An evaluation of commercial DNA extraction kits for the isolation of bacterial spore DNA from soil

Aims: To evaluate six commercial DNA extraction kits for their ability to isolate PCR‐quality DNA from Bacillus spores in various soil samples. Methods and Results: Three soils were inoculated with various amounts of Bacillus cereus spores to simulate an outbreak or intentional release of the threat agent Bacillus anthracis. DNA was isolated from soil samples using six commercial DNA extraction kits. Extraction and purification efficiencies were assessed using a duplex real‐time PCR assay that included an internal positive control. The FastDNA^® SPIN kit for Soil showed the highest DNA extraction yield, while the E.Z.N.A.^® Soil DNA and PowerSoil^® DNA Isolation kits showed the highest efficiencies in removing PCR inhibitors from loam soil extracts. Conclusions: The results of this study suggest that commercially available extraction kits can be used to extract PCR‐quality DNA from bacterial spores in soil. The selection of an appropriate extraction kit should depend on the characteristics of the soil sample and the intended downstream application. Significance and Impact of the Study: The results of this study aid in the selection of an appropriate DNA extraction kit for a given soil sample. Its application could expedite sample processing for real‐time PCR detection of a pathogen in soil.     

Trace DNA from insect skins: a comparison of five extraction protocols and direct PCR on chironomid pupal exuviae

Insect skins (exuviae) are of extracellular origin and shed during moulting. The skins do not contain cells or DNA themselves, but epithelial cells and other cell‐based structures might accidentally attach as they are shed. This source of trace DNA can be sufficient for PCR amplification and sequencing of target genes and aid in species identification through DNA barcoding or association of unknown life stages. Species identification is essential for biomonitoring programs, as species vary in sensitivities to environmental factors. However, it requires a DNA isolation protocol that optimizes the output of target DNA. Here, we compare the relative effectiveness of five different DNA extraction protocols and direct PCR in isolation of DNA from chironomid pupal exuviae. Chironomidae (Diptera) is a species‐rich group of aquatic macroinvertebrates widely distributed in freshwater environments and considered a valuable bioindicator of water quality. Genomic DNA was extracted from 61.2% of 570 sampled pupal exuviae. There were significant differences in the methods with regard to cost, handling time, DNA quantity, PCR success, sequence success and the ability to sequence target taxa. The NucleoSpin^® Tissue XS Kit, DNeasy^® Blood and Tissue kit, and QuickExtract^? DNA Extraction Solution provided the best results in isolating DNA from single pupal exuviae. Direct PCR and DTAB/CTAB methods gave poor results. While the observed differences in DNA isolation methods on trace DNA will be relevant to research that focuses on aquatic macroinvertebrate ecology, taxonomy and systematics, they should also be of interest for studies using environmental barcoding and metabarcoding of aquatic environments.     

Comparing DNA Extraction Methods for Analysis of Botanical Materials Found in Anti-Diabetic Supplements

A comparative performance evaluation of DNA extraction methods from anti-diabetic botanical supplements using various commercial kits was conducted, to determine which produces the best quality DNA suitable for PCR amplification, sequencing and species identification. All plant materials involved were of suboptimal quality showing various levels of degradation and therefore representing real conditions for testing herbal supplements. Eight different DNA extraction methods were used to isolate genomic DNA from 13 medicinal plant products. Two methods for evaluation, DNA concentration measurements that included absorbance ratios as well as PCR amplifiability, were used to determine quantity and quality of extracted DNA. We found that neither DNA concentrations nor commonly used UV absorbance ratio measurements at A ₂₆₀/A ₂₈₀ between 1.7 and 1.9 are suitable for globally predicting PCR success in these plant samples, and that PCR amplifiablity itself was the best indicator of extracted product quality. However, our results suggest that A ₂₆₀/A ₂₈₀ ratios below about 1.3 and above 2.3 indicated a DNA quality too poor to amplify. Therefore, A ₂₆₀/A ₂₈₀ measurements are not useful to identify samples that likely will amplify but can be used to exclude samples that likely will not amplify reducing the cost for unnecessarily subjecting samples to PCR. The two Nucleospin^® plant II kit extraction methods produced the most pure and amplifiable genomic DNA extracts. Our results suggest that there are clear, discernable differences between extraction methods for low quality plant samples in terms of producing contamination-free, high-quality genomic DNA to be used for further analysis.     

Rapid,High Quality DNA Isolation from Cypress (Cupressus sempervirens L.) Needles and Optimization of the RAPD Marker Technique

A protocol for extracting high quality DNA from cypress (Cupressus sempervirens L.), a gymnosperm of economic and ecological importance to the Mediterranean, is presented using the commercially supplied DNeasy^TM Plant Mini Kit (QIAGEN GmbH, Germany). Additional steps were introduced in the QIAGEN protocol to significantly enhance DNA quantity and quality. For one sample, the procedure can be completed in less than one hour, and more than 10 samples can be processed in a day. DNA yield and purity were monitored by gel electrophoresis and by determining absorbance at UV (A₂₆₀/A₂₈₀ and A₂₆₀/A₂₃₀). Both ratios were between 1.7 and 2.0, indicating that the presence of contaminating metabolites was minimal. The average DNA yield obtained from 100 mg starting material was around 22 g, which compares very favorably with numbers indicated by the manufacturer. Additionally, restriction and PCR analyses of the extracted DNA showed its compatibility with downstream applications. Using this DNA, the parameters for the randomly amplified polymorphic DNA (RAPD) protocol were optimized based on the use of (1) an AmpliTaq^® DNA Polymerase, Stoffel fragment (Perkin-Elmer), and (2) a high initial denaturation temperature (97.5 °C). Reproducible amplification products were achieved in all PCR reactions. Seven to eight bands per primer were obtained with most individuals. This represents a number at the high end of published results with other plant species.     

Bacterial and Archaeal DNA Extracted from Inoculated Experiments: Implication for the Optimization of DNA Extraction from Deep-Sea Basalts

Difficulties in efficient DNA extraction from deep-sea volcanic basalt, due to high metal concentration, complex organic matter, or sometimes the low biomass, have hampered the understanding of the significant biosphere both at and below the sea floor. In order to optimize the DNA extraction from basaltic rocks, sterilized basalts with different particle sizes and chemically synthesized goethite were inoculated with an iron oxidizer Marinobacter aquaeolei and an extreme halophilic archaeon Halobaculum gomorrense respectively, and extracted with several methods. Large variations in DNA yields by different extracting methods including FastDNA® spin for soil kit, GeneClean® for ancient DNA kit, UltraClean? and traditional phenol-chloroform methods. Among the commercially available kits tested here, FAST spin kit and GeneClean® for ancient DNA kit yield 10 times more DNA than the UltraClean? kit used. In combination with FAST spin kit, skim milk greatly enhanced the archaeal DNA yields. DNA extracting efficiency was low with the cell number lower than 1 × 10⁶ cells, but reached as high as 88% with a cell number of 1 × 10⁸ cells. On these points, different strategies should be taken into consideration for the DNA extraction from basalts, depending on original biomass and cell types anticipated. FAST spin kit could provide high quality bacterial DNA for downstream PCR whilst the combination of FAST spin kit with skim milk would greatly enhance the archaeal DNA yields. GeneClean® for ancient DNA kit is also recommended for archaeal DNA extraction from deep sea basalt due to its high yield.     

Detection of Mycobacterium avium ssp. paratuberculosis in cheese, milk powder and milk using IS900 and f57-based qPCR assays

Aims: To develop a quantitative PCR assay for sensitive and specific detection of Mycobacterium avium ssp. paratuberculosis (Map) in a range of dairy products. Methods and Results: TaqMan^® assays were designed to target the IS900 and f57 genetic elements of Map. Both real‐time PCR assays were integrated with the Adiapure^® Map DNA extraction kit and assessed separately for the detection/quantification of Map in spiked milk, Cheddar cheese and milk powder. Assays were validated against Cheddar cheese samples containing known concentrations of Map. The IS900 qPCR assay was significantly more sensitive than the assay based on the f57 primer/probe. At a threshold cycle value of 38, limits of detection (LOD) for the IS900 qPCR assay were 0·6 CFU ml^?1, 2·8 CFU g^?1 and 30 CFU g^?1 for artificially contaminated pasteurized milk, whole milk powder and Cheddar cheese, respectively. The respective LOD’s for the f57 assay were 6·2 CFU ml^?1, 26·7 CFU g^?1 and 316 CFU g^?1. Conclusion: The integrated Adiapure^® extraction – IS900 real time assay described is a sensitive, quantitative method for the detection of Map in dairy products. This is the first study to consider qPCR as a quantitative estimation of Map‐DNA in cheese and whole milk powder. Significance and Impact of the Study: The assay developed allows sensitive detection and quantification of Map DNA in a range of dairy products which is valuable for the screening and surveillance of this potential zoonotic organism.     

Detecting frogs as prey in the diets of introduced mammals: a comparison between morphological and DNA‐based diet analyses

Amphibians are currently the most threatened group of vertebrates worldwide, and introduced fauna play a major role in their decline. The control of introduced predators to protect endangered species is often based on predation rates derived from diet studies of predators, but prey detection probabilities using different techniques are variable. We measured the detectability of frogs as prey, using morphological and DNA‐based diet analyses, in the stomachs and faeces of four mammal species that have been introduced to many areas of the world. Frogs (Litoria raniformis) were fed to rats (Rattus norvegicus and R. rattus), mice (Mus musculus) and hedgehogs (Erinaceus europaeus). DNA‐based analysis outperformed morphological analysis, increasing the prey detection rate from 2% to 70% in stomachs and from 0% to 53% in faeces. In most cases, utilizing either stomachs or faeces did not affect the success of prey DNA detection; however, using faeces extended the detectability half‐life from 7 to 21 h. This study is the first to measure prey DNA detection periods in mammalian stomachs, and the first to compare prey DNA detection periods in the stomachs and faeces of vertebrates. The results indicate that DNA‐based diet analysis provides a more reliable approach for detecting amphibians as prey and has the potential to be used to estimate the rate of predation by introduced mammals on endangered amphibians.     

OPTIMIZATION OF DNA EXTRACTION FROM BROWN ALGAE (PHAEOPHYCEAE) BASED ON A COMMERCIAL KIT1

Large‐scale DNA molecular studies require reliable and efficient tools for DNA extractions. However, for some plant species and brown algae, isolation of high‐quality DNA is difficult. We developed a novel method for isolating high‐quality DNA from the polysaccharide‐rich and polyphenol‐rich brown algae based on a commercial kit and protocol (Qiagen) by optimizing the lysis step and including a chloroform/isoamyl alcohol supplementary purification step. DNAs from 24 brown algal species extracted using the original and the modified Qiagen protocol were compared for yield, quality, and effectiveness in PCR amplification. There was no significant difference in the yields between protocols. However, a statistically significant increase in DNA purity was obtained with the modified protocol, for which the A₂₆₀/A₂₈₀ and A₂₆₀/A₂₃₀ absorbance ratios averaged 1.66 ± 0.05 and 1.31 ± 0.01, respectively, compared to 1.37 ± 0.04 and 0.52 ± 0.04 with the original protocol. DNAs extracted by the modified procedure were more successfully amplified by PCR (nuclear, mitochondrial, and chloroplastic regions) than DNAs extracted using the original commercial kit and protocol. Importantly, the modified protocol can be applied in a high‐throughput (e.g., 96‐well plate) format, allowing a higher efficiency for downstream molecular analysis. In addition, improved DNA quality could increase its stability for long‐term storage.     

Specific detection of Lysobacter enzymogenes (Christensen and Cook 1978) strain 3.1T8 with TaqMan® PCR

Aims: To develop a strain‐specific TaqMan^® PCR method for detecting and quantifying the biocontrol strain Lysobacter enzymogenes 3.1T8. Methods and Results: A primer–probe combination was designed on the basis of a strain‐specific sequence selected using REP‐PCR (repetitive extragenic palindromic‐polymerase chain reaction). The specificity of this combination was demonstrated by 14 other Lysobacter strains that did not react with the selected primer–probe combination. To quantify strain 3.1T8 in cucumber root samples, a calibration curve was prepared by spiking roots with a 10‐fold dilution series of the strain. Detection of the biocontrol strain 3.1T8 with this method showed that the strain survived well for 22 days on root tips as well as on older cucumber roots. Survival was higher when the strain was inoculated to younger plants. In a cucumber production system with large volumes of substrate, strain 3.1T8 was detected in high numbers on cucumber roots 3 weeks after inoculation. Conclusions: The primer–probe combination developed was strain specific, because it did not react with other strains of the same species and genus. The TaqMan^® PCR method successfully quantified the inoculated biocontrol strain on cucumber roots grown in different cropping systems. Significance and Impact of the Study: The developed TaqMan^® PCR method is a strain‐specific real‐time detection method that can be used to assess the population dynamics of L. enzymogenes strain 3.1T8 for further optimization of its biocontrol efficacy.     

Molecular Typing and Genetic Characterization of Pathogenic Variants of Xanthomonas axonopodis pv. citri in Taiwan

Molecular typing was applied and optimized for genetic characterization for three pathogenic variants of Xanthomonas axonopodis pv. citri (Xac) from Taiwan. These three novel variants of atypical symptom–producing X. axonopodis pv. citri were designated as Xac‐A^f, Xac‐A^p and Xac‐A^r. Based on polymerase chain reaction (PCR) with primers specific to X. axonopodis pv. citri, leucine‐responsive regulatory protein (lrp) gene assay and DNA fingerprintings generated by repetitive‐sequence PCR (rep‐PCR) and amplified fragment length polymorphism (AFLP) were used to compare strains including the three types of atypical symptom–producing strains Xac‐A^f, Xac‐A^p and Xac‐A^r, and additional reference strains from pathotypes Xac‐A, Xac‐A*, Xac‐A^w, X. axonopodis pv. auruantifolii and X. axonopodis pv. citrumelo. These three types of X. axonopodis pv. citri variants can be detected with six sets of primer specific for X. axonopodis pv. citri. Cluster analyses by lrp sequence assay, AFLP and combing the band patterns of rep‐PCR clearly grouped the atypical symptom–producing variants in types Xac‐ A^f, Xac‐A^r and Xac‐A^p into the same cluster with typical symptom‐producing strains in pathotype Xac‐A. These three types of X. axonopodis pv. citri variants could be excluded from strains of Xac‐A* and Xac‐A^w in these genotypic analyses. Strains of Xac‐A* and Xac‐A^w were closely related to Xac‐A strains in our results. No Taiwan isolate was related to X. axonopodis pv. auruantifolii or X. axonopodis pv. citrumelo. The results further confirmed the atypical symptom–producing variants of X. axonopodis pv. citri in Taiwan belong to pathotype Xac‐A.     

Evaluation of DNA extraction methods for Bacillus anthracis spores isolated from spiked food samples

Aims

Nine commercial DNA extraction kits were evaluated for the isolation of DNA from 10‐fold serial dilutions of Bacillus anthracis spores using quantitative real‐time PCR (qPCR). The three kits determined by qPCR to yield the most sensitive and consistent detection (Epicenter MasterPure Gram Positive; MoBio PowerFood; ABI PrepSeq) were subsequently tested for their ability to isolate DNA from trace amounts of B. anthracis spores (approx. 6·5 × 10¹ and 1·3 × 10² CFU in 25 ml or 50 g of food sample) spiked into complex food samples including apple juice, ham, whole milk and bagged salad and recovered with immunomagnetic separation (IMS).

Methods and Results

The MasterPure kit effectively and consistently isolated DNA from low amounts of B. anthracis spores captured from food samples. Detection was achieved from apple juice, ham, whole milk and bagged salad from as few as 65 ± 14, 68 ± 8, 66 ± 4 and 52 ± 16 CFU, respectively, and IMS samples were demonstrated to be free of PCR inhibitors.

Conclusions

Detection of B. anthracis spores isolated from food by IMS differs substantially between commercial DNA extraction kits; however, sensitive results can be obtained with the MasterPure Gram Positive kit.

Significance and Impact of the Study

The extraction protocol identified herein combined with IMS is novel for B. anthracis and allows detection of low levels of B. anthracis spores from contaminated food samples.     

Pellets of proof: First glimpse of the dietary composition of adult odonates as revealed by metabarcoding of feces

Recent advances in molecular techniques allow us to resolve the diet of unstudied taxa. Odonates are potentially important top‐down regulators of many insects. Yet, to date, our knowledge of odonate prey use is based mainly on limited observations of odonates catching or eating their prey. In this study, we examine the potential use of metabarcoding in establishing the diet of three adult odonate species (Lestes sponsa, Enallagma cyathigerum, and Sympetrum danae) at a site in southwestern Finland. To this purpose, we compared three different methods for extracting DNA from fecal samples: the Macherey‐Nagel Nucleospin XS kit, a traditional salt extraction, and the Zymo Research Fecal Microprep kit. From these extracts, we amplified group‐specific mitochondrial markers (COI and 16S rRNA) from altogether 72 odonate individuals, and compared them to comprehensive reference libraries. The three odonate species show major overlap in diet, with no significant differences between individuals of different size and/or gender, reflecting opportunistic foraging of adult odonates. Of a total of 41 different prey species detected, the most frequently consumed ones were Diptera, with additional records of six other orders. Based on our data, the best DNA extraction method is the traditional salt extraction, as it provides the most information on prey content while also being the most economical. To our knowledge, this is the first study to resolve the species‐level diet of adult odonates. Armed with the appropriate methodological caveats, we are ready to examine the ecological role of odonates in both terrestrial and aquatic food webs, and in transferring subsidies between these two realms.     

In silico and empirical evaluation of twelve metabarcoding primer sets for insectivorous diet analyses

During the most recent decade, environmental DNA metabarcoding approaches have been both developed and improved to minimize the biological and technical biases in these protocols. However, challenges remain, notably those relating to primer design. In the current study, we comprehensively assessed the performance of ten COI and two 16S primer pairs for eDNA metabarcoding, including novel and previously published primers. We used a combined approach of in silico, in vivo‐mock community (33 arthropod taxa from 16 orders), and guano‐based analyses to identify primer sets that would maximize arthropod detection and taxonomic identification, successfully identify the predator (bat) species, and minimize the time and financial costs of the experiment. We focused on two insectivorous bat species that live together in mixed colonies: the greater horseshoe bat (Rhinolophus ferrumequinum) and Geoffroy's bat (Myotis emarginatus). We found that primer degeneracy is the main factor that influences arthropod detection in silico and mock community analyses, while amplicon length is critical for the detection of arthropods from degraded DNA samples. Our guano‐based results highlight the importance of detecting and identifying both predator and prey, as guano samples can be contaminated by other insectivorous species. Moreover, we demonstrate that amplifying bat DNA does not reduce the primers' capacity to detect arthropods. We therefore recommend the simultaneous identification of predator and prey. Finally, our results suggest that up to one‐third of prey occurrences may be unreliable and are probably not of primary interest in diet studies, which may decrease the relevance of combining several primer sets instead of using a single efficient one. In conclusion, this study provides a pragmatic framework for eDNA primer selection with respect to scientific and methodological constraints.     

Technical note: Efficiency of total demineralization and ion‐exchange column for DNA extraction from bone

We investigated whether a combination of recently introduced methods, total demineralization and ion‐exchange columns, would increase DNA recovery from old bone. Ten bone samples taken after a burial period of ∼60 years were used in this study. Bone powder was digested using total or incomplete demineralization. DNA was extracted by the standard organic method. The DNA extract was purified with ion‐exchange columns or QIAquick® spin columns. The efficiency of different DNA extraction methods was compared in terms of DNA concentration, inhibitors generated by real‐time PCR, and conventional STR typing results. The mean DNA concentration using the total demineralization method is ∼3 times higher than that using the incomplete demineralization method. For DNA purification, the method using QIAquick® spin columns appeared to yield approximately double the DNA than the method using ion‐exchange columns. Furthermore, 2 out of 10 samples showed higher levels of inhibition with C_T values of IPC ≥30 cycles when using only ion‐exchange columns. In STR results, total demineralization yielded more locus profiles by 4.2 loci than incomplete demineralization, and QIAquick® spin columns also yielded more locus profiles by 3.5 loci than ion‐exchange columns. Total demineralization of bone powder significantly increased DNA yield and improved STR typing results. However, the use of ion‐exchange columns was not efficient when compared with the method using QIAquick® spin columns. It is suggested that the combination of total demineralization and QIAquick® spin columns lead to greatly improved STR typing results. Am J Phys Anthropol 2010. © 2009 Wiley‐Liss, Inc.     

Detection of viable Escherichia coli O157:H7 by ethidium monoazide real-time PCR

Aims: The aim of this study was to develop and optimize a novel method that combines ethidium bromide monoazide (EMA) staining with real‐time PCR for the detection of viable Escherichia  coli O157:H7 in ground beef. EMA can penetrate dead cells and bind to intracellular DNA, preventing its amplification via PCR. Methods and Results: Samples were stained with EMA for 5 min, iced for 1 min and exposed to bright visible light for 10 min prior to DNA extraction, to allow EMA binding of the DNA from dead cells. DNA was then extracted and amplified by TaqMan^® real‐time PCR to detect only viable E. coli O157:H7 cells. The primers and TaqMan^® probe used in this study target the uidA gene in E. coli O157:H7. An internal amplification control (IAC), consisting of 0·25 pg of plasmid pUC19, was added in each reaction to prevent the occurrence of false‐negative results. Results showed a reproducible application of this technique to detect viable cells in both broth culture and ground beef. EMA, at a final concentration of 10 μg ml^?1, was demonstrated to effectively bind DNA from 10⁸ CFU ml^?1 dead cells, and the optimized method could detect as low as 10⁴ CFU g^?1 of viable E. coli O157:H7 cells in ground beef without interference from 10⁸ CFU g^?1 of dead cells. Conclusions: EMA real‐time PCR with IAC can effectively separate dead cells from viable E. coli O157:H7 and prevent amplification of DNA in the dead cells. Significance and Impact of the Study: The EMA real‐time PCR has the potential to be a highly sensitive quantitative detection technique to assess the contamination of viable E. coli O157:H7 in ground beef and other meat or food products.     

Rapid detection of “Candidatus Phytoplasma mali” by recombinase polymerase amplification assays

Isothermal recombinase polymerase amplification (RPA) assays for the specific detection of “Candidatus Phytoplasma mali (Ca. P. mali),” the causal agent of apple proliferation, were developed. The assays amplify a fragment of the imp gene and amplimers were detected either by fluorescence in real‐time mode (TwistAmp^®exo assay) using a fluorophore‐labelled probe or by direct visualization employing a lateral flow device (TwistAmp^®nfo assay/Milenia^®HybriDetect). The RPA assays specifically amplified DNA from “Ca. P. mali” strains, and cross‐reactivity with other phytoplasmas or plant DNA was not observed. The limit of detection was determined with a cloned imp standard, and positive results were obtained down to 10 copies with both RPA assay formats. In comparison with a TaqMan real‐time PCR assay based on the same target gene, the RPA assays were equally sensitive, but results were obtained faster. Simplified nucleic acid extraction procedures from plant tissue with Tris‐ and CTAB‐based buffers revealed that crude Tris–DNA extracts were a suitable source for RPA tests while larger concentrations of CTAB were inhibitory. This is the first report of RPA‐based assays for the detection of “Ca. P. mali”. The assays are suitable for high‐throughput screening of plant material and point‐of‐care diagnostic and can be potentially combined with a simplified DNA extraction procedure.     

Comparison of DNA extraction methods for multiplex polymerase chain reaction

We compared six DNA extraction methods for obtaining DNA from whole blood and saliva for use in multiplex polymerase chain reaction (PCR) assays. The aim was to evaluate saliva sampling as an alternative to blood sampling to obtain DNA for molecular diagnostics, genetic genealogy, and research purposes. The DNA quantity, DNA purity (A_260/280), PCR inhibition ratio, and mitochondrial DNA/genomic DNA ratio were measured to compare the extraction methods. The different extraction methods resulted in variable DNA quantity and purity, but there were no significant differences in the efficiency of multiplex PCR and oligomicroarray signals after single-base extension on the arrayed primer extension 2 (APEX-2).     

Kv 1.1 is associated with neuronal apoptosis and modulated by protein kinase C in the rat cerebellar granule cell

Previously, we reported that apoptosis of cerebellar granular neurons induced by low‐K⁺ and serum‐free (LK‐S) was associated with an increase in the A‐type K⁺ channel current (I_A), and an elevated expression of main α‐subunit of the I_A channel, which is known as Kv4.2 and Kv4.3. Here, we show, as assessed by quantitative RT‐PCR and whole‐cell recording, that besides Kv4.2 and Kv4.3, Kv1.1 is very important for I_A channel. The expression of Kv1.1 was elevated in the apoptotic neurons, while silencing Kv1.1 expression by siRNA reduced the I_A amplitude of the apoptotic neuron, and increased neuron viability. Inhibiting Kv1.1 current by dendrotoxin‐K evoked a similar effect of reduction of I_A amplitude and protection of neurons. Applying a protein kinase C (PKC) activator, phorbol ester acetate A (PMA) mimicked the LK‐S‐induced neuronal apoptotic effect, enhanced the I_A amplitude and reduced the granule cell viability. The PKC inhibitor, bisindolylmaleimide I and Gö6976 protected the cell against apoptosis induced by LK‐S. After silencing the Kv1.1 gene, the effect of PMA on the residual K⁺ current was reduced significantly. Quantitative RT‐PCR and Western immunoblot techniques revealed that LK‐S treatment and PMA increased the level of the expression of Kv1.1, in contrast, bisindolylmaleimide I inhibited Kv1.1 expression. In addition, the activation of the PKC isoform was identified in apoptotic neurons. We thus conclude that in the rat cerebellar granule cell, the I_A channel associated with apoptotic neurons is encoded mainly by the Kv1.1 gene, and that the PKC pathway promotes neuronal apoptosis by a brief modulation of the I_A amplitude and a permanent increase in the levels of expression of the Kv1.1 α‐subunit.