Single-tube colony PCR for DNA amplification and transformant screening of oleaginous microalgae

Recently, several colony PCR methods have been developed to simplify DNA isolation procedure and facilitate PCR-based colony screening efforts in microalgae. A main drawback of current protocols is that cell collection, disruption, and genomic DNA extraction are required preceding the PCR step, making the colony PCR process laborious and costly. In the present study, we have developed a novel procedure that eliminates any steps of DNA extraction and allows the colony screening to be performed in a single PCR tube: algal cells (as low as 5,000) from agar plates or liquid cultures were directly transferred into a PCR tube containing 2× PCR buffer and boiled for 5–10 min depending on different algal strains, followed by addition of other PCR components (dNTPs, primers, and polymerase) and then subjected to conventional PCR reaction. The procedure documented here worked well not only for the model alga Chlamydomonas reinhardtii, but also for the thick-walled oleaginous strains such as Chlorella, Haematococcus, Nannochloropsis, and Scenedesmus with its efficacy independent on amplicon sizes and primer pairs. In addition, screening of Chlorella zofingiensis transformants was achieved using this method. Collectively, our single-tube colony PCR is a much simpler and more cost-effective procedure as compared to those previously reported and has broad applications including gene cloning, strain determination, and high-throughput screening of algae colonies and transformants for biomass and biofuel production.     

Extraction of nucleic acids from agarose gel--a quantitative and qualitative comparison of four different methods

Agarose gel electrophoresis is commonly used to separate different species of nucleic acids. We compare four different methods of extraction which are commonly used. These methods include buffer extraction, electroelution, glass bead extraction and extraction of DNA from low-melting agarose. The results show that DNA extracted by these four methods is comparable in their ligability to the PMT 21 vectors and the plasmids with insert can be used for subsequent transfections of competent bacteria. There is a higher yield for buffer extraction and electroelution when compared with glass bead extraction and low melting agarose (p less than 0.05). To conclude, the four commonly used methods for DNA isolation are comparable qualitatively. But the simplest method, namely buffer extraction, has the highest yield.     

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.

     

Extraction of geminiviral DNA from a highly mucilaginous plant (Abelmoschus esculentus)

A protocol is described for the extraction of geminiviral DNA from bhendi yellow vein mosaic virus-infectedAbelmoschus esculentus (known as bhendi or okra) containing high amounts of mucilage and other phenolic compounds. This method involves extraction with a buffer containing sodium citrate at pH 6 and PEG precipitation of the virus followed by alkali lysis. The extraction buffer eliminates the mucilage and other polyphenols, PEG precipitates the viral particles and DNA and the alkali lysis enriches the replicative forms of the viral DNA. The extracted DNA could be digested with restriction enzymes and cloned without any interference from chromosomal DNA. The quality of the DNA extracted by this method was compared to three other common plant DNA extraction protocols and was found superior. This method was used for PCR amplification and cloning of the 2.7 kbp DNA-A of BYVMV.     

Enzymatic pre‐treatment of microalgae cells for enhanced extraction of proteins

Crude proteins and pigments were extracted from different microalgae strains, both marine and freshwater. The effectiveness of enzymatic pre‐treatment prior to protein extraction was evaluated and compared to conventional techniques, including ultrasonication and high‐pressure water extraction. Enzymatic pre‐treatment was chosen as it could be carried out at mild shear conditions and does not subject the proteins to high temperatures, as with the ultrasonication approach. Using enzymatic pre‐treatment, the extracted proteins yields of all tested microalgae strains were approximately 0.7 mg per mg of dry cell weight. These values were comparable to those achieved using a commercial lytic kit. Ultrasonication was not very effective for proteins extraction from Chlorella sp., and the extracted proteins yields did not exceed 0.4 mg per mg of dry cell weight. For other strains, similar yields were achieved by both treatment methods. The time‐course effect of enzymatic incubation on the proteins extraction efficiency was more evident using laccase compared to lysozyme, which suggested that the former enzyme has a slower rate of cell disruption. The crude extracted proteins were fractionated using an ion exchange resin and were analyzed by the electrophoresis technique. They were further tested for their antioxidant activity, the highest of which was about 60% from Nannochloropsis sp. The total phenolic contents in the selected strains were also determined, with Chlorella sp. showing the highest content reaching 17 mg/g. Lysozyme was also found to enhance the extraction of pigments, with Chlorella sp. showing the highest pigments contents of 16.02, 4.59 and 5.22 mg/g of chlorophyll a, chlorophyll b and total carotenoids, respectively.     

Simple, rapid and cost-effective method for high quality nucleic acids extraction from different strains of Botryococcus braunii

This study deals with an effective nucleic acids extraction method from various strains of Botryococcus braunii which possesses an extensive extracellular matrix. A method combining freeze/thaw and bead-beating with heterogeneous diameter of silica/zirconia beads was optimized to isolate DNA and RNA from microalgae, especially from B. braunii. Eukaryotic Microalgal Nucleic Acids Extraction (EMNE) method developed in this study showed at least 300 times higher DNA yield in all strains of B. braunii with high integrity and 50 times reduced working volume compared to commercially available DNA extraction kits. High quality RNA was also extracted using this method and more than two times the yield compared to existing methods. Real-time experiments confirmed the quality and quantity of the input DNA and RNA extracted using EMNE method. The method was also applied to other eukaryotic microalgae, such as diatoms, Chlamydomonas sp., Chlorella sp., and Scenedesmus sp. resulting in higher efficiencies. Cost-effectiveness analysis of DNA extraction by various methods revealed that EMNE method was superior to commercial kits and other reported methods by >15%. This method would immensely contribute to area of microalgal genomics.     

Noncryogenic Preservation of Mammalian Tissues for DNA Extraction: An Assessment of Storage Methods

Reliable field methods for the storage of tissues to be used for DNA extraction and amplification are critical to many studies employing molecular techniques. Protection from DNA degradation was compared among three commonly used methods of noncryogenic storage of tissues over a time scale of 2 years. All three methods prevented DNA degradation during storage for at least 6 months. DMSO (dimethyl sulfoxide)-salt solution provided the best protection from DNA degradation of tissues stored for up to 2 years. High molecular weight DNA was recovered from lysis buffer in which tissue was stored for 2 years, however, moderate amounts of degraded DNA was also present. High molecular weight DNA was recovered from tissues stored in ethanol for 2 years, however, the yield was relatively small compared to the other two noncryogenic storage techniques. Much of the DNA degradation in ethanol preserved tissues appeared to occur during the extraction procedure and can be reduced by soaking the tissue in lysis buffer for a few hours prior to beginning the extraction. The yield of PCR products was greatest from DNA extracted from DMSO-salt solution preserved tissues, whereas DNA from tissues stored in either lysis buffer or ethanol produced lower yields.     

Isolation of high quality and polysaccharide-free DNA from leaves of Dimorphandra mollis (Leguminosae), a tree from the Brazilian Cerrado

Dimorphandra mollis (Leguminosae), known as faveiro and fava d'anta, is a tree that is widely distributed throughout the Brazilian Cerrado (a savanna-like biome). This species is economically valuable and has been extensively exploited because its fruits contain the flavonoid rutin, which is used to produce medications for human circulatory diseases. Knowledge about its genetic diversity is needed to guide decisions about the conservation and rational use of this species in order to maintain its diversity. DNA extraction is an essential step for obtaining good results in a molecular analysis. However, DNA isolation from plants is usually compromised by excessive contamination by secondary metabolites. DNA extraction of D. mollis, mainly from mature leaves, results in a highly viscous mass that is difficult to handle and use in techniques that require pure DNA. We tested four protocols for plant DNA extraction that can be used to minimize problems such as contamination by polysaccharides, which is more pronounced in material from mature leaves. The protocol that produced the best DNA quality initially utilizes a sorbitol buffer to remove mucilaginous polysaccharides. The macerated leaf material is washed with this buffer until there is no visible mucilage in the sample. This protocol is adequate for DNA extraction both from young and mature leaves, and could be useful not only for D. mollis but also for other species that have high levels of polysaccharide contamination during the extraction process.     

Development and evaluation of a reverse dot blot assay for the simultaneous detection of common toxic microalgae along the Chinese coast

Toxic microalgae currently pose a great threat to human health, ecosystem, fishery, tourism, and aquaculture along the Chinese coast. The detection of toxic microalgae by routinely monitoring natural waters is necessary to provide timely mitigation. Therefore, an effective, simultaneous detection protocol should be established for the simple, rapid, and accurate identification of causative algae. This study developed and evaluated a reverse dot blot assay (RDBA) combined with a low-density membrane-based DNA array for the rapid and simultaneous detection of toxic microalgae that are commonly distributed along the Chinese coast. The large subunit rDNA D1–D2 regions of the target species were first sequenced to design taxonomic probes. Probe specificity was validated by performing a cross-reactivity test with dot blot hybridization. The tailed probes were immobilized onto a nylon membrane to prepare a low-density DNA array for RDBA. The established detection procedure involved DNA extraction, biotin (Bio)-labeling of objective sequences by multiple polymerase chain reaction (M-PCR), RDBA, coloration, and judgment of hybridization by the naked eye. Bio-labeled primer-based labeling proved to be an economical and effective method to prepare Bio-labeled PCR products for RDBA. The detection limits of RDBA using the M-PCR-labeling products from DNA templates prepared by different methods were also compared, and a kit-based DNA extraction method displayed the lowest detection limit of 0.5 cells. Simulation results showed that RDBA can recover all target species and was not affected by background DNA. RDBA was proven effective, specific, and sensitive for the simultaneous detection of toxic microalgae in the field samples. Therefore, this method may be used in the field monitoring of natural samples.     

Comparison of destructive and nondestructive DNA extraction methods for the metabarcoding of arthropod bulk samples

DNA metabarcoding is routinely used for biodiversity assessment, in particular targeting highly diverse groups for which limited taxonomic expertise is available. Various protocols are currently in use, although standardization is key to its application in large-scale monitoring. DNA metabarcoding of arthropod bulk samples can be conducted either destructively from sample tissue, or nondestructively from sample fixative or lysis buffer. Nondestructive methods are highly desirable for the preservation of sample integrity but have yet to be experimentally evaluated in detail. Here, we compare diversity estimates from 14 size-sorted Malaise trap samples processed consecutively with three nondestructive approaches (one using fixative ethanol and two using lysis buffers) and one destructive approach (using homogenized tissue). Extraction from commercial lysis buffer yielded comparable species richness and high overlap in species composition to the ground tissue extracts. A significantly divergent community was detected from preservative ethanol-based DNA extraction. No consistent trend in species richness was found with increasing incubation time in lysis buffer. These results indicate that nondestructive DNA extraction from incubation in lysis buffer could provide a comparable alternative to destructive approaches with the added advantage of preserving the specimens for postmetabarcoding taxonomic work but at a higher cost per sample.     

An evaluation of chelex-based DNA purification protocols for the typing of lactic acid bacteria

An easy and rapid protocol to extract DNA to be used as template for polymerase chain reaction (PCR) fingerprinting experiments from cultivable lactic acid bacteria (LAB) is proposed. Different procedures for rapid extraction of DNA by chelex (iminodiacetid acid) ionic resin were compared. Factors affecting the quality and reproducibility of PCR fingerprinting profiles were also investigated. Two out of three chelex-based protocols allowed to obtain DNA samples which, after PCR amplification, provided electrophoretic patterns comparable with those obtained by classical lysozyme and phenol-chloroform DNA extraction. A good level of reproducibility and consistency of the InstaGene procedure was verified. The procedure is fast, practical, and the DNA is of quality similar to that obtained by phenol-chloroform extraction. Although applied to a little number of LAB strains, chelex-based protocols are potentially applicable to a vast array of organisms and/or biological materials.     

A simplified protocol for preparing DNA from filamentous cyanobacteria

The preparation of good quality genomic DNA from microalgae and plants is often time-consuming because of the need to remove contaminants that may interfere with the downstream enzymatic manipulation of the DNA. Simpler protocols have been reported but these are applicable only to a few species and in many cases are not effective for removing trace contaminants. In this report, we describe a modification of existing protocols that significantly simplified the preparation of genomic DNA from cyanobacteria and plants. A key step in our protocol is the precipitation of DNA in a high concentration of salt (2–2.5 M NaCl) in the presence of isopropanol, immediately following phenol and chloroform extractions. The preparation and enzymatic digestion of the DNA can be performed in a single day. The DNA was easily digested in 2 h at normal restriction enzyme concentrations, and is highly suitable for PCR and Southern hybridization. We successfully used this simplified protocol to prepare genomic DNA from several filamentous cyanobacteria, such asAnabaena sp. PCC 7120,Anabaena siamensis, andSpirulina strains M2 and Kenya. This protocol may also be useful for preparing genomic DNA from other algae and from higher plants.     

Proboscidean DNA from Museum and Fossil Specimens: An Assessment of Ancient DNA Extraction and Amplification Techniques

Applications of reliable DNA extraction and amplification techniques to postmortem samples are critical to ancient DNA research. Commonly used methods for isolating DNA from ancient material were tested and compared using both soft tissue and bones from fossil and contemporary museum proboscideans. DNAs isolated using three principal methods served as templates in subsequent PCR amplifications, and the PCR products were directly sequenced. Authentication of the ancient origin of obtained nucleotide sequences was established by demonstrating reproducibility under a blind testing system and by phylogenetic analysis. Our results indicate that ancient samples may respond differently to extraction buffers or purification procedures, and no single method was universally successful. A CTAB buffer method, modified from plant DNA extraction protocols, was found to have the highest success rate. Nested PCR was shown to be a reliable approach to amplify ancient DNA templates that failed in primary amplification.     

A Simple, Reliable, and Fast Protocol for Thraustochytrid DNA Extraction

DNA extraction of thraustochytrids, common marine unicellular organisms, is usually accomplished by either the cetyltrimethylammonium bromide (CTAB) or proteinase K protocols. A novel lysis buffer protocol for thraustochytrid total DNA extraction is described. The average isolated total DNA is 20 to 40 kb, and DNA samples are suitable for a variety of uses including 18S–ribosomal DNA polymerase chain reaction, restriction enzyme digestions, and amplified fragment length polymorphism analyses. The new protocol is also faster than the other protocols. Received July 31, 2000; accepted November 2, 2000.     

Elution of High-affinity (>10-9 KD) Antibodies from Tissue Sections: Clues to the Molecular Mechanism and Use in Sequential Immunostaining

Inconsistent results obtained with published methods for the elution of antibodies from tissue sections prompted the assessment of both old and new methods in combination with monoclonal rabbit antibodies of known, increased affinity (above 1×10^-9 K_D). We tested an acidic (pH 2) glycine buffer, a 6 M urea hot buffer and a 2-Mercaptoethanol, SDS buffer (2-ME/SDS). Some antibodies were not removed by the glycine pH 2 or 6 M urea hot buffers, indicating that antibodies survive much harsher conditions than previously believed. We found that the elution is dependent upon the antibody affinity and is reduced by species-specific crosslinking via a dimeric or Fab fragments of a secondary antibody. The high affinity bond of exogenous streptavidin with the endogenous biotin can be removed by 6 M urea but not by the other buffers. 2-ME/SDS buffer is superior to glycine pH 2 and 6 M urea hot elution buffers for all antibodies because of its irreversible effect on the structure of the antibodies. It also has a mild retrieving effect on some antigens present on routinely treated sections and no detrimental effect on the immunoreactivity of the tissue. Therefore, 2-ME/SDS buffer is the method of choice to perform multiple rounds of immunostaining on a single routine section.     

Comparison of DNA extraction from cervical cells collected in PreservCyt solution for the amplification of Chlamydia trachomatis

OBJECTIVE: The aim of this study was to compare and evaluate three methods of DNA extraction for the amplification of Chlamydia trachomatis in uterine cervical samples collected in PreservCyt solution. ThinPrep is the trade name for the slide preparation. METHODS: Thirty-eight samples collected in LCx buffer medium, which were identified as C. trachomatis infected by ligase chain reaction (LCR), were selected for this study. DNA from the PreservCyt samples was extracted by three methods: (i) QIAamp kit, (ii) boiling in Tris-EDTA buffer with Chelex purification, and (iii) Proteinase K digestion with Chelex purification. Sample DNA was tested for the presence of C. trachomatis by PCR using cryptic plasmid research (CTP) primers and major outer membrane protein research momp gene (MOMP) primers. Real-time (LightCycler) PCR for relative C. trachomatis quantification following DNA extraction was performed using primers (Hsp 60) for the 60 kDa heat-shock protein hsp60 gene. RESULTS: Amplification using CTP primers was the most successful with each of the extraction protocols. Boiling in buffer was the least successful extraction method. QIAamp was the best extraction method, yielding the most positives with both the CTP and MOMP primers. Proteinase K-Chelex extraction gave similar sensitivity to QIAamp extraction with CTP primers but lower for MOMP primers. CONCLUSIONS: The DNA extraction method must be carefully selected to ensure that larger PCR amplicons can be successfully produced by PCR and to ensure high sensitivity of detection of C. trachomatis. In this study it was found that the QIAamp extraction method followed by PCR with the CTP primers was the most successful for amplification of C. trachomatis DNA.     

山西地区高脂微藻的分离筛选

分别从山西省汾河流域、运城盐湖等水体采集水样,使用微挑法、平板涂布法对其中的微藻进行了分离纯化,并对分离得到的29株微藻和购买的3株微藻,进行了高脂藻株的筛选。结果表明：采用干重法对32株微藻的生长量进行测定,其干重介于48.9～422.2 mg/L之间;采用氯仿甲醇法对32株微藻的总脂含量进行测定,其总脂含量介于5.4%DW～30.1%DW之间;采用尼罗红荧光染色法对32株微藻的中性脂相对含量进行测定,其单位体积的荧光值介于4.1～181.5之间。综合评价藻株的总脂产率,最终筛选到山西省NY017盐生杜氏藻（Dunaliella salina）、NY023线形菱形藻（Nitzschia linearis）以及NY025谷皮菱形藻（Nitzschia palea）为高脂藻株,油脂产率分别为3.25、3.03、2.11 mg.L-1.d-1,具有生产生物柴油的潜力。     

Isolation and Characterization of Marine Caulobacters and Assessment of Their Potential for Genetic Experimentation

A total of 25 marine caulobacters were isolated from littoral marine sources. Several aspects of their physiology and morphology were examined, as well as their suitability for genetic manipulation in laboratory cultivation. Caulobacters were readily isolated from all sources, including samples from areas containing pollution-related organic compounds. All isolates grew best in media containing seawater, but eight strains grew if sea salts were replaced with NaCl alone, three strains grew at 1/10 the normal sea salt concentration, and one isolate grew, albeit poorly, in freshwater medium. Of the marine isolates, 12 strains grew under anaerobic conditions, indicating that some caulobacters are not obligately aerobic bacteria, as they are currently categorized. Although some freshwater caulobacters are able to oxidize manganese, this capability was not found in these marine caulobacters. Of the marine isolates, 10 strains were resistant to mercury chloride concentrations 10- to 20-fold greater than that tolerated by sensitive bacteria. However, a mercury reductase gene comparable with that found in R100-type plasmids was not detected by gene hybridization. With respect to the potential for genetic experimentation, most strains grew rapidly (3- to 4-h generation time at 30°C), producing colonies on solid media in 2 to 3 days. The isolates were sensitive to antibiotics commonly used in recombinant DNA experiments, and spontaneous drug-resistant mutants were selectable. Conjugal transfer of plasmids from Escherichia coli to several marine caulobacters was demonstrated for four broad-host-range plasmid incompatibility groups, by using both self-transmissible plasmids and cloning-oriented plasmids that require a helper plasmid. Conjugal transfer of broad-host-range plasmids between freshwater and marine caulobacters was also demonstrated in both directions. Native plasmids of approximately 100- to 150-kilobase sizes were found in 2 of the 25 marine Caulobacter strains. The native plasmids were present in relatively high copy number and appeared stable in laboratory culture. In short, the marine caulobacters appeared appropriate as candidates for genetic manipulation and the expression of selected genes in the marine environment.     

A non-invasive technique for rapid extraction of DNA from fish scales

DNA markers are being increasingly used in studies related to population genetics and conservation biology of endangered species. DNA isolation for such studies requires a source of biological material that is easy to collect, non-bulky and reliable. Further, the sampling strategies based on non-invasive procedures are desirable, especially for the endangered fish species. In view of above, a rapid DNA extraction method from fish scales has been developed with the use of a modified lysis buffer that require about 2 hr duration. This methodology is non-invasive, less expensive and reproducible with high efficiency of DNA recovery. The DNA extracted by this technique, have been found suitable for performing restriction enzyme digestion and PCR amplification. Therefore, the present DNA extraction procedure can be used as an alternative technique in population genetic studies pertaining to endangered fish species. The technique was also found equally effective for DNA isolation from fresh, dried and ethanol preserved scales.     

DNA Barcoding Green Microalgae Isolated from Neotropical Inland Waters

This study evaluated the feasibility of using the Ribulose Bisphosphate Carboxylase Large subunit gene (rbcL) and the Internal Transcribed Spacers 1 and 2 of the nuclear rDNA (nuITS1 and nuITS2) markers for identifying a very diverse, albeit poorly known group, of green microalgae from neotropical inland waters. Fifty-one freshwater green microalgae strains isolated from Brazil, the largest biodiversity reservoir in the neotropics, were submitted to DNA barcoding. Currently available universal primers for ITS1-5.8S-ITS2 region amplification were sufficient to successfully amplify and sequence 47 (92%) of the samples. On the other hand, new sets of primers had to be designed for rbcL, which allowed 96% of the samples to be sequenced. Thirty-five percent of the strains could be unambiguously identified to the species level based either on nuITS1 or nuITS2 sequences’ using barcode gap calculations. nuITS2 Compensatory Base Change (CBC) and ITS1-5.8S-ITS2 region phylogenetic analysis, together with morphological inspection, confirmed the identification accuracy. In contrast, only 6% of the strains could be assigned to the correct species based solely on rbcL sequences. In conclusion, the data presented here indicates that either nuITS1 or nuITS2 are useful markers for DNA barcoding of freshwater green microalgae, with advantage for nuITS2 due to the larger availability of analytical tools and reference barcodes deposited at databases for this marker.