Construction of a genomic library using high-molecular-weight DNA prepared from peach leaves

A method for constructing a total genomic library of peach DNA is presented. DNA of 200 kb or more is efficiently isolated from relatively large amounts of peach leaves (15 to at least 50 g) and used to construct the library in bacteriophage λ.     

A simple protocol for isolating genomic DNA from chestnut rose (<Emphasis Type="Italic">Rosa roxburghii</Emphasis> tratt) for RFLP and PCR analyses

Isolation of high-quality DNA from rosaceous species is particularly difficult because of their high levels of polyphenols, polysaccharides, and other compounds. The yields and quality of genomic DNA are considerably affected when the common protocol for DNA isolation is applied to the chestnut rose (Rosa roxburghii Tratt). A simple, rapid, and efficient protocol for the extraction of DNA from the chestnut rose is described. The modified hexadecyltrimethylammonium bromide (CTAB) procedure, which uses phenol-absent extraction to enhance the yield, involves a washing step before extraction for the removal of organic molecules and excessive water; the use of high concentrations of polyvinylpyrrolidone (2% [w/v]), CTAB (3% [w/v]), and β-mercaptoethanol (3% [v/v]) in the high-salt-concentration extraction buffer to remove polyphenols and polysaccharides; and the combined use of potassium acetate and chloroform to remove proteins and polysaccharides. Finally, DNA is precipitated with an equal volume of isopropanol and 0.1 vol of sodium acetate. This protocol results in high yields of DNA. The average yield of DNA ranged from 980–1800 μg/g of fresh weight of leaves. Downstream results indicate that DNA quality is sufficient for restriction fragment length polymorphism (RFLP) and polymerase chain reaction (PCR) analyses.     

Genetic diversity amongst landraces of a dioecious vegetatively propagated plant,betelvine (<Emphasis Type="Italic">Piper betle</Emphasis> L.)

Betelvine (Piper betle L., family Piperaceae) is an important, traditional and widely cultivated crop of India. The cultivators and consumers recognize more than 100 cultivars (landraces) based on regional and organoleptic considerations, while in terms of phytochemical constituents only five groups have been identified for all the landraces. Since betelvine is an obligate vegetatively propagated species, genomic changes, if any, may have become ‘fixed’ in the landraces. We carried out random amplified polymorphic DNA (RAPD) analysis in several landraces considered in four groups, namely, ‘Kapoori’, ‘Bangla’, ‘Sanchi’ and ‘Others’ in order to ascertain their genetic diversity. On the basis of the data from eleven RAPD primers, we distinguished genetic variation within and among the four groups of landraces. The results indicate the’Kapoori’ group is the most diverse. The neighbour joining (NJ) tree after a bootstrap (500 replicate) test of robustness clearly shows the four groups to be well separated. Interestingly, all known male or female betelvine landraces have separated in the NJ tree indicating an apparent gender-based distinction among the betelvines.     

巴西橡胶树栽培种质基因组C值测定和变异分析

为了解巴西橡胶树(Hevea brasiliensis)栽培种质的变异情况,以53份在云南植胶区综合性状表现较好的巴西橡胶树栽培种质为材料,采用流式细胞术测定了基因组C值,并进行了变异分析。结果表明,浅绿色嫩叶是巴西橡胶树流式细胞术测定的最适样品。53份巴西橡胶树栽培种质的细胞核DNA含量和基因组C值存在一定差异,基因组的平均C值是1.531 696×109 bp,最小的是CRTG-272种质(1.465 908×10~9 bp),最大的是CRTG-83种质(1.600 381×10~9 bp),变异系数较小(CV=0.035 5)。53份巴西橡胶树栽培种质中有47份为二倍体,6份为三倍体。在已测定基因组大小的40种大戟科(Euphorbiaceae)植物中,基因组大小变异较大(CV=1.248 6),与"C值悖论"观点相一致。因此,应用流式细胞术能快速、准确地测定巴西橡胶树细胞核DNA含量、基因组C值和染色体倍性。     

A rapid and efficient method for the extraction of total DNA from mature leaves of the data palm (Phoenix dactylifera L.)

A method is presented for the rapid isolation of high-molecular-weight DNA from mature leaves of date palm (Phoenix dactylifera L.), using a CTAB-based buffer. The method yields up to 800 μg of DNA from 1 g of leaf tissues. The procedure was also suitable for DNA extraction from callus or buds from tissue culture. The DNA obtained through this method was a good substrate for at least seventeen restriction endonucleases. This method was also used to extract DNA from mature leaves of coconut and may be applicable to other species of palms.     

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.     

Purification of High-quality Plastid DNA from the Brown Alga Laminaria japonica Sporophytes

Extracting DNA from a variety of algae is rather difficult because of high levels of polysaccharides, tannins, and phenolics as these interfere with DNA isolation and downstream applications. High-quality plastid DNA (ptDNA) purification is particularly difficult because of its small proportion in total genomic DNA. This report describes an improved protocol for ptDNA purification that efficiently produces high-quality ptDNA from sporophytes of Laminaria japonica and several other algae. This improved protocol simplifies procedures for ptDNA purification and improves yield to 150–200 μg of ptDNA per 100 g of frozen algal tissue. Polymerase chain reaction (PCR) amplification of conserved sequences has been used to verify purity of the ptDNA product.     

An improved method for isolating high-quality DNA from<Emphasis Type="Italic">Vitis vinifera</Emphasis> nuclei

We have developed a simple and highly efficient protocol for isolating large quantities (150–400 μg/g leaf tissue) of high-quality DNA from fresh and frozenVitis vinifera leaves. Isolated DNA is essentially free of polysaccharides, polyphenols, and other major contaminants as judged by viscosity, clear color, A_260/280 ratio, digestibility by restriction enzymes for Southern blot analysis, and PCR suitability.     

Purification of plastid DNA from an enriched rhodoplast fraction of the red algaGracilaria tenuistipitata

We report a straightforward protocol for isolating plastid DNA from an enriched rhodoplast fraction of the red algaGracilaria tenuistipitata. Plastids were purified using differential centrifugation and 2-step sucrose density gradients. We found that 10% polyethylene glycol 4000 was essential for maintaining plastid integrity prior to lysis. Plastid DNA isolated directly from the purified rhodoplasts was sufficiently pure for restriction endonuclease fragment analyses. Database comparisons of sequences generated randomly from a shotgun genomic library indicated that plastid DNA was 89% pure following ultracentrifugation in isopycnic cesium chloride equilibrium gradients. The protocol yields 30–50 μg of plastid DNA per 100 g of fresh algal tissue.     

One-base excess adaptor ligation method for walking uncloned genomic DNA

This report describes a novel and efficient method for walking the sequence of a genomic deoxyribonucleic acid (DNA) from a known region to an unknown region based on an oligodeoxynucleotide (oligo) cassette-mediated polymerase chain reaction technique. In this method, genomic DNA is digested by a restriction enzyme that generates a sticky 5′-end, followed by ligation of a one-base excess oligo-adaptor using T4 DNA ligase. The adaptor consists of two complementary oligos that form the same sticky end as the digested genomic DNA fragments, except that the 5′-overhang base overlaps the corresponding 3′-end base of the restriction site. This overhanging terminal base prevents ligation between the adaptors, and the appropriate molar ratio of adaptor to genomic DNA enables specific amplification of the target sequence. T4 DNA ligase catalyzes both the ligation of the phosphorylated overhang base of the adaptor to genomic DNA and the excision of the corresponding 3′-terminal base of the genomic DNA. This sequence-specific exonuclease activity of T4 DNA ligase was confirmed by ligation of an alternative adaptor in which the 5′-terminal base was not consistent with the corresponding 3′-terminal base. Using this technique, the 3′- and 5′-flanking sequences of the catalase gene of the ciliate Paramecium bursaria were determined.     

High efficiency poplar transformation

With the completion of the poplar tree genome database, Populus species have become one of the most useful model systems for the study of woody plant biology. Populus tremuloides (quaking aspen) is the most wide-spread tree species in North America, and its rapid growth generates the most abundant wood-based biomass out of any other plant species. To study such beneficial traits, there is a need for easier and more efficient transformation procedures that will allow the study of large numbers of tree genes. We have developed transformation procedures that are suitable for high-throughput format transformations using either Agrobacterium tumefaciens to produce transformed trees or Agrobacterium rhizogenes to generate hairy roots. Our method uses Agrobacterium inoculated aspen seedling hypocotyls followed by direct thidiazuron (TDZ)-mediated shoot regeneration on selective media. Transformation was verified through β-glucuronidase (GUS) reporter gene expression in all tree tissues, PCR amplification of appropriate vector products from isolated genomic DNA, and northern hybridization of incorporated and expressed transgenes. The hairy root protocol follows the same inoculation procedures and was tested using GUS reporter gene integration and antibiotic selection. The benefit of these procedures is that they are simple and efficient, requiring no maintenance of starting materials and allowing fully formed transgenic trees (or hairy roots) to be generated in only 3–4 months, rather than the 6–12 months required by more traditional methods. Likewise, the fact that the protocols are amenable to high-throughput formats makes them better suited for large-scale functional genomics studies in poplars.     

A procedure for mini-preparations of genomic DNA from needles of silver fir (Abies alba mill.)

We have adapted a procedure for the isolation of genomic DNA from needles of silver fir (Abies alba) to meet the requirements for large-scale analysis of the population genetics of forest trees. Our modifications permit the entire procedure to be carried out in Eppendorf tubes, which greatly minimizes time, plant material, and the amounts of chemicals. DNA is recovered with a mean efficiency of 80 μg/g needles, is suitable for restriction by the common endonucleases, and serves as a substrate for PCR.     

Alternative approach for consistent yields of total genomic DNA from cotton (Gossypium hirsutum L.)

A persistent limitation to molecular biological research on cotton (Gossypium spp.) has been the difficulty in isolation of total genomic DNA from the plant tissue. This report describes a reliable strategy for isolation of genomic DNA from cotton. The mini-preparation procedure involves use of lyophilized, etiolated cotyledons and an anion exchange column kit. The isolated DNA had a molecular weight in excess of 50 kb with minimal degradation or shearing. Routine yields ranged from 5 to 7 μg DNA per etiolated cotyledon pair (corresponding to 100 ng/mg dry weight), in contrast to little or no DNA from equivalent amounts of either green cotyledons or mature leaf tissue. The decreased yields from the latter tissues appeared to be correlated with increased afmounts of flavonoid. The DNA was amenable to routine molecular applications as demonstrated by: digestibility with a number of restriction enzymes (Eco RI,HindIII,Sau 3A), and hybridization of a tomato genomic clone containing the gene for S-adenosylmethionine synthetase to a 13.3-kbEco RI fragment of cotton. Using DNA from an isoline immune to root-knot nematodes, we observed no impediment to genomic cloning.     

Harvesting rate of the termite,Drepanotermes tamminensis (Hill) within native woodland and shrubland of the Western Australian wheatbelt

The Western Australian termite,Drepanotermes tamminensis (Hill), harvests various plant materials according to biomass availability. The main litter components harvested by this termite in a woodland dominated byEucalyptus capillosa are bark and leaves of the major tree species, while in shrubland dominated byAllocasuarina campestris, shoots of this species are taken. Harvesting mainly occurs during the autumn (April–May) and spring (September–October) seasons. The commencement and duration of harvesting appears to depend partly on weather conditions, with harvesting taking place at temperatures between 15 and 25°C after periods of rain. This species of termite harvests approximately 15.6 g m⁻² year⁻¹ and 3.2 g m² year⁻¹ (dry weight of plant material) in the woodland and shrubland, respectively.     

Seasonal dynamics in the concentrations of macronutrients and organic constituents in green and senesced leaves of three agroforestry species in southern Ethiopia

Foliar inputs from indigenous agroforestry trees and shrubs could provide sufficient nutrients and organic matter to sustain crop growth. However, concentrations of foliar nutrients and organic constituents show considerable seasonal, inter- and/or intra-species variations. To determine this variability, green and senesced leaves were sampled during dry and wet seasons from Cordia africana, Albizia gummifera and Milletia ferruginea trees at Wondo Genet, southern Ethiopia. Cordia is a deciduous, non-leguminous tree, while Albizia and Milletia are semi-deciduous and leguminous trees. Leaves were analyzed for concentrations of ash, N, P, K, cellulose, lignin, soluble polyphenols, and condensed tannins. Results from statistical analyses showed significant seasonal variations (P < 0.001) in concentrations of all leaf constituents, except for P and cellulose. Foliar concentrations of ash, N, soluble polyphenols, and condensed tannins were higher during the wet season while those of K and lignin were higher during the dry season. Green leaves had significantly higher (p < 0.001) N and P concentrations than senesced leaves, while senesced leaves had higher concentrations of K, cellulose, soluble polyphenols, and condensed tannins. The ‘ Relative Percentage Changes’ in concentration of N and P in senesced leaves, i.e., their enrichment or depletion with such nutrients relative to those in green leaves, were significantly higher (P < 0.001) for Cordia than Albizia and Milletia. On the other hand, there was no consistent pattern in the enrichment or depletion of senesced leaves with organic constituents, but these leaves were in most cases more enriched with organic constituents than green leaves. Over all, the percentage depletion or enrichment ranged from about 8% to 38% for N; 24% to 63% for P; −141% to 48% for K; −44% to 15% for cellulose; −44% to 51% for lignin; −203% to −61% for soluble polyphenols; and −290% to 11% for condensed tannins. It was concluded that variations in species and life-form (legume versus non-legume), season, and developmental stage of leaves could affect the quality of organic material from agroforestry species, which has important implications for management of organic residues in tropical agricultural systems.     

Efficient solubilization,purification of recombinant extracellular α-amylase from <Emphasis Type="Italic">pyrococcus furiosus</Emphasis> expressed as inclusion bodies in <Emphasis Type="Italic">Escherichia coli</Emphasis>

The gene encoding the Pyrococcus furiosus extracellular α-amylase (PFA) was amplified by PCR from P. furiosus genomic DNA and was highly expressed in Escherichia coli BL21-Codon Plus (DE3)-RIL. The recombinant α-amylase was mainly expressed in the form of insoluble inclusion bodies. An improved purification method was established in this paper. The solubilization of the inclusion bodies was achieved by 90°C treatment for 3 min in Britton–Robinson buffer at pH 10.5. The solubilized PFA was then diluted and subsequently purified by Phenyl Sepharose chromatography. The overall yield of the new purification method was about 58,000 U/g wet cells, which is higher than previously reported.     

Cloning genomic sequences using long-range PCR

Protocols are presented for preparing DNA from a genomic library in λ phage and for synthesizing genomic fragments using PCR with nested vector- and gene-specific primers and linker-primers. Library DNA, isolated fromE. coli liquid lysates by a simple protocol, is used as template in PCR following a commercial protocol. The method produces library DNA sufficient for several hundred PCRs, incorporates nested primers to reduce nonspecific product formation, and enables the synthesis of linker-containing DNA fragments containing selected restriction sites to simplify subsequent cloning. The isolation of 5′ upstream sequences of three different arabidopsis genes by this methodod is described.     

<Emphasis Type="Italic">Lecomtedoxa plumosa</Emphasis> (Sapotaceae), a new tree species from Korup National Park,Cameroon

Summary   Lecomtedoxa plumosa Burgt (Sapotaceae), a new tree species from the southern part of Korup National Park in Cameroon, is described and illustrated. The flowers show the characteristics of the genus Lecomtedoxa: for example the staminodes are free and placed alternately to the stamens and corolla lobes. The leaves of the new species are clearly different from other Lecomtedoxa spp., but they look similar to the leaves of Gluema ivorensis, especially to those of the collections from Cameroon. In total 26 trees ≥ 10 cm dbh were found. The largest trees found were 36 m high and 74 cm dbh. The trees grow in primary rain forest, in clusters of up to 10 trees on 2 ha, mixed with many other tree species. The seed dispersal is ballistic. The conservation status of the species is assessed as Endangered, EN D.     

Organization and chromosomal localization ofβ-tubulin genes inLeishmania donovani

The genomic organization and chromosomal location of theβ-tubulin isogenes inLeishmania donovani promastigotes has been studied by nucleic acid hybridization techniques using a cloned β-tubulin gene. We have cloned aβ-tubulin gene fragment, 3.3 kbp long, from genomic DNA ofLeishmania donovani using a heterologousβ-tubulin DNA as probe. Restriction maps of this clone have been prepared. It has been estimated that there are approximately 11–15 copies of theβ-tubulin genes per haploid genome. The majority of these isogenes are arranged in a tandem repeat with a length of 3.5 kbp on a single chromosome. In addition a few dispersed gene copies at different chromosomal loci were detected by pulse field gradient gel electrophoresis. Part of the internal coding region of the gene has been sequenced to confirm the identity of theβ-tubulin clone and is found to be nearly identical to that ofLeishmania mexicana amazonensis.