Saucedo PA, López-Medina J, Paredes-López O, and Lila MA

Subjects

Fruit chemistry, Fruit genetics, Genotype, Mexico, Rosaceae genetics, Anthocyanins analysis, Plant Extracts analysis, Proanthocyanidins analysis, Rosaceae chemistry

Abstract

This study was designed to characterize and compare wild, commercial, and noncommercial cultivated blackberry genotypes grown in Michoacan, Mexico. Six genotypes, including WB-3, WB-7, WB-10, and WB-11 (all wild blackberry types), Tupy (a commercial cultivar), and UM-601 (a cultivated breeding line), were selected and profiled for anthocyanins and proanthocyanidins by separating extracts over Amberlite XAD-7 resin and Sephadex LH-20 columns. Subsequent high-performance liquid chromatography (HPLC) and liquid chromatography-electrospray ionization-mass spectrometry (LC-ESI-MS) analyses revealed that the major anthocyanin for all genotypes was cyanidin 3-O-glucoside. The proanthocyanidins (condensed tannins) were present in mono- to hexamer forms. Also, hydrolyzable tannins, ellagitannins, were characterized in the blackberry fruits. The average anthocyanin concentration in Sephadex LH-20 fractions was 49.2 mg/g in the commercial cultivar Tupy, while in the wild genotypes and the breeding line, the range was 361.3-494.9 mg/g (cyanidin 3-O-glucoside equivalent). The proanthocyanidin concentration varied widely among wild genotypes (417.5-1343.6 mg/g, catechin equivalent). This study demonstrated that the use of Amberlite XAD-7 followed by Sephadex LH-20 chromatography, with subsequent HPLC and LC-ESI-MS analyses, was able to effectively separate and characterize the diverse polyphenolics in blackberry genotypes. These results suggest that recommendations for dietary intake of blackberries for human health benefits need to take into account the source, because of the wide inherent variation in bioactive polyphenolic content in different blackberry genotypes.

Published

2010

188. Multiple introductions boosted genetic diversity in the invasive range of black cherry (Prunus serotina; Rosaceae).

Author

Pairon M, Petitpierre B, Campbell M, Guisan A, Broennimann O, Baret PV, Jacquemart AL, and Besnard G

Subjects

Belgium, Climate, DNA, Chloroplast analysis, DNA, Plant, Ecosystem, Europe, Geography, Germany, Microsatellite Repeats genetics, Netherlands, Rosaceae genetics, Rosaceae physiology, Selection, Genetic, Genetic Variation physiology, Genetics, Population, Prunus physiology, Rosaceae growth & development

Abstract

Background and Aims: Black cherry (Prunus serotina) is a North American tree that is rapidly invading European forests. This species was introduced first as an ornamental plant, then it was massively planted by foresters in many countries, but its origins and the process of invasion remain poorly documented. Based on a genetic survey of both native and invasive ranges, the invasion history of black cherry was investigated by identifying putative source populations and then assessing the importance of multiple introductions on the maintenance of gene diversity., Methods: Genetic variability and structure of 23 populations from the invasive range and 22 populations from the native range were analysed using eight nuclear microsatellite loci and five chloroplast DNA regions., Key Results: Chloroplast DNA diversity suggests there were multiple introductions from a single geographic region (the north-eastern United States). A low reduction of genetic diversity was observed in the invasive range for both nuclear and plastid genomes. High propagule pressure including both the size and number of introductions shaped the genetic structure in Europe and boosted genetic diversity. Populations from Denmark, The Netherlands, Belgium and Germany showed high genetic diversity and low differentiation among populations, supporting the hypothesis that numerous introduction events, including multiple individuals and exchanges between sites, have taken place during two centuries of plantation., Conclusions: This study postulates that the invasive black cherry has originated from east of the Appalachian Mountains (mainly the Allegheny plateau) and its invasiveness in north-western Europe is mainly due to multiple introductions containing high numbers of individuals.

Published

2010

189. Bound volatile precursors in genotypes in the pedigree of 'Marion' blackberry (Rubus sp.).

Author

Du X, Finn CE, and Qian MC

Subjects

Fruit chemistry, Fruit genetics, Genotype, Rosaceae genetics, Rosaceae chemistry, Volatile Organic Compounds analysis

Abstract

Glycosidically bound volatiles and precursors in genotypes representing the pedigree for 'Marion' blackberry were investigated over two growing seasons. The volatile precursors were isolated using a C18 solid-phase extraction column. After enzymatic hydrolysis, the released volatiles were analyzed using stir bar sorptive extraction gas chromatography-mass spectrometry (GC-MS) and direct microvial insert thermal desorption GC-MS. The most abundant volatile precursors in the genotypes were alcohols, followed by shikimic acid derivatives. High amounts of furanone glycosides were also detected, while norisoprenoids only existed in a small amount in blackberries. The volatile precursor composition in the genotypes in the 'Marion' pedigree was very similar to their free volatile distribution. 'Logan' and 'Olallie' predominantly had bound norisoprenoids. Wild 'Himalaya' predominated with terpene alcohol and furaneol glycosides, whereas 'Santiam' and 'Chehalem' contained a high level of terpene alcohol glycosides. A similar inheritance pattern was also observed for some volatile precursors in the genotypes in the 'Marion' pedigree. A high content of linalool, hydroxylinalool, and alpha-ionol glycosides in 'Olallie' and a low content in 'Chehalem' resulted in a moderate level in their offspring 'Marion', while a low content of (E)-linalool oxide precursor in 'Olallie' and a high content in 'Chehalem' also resulted in a moderate level in 'Marion'. However, the concentration of furaneol glycosides in 'Marion' exceeded that of its two parents.

Published

2010

190. An R2R3 MYB transcription factor associated with regulation of the anthocyanin biosynthetic pathway in Rosaceae.

Author

Lin-Wang K, Bolitho K, Grafton K, Kortstee A, Karunairetnam S, McGhie TK, Espley RV, Hellens RP, and Allan AC

Subjects

Alleles, Amino Acid Sequence, Arabidopsis genetics, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Crops, Agricultural genetics, Fragaria genetics, Genes, Plant genetics, Malus genetics, Molecular Sequence Data, Phylogeny, Plant Proteins chemistry, Plant Proteins genetics, Plant Proteins isolation & purification, Plant Proteins metabolism, Plants, Genetically Modified, Polymerase Chain Reaction, Protein Binding, Protein Structure, Tertiary, Prunus genetics, Sequence Homology, Amino Acid, Transcription Factors chemistry, Transcription Factors genetics, Transformation, Genetic, Anthocyanins biosynthesis, Biosynthetic Pathways genetics, Gene Expression Regulation, Plant, Rosaceae genetics, Transcription Factors metabolism

Abstract

Background: The control of plant anthocyanin accumulation is via transcriptional regulation of the genes encoding the biosynthetic enzymes. A key activator appears to be an R2R3 MYB transcription factor. In apple fruit, skin anthocyanin levels are controlled by a gene called MYBA or MYB1, while the gene determining fruit flesh and foliage anthocyanin has been termed MYB10. In order to further understand tissue-specific anthocyanin regulation we have isolated orthologous MYB genes from all the commercially important rosaceous species., Results: We use gene specific primers to show that the three MYB activators of apple anthocyanin (MYB10/MYB1/MYBA) are likely alleles of each other. MYB transcription factors, with high sequence identity to the apple gene were isolated from across the rosaceous family (e.g. apples, pears, plums, cherries, peaches, raspberries, rose, strawberry). Key identifying amino acid residues were found in both the DNA-binding and C-terminal domains of these MYBs. The expression of these MYB10 genes correlates with fruit and flower anthocyanin levels. Their function was tested in tobacco and strawberry. In tobacco, these MYBs were shown to induce the anthocyanin pathway when co-expressed with bHLHs, while over-expression of strawberry and apple genes in the crop of origin elevates anthocyanins., Conclusions: This family-wide study of rosaceous R2R3 MYBs provides insight into the evolution of this plant trait. It has implications for the development of new coloured fruit and flowers, as well as aiding the understanding of temporal-spatial colour change.

Published

2010

191. Pollen-expressed F-box gene family and mechanism of S-RNase-based gametophytic self-incompatibility (GSI) in Rosaceae.

Author

Sassa H, Kakui H, and Minamikawa M

Subjects

F-Box Proteins genetics, Flowers enzymology, Flowers genetics, Flowers metabolism, Inbreeding, Plant Proteins genetics, Pollen enzymology, Pollen metabolism, Ribonucleases genetics, Rosaceae enzymology, Rosaceae metabolism, Species Specificity, F-Box Proteins metabolism, Gene Expression Regulation, Plant, Plant Proteins metabolism, Pollen genetics, Ribonucleases metabolism, Rosaceae genetics

Abstract

Many species of Rosaceae, Solanaceae, and Plantaginaceae exhibit S-RNase-based self-incompatibility (SI) in which pistil-part specificity is controlled by S locus-encoded ribonuclease (S-RNase). Although recent findings revealed that S locus-encoded F-box protein, SLF/SFB, determines pollen-part specificity, how these pistil- and pollen-part S locus products interact in vivo and elicit the SI reaction is largely unclear. Furthermore, genetic studies suggested that pollen S function can differ among species. In Solanaceae and the rosaceous subfamily Maloideae (e.g., apple and pear), the coexistence of two different pollen S alleles in a pollen breaks down SI of the pollen, a phenomenon known as competitive interaction. However, competitive interaction seems not to occur in the subfamily Prunoideae (e.g., cherry and almond) of Rosaceae. Furthermore, the effect of the deletion of pollen S seems to vary among taxa. This review focuses on the potential differences in pollen-part function between subfamilies of Rosaceae, Maloideae, and Prunoideae, and discusses implications for the mechanistic divergence of the S-RNase-based SI.

Published

2010

192. Distribution of volatile composition in 'marion' ( rubus species hyb) blackberry pedigree.

Author

Du X, Finn C, and Qian MC

Subjects

Fruit chemistry, Fruit genetics, Fruit metabolism, Isomerism, Rosaceae genetics, Rosaceae metabolism, Terpenes chemistry, Terpenes metabolism, Volatile Organic Compounds metabolism, Rosaceae chemistry, Volatile Organic Compounds chemistry

Abstract

The distribution of volatile constituents in ancestral genotypes of 'Marion' blackberry's pedigree was investigated over two growing seasons. Each genotype in the pedigree had a specific volatile composition. Red raspberry was dominated by norisoprenoids, lactones, and acids. 'Logan' and 'Olallie' also had a norisoprenoid dominance but at much lower concentrations. The concentration of norisoprenoids in other blackberry genotypes was significantly lower. Terpenes and furanones were predominant in wild 'Himalaya' blackberry, whereas terpenes were the major volatiles in 'Santiam'. 'Marion', a selection from 'Chehalem' and 'Olallie', contained almost all of the volatile compounds in its pedigree at moderate amount. The chiral isomeric ratios of 11 pairs of compounds were also studied. Strong chiral isomeric preference was observed for most of the chiral compounds, and each cultivar had its unique chiral isomeric distribution. An inherent pattern was observed for some volatile compounds in the 'Marion' pedigree. Raspberry and 'Logan' had a very high concentration of beta-ionone, but was reduced by half in 'Olallie' and by another half in 'Marion' as the crossing proceeded. A high content of linalool in 'Olallie' and a low content in 'Chehalem' resulted in a moderate content of linalool in their progeny 'Marion'. However, the concentration of furaneol in 'Marion' was higher than in its parents. A high content of (S)-linalool in 'Olallie' and a racemic content of (S)-,(R)-linalool in 'Chehalem' resulted in a preference for the (S)-form in 'Marion'.

Published

2010

193. Development and bin mapping of a Rosaceae Conserved Ortholog Set (COS) of markers.

Author

Cabrera A, Kozik A, Howad W, Arus P, Iezzoni AF, and van der Knaap E

Subjects

Arabidopsis genetics, Expressed Sequence Tags, Genetic Markers, Nucleic Acid Amplification Techniques, Populus genetics, Prunus genetics, Quantitative Trait Loci, Synteny, Chromosome Mapping methods, Conserved Sequence genetics, Rosaceae genetics, Sequence Homology, Nucleic Acid

Abstract

Background: Detailed comparative genome analyses within the economically important Rosaceae family have not been conducted. This is largely due to the lack of conserved gene-based molecular markers that are transferable among the important crop genera within the family [e.g. Malus (apple), Fragaria (strawberry), and Prunus (peach, cherry, apricot and almond)]. The lack of molecular markers and comparative whole genome sequence analysis for this family severely hampers crop improvement efforts as well as QTL confirmation and validation studies., Results: We identified a set of 3,818 rosaceaous unigenes comprised of two or more ESTs that correspond to single copy Arabidopsis genes. From this Rosaceae Conserved Orthologous Set (RosCOS), 1039 were selected from which 857 were used for the development of intron-flanking primers and allele amplification. This led to successful amplification and subsequent mapping of 613 RosCOS onto the Prunus TxE reference map resulting in a genome-wide coverage of 0.67 to 1.06 gene-based markers per cM per linkage group. Furthermore, the RosCOS primers showed amplification success rates from 23 to 100% across the family indicating that a substantial part of the RosCOS primers can be directly employed in other less studied rosaceaous crops. Comparisons of the genetic map positions of the RosCOS with the physical locations of the orthologs in the Populus trichocarpa genome identified regions of colinearity between the genomes of Prunus-Rosaceae and Populus-Salicaceae., Conclusion: Conserved orthologous genes are extremely useful for the analysis of genome evolution among closely and distantly related species. The results presented in this study demonstrate the considerable potential of the mapped Prunus RosCOS for genome-wide marker employment and comparative whole genome studies within the Rosaceae family. Moreover, these markers will also function as useful anchor points for the genome sequencing efforts currently ongoing in this family as well as for comparative QTL analyses.

Published

2009

194. Characterization of red raspberry (Rubus idaeus L.) genotypes for their physicochemical properties.

Author

Tosun M, Ercisli S, Karlidag H, and Sengul M

Subjects

Ascorbic Acid analysis, Fruit anatomy & histology, Genotype, Hydroxybenzoates analysis, Regression Analysis, Rosaceae genetics, Species Specificity, Turkey, Antioxidants analysis, Fruit chemistry, Pigmentation genetics, Rosaceae chemistry

Abstract

The worldwide tendency for growing more small fruits, including raspberries, shows permanent increase because this group of fruits has a relatively higher content of bioactive nutrients. To study the health benefits of red raspberry fruits, 11 preselected wild-grown and 1 well-known cultivar, Heritage, were evaluated for some of their physicochemical properties such as fruit weight, total antioxidant capacity (measured by beta-carotene bleaching and FRAP assays), total phenolics, ascorbic acid, soluble solid content (SSC), and acidity. Fruit weight, SSC, and ascorbic acid contents were between 1.47 and 2.32 g, 10.87% and 13.60%, and 21 and 36 mg/100 g, respectively. Antioxidant activity and total phenolic content varied among genotypes and the ERZ5 genotype had the highest antioxidant capacity as ascertained by both methods. This genotype also had the highest total phenolic (2031 microg GAE/g FW) content. There are linear relationships between antioxidant capacities and total phenols. The present study demonstrates the potential of certain wild genotypes, notably ERZ5, for improving the nutritional value through germplasm enhancement programs.

Published

2009

195. Differential responses in pear and quince genotypes induced by Fe deficiency and bicarbonate.

Author

Donnini S, Castagna A, Ranieri A, and Zocchi G

Subjects

Blotting, Western, Gene Expression Regulation, Plant drug effects, Gene Expression Regulation, Plant genetics, Genotype, Iron metabolism, Photosynthesis drug effects, Pyrus genetics, Rosaceae genetics, Bicarbonates pharmacology, Iron Deficiencies, Pyrus drug effects, Pyrus metabolism, Rosaceae drug effects, Rosaceae metabolism

Abstract

Most of the studies carried out on Fe deficiency condition in arboreous plants have been performed, with the exception of those carried out on plants grown in the field, in hydroponic culture utilizing a total iron depletion growth condition. This can cause great stress to plants. By introducing Fe deficiency induced by the presence of bicarbonate, we found significant differences between Pyrus communis L. cv. Conference and Cydonia oblonga Mill. BA29 and MA clones, characterized by different levels of tolerance to chlorosis. Pigment content and the main protein-pigment complexes were investigated by HPLC and protein gel blot analysis, respectively. While similar changes in the structural organization of photosystems (PSs) were observed in both species under Fe deficiency, a different reorganization of the photosynthetic apparatus was found in the presence of bicarbonate between tolerant and susceptible genotypes, in agreement with the photosynthetic electron transport rate measured in isolated thylakoids. In order to characterize the intrinsic factors determining the efficiency of iron uptake in a tolerant genotype, the main mechanisms induced by Fe deficiency in Strategy I species, such as Fe3+-chelate reductase (EC 1.16.1.7) and H+-ATPase (EC 3.6.3.6) activities, were also investigated. We demonstrate that physiological and biochemical root responses in quince and pear are differentially affected by iron starvation and bicarbonate supply, and we show a high correlation between tolerance and Strategy I activation.

Published

2009

196. Allopolyploidy in Fragariinae (Rosaceae): comparing four DNA sequence regions, with comments on classification.

Author

Lundberg M, Töpel M, Eriksen B, Nylander JA, and Eriksson T

Subjects

Cell Nucleus genetics, DNA, Plant genetics, Genetic Speciation, Phylogeny, Rosaceae classification, Sequence Alignment, Sequence Analysis, DNA, Evolution, Molecular, Plastids genetics, Polyploidy, Rosaceae genetics

Abstract

Potential events of allopolyploidy may be indicated by incongruences between separate phylogenies based on plastid and nuclear gene sequences. We sequenced two plastid regions and two nuclear ribosomal regions for 34 ingroup taxa in Fragariinae (Rosaceae), and six outgroup taxa. We found five well supported incongruences that might indicate allopolyploidy events. The incongruences involved Aphanes arvensis, Potentilla miyabei, Potentilla cuneata, Fragaria vesca/moschata, and the Drymocallis clade. We evaluated the strength of conflict and conclude that allopolyploidy may be hypothesised in the four first cases. Phylogenies were estimated using Bayesian inference and analyses were evaluated using convergence diagnostics. Taxonomic implications are discussed for genera such as Alchemilla, Sibbaldianthe, Chamaerhodos, Drymocallis and Fragaria, and for the monospecific Sibbaldiopsis and Potaninia that are nested inside other genera. Two orphan Potentilla species, P. miyabei and P. cuneata are placed in Fragariinae. However, due to unresolved topological incongruences they are not reclassified in any genus.

Published

2009

197. Evolution of gametophytic apomixis in flowering plants: an alternative model from Maloid Rosaceae.

Author

Talent N

Subjects

Gene Duplication, Genomic Imprinting, Plant Proteins, Polyploidy, Terminology as Topic, Biological Evolution, Models, Genetic, Reproduction, Asexual genetics, Rosaceae genetics

Abstract

Gametophytic apomixis, asexual reproduction involving megagametophytes, occurs in many flowering-plant families and as several variant mechanisms. Developmental destabilization of sexual reproduction as a result of hybridization and/or polyploidy appears to be a general trigger for its evolution, but the evidence is complicated by ploidy-level changes and hybridization occurring with facultative apomixis. The repeated origins of polyploid apomictic complexes in the palaeopolyploid Maloid Rosaceae suggest a new model of evolutionary transitions that may have wider applicability. Two conjectures are fundamental to this model: (1) that as previously suggested by Rutishauser, like many sexual flowering plants the polyploid apomicts require maternal-paternal balance in the second fertilization event that gives rise to the endosperm, and (2) that the observed variation in endosperm ploidy levels relates less to flexibility late in development than to the known variation in developmental origin of the megagametophyte between mechanisms loosely categorized as diplospory and apospory. The model suggests explanations for the relative frequencies of apospory and diplospory, and for the wide but incomplete associations of apospory with a pollination requirement (pseudogamy) and of diplospory with autonomous development of the endosperm. It is suggested that pollination from other taxa may provide some adaptive advantage to pseudogamous apospory.

Published

2009

198. Mapping QTLs for developmental traits in raspberry from bud break to ripe fruit.

Author

Graham J, Hackett CA, Smith K, Woodhead M, Hein I, and McCallum S

Subjects

Chromosome Mapping, Chromosomes, Plant, Crops, Agricultural anatomy & histology, Crops, Agricultural genetics, Crops, Agricultural growth & development, Genes, Plant, Genetic Linkage, Humans, MADS Domain Proteins genetics, Molecular Sequence Data, Phenotype, Quantitative Trait Loci, Fruit genetics, Fruit growth & development, Rosaceae anatomy & histology, Rosaceae genetics, Rosaceae growth & development

Abstract

Protected cropping systems have been adopted by the UK industry to improve fruit quality and extend the current season. Further manipulation of season, alongside consideration of climate change scenarios, requires an understanding of the processes controlling fruit ripening. Ripening stages were scored from May to July across different years and environments from a raspberry mapping population. Here the interest was in identifying QTLs for the overall ripening process as well as for the time to reach each stage, and principal coordinate analysis was used to summarise the ripening process. Linear interpolation was also used to estimate the time (in days) taken for each plot to reach each of the stages assessed. QTLs were identified across four chromosomes for ripening and the time to reach each stage. A MADS-box gene, Gene H and several raspberry ESTs were associated with the QTLs and markers associated with plant height have also been identified, paving the way for marker assisted selection in Rubus idaeus.

Published

2009

199. Phylogenetic analysis reveals a scattered distribution of autumn colours.

Author

Archetti M

Subjects

Asteraceae genetics, Fabaceae genetics, Plant Leaves physiology, Rosaceae genetics, Tracheophyta genetics, Phylogeny, Pigmentation genetics, Seasons

Abstract

Background and Aims: Leaf colour in autumn is rarely considered informative for taxonomy, but there is now growing interest in the evolution of autumn colours and different hypotheses are debated. Research efforts are hindered by the lack of basic information: the phylogenetic distribution of autumn colours. It is not known when and how autumn colours evolved., Methods: Data are reported on the autumn colours of 2368 tree species belonging to 400 genera of the temperate regions of the world, and an analysis is made of their phylogenetic relationships in order to reconstruct the evolutionary origin of red and yellow in autumn leaves., Key Results: Red autumn colours are present in at least 290 species (70 genera), and evolved independently at least 25 times. Yellow is present independently from red in at least 378 species (97 genera) and evolved at least 28 times., Conclusions: The phylogenetic reconstruction suggests that autumn colours have been acquired and lost many times during evolution. This scattered distribution could be explained by hypotheses involving some kind of coevolutionary interaction or by hypotheses that rely on the need for photoprotection.

Published

2009

200. Rubus chlorotic mottle virus, a new sobemovirus infecting raspberry and bramble.

Author

McGavin WJ and Macfarlane SA

Subjects

Genome, Viral, Mosaic Viruses ultrastructure, Open Reading Frames, Phylogeny, Plant Diseases genetics, Plant Leaves virology, RNA, Viral chemistry, Rosaceae genetics, Rosaceae metabolism, Mosaic Viruses genetics, Mosaic Viruses isolation & purification, Plant Diseases virology, RNA, Viral genetics, Rosaceae virology

Abstract

The complete nucleotide sequence of a new member of the unassigned genus Sobemovirus, isolated from raspberry and bramble plants in north east Scotland and given the name Rubus chlorotic mottle virus (RuCMV), was obtained. The virus has a single, positive-strand RNA genome of 3,983 nucleotides and, in common with other sobemoviruses, contains four open reading frames (ORFs) encoding, from 5' to 3', the P1 protein that is likely to be a suppressor of RNA silencing, ORF2a that has homology to serine-proteases, ORF2b that is the probable RNA dependent RNA polymerase, and ORF3 that is the coat protein. ORF2b protein is potentially expressed as a fusion with ORF2a protein by a -1 frameshift at the heptanucleotide sequence UUUAAAC. Phylogenetic analyses showed that RuCMV is a distinct virus not closely related to any of the other sequenced sobemoviruses. Based on the obtained sequence a full-length cDNA copy of RuCMV was cloned and in vitro transcripts derived from this clone were shown to be fully infectious.

Published

2009