Plastid transformation in eggplant (<Emphasis Type="Italic">Solanum melongena</Emphasis> L.)

We have developed a method for plastid transformation in eggplant (Solanum melongena L.), a solanaceous plant species. Plastid transformation in eggplant was achieved by bombardment of green stem segments with pPRV111A plastid expression vector carrying the aadA gene encoding aminoglycoside 3′′-adenylyltransferase. Biolistic delivery of the pPRV111A plasmid yielded transplastomic plants at a frequency of two per 21 bombarded plates containing 25 stem explants each. Integration of the aadA gene in the plastome was verified by PCR analysis and also by Southern blotting using 16S rDNA (targeting sequence) and the aadA gene as a probe. Transplastomic expression of the aadA gene was verified by RT-PCR. The development of transplastomic technology in eggplant may open up exciting possibilities for novel gene introduction and expression in the engineered plastome for agronomic or pharmaceutical traits.     

Development and validation of breeder-friendly KASPar markers for <Emphasis Type=Italic>er1</Emphasis>, a powdery mildew resistance gene in pea (<Emphasis Type=Italic>Pisum sativum</Emphasis> L.)

Powdery mildew of pea is caused by Erysiphe pisi DC and is a serious threat to pea (Pisum sativum L.) production throughout much of the world. Development and utilization of genetic resistance to powdery mildew is considered an effective and sustainable strategy to manage this disease. One gene, er1, conferring powdery mildew resistance, was previously cloned and sequenced, and the functional markers for each resistance allele were reported. Allele-specific DNA markers are efficient and powerful tools to facilitate crop improvement and new cultivar development in breeding programs. However, extensive application of these markers is limited by gel-associated obstacles. In this study, eight breeder-friendly kompetitive allele-specific PCR (KASPar) markers were developed to overcome the problems of gel-based markers and increase the efficiency of genotypic screening. In order to identify additional pea germplasm with powdery mildew resistance, these KASPar markers were deployed and used to genotype a pea collection derived from the USDA pea single-plant (PSP) collection. Simultaneously, a phenotypic screening and a genotypic validation using the corresponding gel-based functional markers were conducted on the PSP collection. One pea accession, PI 142775, was identified by both phenotyping and genotyping to carry the allele er1-1 for powdery mildew resistance, indicating that the KASPar assay is an efficient and robust tool for breeding for powdery mildew resistance.     

Regeneration of eggplant (<Emphasis Type="Italic">Solanum melongena</Emphasis> L.) from root explants

Summary Eggplant (Solanum melongena L.) was efficiently regenerated from cultured roots of 15-d-old seedlings on Murashige and Skoog (MS) medium containing 0.45 μM thidiazuron and 13.3 μM 6-benzyladenine. Within 28d of culture initiation, induction of organogenic calluses and subsequent differentiation into shoot buds were observed. Shoot buds upon subculture to MS basal medium elongated into healthy shoots. Excised shoots (2–4 cm) were rooted on Soilrite^? irrigated with water either in vitro or in vivo. Plants with well-developed root systems were established under field conditions after hardening in the glasshouse, where they developed into flowering plants and produced mature fruits with viable seeds.     

Evidence for gametoclonal variation in potato (<Emphasis Type=Italic>Solanum tuberosum</Emphasis> L.)

Gametoclonal variation that occurs in gametic cells in culture and is recovered in their regenerated derivatives has not been reported in potato (Solanum tuberosum L.). Based on a set of 24 differentiating phenotypic traits, canonical variates analysis genetically distinguished the androgenic (di)haploid (2n = 2x = 24) D4 from its tetraploid (2n = 4x = 48) anther-derived sibs and anther donor JTH/C-107. Nuclear microsatellite analysis over six polymorphic loci indicated that meiotic rearrangements and mutant alleles were primarily associated with the release of gametoclonal variation. The incidence of null alleles in D4 at the loci STACCAS3 and STM0031 was also indicative of mutations occurring within the priming sequence. Microsatellite results were supported by random amplified polymorphic DNA (RAPD) assays that characterized a total of 567 loci (bins) representing 4,258 amplified fragments. Sixty-five new RAPDs that were absent in the anther donor and in either of its parents, viz., S. phureja Juz. & Buk. IVP-35 and S. tuberosum cv. Kufri Jyoti were present in D4, indicating the occurrence of extensive recombinational events. The results have been discussed in the context of microsatellite null alleles providing the most conclusive evidence for gametoclonal variation.     

High-density AFLP map of nonbrittle rachis 1 (<Emphasis Type=Italic>btr1</Emphasis>) and 2 (<Emphasis Type=Italic>btr2</Emphasis>) genes in barley (<Emphasis Type=Italic>Hordeum vulgare</Emphasis> L.)

Wild relatives of barley disperse their seeds at maturity by means of their brittle rachis. In cultivated barley, brittleness of the rachis was lost during domestication. Nonbrittle rachis of occidental barley lines is controlled by a single gene (btr1) on chromosome 3H. However, nonbrittle rachis of oriental barley lines is controlled by a major gene (btr2) on chromosome 3H and two quantitative trait loci on chromosomes 5HL and 7H. This result suggests multiple mutations of the genes involved in the formation of brittle rachis in oriental lines. The btr1 and btr2 loci did not recombine in the mapping population analyzed. This result agrees with the theory of tight linkage between the two loci. A high-density amplified fragment-length polymorphism (AFLP) map of the btr1/btr2 region was constructed, providing an average density of 0.08 cM/locus. A phylogenetic tree based on the AFLPs showed clear separation of occidental and oriental barley lines. Thus, barley consists of at least two lineages as far as revealed by molecular markers linked to nonbrittle rachis genes.Electronic Supplementary Material Supplementary material is available for this article at An erratum to this article can be found at     

Molecular cloning and characterization of a novel glyoxalase I gene <Emphasis Type=Italic>TaGly I</Emphasis> in wheat (<Emphasis Type=Italic>Triticum aestivum</Emphasis> L.)

Methylglyoxal is a kind of poisonous metabolite that can react with RNA, DNA and protein, which generally results in a number of side advert effects to cell. Glyoxalase I is a member of glyoxalase system that can detoxify methylglyoxal. An EST encoding a glyoxalase I was isolated from a SSH (suppression subtractive hybridization)-cDNA library of wheat spike inoculated by Fusarium graminearum. The corresponding full length gene, named TaGly I, was cloned, sequenced and characterized. Its genomic sequence consists of 2,719 bp, including seven exons and six introns, and its coding sequence is 929 bp with an open reading frame encoding 291 amino acids. Sequence alignment showed that there were two glyoxalase I domains in the deduced protein sequence. By using specific primers, TaGly I was mapped to chromosome 7D of wheat via a set of durum wheat ‘Langdon’ D-genome disomic-substitution lines. The result of Real-time quantitative polymerase chain reaction demonstrated that TaGly I was induced by the inoculation of Fusarium graminearum in wheat spikes. Additionally, it was also induced by high concentration of NaCl and ZnCl₂. When TaGly I was overexpressed in tobacco leaves via Agrobacterium tumefaciens infection, the transgenic tobacco showed stronger tolerance to ZnCl₂ stress relative to transgenic control with GFP. The above facts indicated that TaGly I might play a role in response to diverse stresses in plants.     

<Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation of eggplant (<Emphasis Type="Italic">Solanum melongena</Emphasis> L.) using root explants

An efficient variety-independent method for producing transgenic eggplant (Solanum melongena L.) via Agrobacterium tumefaciens-mediated genetic transformation was developed. Root explants were transformed by co-cultivation with Agrobacterium tumefaciens strain LBA4404 harbouring a binary vector pBAL2 carrying the reporter gene beta-glucuronidase intron (GUS-INT) and the marker gene neomycin phosphotransferase (NPTII). Transgenic calli were induced in media containing 0.1 mg l(-1) thidiazuron (TDZ), 3.0 mg l(-1) N(6)-benzylaminopurine, 100 mg l(-1) kanamycin and 500 mg l(-1) cefotaxime. The putative transgenic shoot buds elongated on basal selection medium and rooted efficiently on Soilrite irrigated with water containing 100 mg l(-1) kanamycin sulphate. Transgenic plants were raised in pots and seeds subsequently collected from mature fruits. Histochemical GUS assay and polymerase chain reaction analysis of field-established transgenic plants and their offsprings confirmed the presence of the GUS and NPTII genes, respectively. Integration of T-DNA into the genome of putative transgenics was further confirmed by Southern blot analysis. Progeny analysis of these plants showed a pattern of classical Mendelian inheritance for both the NPTII and GUS genes.     

Development of SSR markers derived from SSR-enriched genomic library of eggplant (<Emphasis Type="Italic">Solanum melongena</Emphasis> L.)

Eggplant (Solanum melongena L.), also known as aubergine or brinjal, is an important vegetable in many countries. Few useful molecular markers have been reported for eggplant. We constructed simple sequence repeat (SSR)-enriched genomic libraries in order to develop SSR markers, and sequenced more than 14,000 clones. From these sequences, we designed 2,265 primer pairs to flank SSR motifs. We identified 1,054 SSR markers from amplification of 1,399 randomly selected primer pairs. The markers have an average polymorphic information content of 0.27 among eight lines of S. melongena. Of the 1,054 SSR markers, 214 segregated in an intraspecific mapping population. We constructed cDNA libraries from several eggplant tissues and obtained 6,144 expressed sequence tag (EST) sequences. From these sequences, we designed 209 primer pairs, 7 of which segregated in the mapping population. On the basis of the segregation data, we constructed a linkage map, and mapped the 236 segregating markers to 14 linkage groups. The linkage map spans a total length of 959.1 cM, with an average marker distance of 4.3 cM. The markers should be a useful resource for qualitative and quantitative trait mapping and for marker-assisted selection in eggplant breeding.     

The influence of flask sealing on <Emphasis Type="Italic">in vitro</Emphasis> morphogenesis of eggplant (<Emphasis Type="Italic">Solanum melongena</Emphasis> L.)

The influence of flask sealing on eggplant morphogenic responses and morpho-anatomical characteristics was evaluated. Eggplant seeds from the cultivar Embu were disinfected and inoculated in MS medium supplemented with B₅ vitamins, 0.55 mM myo-inositol, 2% (w/v) sucrose, and 0.65% (w/v) agar. NAA (53.7 μM) and IAA (0.57 μM) were added to the medium to elicit morphogenic responses from cotyledon and hypocotyl explants via somatic embryogenesis and organogenesis, respectively. The plates were sealed with Micropore® 3M, Parafilm®, or polyvinyl chloride (PVC) film. The effect of glass vessel capping on morphogenesis was also evaluated for shoot apexes inoculated on medium containing half-strength MS where the capping consisted of polypropylene lids with or without two vents (0.45-μm MilliSeal® air vent) and PVC film. Leaf histological analysis and leaf bleaching from each treatment were performed. No significant differences were observed in the number of embryos and root primordia in media containing either 53.7 μM NAA or 0.57 μM IAA. However, embryogenic calli fresh weight was higher for PVC and Parafilm®. Morphogenesis from the shoot apex was influenced, except the plant height. Plants maintained in glass flasks capped with vented lids showed more vigorous growth and differentiated anatomical structures compared to plants under other treatments. This treatment resulted in more expanded leaves, wider stems, and higher dry and fresh weights. In all treatments, the number of stomata was higher in the abaxial surfaces of leaves. Our results indicate that the flasks with vents provided air exchange beneficial for plant morphogenesis.     

<Emphasis Type=Italic>Agrobacterium</Emphasis>-mediated transformation of cotton (<Emphasis Type=Italic>Gossypium hirsutum</Emphasis> L.) via vacuum infiltration

AnAgrobacterium-mediated gene transfer system with recovery of putative transformants was developed for cotton (Gossypium hirsutum L.) cv. Cocker-312. Two-month-old hypocotyl-derived embryogenic calli were infected through agroinfiltration for 10 min at 27 psi in a suspension ofAgrobacterium tumefaciens strain GV3101 carrying tDNA with theGUS gene, encoding β-glucuronidase (GUS), and the neomycin phosphotransferase II (nptII) gene as a kanamycin-resistant plant-selectable marker. Six days after the histochemicalGUS assay was done, 46.6% and 20%GUS activity was noted with the vacuum-infiltration and commonAgrobacterium-mediated transformation methods, respectively. The transformed embryogenic calli were cultured on selection medium (100 mg/L and 50 mg/L kanamycin for 2 wk and 10 wk, respectively) for 3 mo. The putative transgenic plants were developed via somatic embryogenesis (25 mg/L kanamycin). In 4 independent experiments, up to 28.23% transformation efficiency was achieved. PCR amplification and Southern blot analysis fo the transformants were used to confirm the integration of the transgenes. Thus far, this is the only procedure available for cotton that can successfully be used to generate cotton transformants.     

New allele of the <Emphasis Type=Italic>COCHLEATA</Emphasis> gene in pea <Emphasis Type=Italic>Pisum sativum</Emphasis> L.

Analysis with the polymerase chain reaction showed that the Khlorofill-4 pea Pisum sativum chlorophyll-deficient mutant with reduced stipules has an altered structure of the COCHLEATA (COCH) gene, carrying a new mutant COCH allele. The phenotype of the mutant was described in comparison with another form having reduced stipules (stipules reduced) and the control. Leaves of the coch mutant are smaller and have other proportions than in the control; stipules are absent from leaves of the first nodes and are narrow, bandlike, or spoonlike at later ontogenetic stages. It was concluded that the cell number in the stipule epidermis is reduced in the st and coch mutants compared to the wild type.     

DNA markers linked to the <Emphasis Type=Italic>R</Emphasis><Subscript><Emphasis Type=Italic>2</Emphasis></Subscript> rust resistance gene in sunflower (<Emphasis Type=Italic>Helianthus annuus</Emphasis> L.) facilitate anticipatory breeding for this disease variant

Pre-emptive breeding for host disease resistance is an effective strategy for combating and managing devastating incursions of plant pathogens. Comprehensive, long-term studies have revealed that virulence to the R ₂ sunflower (Helianthus annuus L.) rust resistance gene in the line MC29 does not exist in the Australian rust (Puccinia helianthi) population. We report in this study the identification of molecular markers linked to this gene. The three simple sequence repeat (SSR) markers ORS795, ORS882, and ORS938 were linked in coupling to the gene, while the SSR marker ORS333 was linked in repulsion. Reliable selection for homozygous-resistant individuals was efficient when the three markers, ORS795, ORS882, and ORS333, were used in combination. Phenotyping for this resistance gene is not possible in Australia without introducing a quarantinable race of the pathogen. Therefore, the availability of reliable and heritable DNA-based markers will enable the efficient deployment of this gene, permitting a more effective strategy for generating sustainable commercial cultivars containing this rust resistance gene.     

Efficient separation and purification of allophycocyanin from <Emphasis Type=Italic>Spirulina</Emphasis> (<Emphasis Type=Italic>Arthrospira</Emphasis>) <Emphasis Type=Italic>platensis</Emphasis>

Allophycocyanin (APC) is a minor component of phycobiliproteins in cyanobacteria and red algae. This paper describes a simple and inexpensive extracting method for isolating APC from Spirulina (Arthrospira) platensis with high efficiency. The crude phycobiliprotein extract was pretreated by ammonium sulfate fractionation. Then, by adding hydroxylapatite into crude phycobiliprotein extract dissolved in 20 mM phosphate buffer (pH 7.0), APC was selectively adsorbed by hydroxylapatite but C-phycocyanin (C-PC) was not. The hydroxylapatite was collected and APC was extracted from the crude phycobiliprotein extract. Then, the enriched APC was washed off from the hydroxylapatite using 100 mM phosphate buffer (pH 7.0). In this simple extracting method it was easy to remove C-PC and isolate APC in large amounts. The absorbance ratio A ₆₅₀/A ₂₈₀ of extracted APC reached 2.0. The recovery yield was 70%, representing 4.61 mg · g⁻¹ wet weight. The extracted APC could be further purified by a simple anion-exchange chromatography with a pH gradient from 5.6 to 4.0. The absorbance ratio A ₆₅₀/A ₂₈₀ of the purified APC reached 5.0, and the overall recovery yield was 43%, representing 2.83 mg · g⁻¹ wet weight. Its purity was confirmed by native polyacrylamide gel electrophoresis (PAGE) and sodium dodecyl sulfate-PAGE.     

Cryopreservation of <Emphasis Type=Italic>Robinia</Emphasis><Emphasis Type=Italic>pseudoacacia</Emphasis>

Cryopreservation of Robinia pseudoacacia explants by vitrification achieved 78% survival following the stepwise preculture of shoot tips in (0.3 + 0.5 + 0.7 M) sucrose with a 80 min incubation in PVS2; compared to 87% survival after desiccation of explants to 30% water content, following 3 days alginate bead (with glycerol and sucrose treatments) preculture in 0.7 M sucrose.     

A new name in <Emphasis Type=Italic>Pavetta</Emphasis> L. (<Emphasis Type=Italic>Rubiaceae</Emphasis>)

Summary  The name Pavetta modesta (Hiern) S. E. Dawson is a later homonym of P. modesta Bremek. Pavetta crystalensis is proposed as a new name.     

Regulation of the <Emphasis Type=Italic>ALBINO3</Emphasis>-mediated transition to flowering in <Emphasis Type=Italic>Arabidopsis</Emphasis> depends on the expression of <Emphasis Type=Italic>CO</Emphasis> and <Emphasis Type=Italic>GA1</Emphasis>

ALBINO3, a homologue of PPF1 in Arabidopsis, encodes a chloroplast protein, and is essential for chloroplast differentiation. In the present study, ALBINO3(−) transgenic plants exhibited a significant decrease in both the number of rosette leaves at bolting and the days before bolting, suggesting the important roles of ALBINO3 in regulating flowering during non-inductive short-day photoperiods. ALBINO3 mRNA was apparently accumulated in shoot apical meristem and floral meristems around the shoot apical meristem in wild-type plants. ALBINO3 might be predominantly involved in inducing the floral repression pathway by activating the expression of TFL1, and by suppressing the expression of LFY, respectively, in the shoot apical meristem. Moreover, the function of ALBINO3 in regulating flowering transition depended on the expression of CO and GA1, because ALBINO3 might function in the downstream integration of the photoperiod-dependent and the photoperiod-independent pathways. These results suggest that ALBINO3 may have an important integrative function in the flowering process in Arabidopsis.