Transposon tagging in diploid strawberry

Fragaria vesca was transformed with a transposon tagging construct harbouring amino terminally deleted maize transposase and EGFP (Ac element), NPTII, CaMV 35S promoter (P35S) driving transposase and mannopine synthase promoter (Pmas) driving EGFP (Ds element). Of 180 primary transgenics, 48 were potential launch pads, 72 were multiple insertions or chimaeras, and 60 exhibited somatic transposition. T(1) progeny of 32 putative launch pads were screened by multiplex PCR for transposition. Evidence of germ-line transposition occurred in 13 putative launch pads; however, the transposition frequency was too low in three for efficient recovery of transposants. The transposition frequency in the remaining launch pads ranged from 16% to 40%. After self-pollination of the T(0) launch pads, putative transposants in the T(1) generation were identified by multiplex PCR. Sequencing of hiTAIL-PCR products derived from nested primers within the Ds end sequences (either P35S at the left border or the inverted repeat at the right border) of T(1) plants revealed transposition of the Ds element to distant sites in the strawberry genome. From more than 2400 T(1) plants screened, 103 unique transposants have been identified, among which 17 were somatic transpositions observed in the T(0) generation. Ds insertion sites were dispersed among various gene elements [exons (15%), introns (23%), promoters (30%), 3' UTRs (17%) as well as intergenically (15%)]. Three-primer (one on either side of the Ds insertion and one within the Ds T-DNA) PCR could be used to identify homozygous T(2) transposon-tagged plants. The mutant collection has been catalogued in an on-line database.     

Rapid discrimination of commercial strawberry cultivars using Fourier transform infrared spectroscopy data combined by multivariate analysis

To determine whether pattern recognition based on metabolite fingerprinting for whole cell extracts can be used to discriminate cultivars metabolically, leaves and fruits of five commercial strawberry cultivars were subjected to Fourier transform infrared (FT-IR) spectroscopy. FT-IR spectral data from leaves were analyzed by principal component analysis (PCA) and Fisher’s linear discriminant function analysis. The dendrogram based on hierarchical clustering analysis of these spectral data separated the five commercial cultivars into two major groups with originality. The first group consisted of Korean cultivars including ‘Maehyang’, ‘Seolhyang’, and ‘Gumhyang’, whereas in the second group, ‘Ryukbo’ clustered with ‘Janghee’, both Japanese cultivars. The results from analysis of fruits were the same as of leaves. We therefore conclude that the hierarchical dendrogram based on PCA of FT-IR data from leaves represents the most probable chemotaxonomical relationship between cultivars, enabling discrimination of cultivars in a rapid and simple manner. The authors Suk Weon Kim and Sung Ran Min contributed equally to this work.     

A Review of Photoperiodic Flowering Research in Strawberry (Fragaria spp.)

Throughout the last century many researchers have examined the physiology and molecular events surrounding an important milestone in plant development—the transition to flowering. Breakthroughs over the last decade have brought great molecular resolution to the process, allowing researchers to peer into the former black box that once obfuscated the mechanisms governing this evolutionarily and agriculturally important transition. Foundational studies in the physiology of flowering regulation have been performed in many species, but the greatest mechanistic clarity has come from studies in Arabidopsis thaliana. At the same time parallel efforts by researchers, nurserymen and farmers queried the wide variation in strawberry (Fragaria spp) flowering habits. The complex ranging flowering behaviors driven by the cumbersome genetics of the cultivated octoploid strawberry have slowed the understanding in this crop, yet a remarkable literature exists that documents examination of flowering in the genus. Strawberry is a high-value crop and a comprehensive understanding of flowering behaviors is required to optimize production and streamline breeding efforts. Studies in strawberry may offer new insights into quantitative mechanisms that shape the floral transition, and new mechanisms may be identified. Moreover, strawberry is a member of the Rosaceae, a family containing valuable fruit, nut and ornamental crops. Findings in strawberry will likely translate well to other crops in the family. This review compiles a century of observations and experimental results, and looks forward to the unique opportunities that may arise from contemporary studies of flowering time in this genus.     

Reduction of ribulose-1,5-bisphosphate carboxylase/oxygenase efficiency by the presence of sucrose during the tissue culture of strawberry plantlets

Summary In order to identify the physiological and biochemical events leading to the negative effects of the presence of sucrose in culture medium on the photosynthetic capacity of plantlets cultivated in vitro, time course in photosynthesis, metabolite pool sizes, and ribulose-1,5-bisphosphate carboxylase (EC 4.1.1.39) activity were investigated in strawberry (Fragaria x ananassa Duch. cv. Kent) plantlets following their transfer to medium with or without sucrose. When the plantlets grown in medium without sucrose were transferred to a similar medium with 30 g liter⁻¹ sucrose, their net photosynthesis decreased and their level of phosphorylated compounds increased with time. In addition, initial catalytic turnover, total catalytic turnover, and the activation state of ribulose-1,5-bisphosphate carboxylase decreased in these plantlets. Conversely, when the plantlets grown in medium with 30 g liter⁻¹ sucrose were transferred to a similar medium without sucrose, their net photosynthesis slowly increased with time and their level of phosphorylated compounds slowly decreased. A slow increase with time of initial catalytic turnover, total catalytic turnover, and the activation state of ribulose-1,5-bisphosphate carboxylase was also observed in these plantlets. The results of the present paper suggest that the reduced photosynthetic capacity of strawberry plantlets cultivated in vitro in the presence of sucrose is the consequence of a reduction in the efficiency of ribulose-1,5-bisphosphate carboxylase/oxygenase due to its deactivation and the possible presence of putative inhibitors of carboxylation sites.     

Characterization of ethylene production in developing strawberry fruit

Ethylene production, ACC content, and ACC oxidase activity were determined in strawberry fruit harvested at different stages of development and in fruit harvested green and developed in vitro in solutions containing sucrose. In fruit harvested at progressive stages of development from green through full ripe, ethylene production and ACC oxidase activity decreased whereas ACC content increased between the white and pink stages. Fruit detached at the green stage and developed to full ripe by immersion of the cut pedicel in sucrose solutions exhibited an increase in ACC content, decreased ethylene production, and no change in ACC oxidase activity. Detached green fruit provided with sucrose containing 0.5 mM silver (STS) had elevated ethylene production and more ACC oxidase activity than did fruit incubated without the silver salt. Green fruit provided with sucrose containing 1 mM ACC showed markedly increased ACC content, ACC oxidase activity, and ethylene production. These increases were noted following 4 days incubation in ACC, and were more pronounced after 11 days, at which time fruit of all treatments had attained a full-ripe stage of development. Calyx tissue exhibited more ACC oxidase activity, less ACC content, and similar ethylene production compared with receptacle tissue. ACC synthase could not be detected in fruit harvested at different developmental stages or in fruit detached and developed in vitro.abbreviations ACC 1-aminocyclopropane-1-carboxylic acid - HQS 8-hydroxyquinoline hemisulfate - SAM S-adenosyl methionine - STS silver thiosulfate     

Comparison of ancestral and current-generation inbreeding in an experimental strawberry breeding population

Progenies from first-generation self, half-sib, full-sib, and cross fertilizations were generated to evaluate the magnitude of inbreeding depression for vegetative and production traits in strawberry. Tests were conducted to determine the linearity of trait mean depression with inbreeding rate (F) over this range of inbreeding values, as an indication of the presence of non-additive epistasis. A control population, for which a similar range of coancestry had accumulated over several cycles of breeding and selection, was also generated to compare the consequences of ancestral and current-generation inbreeding. Trait means for crosses among current-generation half-sibs, full-sibs, and selfs were 2–17%, 3–12%, and 14–45% lower than for unrelated crosses among the same set of parents, respectively. Linear regression of progeny means on current generation F was significantly negative for all traits and explained 17–44% of the variance among progeny means. Mean depression was largely linear over the range of inbreeding rates tested in this population, indicating the absence of epistasis for the traits evaluated. Conversely, (F) regressions of progeny means on pedigree inbreeding coefficients, where coancestry had accumulated over several cycles of breeding and selection, were uniformly non-significant and explained 0–10% of the variance among cross means. Further, multiple regression of progeny means for current-generation relatives on pedigree F failed to improve fit significantly over regression on current-generation F alone for all traits. Together, these results suggest that pedigree inbreeding coefficients are poor predictors of changes in homozygosity when populations are developed through multiple cycles of breeding and selection. They also imply that inbreeding depression will be of minor importance for strawberry breeding populations managed with adequate population sizes and strong directional selection.     

A morphological study of flower initiation and development in strawberry (Fragaria x ananassa) using cryo-scanning electron microscopy

The morphological changes in the apex of strawberry (Fragaria x ananassa) cv. Elsanta during flower initiation and early development were studied by means of apical dissections and cryo-scanning electron microscopy. Characteristic stages of development were recorded from the earliest discernible evidence of floral initiation until anthesis. The results are discussed in relation to previous studies of floral development in strawberry.     

Isolation and characterization of mRNAs differentially expressed during ripening of wild strawberry (Fragaria vesca L.) fruits

Wild strawberry (Fragaria vesca L.) is an attactive model system for studying ripening in non-climacteric fruit, because of its small diploid genome, its short reproductive cycle, and its capacity for transformation. We have isolated eight ripening-induced cDNAs from this species after differential screening of a cDNA library. The predicted polypeptides of seven of the clones exhibit similarity to database protein sequences, including acyl carrier protein, caffeoyl- CoA 3-O-methyltransferase, sesquiterpene cyclase, major latex protein, cystathionine -synthase, dehydrin and an auxin- induced gene. A ninth cDNA clone that was constitutively expressed is predicted to encode a metallothionein-like protein. None of these proteins appear to be directly related to events generally associated with ripening such as cell wall metabolism or the accumulation of sugars and pigments, rather, their putative functions are indicative of the wide range of processes upregulated during fruit ripening.