Plant regeneration from leaf protoplasts of apple

Protoplasts were isolated from young leaves or etiolated shoot apices. For initiation of divisions the protoplasts were embedded in sodium alginate and cultivated in MS or MI medium supplemented with 2.2 M BA, 2.6 M NAA and 2.2 M 2,4-dichlorophenoxyacetic acid. The protoplasts of all seven lines tested developed to protocalluses at high frequencies. No genotypic differences were observed. When BA was used in combination with NAA in the regeneration experiments, only a few protocalluses (highest frequency 3%) exhibited shoot organogenesis. When BA was replaced with thidiazuron, the percentage of protocalluses that developed shoots increased in two of three tested lines to 7% and 56%, respectively. Shoot development was achieved under light conditions. The shoots were then rooted and transferred into soil.Abbreviations ABA abscisic acid - BA 6-benzyladenine - 2,4-d 2,4-dichlorophenoxyacetic acid - FW fresh weight - GA₃ gibberellic acid - IBA indole-3-butyric acid - MES 2-N-morpholinoethane sulphonic acid - NAA -naphthaleneacetic acid     

Micropropagation of thirteen Malus cultivars and rootstocks,and effect of antibiotics on proliferation

Several factors that affect in vitro establishment, proliferation, and rooting of thirteen Malus cultivars and rootstocks were studied. Apple shoot tips (1.5±0.5 cm in length) were established using ascorbic and citric acids as antioxidants. Four proliferation media containing 1.0 mg 1^–1 BA and different concentrations of IBA and GA₃ were tested. Proliferation rates varied depending on the genotype and medium used. The highest proliferation rate was obtained for a rootstock that produced 11.6±2.5 shoots (1.5±0.8 cm in length) per tube per month. Rooting was induced with IBA for all the genotypes tested. The optimal IBA concentration was cultivar dependent (between 0.1 and 1.0 mg 1^–1 IBA), and lower concentrations were necessary to induce rooting in liquid rather than in solid medium.The effects on shoot-tip proliferation of cefotaxime, carbenicillin and kanamycin, three antibiotics commonly used for transformation studies, were also evaluated. Cefotaxime at 200 mg 1^–1 stimulated shoot growth and development, but at 500 mg 1^–1 caused abnormal shoot morphology. Carbenicillin at 500 mg 1^–1, alone or in combination with cefotaxime at 200 mg 1^–1, inhibited proliferation and caused excessive enlargement of the basal leaves, inducing callus formation and release of phenolic compounds in the medium. Kanamycin at 50 mg 1^–1 was phytotoxic and caused shoot chlorosis and necrosis. Consideration of the toxicity of these antibiotics is critical when designing transformation schemes for selection and recovery of transgenic apple plants.Abbreviations BA benzyladenine - cef cefotaxime - crb carbenicillin - GA₃ gibberellic acid - IBA indole-3-butyric acid - Kan kanamycin - ms Murashige and Skoog [19] macro- and micro-nutrients - NAA naphthalene-acetic acid     

Dissecting apple tree architecture into genetic, ontogenetic and environmental effects: QTL mapping

The present study aimed to dissect tree architectural plasticity into genetic, ontogenetic and environmental effects over the first 4 years of growth of an apple F1 progeny by means of quantitative traits loci (QTL) mapping. Both growth and branching processes were phenotyped on the consecutive annual shoots of different axes within a tree. For each studied trait, predicted values (best linear unbiased predictors, BLUPs) of the genotypic (G) effect or its interaction with tree age (G×A) and climatic year (G×Y) were extracted from mixed linear models of repeated data. These BLUPs, which are independent from autocorrelations between repeated measurements, were used for QTL mapping. QTL detection power was improved by this two-step approach. For each architectural process, numerous QTLs were detected and some particularly interesting co-localised in common genomic regions, for internode lengthening, top diameter, and number and percentage of axillary shoots. When several QTLs were detected for a given trait, global models were estimated, which explained a maximum of 40% of the total variance for both internode length and top diameter and 28% for branching. QTLs detected for BLUPs of G×Y effects were interpreted as resulting from the interaction between genetic maximal potential of growth and climatic factors, while those for G×A effects were interpreted in relation to tree ontogeny. Most of the latter ones were found to be concomitant with key development stages during which the trait average started to decrease, but with different magnitudes depending on genotype. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Repeat flowering in apple caused by water stress or defoliation

Summary A series of experiments involving defoliation or water stress at different dates indicated that either of these treatments can make potted apple trees flower a second time in any one year, as long as the treatment is given near the end of July. The results suggest that the reflowering after a period of water stress was primarily a result of the loss of leaves that occurred when the plants were subsequently rewatered. Reflowering normally occurred only if flower primordia had already differentiated at the time of the treatment. There was an indication that in early July water stress was more effective than defoliation at stimulating reflowering.     

Changes in photosynthetic characteristics during leaf development in apple

A comprehensive developmental survey of leaf area, chlorophyll, photosynthetic rate, leaf resistance, transpiration ratio, CO₂ compensation point and photorespiration was conducted in apple. The largest changes in each of the photosynthetic characteristics studied took place during the earliest stages of leaf development, coinciding with the period of greatest leaf expansion and chlorophyll synthesis. During early development, photosynthesis increased 5-fold, reaching a maximum rate of 40 mg CO₂ dm^-2 hr^-1 at a leaf plastochron index (LPI) of 10. During this same period, leaf resistance, transpiration ratio, CO₂ compensation point and mesophyll resistance decreased, while carboxylation efficiency increased. Two especially interesting aspects of the data discussed are simultaneous changes that occur at a LPI of 10 and 12 in all of the photosynthetic characteristics examined and an apparent decrease in photorespiration as leaves age. From our results it is clear that stage of leaf development is an important factor affecting the rate of photosynthesis and photorespiration.Scientific Paper No. 5687, College of Agriculture, Washington State University, Pullman. This work is supported by the National Science Foundation Grant 80-10958 and the Columbia River Orchards Foundation.     

The influence of cation and gelling agent concentrations on vitrification of apple cultivars in vitro

Shoot tips of York and Vermont Spur Delicious apples (Malus domestica Borkh.) were cultured in vitro to test the influence of K⁺, Mg⁺⁺ and gelling agent concentrations on vitrification. These concentrations were 20.05, 14.05 and 8.05 mM K⁺, 1.5 and 3.0 mM Mg⁺⁺, 7.0 g/l Difco Bacto agar and 1.0, 1.5 and 2.0 g/l Gelrite. The lowest K⁺ level produced a higher percentage of vitrified shoots, affected tissue appearance, reduced shoot number and shoot elongation and apparently altered shoot metabolic activity. Gelrite consistently produced vitrified leaves and stems, even though media gelled with 1.5 g/l Gelrite presented the same apparent gel firmness as using 7 g/l Difco Bacto agar, which did not induce vitrification. Less shoot elongation, fewer total shoots, and more usable shoots of York were obtained on Bacto-agar, while similar but less noticeable effects were obtained with Vermont Spur Delicious. The results presented here show that vitrification can be studied in a standardized system in which the only change is substitution of one gelling agent for another.     

Adventitions shoot formation on excised leaves of in vitro grown shoots of apple cultivars

Leaves taken from micropropagated shoots of several apple (Malus domestica Borkh.) cultivars were cultured in vitro on Linsmaier & Skoog (LS) medium or the rice anther culture medium of Chu et al. (N6) containing various concentrations of either benzyladenine (BA) or thidiazuron (TDZ) plus naphthaleneacetic acid (NAA). Of the TDZ concentrations tested, 10 M was most effective and it was equivalent to, or better than, 22 M BA for both the percentage of leaves regenerating shoots and number of shoots formed per regenerating leaf in almost every experiment. Lower concentrations of NAA (1.1 and 5.4 M) gave best results with both BA and TDZ. N6 medium gave consistently better results than LS. Lowering total salt concentration or total N concentration of LS to that of N6 did not improve the response nor did changing the NO₃:NH₄ ratio. The 3–4 leaves on the most distal part of the shoot were most responsive and tended to form the most adventitious shoots. Placing the leaf cultures in the dark for the first 2–3 weeks of the culture period produced the best results. Optimum results were obtained by culturing leaves from the distal part of the shoot in the dark for 2 weeks on N6 medium containing 10 M TDZ and 1.1 or 5.4 M NAA, then moving the cultures to 16 h daylight at a photon flux of 60 mol s^-1m^-2.     

Regeneration of androgenic embryos in apple (<Emphasis Type="Italic">Malus x domestica</Emphasis> Brokh.) <Emphasis Type="Italic">via</Emphasis> anther and microspore culture

Based on optimized protocols for anther and microspore culture in apple (Malus x domestica Borkh.), the regeneration phase and the efficiency of the processes in general were compared by using the same androgenic material of two experimental years. Microspore culture resulted in an increase in embryo induction depending on the genotype (Höfer 2004), however anther culture was superior to microspore culture in the total number of regenerated plants. The regeneration process in anther and microspore culture is similar. Two developmental pathways were observed: 1) secondary embryogenesis followed by adventitious shoot formation and 2) direct adventitious shoot formation from primary embryos. Induction and regeneration processes are delayed in microspore culture as compared with anther culture. The reasons for the reduced regeneration efficiency in microspore culture are discussed.     

The use of the phosphomannose-isomerase/mannose selection system to recover transgenic apple plants

A selection system based on the phosphomannose-isomerase gene (pmi) as a selectable marker and mannose as the selective agent was evaluated for the transformation of apple (Malus domestica Borkh.). Mannose is an unusable carbon source for many plant species. After uptake, mannose is phosphorylated by endogenous hexokinases to mannose-6-phosphate. The accumulation of mannose-6-phosphate leads to a block in glycolysis by inhibition of phosphoglucose-isomerase, resulting in severe growth inhibition. The phosphomannose-isomerase is encoded by the manA gene from Escherichia coli and catalyzes the conversion of mannose-6-phosphate to fructose-6-phosphate, an intermediate of glycolysis. Transformed cells expressing the manA gene can therefore utilize mannose as a carbon and survive on media containing mannose. The manA gene along with a β-glucuronidase (GUS) gene was transferred into apple cv. ‘Holsteiner Cox’ via Agrobacterium tumefaciens-mediated transformation. Leaf explants were selected on medium supplemented with different concentrations and combinations of mannose and sorbitol to establish an optimized mannose selection protocol. Transgenic lines were regenerated after an initial selection pressure of 1–2 g l⁻¹ mannose in combination with 30 g l⁻¹ sorbitol followed by a stepwise increase in the mannose concentration up to 10 g l⁻¹ and simultaneous decrease in the sorbitol concentration. Integration of transgenes in the apple genome of selected plants was confirmed by PCR and southern blot analysis. GUS histochemical and chlorophenol red (CPR) assays confirmed activity of both transgenes in regenerated plants. The pmi/mannose selection system is shown to be highly efficient for producing transgenic apple plants without using antibiotics or herbicides.     

Conditioning promotes regeneration and transformation in apple leaf explants

The conditioning of apple shoots for several days in an appropriate liquid medium enhances the regenerative capacity of leaf explants derived from the shoots, so that adventitious buds form in high frequency. The use of conditioning enables the transformation and rapid recovery of plants from otherwise recalcitrant cultivars without the need for an extended callus phase. Conditioning has a wide range of effects on the leaf cells, including increasing the density of the cytoplasm and the complexity of vacuoles, and increasing the porosity of the cell walls from of the order of 3.5 nm to 5.5 nm. The increased porosity may aid the insertion of T-DNA through the cell wall. Initial expression of introduced genes, as judged by the histochemical assay of the β-glucuronidase gene, occurs within 2 days of inoculation with Agrobacterium, usually in groups of 2–20 cells, termed foci. The foci are most commonly composed of an intensely expressing core cell with one or more surrounding layers of less intensely expressing cells. Explants from conditioned leaves contain at least three times as many foci as the control explants. It is concluded that conditioning of apple shoots promotes the recovery of transformed plants from leaf explants by two processes: increasing the number of cells containing and expressing the introduced genes, and by increasing the probability that cells will regenerate directly to shoots. This revised version was published online in June 2006 with corrections to the Cover Date.     

CO2-Enrichment and photosynthetic photon flux affect the growth of in vitro-cultured apple plantlets

Micro-cuttings (shoots with two small leaves) of cultivar M9 apple were cultured in-vitro for 40 d under CO₂-enriched and non-enriched (i.e., ambient air) conditions, and at a PPF of 40 or 100 μmol m^-2 s^-1 Afterward, shoot length, number of leaves, leaf area, chlorophyll content, shoot and root fresh weights, and % survival were recorded. Those plant-lets grown under CO₂- and PPF-enriched treatments were healthy and vigorous, and showed higher values for their growth parameters. In contrast, those grown without supplemental CO₂ or PPF often showed hyperhydricity. We also demonstrated that CO₂ enrichment and a relatively high PPF during in-vitro culture promoted normal photosynthesis and growth after ex-vitro transplantation.     

High efficiency <Emphasis Type="Italic">In vitro</Emphasis> plant regeneration from cotyledon explants of <Emphasis Type="Italic">Incarvillea sinensis</Emphasis>

Summary A simple and effective procedure has been developed for plantlet regeneration from cotyledon-derived callus of the medicinally important herb and ornamental species, Incarvillea sinensis. An average of 18.4 adventitious shoots per explant were obtained from 100% cotyledon explants cultured on half-strength Murashige and Skoog (MS) medium containing 1.0 mg l⁻¹ 6-benzylaminopurine for 3 wk, followed by another 4 wk on hormone-free 1/2×MS medium. The cotyledon explants continued to expand and regenerate new shoots upon repeated subculturing onto fresh medium. Most regenerated shoots (66.9%) were rooted on 1/4×MS mediumcontaining 1.0 mg l⁻¹ indole-3-acetic acid, with an average of about 3.8 roots per shoot. Regenerated plants with well developed shoots and roots were successfully acclimatized in soil and were normal phenotypically.     

Self-fertile apple resulting from S-RNase gene silencing

Self-incompatibility (SI) restricts fertilisation and fruit setting in many tree fruit crops. In apple, we have produced transgenic trees harbouring extra copies of the endogenous S-gene controlling SI. Two independent transgenic genotypes were characterised in detail. Controlled self- and cross-pollination of the flowers of trees from both genotypes over a 3-year-period showed that the transgenic lines produced normal levels of fruit and seeds after selfing. In contrast, the controls produced much less fruit following self- compared to cross-pollination. Fruit set data correlated with the results of microscopic evaluation of pollen tube growth through the pistil, which revealed inhibition after selfing in the controls but not in the transgenic lines. The self-fertile phenotype was associated with the complete absence of pistil S-RNase proteins, which are the products of the targeted S-gene. These results confirm that self-fertility was due to inhibition of expression of the S-RNase gene in the pistil, resulting in un-arrested self-pollen tube growth, and fertilisation.Communicated by P. Debergh     

Seasonal correlations of specific leaf weight to net photosynthesis and dark respiration of apple leaves

Specific leaf weight (SLW), net photosynthesis (P _n ), and dark respiration (R _d ) of apple leaves were monitored for an entire growing season. Leaves were sampled from the canopy interior and periphery to provide a range of SLW. Leaf P _n was linearly correlated with SLW until mid-August, when P _n began to decline. During September the relationship between SLW and P _n was a quadratic. Leaf R _d and SLW were linearly correlated throughout the season. Leaf P _n and R _d were significantly correlated through most of the season, but the relationship was not always linear. Specific leaf weight appears to be a reliable index of the previous light environment of a leaf, but use to estimate P _n is probably limited to the first half of the season, because of increased variation after mid-August.Former Graduate Research Assistant (presently Assistant Professor, Department of Horticulture and Forestry, Rutgers University, Cook College, New Brunswick, NJ 08903, USA) and Associate Professor, respectively.     

Identification of co-dominant RAPD markers tightly linked to fruit skin color in apple

A simple genetic basis for the red/yellow skincolor polymorphism in apple was verified using DNA markers. Bulked segregant analysis identified one 10-base oligomer that generated different fragments in each of the bulks. After testing the primer in four populations, two fragments were found to be associated with red skin color and another two fragments associated with yellow skin color. Three of the fragments (1160, 1180, and 1230 bp) were partly sequenced and found to share high sequence homology, suggesting these were generated from the same locus. A pair of universal primers were designed to amplify the fragments. In the Rome Beauty x White Angel population, two fragments were associated with red skin color; one fragment designated as A¹ (1160 bp) was from Rome Beauty and another fragment (A², 1180 bp) was from White Angel. Progeny possessing both fragments, or either one, had red fruit. Both parents displayed an alternate fragment, a¹ (1230 bp), associated with yellowskinned fruit. In three other crosses tested, only fragment A¹ co-segregated with red skin color; two fragments, a¹ and a² (1230 bp and 1320 bp), were associated with yellow skin color. Our results are consistent with the hypothesis that the red/yellow dimorphism is controlled by a monogenic system with the presence of the red anthocyanin pigmentation being dominant. There was no indication that other modifier genes could reverse the effect of the locus (R _f ) linked to the markers. Examination of amplification products in 56 apple cultivars and advanced breeding selections demonstrated that the universal primers could be used to correctly predict fruit skin color in most cases.     

Identification and mapping of the novel apple scab resistance gene Vd3

Apple scab, caused by the fungal pathogen Venturia inaequalis, is one of the most devastating diseases for the apple growing in temperate zones with humid springs and summers. Breeding programs around the world have been able to identify several sources of resistance, the Vf from Malus floribunda 821 being the most frequently used. The appearance of two new races of V. inaequalis (races 6 and 7) in several European countries that are able to overcome the resistance of the Vf gene put in evidence the necessity of the combination of different resistance genes in the same genotype (pyramiding). Here, we report the identification and mapping of a new apple scab resistance gene (Vd3) from the resistant selection “1980-015-25” of the apple breeding program at Plant Research International, The Netherlands. This selection contains also the Vf gene and the novel V25 gene for apple scab resistance. We mapped Vd3 on linkage group 1, 1 cM to the south of Vf in repulsion phase to it. Based on pedigree analysis and resistance tests, it could be deduced that 1980-015-25 had inherited Vd3 from the founder “D3.” This gene provides resistance to the highly virulent EU-NL-24 strain of race 7 of V. inaequalis capable of overcoming the resistance from Vf and Vg. JMS and SGJ contributed equally to this work     

Medium,container and genotype all influence in vitro cold storage of apple germplasm

The goal of this study was to evaluate the in vitro storage of apple germplasm by screening a range of genotypes followed by more comprehensive testing of multiple parameters on two genotypes of differing species, Malus domestica cultivar Grushovka Vernenskaya and wild Malus sieversii selection TM-6. Stored plants were rated on a 6 point scale (0 low to 5 high) for plant appearance at 3 month intervals after storage at 4°C. Combinations of carbon source (sucrose and/or mannitol), nitrate nitrogen content (25, 50 or 100%) and plant growth regulators (ABA, BAP, IBA) were studied in three types of containers (tissue culture bags, test tubes or jars). An initial screen of 16 genotypes stored in tissue culture bags indicated that plantlets could be stored at 4°C for 9–14 months without subculture on standard 3% sucrose Murashige and Skoog (1962) (MS) medium with no plant growth regulators (PGRs). In subsequent in-depth studies on the two genotypes, ANOVA indicated highly significant interactions of medium, container and genotype. ‘Grushovka Vernenskaya’ shoots with no PGRs and 3% sucrose remained viable (ratings of ≥1) for 21 months of storage in bags. Storage on reduced nitrogen (MS with 25% nitrogen), PGRs, and 3% sucrose kept ‘Grushovka Vernenskaya’ shoot condition rated >2 at 21 months. Addition of 0.5 or 1 mg⁻¹ abscisic acid (ABA) also improved plant ratings at 21 months. The longest storage for ‘Grushovka Vernenskaya’ was 33–39 months with PGRs and 3% sucrose in either tubes or jars. Addition of abscisic acid (ABA) to the medium did not improve storage of plantlets in jars and tubes at 15 months. TM-6 stored best in tubes on 3% sucrose with PGRs or in jars on 2% mannitol and 2% sucrose. Overall it appears that cold storage of apple shoot cultures can be successful for 21 months in tissue culture bags with 25% MS nitrate nitrogen, 3% sucrose, and no PGRs or for 33 months in jars or tubes on MS with 3% sucrose and PGRs. Preliminary RAPD analysis found no significant differences between plants stored for 39 months and non-stored controls.     

Rooting apple cultivars in vitro: Interactions among light,temperature, phloroglucinol and auxin

Delicious apple (Malus domestica Borkh.) and several of its strains, which have been difficult to root in vitro, were successfully propagated with rooting percentages up to 100%. The combination of treatments used to achieve this result included placing the shoots on rooting medium in the dark at 30°C for the first week of the rooting stage, then moving them to a regime of 16 hr light-8 hr dark at 25°C. The rooting medium contained half strength Murashige and Skoog salts plus 1.2 M thiamine HCl, 0.56 mM myo-inositol, 1 mM phloroglucinol (PG), 1.4 M indolebutyric acid (IBA), 1.3 M gibberellic acid (GA₃), 87.6 mM sucrose, and 7 g l^–1 Difco Bacto agar. Dark treatment applied during the proliferation stage (etiolation) was less effective than one applied at the beginning of the rooting stage. The optimum length of dark treatment during rooting was 4 to 7 days. Increasing the temperature from 25°C to 30°C improved rooting of Delicious, Royal Red Delicious, and Vermont Spur Delicious in the absence of PG but generally had less effect in the presence of PG. Further increase in temperature to 35°C stimulated rooting of Royal Red Delicious but reduced rooting of Vermont Spur Delicious. Transfer of the cuttings to auxin-free medium after 1 week had no effect on percentage rooting and increased the number of roots per cutting for only 1 of 4 cultivars tested and then only in the presence of PG. In general PG stimulated rooting of Delicious and its strains, but had no effect on Golden Delicious.