Methodology Simple and inexpensive DNA extraction protocol for studying the bacterial composition of sludges used in microbial fuel cells

Canto-Canché, Blondy; Tzec-Simá, Miguel; Vázquez-Loría, J I; Espadas-Álvarez, Heidi; Chí-Manzanero, Bartolomé; Rojas-Herrera, Rafael; Valdez-Ojeda, Ruby; Alzate‐Gaviria, Liliana

doi:10.4238/2013.february.4.2

Cited by 7 publications

(7 citation statements)

References 30 publications

(43 reference statements)

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“…The DNA extraction protocol for identifying the bacterial composition of sludge used in microbial fuel cells was used as described previously by Canto-Canché et al . [ 41 ]. Metagenomic DNA was sent to the Research and Testing Laboratory facility in Lubbock, Texas (USA) for pyrosequencing of the 16S rRNA gene.…”

Section: Methodsmentioning

confidence: 99%

Characterization of anode and anolyte community growth and the impact of impedance in a microbial fuel cell

et al. 2014

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BackgroundA laboratory-scale two-chamber microbial fuel cell employing an aerated cathode with no catalyst was inoculated with mixed inoculum and acetate as the carbon source.Electrochemical impedance spectroscopy (EIS) was used to study the behavior of the MFC during initial biofilm (week 1) and maximum power density (week 20). EIS were performed on the anode chamber, biofilm (without anolyte) and anolyte (without biofilm). Nyquist plots of the EIS data were fitted with two equivalent electrical circuits to estimate the contributions of intrinsic resistances to the overall internal MFC impedance at weeks 1 and 20, respectively.ResultsThe results showed that the system tended to increase power density from 15 ± 3 (week 1) to 100 ± 15 mW/m2 (week 20) and current density 211 ± 7 (week 1) to 347 ± 29 mA/m2 (week 20). The Samples were identified by pyrosequencing of the 16S rRNA gene and showed that initial inoculum (week 1) was constituted by Proteobacteria (40%), Bacteroidetes (22%) and Firmicutes (18%). At week 20, Proteobacterial species were predominant (60%) for electricity generation in the anode biofilm, being 51% Rhodopseudomonas palustris. Meanwhile on anolyte, Firmicutes phylum was predominant with Bacillus sp.This study proved that under the experimental conditions used there is an important contribution from the interaction of the biofilm and the anolyte on cell performance. Table 1 presents a summary of the specific influence of each element of the system under study.ConclusionsThe results showed certain members of the bacterial electrode community increased in relative abundance from the initial inoculum. For example, Proteobacterial species are important for electricity generation in the anode biofilms and Firmicutes phylum was predominant on anolyte to transfer electron.R1 is the same in the three systems and no variation is observed over time.The biofilm makes a significant contribution to the charge transfer processes at the electrode (R2 and Cdl) and, consequently, on the performance of the anode chamber.The biofilm can act as a barrier which reduces diffusion of the anolyte towards the electrode, all the while behaving like a porous material.The anolyte and its interaction with the biofilm exert a considerable influence on diffusion processes, given that it presents the highest values for Rd which increased at week 20.

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Section: Methodsmentioning

confidence: 99%

Characterization of anode and anolyte community growth and the impact of impedance in a microbial fuel cell

et al. 2014

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“…immersed in a liquid phase such as natural water streams, culture media, or wastewaters (Dang et al, 2017;González-Gamboa et al, 2018;González-Muñoz et al, 2018;González-Paz et al, 2020). Therefore, high concentration and variety of impurities predominate in the samples, the main reason why lengthy procedures, expensive DNA isolation kits and purification columns are required (Canto-Canché et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

“…The above mentioned biofilms contain organic molecules such as nucleic acids and proteins, and also inorganic substances such as metals and nutrients which are sequestered within the exopolysaccharide matrix (Baishya et al, 2020;Flemming & Wingender, 2010). Additionally, the biofilms are supported on different conductive materials (Erable et al, 2010), and in many cases, the isolation of the microbial community from the supporting material is barely impossible (Canto-Canché et al, 2013). Carbonaceous and porous materials as granular activated carbon, carbon felt, fibers or cloth, layered corrugated carbon, among others, are cheap and conductive supporting materials frequently used in anaerobic reactors (Barua & Dhar, 2017).…”

Section: Introductionmentioning

confidence: 99%

“…High chemical oxygen demand (COD), presence of organic acids, metals and other contaminants carried by carbon supporting materials are also frequent (Zhang et al, 2018). Therefore, to isolate DNA from complex samples as microbial electrosynthesis (MES) bioelectrodes, anaerobic digesters for bioenergy production and environmental samples used as inoculum, commercial DNA isolation Kits are usually employed (Kiseleva et al, 2015;Yang et al, 2017), which are expensive in comparison with homemade DNA isolation protocols (Canto-Canché et al, 2013). Additionally, in many cases purification columns are required to achieve good quality mgDNA, which are also expensive and produce DNA losses (Canto-Canché et al, 2013;Rousseau et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

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Comparative analysis of microbial diversity in batch reactor with direct interspecies electron transfer system using an effective and inexpensive method mgDNA extraction

Alzate‐Gaviria¹,

Yucatán²,

Valero³

et al. 2021

RMIQ

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“…ccbb.utexas.edu / ) 是分析 rRNA 二级结构的数据库。 EzTaxon鄄e 收集了已培养或未培养微生物的 16S rRNA 序列信息,常用于鉴定新分离的菌株 [30] 。 probeBase 可用来检索与 16S rRNA 有关的探针 [31] [37] 。由于指纹图谱技术的操作相对较简单,在环境微生物动态监测和分析等方面得到了广泛应 66] 。利用微生物的功能基因作为探针开发出的功能基因芯片-GeoChip [67] ,已广泛能够克服这类问题,比如近些年来开发出专门用于检测人体微生物相关菌群的 HITChip [71] 及用于检测口腔微生物的 OC Chip [72] 等。在定量分析方面,由于某些菌 rRNA 基因操纵子是多拷贝的,而使测定的信号总量代表的是 16S rRNA 基因的总拷贝数,只有使用改进的算法才能更精确地进行定量分析 [73] [74] ,第三代测序技术的进步将使测序更加快速准确,且能大大增加读长,而且可以直接 [82] 。针对不同的环境样品,应该根据文献报道的相关结果对 DNA 提取方法进行优化。 Canto 等在研究污泥微生物时使用不同的细胞直接裂解方法,获得了一种实用有效的 DNA 提取方法 [83] ;Kuczynski 等建议在研究复杂微生物群落时应使用多种方法进行细胞裂解 [84] ;Flores 等研究了一种新的直接 PCR 法以简化 DNA 提取步骤 [85] 。对于粘性土壤,可以加入 skim milk 以提高 DNA 的提取效率 [86] 。用试剂盒提取的 DNA,进行 qRT鄄PCR 实验时的平行性往往优于自配试剂的提取方法。在进行样品总 RNA 提取过程中, 要特别注意污染和降解问题 [87] ,一些 RNA 酶抑制剂可以用于样品运输过程中的保存,以防止 RNA 降解,如 RNA later 和 Methanol / HEPES 溶液 [88] 等。必须注意的是,要使结果分析重复性和精确性较高,在提取以及后面的操作过程中都要严格控制污染问题,因为相比在测序和分析过程中引入的偏差,实验污染等问题可能对结果影响更大。…”

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The applications of the 16S rRNA gene in microbial ecology: current situation and problems

Liu¹,

Jiabao²,

Junpeng³

et al. 2015

Acta Eco Sin

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The 16S rRNA (small subunit ribosomal RNA) gene is a universal marker for phylogenetic reconstructions to approximate the tree of life owing to its presence in all prokaryotes and its high conservation. Sequencing of 16S rRNA genes amplified directly from environmental samples is commonly used to study microbial community composition and diversity. Great advances in pyrosequencing technology and bioinformatics in recent years enable us to obtain sequence data from large鄄scale environmental samples efficiently and cost鄄effectively. However, some critical problems need to be addressed when the 16S rRNA gene is used for microbial diversity studies, such as horizontal gene transfer (HGT) , intragenomic heterogeneity, PCR amplification efficiency, and sequencing data analysis. In this review, we summarize the state鄄of鄄the鄄art applications of 16S rRNA gene as a biomarker for microbial ecology studies, and introduce current pyrosequencing techniques and bioinformatics for large鄄scale data analysis. This review focuses on four aspects. (i) We introduce the structure and properties of the 16S rRNA gene, e.g. the primary and secondary structure, HGT and heterogeneities of 16S rRNA genes. Based on current available microbial genomes, multi鄄copy and intragenomic heterogeneities of 16S rRNA genes are recognized. These phenomena may seriously bias the estimations of microbial diversity in environmental samples. Some online tools and databases used for analysis of the 16S rRNA gene sequencing data are also introduced. These tools are used http: / / www.ecologica.cn to predict horizontal gene transfer, secondary structure, and to align and classify 16S rRNA gene sequences. (ii) We introduce some 16S rRNA鄄based techniques commonly used in microbial ecology studies, such as fingerprinting profiling, hybridization, microarray, and high throughput pyrosequencing methods. We compare the advantages and limitations of various methods and recommend how to use them properly based on a specific target. Different methods have different resolutions and detection limitations. Low鄄resolution profiling methods potentially miss some important information and make it difficult to detail the phylogenetic composition of an environmental sample. Pyrosequencing technique is highly recommended in the future for microbial ecology study. Several sequencing platforms, e. g. Roche 454, Ion Torrent and MiSeq, are compared. (iii) We evaluate the biases that may be introduced during sample preparation and PCR procedures, e. g. DNA extraction, primer selection, PCR optimization, PCR product purification, and data analysis. Amplicon sequencing method suffers from a high level of sequencing and amplification artifacts. It is important to select OTU (operational taxonomic units) classification and chimera removing algorithms. In this case, the Uchime and Uparse are recommended for microbial amplicon pyrosequencing reads. (iv) We introduce some bioinformatics tools for pyrosequencing data analysis, such as chimera check and diversity index calculation. The most ...

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Methodology Simple and inexpensive DNA extraction protocol for studying the bacterial composition of sludges used in microbial fuel cells

Cited by 7 publications

References 30 publications

Characterization of anode and anolyte community growth and the impact of impedance in a microbial fuel cell

Characterization of anode and anolyte community growth and the impact of impedance in a microbial fuel cell

Comparative analysis of microbial diversity in batch reactor with direct interspecies electron transfer system using an effective and inexpensive method mgDNA extraction

The applications of the 16S rRNA gene in microbial ecology: current situation and problems

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