Modification of a CTAB DNA extraction protocol for plants containing high polysaccharide and polyphenol components

A relatively quick, inexpensive and consistent protocol for extraction of DNA from expanded leaf material containing large quantities of polyphenols, tannins and polysaccharides is described. Mature strawberry leaves, which contain high levels of these secondary components, were used as a study group. The method involves a modified CTAB extraction, employing high salt concentrations to remove polysaccharides, the use of polyvinyl pyrrolidone (PVP) to remove polyphenols, an extended RNase treatment and a phenol-chloroform extraction. Average yields range from 20 to 84 μg/g mature leaf tissue for both wild and cultivated octoploid and diploidFragaria species. Results from 60 plants were examined, and were consistently amplifiable in the RAPD reaction with as little as 0.5 ng DNA per 25-μL reaction. Presently, this is the first procedure for the isolation of DNA from mature strawberry leaf tissue that produces consistent results for a variety of different species, both octoploid and diploid, and is both stable and PCR amplifiable before and after extended storage. This procedure may prove useful for other difficult species in the family Rosaceae.     

Rapid extraction of genomic DNA from leaves and bracts of dove tree (Davidia involucrata)

Large amounts of polyphenolics in dove tree leaves make it difficult to obtain high-quality genomic DNA during extraction. A rapid DNA minipreparation method was developed for dove tree (Davidia involucrata) and yields 40–50 μg genomic DNA from 0.1 g fresh matured and young leaves and bracts. The yield and quality of the resulting DNA is satisfactory, and the protocol can be scaled up according to sample size. The obtained DNA is suitable for PCR and the restriction enzyme digestion needed for Southern blotting.     

Isolation of scopoletin from leaves of Hevea brasiliensis and the effect of scopoletin on pathogens of H. brasiliensis

Scopoletin (7-hydroxy-6-methoxy coumarin) which inhibited the conidial germinationof Corynespora cassiicola was isolated from the uninfected mature leaves ofHevea brasiliensis. Scopoletin was not detected in uninfected immature rubber leaves. The immature leaves produced scopoletin after being infected with C. cassiicola. The concentration of scopoletin in infected leaves was higher than in uninfected mature leaves. Scopoletin also inhibited the conidial germination of other fungal pathogens of H. brasiliensis. However, no correlation was observed between scopoletin accumulation and clonal resistance. This revised version was published online in June 2006 with corrections to the Cover Date.     

Cross-amplification of microsatellite loci in a neotropicalQuercus species and standardization of DNA extraction from mature leaves dried in silica gel

Conservation of 15 out of 24 previously identified microsatellite loci (62.5%), was found in a survey of the South American oak,Quercus humboldtii. The number of alleles per locus varied from 2 to 20, detecting at least 5 microsatellite loci with 5 or more alleles. This number of loci and alleles is adequate for most studies of genetic diversity and gene flow analysis. In addition, a method for extracting DNA from mature oak leaves is described that minimizes oxidation of tannins, a common problem in silica-gel-dried samples. The microsatellite markers detected in this study and the DNA extraction protocol may be applied to more than 30 species ofQuercus that exist in tropical America.     

不同成熟度树葡萄叶片中类黄酮合成转录组基因分析

为了解树葡萄(Myrciaria cauliflora)类黄酮合成相关酶差异表达基因信息,对其幼叶和成熟叶进行全转录组测序并比较分析。结果表明,从树葡萄幼叶和成熟叶中获得59 321条单基因簇(Unigenes),在8大数据库共注释到32 912条Unigenes信息,其中类黄酮合成代谢相关酶基因77个,在成熟叶片中显著下调表达的基因6个,包括2个CHI、1个CHS、1个F3H、1个2-羟基异黄酮脱水酶基因和1个ANS。5个差异表达基因经qRT-PCR验证的结果与转录组测序结果相符合。因此,树葡萄叶片中含有大量不同种类黄酮合成代谢相关酶家族基因,成熟叶片中类黄酮含量显著减少是由于少量相关基因显著下调。     

Identification and quantification of the major endogenous cytokinins in pistachio seedlings

The major endogenous cytokinins, Z, ZR, DHZ, DHZR, iP and iPR in pistachio seedlings (Pistacia vera L. cv. Ohadi) were purified by HPLC and their identities confirmed using GC-MS. The aerial parts of two-year old pistachio seedlings including mature leaves, young leaves, lateral buds, debarked stems and bark were subjected to analysis. All of the above mentioned cytokinins were identified in the aerial parts except DHZ which was only present in mature leaves. Z-type cytokinins contributed almost 43% of the total cytokinins. ZR and DHZR were identified as the major ribosides and iP as the main base. The greatest concentration of ZR was detected in the bark, amounting to about 48%. DHZR and ZR constituted the major portion of the total cytokinins detected in both young and mature leaves while Z was detected as a minor cytokinin in leaves. The sharp increase of iP concentration during leaf maturation indicates that mature leaves are probably capable of de novo biosynthesis of cytokinins. The absence of DHZ (except in mature leaves) and the presence of considerable concentrations of DHZR in pistachio stems suggest that these tissues are able to metabolize DHZ to DHZR. The large amount of ZR in pistachio leaves suggests that root-derived ZR is transported into the leaves after loading into the xylem. The presence of high amounts of iP in pistachio lateral buds indicates that iP has been accumulated in these parts. The occurrence of a totally different cytokinin distribution pattern in buds, as compared with the other aerial parts, possibly results from their different metabolism.     

Variation in potato microplant morphology in vitro and DNA methylation

Heterotrophic and autotrophic culture in agar and in polyurethane foam, the latter used as an alternative tissue support to agar, resulted in potato microplants with different in vitro morphologies. The microplants were visually characterised in terms of their relative developmental maturity, by comparing the respective leaf shapes in vitro with ontogenetic differences in leaf shape in glasshouse-grown potato plants. Cytosine methylation in the DNA of microplants of the different morphologies was determined using a method based on the AFLP technique but employing methylation-sensitive restriction enzymes (MSAP analysis) to test the hypothesis that DNA methylation could be used to characterise differences in microplant development in vitro. In three of the four treatments there was a good correlation between the visual assessment of relative morphological maturity and DNA base methylation levels. In these microplants there was increased DNA methylation in the leaves with mature leaf morphology represented by a decreased number of restriction fragments. The fourth in vitro morphology had the most juvenile leaf shape but did not have the predicted level of DNA methylation, having a relatively low number of restriction fragments. Subtraction analysis was used to discriminate the fragments that were unique to the juvenile and mature in vivo leaf morphologies. Comparison of the fragment patterns from the microplants with the latter reference profiles, confirmed the relationship with the total DNA methylation as detected by MSAP analysis, that is, the number of common fragments with the juvenile or mature in vivo leaf profiles, respectively. However, none of the fragment profiles, while sharing some common bands at random, was identical to any other; or to that of either the juvenile or mature in vivo leaf. The anomalous relationship of the microplants with most juvenile leaf shape and highest DNA methylation was confirmed. The measurement of DNA methylation in in vitro plants is discussed in the context of the development of a method to assess the quality of microplants produced by different in vitro protocols.     

Analysis of DNA size,content and cell cycle in leaves of Napier grass (Pennisetum purpureum Schum.)

Summary Mesophyll cell nuclei isolated from leaves of Pennisetum purpureum were analysed by flow cytometry to determine the nuclear DNA content and the percentage of cells in different phases of the cell cycle. Samples taken from base, middle and tip regions of leaves 2 to 8 (leaf 1, which was adjacent to the meristem, was too small to sample) showed no significant differences in the amount of DNA per G₁ nucleus due to either age or position. The average amount of DNA per G₁ nucleus was 5.78 pg. Although the majority of cells for each sample were in G₁, samples taken from older leaves had higher percentages of cells in G₂ and S phases. More specifically, base and middle regions of older leaves had a higher percentage of cells in G₂ than all three positions in younger leaves. Electrophoretic analysis of nuclear DNA from leaves 2 to 7 showed no evidence of degradation or difference in fragment size for any sample or position. This study was compared to previous work on the relationship between leaf age and embryogenic competence in Pennisetum purpureum. The results suggest that changes in the cell cycle, and/or a loss or fragmentation of the nuclear DNA, are not responsible for loss of embryogenic competence in mature leaf tissue.     

Cytokinins in the leaves of Ginkgo biloba. II. Metabolism and transport of 8 (14C) zeatin applied to shoot explants

Irrespective of their age, leaves of Ginkgo biloba metabolised applied 8 (¹⁴C) zeatin to compounds of similar chromatographic properties. Glucosylation is apparently not a normal feature of cytokinin metabolism in immature leaves. However, the application of zeatin to these leaves did result in the formation of metabolites which co-chromatographed with glucosylated cytokinins. As far as cytokinin metabolism is concerned therefore, this application of excess zeatin allowed immature leaves to behave as mature or senescing leaves. Overall metabolism was fastest in immature leaves. From the metabolites formed it would appear as if oxidation, which resulted in the formation of a metabolite which co-eluted with N-(purin-6-yl)glycine, was also important in immature leaves. In senescing leaves glucosylation was the major form of metabolism. Extraction and re-application of the polar metabolites (formed from zeatin) to mature leaves resulted in the formation of compounds which co-chromatographed with zeatin. This suggests that these compounds could serve as precursors for zeatin or could be hydrolysed to form zeatin.Very little of the applied radioactivity was exported from the leaves irrespective of their physiological age. When the metabolites, obtained after zeatin application to mature leaves, were extracted and reapplied to the leaves, export of radioactive material was much improved. The results suggest that should cytokinins such as zeatin be translocated to mature leaves of this deciduous gymnosperm their export from the leaves would be unlikely unless first metabolised. In all probability the metabolites concerned are cytokinin glucosides.The financial support of the C.S.I.R., Pretoria, is gratefully acknowledged.     

Endophytic fungi of teak leaves Tectona grandis L. and rain tree leaves Samanea saman Merr.

Summary In order to study the foliar endophytes from teak (Tectona grandis L.) and rain tree (Samanea saman Merr.) growing in the campus of Chulalongkorn University, healthy leaves were collected at two-monthly intervals during January to December. The number of genera and species, together with their colonization frequency (CF%) in mature teak and rain tree leaves were greater than those in the young leaves. More endophytic isolates in the leaves of both trees were recovered during the rainy season. The fungal genera found in both young and mature teak leaves were Alternaria, Colletotrichum, Nigrospora, Phomopsis and mycelia sterilia. Phomopsis was the dominant genus in both young (newly emerged) and mature leaves. Fusarium, Penicillium, Schizophyllum commune and members of the Xylariaceae were found only in mature leaves. For the rain tree leaves, species of Phomopsis and mycelia sterilia were found in both young newly emerged and mature leaves. Colletotrichum and Penicillium were found only in mature leaves, whereas Nigrospora was found only in young newly emerged leaves. In this study, Phomopsis was the dominant genus in the leaves of both tree species. A total of 37 isolates of endophytic fungi isolated from teak and rain tree leaves were tested for the production of antimicrobial activities. Out of these, 18 isolates could produce inhibitory substances effective against Bacillus subtilis, Staphylococcus aureus and Escherichia coli and 3 isolates inhibited growth of Candida albicans in vitro.     

Abscisic acid metabolism and episodic growth in cocoa

Abscisic acid (ABA) levels and metabolism were investigated in relation to shoot growth in cocoa (Theobroma cacao L.). ABA levels were high (14 nmoles/g fwt) in young flush leaves during shoot growth but gradually declined during the subsequent dormant period. ABA levels were low (1–2 nmoles/g fwt) in mature leaves when the terminal bud re-initiated growth. ABA-glucose ester (ABA-glu) levels were low (3–4 nmoles/g fwt) in the flush leaves during shoot growth and dormancy, however, ABA-glu levels increased more than 7-fold in these same leaves during the next flush cycle. ABA-glu levels then dropped significantly during the dormant period. Radiolabeled-ABA was metabolized to three products in cocoa leaves: ABA-glu, phaseic acid and dihydrophaseic acid. Catabolism of radiolabeled ABA was significantly greater in mature leaves during the dormant period when endogenous levels of ABA were high as compared to the period of active shoot growth when endogenous levels of ABA in mature leaves were low.     

Constancy of organellar genome copy numbers during leaf development and senescence in higher plants

In higher plants, plastid and mitochondrial genomes occur at high copy numbers per cell. Several recent publications have suggested that, in higher plants like Arabidopsis and maize, chloroplast DNA is virtually absent in mature and old leaves. This conclusion was mainly based on DAPI staining of isolated chloroplasts. If correct, the finding that chloroplasts in mature leaves lack DNA would change dramatically our understanding of gene expression, mRNA stability and protein stability in chloroplasts. In view of the wide implications that the disposal of chloroplast DNA during leaf development would have, we have reinvestigated the age dependency of genome copy numbers in chloroplasts and, in addition, tested for possible changes in mitochondrial genome copy number during plant development. Analyzing chloroplast and mitochondrial DNA amounts in Arabidopsis and tobacco plants, we find that organellar genome copy numbers remain remarkably constant during leaf development and are present in essentially unchanged numbers even in the senescing leaves. We conclude that, during leaf development, organellar gene expression in higher plants is not significantly regulated at the level of genome copy number and we discuss possible explanations for the failure to detect DNA in isolated chloroplasts stained with DAPI.     

Homology-dependent DNA Transfer from Plants to a Soil Bacterium Under Laboratory Conditions: Implications in Evolution and Horizontal Gene Transfer

DNA transfer was demonstrated from six species of donor plants to the soil bacterium, Acinetobacter spp. BD413, using neomycin phosphotransferase (nptII) as a marker for homologous recombination. These laboratory results are compatible with, but do not prove, DNA transfer in nature. In tobacco carrying a plastid insertion of nptII, transfer was detected with 0.1 g of disrupted leaves and in oilseed rape carrying a nuclear insertion with a similar quantity of roots. Transfer from disrupted leaves occurred in sterile soil and water, without the addition of nutrients. It was detected using intact tobacco leaves and intact tobacco and Arabidopsis plants in vitro. Transfer was dose-dependent and sensitive to DNase, and mutations in the plant nptII were recovered in receptor bacteria. DNA transfer using intact roots and plants in vitro was easily demonstrated, but with greater variability. Transfer varied with plant genome size and the number of repeats of the marker DNA in the donor plant. Transfer was not detected in the absence of a homologous nptII in the receptor bacteria. We discuss these results with reference to non-coding DNA in plant genomes (e.g., introns, transposons and junk DNA) and the possibility that DNA transfer could occur in nature.     

Stem tissue phosphorus as an index of the phosphorus status of Banksia ericifolia L. f.

The effects of P fertilizer rate on shoot growth and the total P concentration of the whole shoot, new and mature leaves, symptom leaves and stems of Banksia ericifolia L. f., a P-sensitive species, were investigated in a six month greenhouse pot experiment. Shoot dry weight of plants growing in an Australian sedge peat, coarse sand and perlite potting mix (1:1:1) increased with up to 100 mg P L⁻¹ supplied as a six month controlled release P (0:18:0) fertilizer, but was reduced by toxicity at the highest application rate (200 mg P L⁻¹). Plants receiving this treatment developed chlorotic new and mature leaves. Leaf symptoms observed at rates of 60–100 mg P L⁻¹ were confined to old leaves and were related to the P concentration of the shoot. Growth was not affected at these rates. The P concentration of stems was strongly influenced by P supply. This tissue acted as a sink for excess P, helping to regulate the P concentration of leaves. The approximate range of P concentrations in stem tissue, associated with greater than 90% of maximum shoot dry weight, was 0.5–1.5 g P kg⁻¹ tissue dry weight. This was greater than that calculated for mature leaves (0.5–0.8 g kg⁻¹) or for whole shoots (0.5–1.2 g kg⁻¹). This wider range, and the capacity to store P in excess to requirement, makes the stem a better index tissue for plant P status than either leaves or whole shoots. This revised version was published online in June 2006 with corrections to the Cover Date.     

An efficient method for flow cytometric analysis of pollen and detection of 2n nuclei in Brassica napus pollen

A simple and reliable method was developed for isolating pollen nuclei from Brassica napus and Triticum aestivum for DNA analysis using flow cytometry. The nuclei were released from pollen by ultrasonic treatment. The isolated nuclei following filtration through nylon mesh and a purification procedure were suitable for flow cytometric analysis as well as for isolating genomic DNA. Ultrasonic treatment time was optimized for B. napus pollen at different developmental stages. The method is effective and suitable for the preparation of many samples. We analyzed the nuclear DNA levels in pollen of B. napus at three major developmental stages as well as in mature wheat pollen. Only a single 1C peak representing the haploid DNA level was detected in the nuclei isolated from Brassica uninucleate microspores as well as in mature Triticum pollen. Interestingly, diploid nuclei were detected in both binucleate and mature pollen of B. napus. The possible origins of the diploid nuclei are discussed.Abbreviations DAPI 4,6-Diamidino-2-phenylindole - NIB Nuclear isolation buffer     

Nuclear DNA content of Pinus sylvestris (L.) as determined by laser flow cytometry

Nuclear DNA content was determined in nuclei isolated from needles, stems and roots of in vitro grown seedlings and from megagametophytes and embryo of mature seeds in three accessions of Pinus sylvestris L. One accession was from Inari, northern Finland at timber line, and two accessions were from the Alpine region in Italy. Nuclei were mechanically isolated by a chopping method, stained with propidium iodide, and DNA content was determined using an EPICS PROFILE laser flow cytometer. Nuclei isolated from leaves of barley (Hordeum vulgare L. cv. Sultan; 2C=11.12 pg) were used as an internal standard for measurement of pine nuclei. Mean 1C nuclear DNA content of P. sylvestris was 27.88 pg as determined from megagametophyte tissue. Mean 2C value was 52.25 pg as determined from stem and root tissue, and 55.58 pg as determined from embryo tissue. The ratio of 2C to 1C value was 1.87 and 1.99, respectively. Extracts of nuclei from needles contained propidium iodide-absorbing debris which may have interfered with measurements and resulted in lower 2C values than those obtained from stem and root.     

Foliar regeneration of the endangered Red Vanda,Renanthera imschootiana Rolfe (Orchidaceae)

An in vitro method was developed to regenerate large numbers of phenotypically uniform plants from the basal parts of the leaves of flowering plants of Renanthera imschootiana Rolfe. Differentiation of up to 10 shoot buds free of callus and protocorm-like bodies occurred in 10–12 weeks from the base of a single leaf implanted in Mitra et al. (1976) medium supplemented with 2% sucrose, 2 g l^-1 peptone, 44.4 M benzyladenine (BA) and 10.7 M naphthaleneacetic acid (NAA). Subculture of the tissues in medium enriched with 10% coconut water and 35 g l^-1 ripe banana pulp resulted in the production of highest average number of 40 shoots in 12 weeks. No difference in the regeneration potential was observed among the three young leaves while mature leaves did not respond. All the leaves of the regenerated shoots were easily recultured to increase shoot multiplication. Shoots readily formed roots on transfer to a medium containing 4.4 M BA, 10.7 M NAA and 1% activated charcoal. All regenerated plants examined were normal diploids with 2n=38. Foliar meristem culture appears to have great potential for ex situ conservation and propagation of this extremely endangered orchid.Abbreviations BA benzyladenine - NAA naphthaleneacetic acid     

Contrasting mechanisms of secondary metabolite accumulation during leaf development in two tropical tree species with different leaf expansion strategies

Young leaves of most species experience remarkably higher herbivore attack rates than mature leaves. Considerable theoretical effort has focused on predicting optimal defense and tradeoffs in defense allocation during leaf expansion. Among others, allocation to secondary chemistry may be dependent on growth constraints. We studied flavanoid production during leaf development in two species of Inga (Fabaceae: Mimosoideae) with different expansion strategies: Inga goldmanii, a species with slowly expanding young leaves, and Inga umbellifera, a species with fast-expanding young leaves. In these two species, the most abundant and toxic class of defensive compounds is flavanoids (which include tannins). We measured their concentration by leaf dry weight, their total content per leaf, their HPLC chemical profile and their toxicity to a generalist herbivore at different expansion levels. Although in both species the flavanoid concentration decreased with increasing leaf expansion, that decrease was twice as pronounced for I. umbellifera as it was for I. goldmanii. I. umbellifera leaves produced flavanoids only during the first half of their development while I. goldmanii leaves continued production throughout. The changes in flavanoid HPLC profiles and toxicity were also more dramatic for I. umbellifera, which had different flavanoids in young than in mature leaves. Relative to I. umbellifera, I. goldmanii showed smaller changes in both flavanoid composition and toxicity in the transition from young to mature leaves. These results indicate that, even though young leaves suffer higher rates of attack and are predicted to have better chemical defenses than mature leaves, growth constraints may modulate defense allocation and thus, evolution of defense strategies.Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

An efficient protocol for genomic DNA extraction from<Emphasis Type="Italic">Citrus</Emphasis> species

We describe a simple and efficient method for genomic DNA extraction from woody fruit crops containing high polysaccharide levels. This method involves a modified CTAB or SDS procedure employing a purification step to remove polysaccharides by using water-saturated ether and 1.25 M NaCl. Precipitation with an equal volume of isopropanol caused a DNA pellet to form. After being washed with 70% ethyl alcohol, the pellet easily dissolved in TE buffer. Using this method, DNA was extracted from samples of more than 1000Citrus spp., including young leaves, old leaves, frosted old leaves, withered old leaves, and callus lines. The average yield of DNA ranged from 50–500 μg/g of sample. DNA was suitable for PCR and RFLP analyses and long-term storage. Recently, the procedure was used to isolate DNA from withered old leaves of more than 20 tropical and subtropical fruit crops.