Dinucleotide microsatellite markers in the genus <Emphasis Type="Italic">Caulerpa</Emphasis>

Caulerpa spp. are clonal green marine algae which often act as invasive species when growing outside their native biogeographical borders. Over the two past decades, Caulerpa taxifolia has spread along the Mediterranean coast, presently occurring at 70 sites and covering nearly 3,000 ha of subtidal area. New genetic markers (microsatellites) have been developed to assess clonal structure and genetic diversity of recently established populations of the invasive species C. taxifolia and Caulerpa racemosa in comparison with populations of the native Caulerpa prolifera in the Mediterranean. Our results show that nine polymorphic markers have been developed for C. prolifera, seven for C. taxifolia, and three for C. racemosa. Genetic diversity in Caulerpa was assessed in two geographical scales: one at a population scale where 40 thalli units were collected from C. prolifera in Cala d’Or, Mallorca, Spain, and another at a species scale, where 30 sample units were analyzed for C. prolifera, 24 for C. taxifolia, and 24 for C. racemosa from different sites in the Mediterranean, Atlantic, and Pacific Ocean. Number of alleles, expected heterozygosity, and marker amplification success are provided in each case.     

The Sesquiterpene Caulerpenyne from Caulerpa spp. is a Lipoxygenase Inhibitor

Many algae contain secondary metabolites with the potential to gain importance as pharmaceutically active secretions. Caulerpa racemosa var. cylindracea and Caulerpa prolifera are very abundant on the Mediterranean coastlines. The methanolic extracts of C. racemosa and C. prolifera were tested for inhibitory effects on soybean lipoxygenase. The extract of C. prolifera showed potent inhibitory effect in a lipoxygenase enzyme activity assay. HPLC comparison revealed that C. racemosa extract contained less caulerpenyne, the major secondary metabolite of both algae. In accordance with these findings, purified caulerpenyne inhibited lipoxygenase with an IC₅₀ of 5.1 μM. The enzyme kinetic studies indicated that both K _M and V _max decreased from 0.041 to 0.019 mM and 312.5 to 151.5 U mL⁻¹ in the presence of 5 μM caulerpenyne, revealing an un-competitive type of inhibition kinetics. The major secondary metabolite of Caulerpa species, caulerpenyne, is thus a novel lipoxygenase inhibitor that can be easily obtained in high quantities from the abundant algae.     

Mediterranean Species of Caulerpa Are Polyploid with Smaller Genomes in the Invasive Ones

Caulerpa species are marine green algae, which often act as invasive species with rapid clonal proliferation when growing outside their native biogeographical borders. Despite many publications on the genetics and ecology of Caulerpa species, their life history and ploidy levels are still to be resolved and are the subject of large controversy. While some authors claimed that the thallus found in nature has a haplodiplobiontic life cycle with heteromorphic alternation of generations, other authors claimed a diploid or haploid life cycle with only one generation involved. DAPI-staining with image analysis and microspectrophotometry were used to estimate relative nuclear DNA contents in three species of Caulerpa from the Mediterranean, at individual, population and species levels. Results show that ploidy levels and genome size vary in these three Caulerpa species, with a reduction in genome size for the invasive ones. Caulerpa species in the Mediterranean are polyploids in different life history phases; all sampled C. taxifolia and C. racemosa var. cylindracea were in haplophasic phase, but in C. prolifera, the native species, individuals were found in both diplophasic and haplophasic phases. Different levels of endopolyploidy were found in both C. prolifera and C. racemosa var. cylindracea. Life history is elucidated for the Mediterranean C. prolifera and it is hypothesized that haplophasic dominance in C. racemosa var. cylindracea and C. taxifolia is a beneficial trait for their invasive strategies.     

A FORENSIC AND PHYLOGENETIC SURVEY OF CAULERPA SPECIES (CAULERPALES,CHLOROPHYTA) FROM THE FLORIDA COAST,LOCAL AQUARIUM SHOPS,AND E‐COMMERCE: ESTABLISHING A PROACTIVE BASELINE FOR EARLY DETECTION1

Baseline genotypes were established for 256 individuals of Caulerpa collected from 27 field locations in Florida (including the Keys), the Bahamas, US Virgin Islands, and Honduras, nearly doubling the number of available GenBank sequences. On the basis of sequences from the nuclear rDNA‐ITS 1+2 and the chloroplast tufA regions, the phylogeny of Caulerpa was reassessed and the presence of invasive strains was determined. Surveys in central Florida and southern California of >100 saltwater aquarium shops and 90 internet sites revealed that >50% sold Caulerpa. Of the 14 Caulerpa species encountered, Caulerpa racemosa was the most common, followed by Caulerpa sertularioides, Caulerpa prolifera, Caulerpa mexicana, and Caulerpa serrulata. None of the >180 field‐collected individuals (representing 13 species) was the invasive strain of Caulerpa taxifolia or C. racemosa. With one exception (a sample of C. racemosa from a shop in southern California belonged to the invasive Clade III strain), no invasive strains were found in saltwater aquarium stores in Florida or on any of the internet sites. Although these results are encouraging, we recommend a ban on the sale of all Caulerpa species (including “live rock”) because: morphological identification of Caulerpa species is unreliable (>12% misidentification rate) and invasive strains can only be identified by their aligned DNA sequences, and because the potential capacity for invasive behavior in other Caulerpa species is far from clear. The addition of the Florida region to the genetic data base for Caulerpa provides a valuable proactive resource for invasion biologists as well as researchers interested in the evolution and speciation of Caulerpa.     

MOLECULAR PHYLOGENY OF THE GENUS CAULERPA (CAULERPALES,CHLOROPHYTA) INFERRED FROM CHLOROPLAST tufA GENE1

The genus Caulerpa consists of about 75 species of tropical to subtropical siphonous green algae. To better understand the evolutionary history of the genus, a molecular phylogeny was inferred from chloroplast tufA sequences of 23 taxa. A sequence of Caulerpella ambigua was included as a potential outgroup. Results reveal that the latter taxon is, indeed, sister to all ingroup sequences. Caulerpa itself consists of a series of relatively ancient and species‐poor lineages and a relatively modern and rapidly diversifying clade, containing most of the diversity. The molecular phylogeny conflicts with the intrageneric sectional classification based on morphological characters and an evolutionary scheme based on chloroplast ultrastructure. High bootstrap values support monophyly of C. mexicana, C. sertularioides, C. taxifolia, C. webbiana, and C. prolifera, whereas most other Caulerpa species show para‐ or polyphyly.     

Space competition between seagrass and Caulerpa prolifera (Forsskaal) Lamouroux following simulated disturbances in Lassing Park, FL

An experimental study was conducted in Tampa Bay, FL to examine the response to disturbance of two co-occurring subtidal plants: the alga Caulerpa prolifera and the seagrass Halodule wrightii (Ascherson). Some recent studies have called into question the assumption that fast-growing rhizoidal Caulerpa species have the potential to outcompete and rapidly replace local seagrasses. In the Fall of 2002 an abrupt appearance of Caulerpa prolifera was noted in a shallow embayment in Tampa Bay previously dominated by seagrasses. Natural disturbance events were simulated by excavating 0.5 × 0.5 m plots in an area with monospecific C. prolifera and mixed C. prolifera and H. wrightii. Above and below-ground biomass were removed, and recovery of above-ground cover into the newly created gaps was monitored over 15 months. In addition to measuring the recovery of both species, the spatial pattern of Caulerpa recovery from the simulated disturbances was also analyzed. Simulated gaps were rapidly (5-8 months, depending on sampling resolution) and exclusively reoccupied by C. prolifera, with the recovery occurring predominantly via lateral expansion from gap edges rather than colonization by fragments. Therefore, while rhizoidal algae may or may not be able to supplant existing seagrasses by overgrowth or other forms of direct competition, disturbance events that remove seagrass and create bare areas may allow C. prolifera to replace seagrasses over time via preemption of space should an algal bloom such as this be persistent.     

Nuclei isolation protocols for flow cytometry allowing nuclear DNA content estimation in problematic microalgal groups

Microalgae are fundamentally important organisms for global ecosystem functioning with high potential in biotechnology and its applications. The knowledge of their nuclear DNA content has become a prerequisite for many areas of microalgal research. Due to common presence of various pigments, secondary metabolites and complex cell walls, the nuclear DNA content estimation using flow cytometry (FCM) is, however, often laborious or even impossible with the currently used protocols. In this study the performance of six nuclei isolation protocols was compared on various problematic microalgae using FCM. The nuclei isolation methods involved osmotic bursting of cells, razor blade chopping of fresh biomass and two newly introduced protocols, razor blade chopping of desiccated biomass and bead beating. These techniques also involved the use of two different nuclei isolation solutions, Otto I + II solutions, and LB01 buffer. Performance of the particular protocols differed greatly, depending on the used nuclei isolation solution and microalgal group. The most successful method was a newly adopted chopping of desiccated biomass in LB01 buffer. This method seems more appropriate for nuclei isolation in filamentous microalgae; on the other hand, bead beating appears to be more suitable for nuclei isolation in solitarily living algae. Using the optimal protocol for a given species, their nuclear DNA content was estimated, resulting in first DNA content estimates for four investigated taxa (Chlamydomonas noctigama, Gonyostomum semen, Microglena sp. and Stigeoclonium sp.). The estimated DNA content spanned from 0.15 to 32.52 pg.

     

REGENERATION IN THE COENOCYTIC MARINE ALGA,CAULERPA, WITH RESPECT TO GRAVITY

Small pieces of the green algal coenocyte Caulerpa are capable of regenerating complete new plants. This study investigated the effect of gravity on the site of differentiation of newly forming organs during regeneration. Pairs of 3.0-cm blade segments from C. prolifera and C. mexicana, as well as 3.0-cm rhizome segments of C. prolifera, were randomly assigned to either upright or inverted positions. This orientation was maintained throughout each experiment. Results revealed that the blade segments maintained a strict polarity of regeneration regardless of inversion and/or centrifugation. Rhizoids and rhizomes formed at the original basal end of the segment, while blades formed at the apical end. This polarity was seen throughout the length of long blades. Rhizome segments, on the other hand, failed to exhibit a strict polarity of regeneration with respect to gravity.     

Two large-insert soybean genomic libraries constructed in a binary vector: applications in chromosome walking and genome wide physical mapping

Large DNA insert libraries in binary T-DNA vectors can assist in the isolation of the gene(s) underlying a quantitative trait locus (QTL). Binary vectors facilitate the transfer of large-insert DNA fragments containing a QTL from E. coli to Agrobacterium sp. and then to plants. We constructed two soybean large-insert libraries from cv. Forrest in the pCLD04541 (V41) binary vector after partial digestion of genomic high-molecular-weight DNA with BamHI or HindIII. The libraries contain 76,800 clones with an average insert size of 125 kb, and therefore represent 9.5-fold haploid genome equivalents. Colony hybridization using a chloroplast-specific probe infers that the libraries contain less than 0.5% clones of chloroplast DNA origin. These two libraries have provided clones for physical mapping of the soybean genome and for isolation of a number of disease resistance genes. One microsatellite marker was identified from the clone that hybridized to the Bng122 RFLP probe. The sequence-tagged site was used for genetic mapping and marker-assisted selection for genes underlying resistance to the soybean cyst nematode and sudden death syndrome. Received: 7 May 1999 / Accepted: 18 February 2000     

Genomic DNA extraction from<Emphasis Type="Italic">Victoria amazonica</Emphasis>

DNA extraction is difficult in many plants because of metabolites that interfere with DNA isolation procedures and subsequent applications such as DNA restriction, amplification, and cloning. We developed the first reliable and efficient method for isolatingVictoria amazonica genomic DNA that is free from polysaccharides and polyphenols. This protocol uses 1.5 M NaCl, 2% polyvinylpyrrolidone (PVP) (Mr 1000), 5% mercaptoethanol, 0.12% sodium sulfite, and an incubation at 65°C for 4 h. The purity of isolated genomic DNA was confirmed by means of high-performance liquid chromatography (HPLC) profile and spectrophotometric analyses (A_260/230 ratio of 1.836, A_260/280 of 1.842). DNA was obtained in the amount of 387 μg per gram of leaf material, and it proved amenable to restriction digestion.     

Changes in structure of isolated chloroplasts ofCodium fragile andCaulerpa filiformis in response to osmotic shock and detergent treatment

Summary The ultrastructure of chloroplasts from two genera of coenocytic green algae,Codium andCaulerpa, were examined after suspension in hypotonic solution and in detergent at various concentrations. The capacity of the suspensions to carry out CO₂-dependent and ferricyanide-dependent O₂ evolution was measured under the same conditions of osmotic strength and detergent concentration.The chloroplasts in the preparations were in the form of cytoplasts and gave rates of O₂ evolution comparable with those expected from undamaged chloroplasts. Suspension in hypotonic solution depressed the rate of CO₂-dependent O₂ evolution in both species, but this was partially restored in theCodium chloroplasts when these were re-suspended in iso-osmotic solutions. Major structural changes were observed only after suspension in buffer when theCodium chloroplasts lost their outer envelope, most of their stroma, and the thylakoids became swollen.Caulerpa chloroplasts were more variable in their response and, even when suspended in buffer only, the proportion of the plastids which had lost all of their stroma and thylakoid swelling was never as common as inCodium chloroplasts. However, once suspended in hyper-osmotic medium below 700 mosmolar,Caulerpa chloroplasts could not regain their capacity for CO₂-dependent O₂ evolution.Detergent treatment removed the cytoplast membrane but not the cytoplasmic material adhering to the chloroplast envelope. High concentrations of detergent were needed to cause loss of the chloroplast envelope, loss of stromal contents and unstacking of the thylakoids.Caulerpa chloroplasts were less sensitive to detergent than those ofCodium. There was no indication that specific structures such as the thylakoid organizing body were resistant to detergent action. The results show that exposure to hypotonic solutions and to detergent results in less damage to these chloroplasts than it would to those of higher plants. It is proposed that the basis of this unusual resistance is not due to the properties of the chloroplast membranes but to the presence of material which coats the organelles during isolation. This material is likely to be identical with the sulphated xylo-mannogalactan isolated from the vacuole contents of these algae and which has the visco-elastic properties essential to allow the organelles to resist disruption by osmotic forces and disintegration by detergents.     

An Efficient and Reliable Method of DNA Extraction from Meyna spinosa — A Traditional Medicinal Plant from North-East India

A simple, efficient and reliable CTAB method is standardized for genomic DNA isolation from fresh young leaves of a traditional medicinal plant Meyna spinosa. Key steps in the modified procedure include additional chloroform: isoamyl alcohol (24:1, v/v) extraction, addition of 4% PVP in the extraction buffer and an overnight isopropanol precipitation at room temperature. This procedure yields a high amount (46 μg DNA g^?1 fresh leaf tissue) of good quality DNA free from contaminants. The isolated DNA is suitable for digestion with EcoRI and HindIII restriction enzymes and can be used in other DNA manipulation techniques.     

Evaluating genomic DNA extraction methods from human whole blood using endpoint and real-time PCR assays

The extraction of genomic DNA is the crucial first step in large-scale epidemiological studies. Though there are many popular DNA isolation methods from human whole blood, only a few reports have compared their efficiencies using both end-point and real-time PCR assays. Genomic DNA was extracted from coronary artery disease patients using solution-based conventional protocols such as the phenol–chloroform/proteinase-K method and a non-phenolic non-enzymatic Rapid-Method, which were evaluated and compared vis-a-vis a commercially available silica column-based Blood DNA isolation kit. The appropriate method for efficiently extracting relatively pure DNA was assessed based on the total DNA yield, concentration, purity ratios (A₂₆₀/A₂₈₀ and A₂₆₀/A₂₃₀), spectral profile and agarose gel electrophoresis analysis. The quality of the isolated DNA was further analysed for PCR inhibition using a murine specific ATP1A3 qPCR assay and mtDNA/Y-chromosome ratio determination assay. The suitability of the extracted DNA for downstream applications such as end-point SNP genotyping, was tested using PCR-RFLP analysis of the AGTR1-1166A>C variant, a mirSNP having pharmacogenetic relevance in cardiovascular diseases. Compared to the traditional phenol–chloroform/proteinase-K method, our results indicated the Rapid-Method to be a more suitable protocol for genomic DNA extraction from human whole blood in terms of DNA quantity, quality, safety, processing time and cost. The Rapid-Method, which is based on a simple salting-out procedure, is not only safe and cost-effective, but also has the added advantage of being scaled up to process variable sample volumes, thus enabling it to be applied in large-scale epidemiological studies.     

Improved RNA isolation from Laminaria japonica Aresch (Laminariaceae, Phaeophyta)

RNA isolation is difficult in some plants and algae because phenolics, polysaccharides, or other compounds can bind or co-precipitate with RNA, and because the success of RNA isolation can be strain-specific and species-specific. To create an improved RNA isolation protocol for Laminaria japonica Aresch (Laminariaceae, Phaeophyta), four methods for extracting RNA were tested. A cetyltrimethylammonium bromide (CTAB)-based RNA extraction protocol was developed that clearly showed 28S and 18S ribosomal RNA bands and produced RNA with high yield (68 μg g⁻¹ fresh weight) and high quality (A _260/280 ratio 1.96 ± 0.05). The isolated RNA was intact, and RT-PCR analysis confirmed that further molecular application is feasible.     

Simple and efficient genomic DNA extraction protocol for molecular characterisation of Phytophthora colocasiae causing taro leaf blight

Genomic DNA extraction protocol with relatively high quantity and purity is prerequisite for the successful molecular identification and characterisation of plant pathogens. Conventional DNA extraction methods are often time-consuming and yield only very poor quantity of genomic DNA for samples with higher mycelial age. In our laboratory, we have aimed at establishing an efficient DNA isolation procedure, exclusively for the oomycete pathogen Phytophthora colocasiae causing serious leaf blight disease in taro. For this a phenol free protocol was adopted, which involves SDS/Proteinase K-based inactivation of protein contaminants, extraction of nucleic acids using chloroform: isoamyl alcohol and later precipitation of genomic DNA using isopropanol and sodium acetate. The purity of the isolated DNA was analysed by A_260/280 and A_260/230 spectrophotometric readings and confirmed by restriction digestion with restriction enzyme Eco RI. In this study, a comparative assessment was done with CTAB method and the commercial genomic DNA purification kit (Thermo Fisher Scientific, Fermentas, EU). The extracted DNA was found to be suitable for further downstream applications like ITS amplification of the rDNA ITS region and PCR amplification with species-specific primers.     

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.     

An improved method for genomic DNA extraction from cyanobacteria

We present an improved method for genomic DNA extraction from cyanobacteria by updating the earlier method from our group (Sinha et al. 2001) that does not require lysozyme treatment or sonication to lyse the cells. This method use lysis buffer to lyse the cells and also skips the initial treatments to remove the exopolysaccharides or to break the clumps. To test the efficacy of the method DNA was extracted from the freshwater cyanobacteria Anabaena variabilis PCC 7937, Anabaena sp. PCC 7120, Synechocystis sp. PCC 6803, Synechococcus sp. PCC 6301 and Rivularia sp. HKAR-4 (Accession number: FJ939128). The spectrophotometric and gel electrophoresis analysis revealed high yield and high quality of genomic DNA extracted by this method. Furthermore, the RAPD resulted in the amplification of unidentified genomic regions of various lengths; however, rDNA amplification gave only one band of 1.5 kb in all studied cyanobacteria. Thymine dimer detection study revealed that thymine dimers are induced only by UV-B radiation in A. variabilis PCC 7937 and there is no effect of PAR and UV-A on its genome. Collectively, all these findings put forward the applicability of this method in different studies and purposes.     

A rapid and simple method for DNA extraction from yeasts and fungi isolated from Agave fourcroydes

A simple and easy protocol for extracting high-quality DNA from different yeast and filamentous fungal species is described. This method involves two important steps: first, the disruption of cell walls by mechanical means and freezing; and second, the extraction, isolation, and precipitation of genomic DNA. The absorbance ratios (A₂₆₀/A₂₈₀) obtained ranged from 1.6 to 2.0. The main objective of this procedure is to extract pure DNA from yeast and filamentous fungi, including those with high contents of proteins, polysaccharides, and other complex compounds in their cell walls. The yield and quality of the DNAs obtained were suitable for micro/minisatellite primer-polymerase chain reaction (MSP-PCR) fingerprinting as well as for the sequence of the D1/D2 domain of the 26S rDNA.     

Optimisation of RNA extraction from Gracilaria changii (Gracilariales, Rhodophyta)

RNA extraction from seaweed tissues is problematic due to the presence of polysaccharides and polyphenolic compounds upon cell disruption. Besides, a successful RNA isolation from seaweed tissues can sometimes be strain- and species-specific. Four different methods were used to extract RNA from Gracilaria changii (Gracilariales, Rhodophyta), collected from the mangrove area at Morib, Selangor, Malaysia. An optimised and modified total RNA extraction method was developed for this recalcitrant species. The use of sand in tissue grinding, and the incorporation of phenol extraction at the initial stage resulted in the highest RNA yield (0.65–1.14 g g^–1 fresh weight) with high quality (A_260:280 ratio 1.80–2.05). The RNA obtained is suitable for cDNA synthesis and future functional genomic studies.     

A METHOD FOR EXTRACTION OF HIGH MOLECULAR WEIGHT DNA FROM THE MACROALGA PORPHYRA YEZOENSIS (RHODOPHYTA)1,2

We developed a method for extraction of DNA from the red alga Porphyra yezoensis Ueda. The method consists of three preparation steps that include CsCl-gradient ultracentrifugation, cetyl trimethyl ammonium bromide treatment, and a final RNase step. The amount of DNA extracted from 1.5 g of starting material averaged 17.7 μg. The resulting DNA had a high molecular weight, was 25-166 kb in length, was digested with five common restriction enzymes, and showed no nuclease activity. It was of sufficient quality for construction of genomic libraries.