干湿交替水分胁迫对水稻土细菌群落影响的研究

【目的】连续3次风干-湿润循环培养水稻土,在DNA和RNA水平下,探究细菌对干湿交替胁迫的响应机制,明确风干水稻土能否代替新鲜土壤进行细菌群落组成分析。【方法】针对我国江苏省常熟市水稻土,开展新鲜土壤的3次风干-湿润循环连续培养处理(每次循环中风干、湿润状态各维持7 d),在DNA和RNA水平应用16S rRNA基因高通量测序和实时荧光定量PCR技术,分析细菌数量和群落组成的变化规律。【结果】在湿润-风干过程中,DNA水平细菌数量降幅高达300–771倍,但RNA水平仅为1.95–5.60倍。在DNA水平,风干土细菌多样性与湿润土无显著差异,但在RNA水平,风干土明显高于湿润土。非度量多维尺度及共发生网络分析表明,水稻土干湿交替过程中,土壤细菌的群落结构发生显著改变(P<0.05);在DNA和RNA水平,水稻土在干湿交替过程中均检测到8个相同的优势菌门,占所有微生物90%以上,但不同门相对丰度变化显著(P<0.05)。在DNA和RNA水平,湿润-风干处理显著增加绿弯菌门(Chloroflexi)和放线菌门(Actinobacteria)的相对丰度,显著降低变形菌门(Prot...     

一种新的定量16S rRNA基因扩增子测序方法

近年来,16S扩增子测序技术被广泛应用于肠道微生物菌群结构和多样性研究,同时也常被用于临床样本中未知病原菌的检测。然而其对样本中物种组成的分辨率只能到属水平的相对丰度,且实验过程中多种因素皆可对结果产生一定影响,如样本起始浓度、PCR循环数、扩增引物等。为解决以上问题,本研究采用随机标签和内参法相结合的方法,开发了一套定量16S扩增子测序方法,将常规的16S rRNA编码基因测序结果中的相对丰度转化为绝对定量的拷贝数,有效提高了肠道菌群结构检测的精准性,降低了实验操作对结果的影响,也提高了测序与其他分子生物学方法间的可比性,有利于未来技术的进一步研发和改进。     

柑橘黄龙病菌内参基因的筛选与评估

【背景】柑橘黄龙病是世界柑橘生产上最具毁灭性的病害之一,主要由候选韧皮部杆菌属亚洲种("Candidatus Liberibacter asiaticus",CLas)引起。CLas全基因组测序已经完成,因而该病原菌的基因表达研究和功能验证得以进行。【目的】筛选CLas内参基因并评估其不同侵染时期和在不同品种植物寄主中的表达稳定性。【方法】基于基因功能类别,利用实时荧光定量PCR技术分析23个CLas的候选内参基因相对表达情况(16Sr RNA基因作为参照基因)。结合Ct值标准差和geNorm、NormFinder、RefFinder软件,评价内参基因的表达稳定性。【结果】在感染黄龙病不同时期和不同品种的植物寄主样本中,14对引物表现出较强的特异性和稳定性。内参基因稳定性排名:ftsZgyrArpoB1ftsAsecAgapzapEgmk2rpoDsecYrpoOftsWgmk1recA,根据geNorm配对变异值Vn/n+1选择稳定性最好的ftsZ和gyrA作为内参基因作进一步评估。以ftsZ+gyrA以及16S rRNA基因分别作为内参基因检测柑橘黄龙病菌致病基因LasΔ5313的表达水平,所得的表达模式相同。【结论】柑橘黄龙病菌中涉及DNA复制和细胞分裂功能的管家基因表达较稳定,在CLas的基因表达研究中可选择ftsZ+gyrA的基因组合作为内参。本研究为后续利用实时荧光定量PCR分析CLas基因表达及研究CLas致病机理奠定基础。     

3 次连续重复提取DNA 能较好反映土壤微生物丰度

【目的】研究同一个土壤需要反复提取几次才能在最大程度上反映土壤微生物的丰度,探讨风干土壤代替新鲜土壤用于微生物丰度研究的可行性。【方法】针对两种理化性质具有较大差异的旱地和稻田新鲜土壤及其风干土壤,分别对土壤微生物进行5次连续裂解提取DNA。通过实时荧光定量PCR技术分析连续反复提取对土壤古菌和细菌16S rRNA gene数量、氨氧化古菌和细菌功能基因amoA数量的影响。【结果】3次连续提取DNA占5次提取DNA总量的76%以上,氨氧化古菌、氨氧化细菌、古菌和细菌4类微生物的3次连续提取最低回收率为77.5%;与新鲜土壤相比,风干处理导致氨氧化古菌、氨氧化细菌、古菌、细菌的数量分别降低84.3%、81.2%、12.5%和90.3%,然而,2种土壤风干过程中主要微生物类群的数量变化规律基本一致,表明土壤微生物对风干处理的响应可能受土壤类型的影响较小。【结论】土壤微生物连续3次裂解能较好反映微生物丰度。与新鲜土壤相比,风干过程显著降低了土壤微生物丰度,然而,通过风干土壤中微生物丰度的变化趋势反映新鲜土壤中微生物数量变化规律具有一定的可行性。     

转cry1 Ac/cpti基因水稻对土壤氨氧化细菌群落组成和丰度的影响

【背景】氨氧化细菌是驱动硝化作用的关键微生物,其群落多样性变化对土壤氮素转化具有重要意义。转基因作物可能通过根系分泌物和植株残体组成的改变对土壤微生物群落产生影响。【方法】本研究通过田间定位试验,利用特异引物进行PCR-DGGE（聚合酶链反应—变性梯度凝胶电泳）和荧光定量PCR,分析了种植转cry1 Ac/cpti双价抗虫基因水稻第3、4年土壤中氨氧化细菌群落组成和丰度的变化。【结果】水稻各生育期（分蘖期、齐穗期和成熟期）内,转cry1 Ac/cpti基因杂交稻Ⅱ优科丰8号（GM）的土壤氨氧化细菌16S rRNA基因群落组成、多样性指数与其对应的非转基因杂交稻Ⅱ优明恢86（CK）间均没有显著差异;以DGGE条带为基础的氨氧化细菌群落组成的冗余分析（RDA）显示,GM和CK的土壤氨氧化细菌群落组成只与水稻生育期存在显著相关性（P=0.002和0.018）;同时,水稻各生育期内土壤氨氧化细菌16S rRNA基因丰度在GM和CK间也没有显著差异,但均随水稻生长而变化且在齐穗期达到最高（P〈0.05）。【结论与意义】稻田土壤氨氧化细菌的群落组成与丰度在水稻不同生育期存在差异,但在转cry1 Ac/cpti基因水稻和非转基因水稻间没有显著差异,即一定时期内种植转cry1 Ac/cpti抗虫基因水稻不会影响土壤氨氧化细菌的群落组成和丰度。     

新疆艾比湖湿地博乐河入口处土壤细菌多样性分析

【目的】了解新疆艾比湖湿地国家级自然保护区非培养土壤细菌群落组成及多样性。【方法】采用非培养法直接从湿地土壤提取总DNA进行16S r RNA基因扩增,构建细菌16S r RNA基因克隆文库。使用MspⅠ和AfaⅠ限制性内切酶对阳性克隆进行16S r RNA基因扩增片段的限制性酶切分析(Amplified r DNA restriction analysis,ARDRA),挑取具有不同双酶切图谱的克隆进行测序,序列比对并构建16S r RNA基因系统发育树。【结果】从土壤细菌的16S r RNA基因文库中随机挑取75个不同谱型的克隆子,共得到58个OTUs,系统发育归类为8个细菌类群:绿弯菌门(Chloroflexi)、蓝藻门(Cyanobacteria)、变形菌门(Proteobacteria)、厚壁菌门(Firmicutes)、放线菌门(Actinobacteria)、拟杆菌门(Bacteroidetes)、疣微菌门(Verrucomicrob)和芽单胞菌门(Gemmatimonadetes)。其中,变形菌门为第一优势菌群,拟杆菌门为第二优势菌群,两者约占总克隆的65%。【结论】艾比湖湿地博乐河入口处土壤细菌多样性丰富,且存在一定数量的潜在微生物新种。     

土壤宏转录组RNA的提取方法评价

【目的】比较手工法和试剂盒法提取土壤RNA对原核微生物多样性的影响,评价两种方法研究土壤宏转录组的技术偏好性。【方法】针对黑龙江海伦砂质黑壤土、江苏滨海黏心夹砂土、江西鹰潭第四纪红黏土不同母质发育形成的三种水稻土,采用手工和试剂盒法分别获得微生物总RNA,利用高通量测序原核微生物16S r RNA多样性,通过紫外分光和琼脂糖凝胶电泳分析RNA质量,比较手工和试剂盒法提取RNA对水稻土原核微生物群落的影响规律。【结果】三种水稻土中试剂盒提取RNA的纯度皆高于手工法,但RNA提取总量不一致。试剂盒提取黑龙江和江苏水稻土的RNA总量高于手工法,而手工法提取的江西水稻土RNA总量高于试剂盒法。高通量测序发现土壤类型而不是RNA提取方法决定了原核微生物多样性指数和群落结构。3个水稻土共检测到27门和409属,两种RNA提取方法偏好性提取了19门和181属,这些门和属占水稻土微生物总丰度平均值分别为40.4%和44.4%。与手工提取RNA相比,试剂盒法发现11个微生物门的丰度显著偏高(P0.05),但仅有Armatimonadetes门在三种水稻土同时存在专一偏好性;手工法提取也发现11个微生物门的丰度显著高于试剂盒法,并且仅有Firmicutes门在三种水稻土中同时存在专一偏好性。在微生物属水平,三种水稻土中均发现试剂盒法偏好性提取了2属,而手工法偏好性提取了5属。进一步针对72个优势微生物属(丰度0.1%且同时存在于三种水稻土),发现其占所有微生物丰度80%强,且48属的变化规律与RNA提取方法无关。例如,手工法提取水稻土好氧甲烷氧化菌的规律为:黑龙江(1.68%)江西(0.90%)江苏(0.59%),而试剂盒法也得到一致结果,黑龙江(0.52%)江西(0.18%)江苏(0.13%)。【结论】两种RNA提取方法本身的特异偏好性较小。三种水稻土27门409属中,仅有2门7属可能存在方法本身的专一偏好性,即在三种水稻土中,这些微生物均被试剂盒法或手工法特异性偏好提取,占所有原核微生物门和属比例仅为7%和1%左右。此外,针对同一水稻土,手工和试剂盒法提取RNA的总量、纯度、微生物相对丰度明显不同,在原核微生物门和属的分类水平,约70%的门和22%的属的丰度具有统计显著性差异,但两种RNA提http://journals.im.ac.cn/actamicro取方法均能反映优势微生物类群在三种水稻土中的变异规律,土壤类型对原核微生物多样性的影响远大于RNA提取方法本身的偏好性。未来原核微生物宏转录组研究中,应优先考虑科学问题及其实验处理可能导致的微生物组及其转录差异,结合微生物RNA提取特点,最大限度地发挥宏转录组技术优势。     

基于DNA扣除法的Real-time RT-PCR对工程乳酸菌外源基因表达的绝对定量分析

本研究旨在利用Real-time RT-PCR对外源基因在工程乳酸菌中的表达进行定量分析,建立一种新的Real-time RT-PCR分析方法。采用玻璃珠热酚法提取工程乳酸菌总RNA,对外源目的基因的反转录(含有cDNA和DNA)样品和非反转录(仅含DNA)样品进行Real-time PCR检测,根据经典绝对定量方法并结合DNA扣除法进行分析,将得到的Ct值通过标准曲线换算为样品拷贝数,通过从反转录样品中扣除DNA样品的拷贝数的量,去除了DNA对实验结果的影响,得出最终的定量结果。采用以上方法分析工程乳酸乳球菌NZ9000中外源纤维素酶基因CBHⅡ的表达情况,对表达量较低的目的基因进行转录水平的分析,避免了RNA的损失,得到了外源基因表达的量为(1.28±0.02)×10-1 copies/cfu。这种基于DNA扣除法的Real-time RT-PCR绝对定量方法可以有效地对外源基因在工程乳酸菌中的表达进行分析。     

转cry1Ac/cpti基因水稻对土壤氨氧化细菌群落组成和丰度的影响

【背景】氨氧化细菌是驱动硝化作用的关键微生物,其群落多样性变化对土壤氮素转化具有重要意义。转基因作物可能通过根系分泌物和植株残体组成的改变对土壤微生物群落产生影响。【方法】本研究通过田间定位试验,利用特异引物进行PCR DGGE (聚合酶链反应—变性梯度凝胶电泳)和荧光定量PCR,分析了种植转cry1Ac/cpti双价抗虫基因水稻第3、4年土壤中氨氧化细菌群落组成和丰度的变化。【结果】水稻各生育期（分蘖期、齐穗期和成熟期）内,转cry1Ac/cpti基因杂交稻Ⅱ优科丰8号（GM）的土壤氨氧化细菌16S rRNA基因群落组成、多样性指数与其对应的非转基因杂交稻Ⅱ优明恢86（CK）间均没有显著差异;以DGGE条带为基础的氨氧化细菌群落组成的冗余分析（RDA)显示,GM和CK的土壤氨氧化细菌群落组成只与水稻生育期存在显著相关性（P=0.〖KG-*8〗002和0.〖KG-*8〗018）;同时,水稻各生育期内土壤氨氧化细菌16S rRNA基因丰度在GM和CK间也没有显著差异,但均随水稻生长而变化且在齐穗期达到最高（P<0.〖KG-*8〗05）。【结论与意义】稻田土壤氨氧化细菌的群落组成与丰度在水稻不同生育期存在差异,但在转cry1Ac/cpti基因水稻和非转基因水稻间没有显著差异,即一定时期内种植转cry1Ac/cpti抗虫基因水稻不会影响土壤氨氧化细菌的群落组成和丰度。     

松墨天牛化学感受组织荧光定量PCR内参基因的鉴定与筛选

【目的】本研究拟选择适合用于分析松墨天牛Monochamus alternatus化学感受组织中基因表达的内参基因。【方法】依据转录组测序结果进行内参基因鉴定,利用RT-q PCR技术分析内参基因在松墨天牛不同发育阶段和不同性别化学感受组织间的表达差异,并利用软件ge Norm,Norm Finder和Best Keeper比较其表达的稳定性。【结果】松墨天牛转录组中鉴定出9个候选内参基因(Actin,TUB,18S rRNA,RPS27A,RPS3,RPL10,AK,GAPDH和EF1A),其中后7个候选内参基因在松墨天牛中被首次鉴定,松墨天牛候选内参基因和其他昆虫相应基因的同源性很高。9个候选内参基因引物均具有良好的扩增效率,18S rRNA的表达水平最高,EF1A的表达水平最低;18S rRNA和Actin在不同样品间的表达水平差异最大,GAPDH和TUB表达水平在不同样品间差异最小。ge Norm和Norm Finder软件分析认为,GAPDH是最稳定的内参基因,TUB是较为稳定的内参基因,18S rRNA和Actin是最不稳定的内参基因;Best Keeper软件分析认为,GAPDH和TUB是合适的内参基因,18S rRNA和Actin是不适合的内参基因。最适合校正松墨天牛化学感受组织中基因表达数据的内参基因数量为2个,即GAPDH和TUB,并且这样的内参基因组合可以用于不同发育阶段和不同性别的不同化学感受组织。【结论】本研究结果为利用RT-q PCR技术准确分析松墨天牛和其他天牛基因包括化学感受组织基因相对表达量的内参基因选择提供了重要参考。     

Molecular quantification of environmental DNA using microfluidics and digital PCR

Real-time PCR has been widely used to evaluate gene abundance in natural microbial habitats. However, PCR-inhibitory substances often reduce the efficiency of PCR, leading to the underestimation of target gene copy numbers. Digital PCR using microfluidics is a new approach that allows absolute quantification of DNA molecules. In this study, digital PCR was applied to environmental samples, and the effect of PCR inhibitors on DNA quantification was tested. In the control experiment using λ DNA and humic acids, underestimation of λ DNA at 1/4400 of the theoretical value was observed with 6.58ngμL(-1) humic acids. In contrast, digital PCR provided accurate quantification data with a concentration of humic acids up to 9.34ngμL(-1). The inhibitory effect of paddy field soil extract on quantification of the archaeal 16S rRNA gene was also tested. By diluting the DNA extract, quantified copy numbers from real-time PCR and digital PCR became similar, indicating that dilution was a useful way to remedy PCR inhibition. The dilution strategy was, however, not applicable to all natural environmental samples. For example, when marine subsurface sediment samples were tested the copy number of archaeal 16S rRNA genes was 1.04×10(3)copies/g-sediment by digital PCR, whereas real-time PCR only resulted in 4.64×10(2)copies/g-sediment, which was most likely due to an inhibitory effect. The data from this study demonstrated that inhibitory substances had little effect on DNA quantification using microfluidics and digital PCR, and showed the great advantages of digital PCR in accurate quantifications of DNA extracted from various microbial habitats.     

Similar Gene Estimates from Circular and Linear Standards in Quantitative PCR Analyses Using the Prokaryotic 16S rRNA Gene as a Model

Quantitative PCR (qPCR) is one of the most widely used tools for quantifying absolute numbers of microbial gene copies in test samples. A recent publication showed that circular plasmid DNA standards grossly overestimated numbers of a target gene by as much as 8-fold in a eukaryotic system using quantitative PCR (qPCR) analysis. Overestimation of microbial numbers is a serious concern in industrial settings where qPCR estimates form the basis for quality control or mitigation decisions. Unlike eukaryotes, bacteria and archaea most commonly have circular genomes and plasmids and therefore may not be subject to the same levels of overestimation. Therefore, the feasibility of using circular DNA plasmids as standards for 16S rRNA gene estimates was assayed using these two prokaryotic systems, with the practical advantage being rapid standard preparation for ongoing qPCR analyses. Full-length 16S rRNA gene sequences from Thermovirga lienii and Archaeoglobus fulgidus were cloned and used to generate standards for bacterial and archaeal qPCR reactions, respectively. Estimates of 16S rRNA gene copies were made based on circular and linearized DNA conformations using two genomes from each domain: Desulfovibrio vulgaris, Pseudomonas aeruginosa, Archaeoglobus fulgidus, and Methanocaldocococcus jannaschii. The ratio of estimated to predicted 16S rRNA gene copies ranged from 0.5 to 2.2-fold in bacterial systems and 0.5 to 1.0-fold in archaeal systems, demonstrating that circular plasmid standards did not lead to the gross over-estimates previously reported for eukaryotic systems.     

Normalization of soil DNA extraction for accurate quantification of target genes by real-time PCR and DGGE

The analysis of microbial communities in environmental samples requires accurate and reproducible methods for extraction of DNA from sample matrices that have different physical and chemical characteristics. Even with the same sample type, variations in laboratory methods can result in different DNA yields. To circumvent this problem, we have developed an easy and inexpensive way to normalize the quantities of DNA that involves the addition of an internal standard prepared from plasmid DNA. The method was evaluated by comparing DNA yields using different DNA extraction procedures, after which the DNA was used for microbial community analysis by PCR-denaturing gradient gel electrophoresis (PCR-DGGE) of 16S ribosomal RNA (rRNA) and for quantification of 16S rRNA gene copy numbers in environmental samples by real-time PCR. Our results show that use of the internal standard allows normalization of the resulting data and more accurate quantification of gene copy numbers in soil samples. These methods should also have broad application for various other types of environmental samples.     

Distribution of High Bacterial Taxa Across the Chronosequence of Two Alpine Glacier Forelands

Little is known about the changes in abundance of microbial taxa in relation to the chronosequence of receding glaciers. This study investigated how the abundances of ten bacterial phyla or classes varied along successional gradients in two glaciers, Ödenwinkelkees and Rotmoosferner, in the central Alps. Quantitative PCR was used to estimate the abundance of the different bacterial taxa in extended glacier chronosequences, including 10- to 160-year-old successional stages, the surface of the glacier, and a fully established soil. Actinobacteria (15–30%) was the dominant group within the chronosequences. Several taxa showed significant differences in the number of taxa-specific 16S rRNA gene copies per nanogram of DNA and/or in the ratio of taxa-specific to the total bacterial 16S rRNA gene copies (i.e., the relative abundance of the different taxa within the bacterial community) between the established soils or the glacier surface and the 10- to 160-year-old successional stages. A significantly higher proportion of Βetaproteobacteria (20%) was observed on the surface of both glaciers. However, no differences were observed between the 10- to 160-year-old successional stages in the number of taxa-specific 16S rRNA gene copies per nanogram of DNA or in the ratio of taxa-specific to the total bacterial 16S rRNA gene copies for the different taxa. Nevertheless, when the relative abundance data from all the studied taxa were combined and analyzed altogether, most of the sites could be distinguished from one other. This indicates that the overall composition of the bacterial community was more affected than the abundance of the targeted taxa by changes in environmental conditions along the chronosequences.     

Frequency of formation of chimeric molecules as a consequence of PCR coamplification of 16S rRNA genes from mixed bacterial genomes.

PCR is routinely used in amplification and cloning of rRNA genes from environmental DNA samples for studies of microbial community structure and identification of novel organisms. There have been concerns about generation of chimeric sequences as a consequence of PCR coamplification of highly conserved genes, because such sequences may lead to reports of nonexistent organisms. To quantify the frequency of chimeric molecule formation, mixed genomic DNAs from eight actinomycete species whose 16S rRNA sequences had been determined were used for PCR coamplification of 16S rRNA genes. A large number of cloned 16S ribosomal DNAs were examined by sequence analysis, and chimeric molecules were identified by multiple-sequence alignment with reference species. Here, we report that the level of occurrence of chimeric sequences after 30 cycles of PCR amplification was 32%. We also show that PCR-induced chimeras were formed between different rRNA gene copies from the same organism. Because of the wide use of PCR for direct isolation of 16S rRNA sequences from environmental DNA to assess microbial diversity, the extent of chimeric molecule formation deserves serious attention.     

Use of rpoB and 16S rRNA genes to analyse bacterial diversity of a tropical soil using PCR and DGGE

AIM: To evaluate the rpoB gene as a biomarker for PCR-DGGE microbial analyses using soil DNA from the Cerrado, Brazil. METHODS: DNA extraction from soil was followed by Polymerase Chain Reaction (PCR) amplification of rpoB and 16S rRNA genes. PCR products were compared by Denaturing Gradient Gel Electrophoresis (DGGE) to compare gene/community profiles. RESULTS: The rpoB DGGE profiles comprised fewer bands than the 16S rDNA profiles and were easier to delineate and therefore to analyse. Comparison of the community profiles revealed that the methods were complementary. CONCLUSIONS, SIGNIFICANCE AND IMPACT OF THE STUDY: The gene for the beta subunit of the RNA polymerase, rpoB, is a single copy gene unlike 16S rDNA. Multiple copies of 16S rRNA genes in bacterial genomes complicate diversity assessments made from DGGE profiles. Using the rpoB gene offers a better alternative to the commonly used 16S rRNA gene for microbial community analyses based on DGGE.     

Multiple DNA extractions coupled with stable-isotope probing of anthracene-degrading bacteria in contaminated soil

In many of the DNA-based stable-isotope probing (SIP) studies published to date in which soil communities were investigated, a single DNA extraction was performed on the soil sample, usually using a commercial DNA extraction kit, prior to recovering the (13)C-labeled (heavy) DNA by density-gradient ultracentrifugation. Recent evidence suggests, however, that a single extraction of a soil sample may not lead to representative recovery of DNA from all of the organisms in the sample. To determine whether multiple DNA extractions would affect the DNA yield, the eubacterial 16S rRNA gene copy number, or the identification of anthracene-degrading bacteria, we performed seven successive DNA extractions on the same aliquot of contaminated soil either untreated or enriched with [U-(13)C]anthracene. Multiple extractions were necessary to maximize the DNA yield and 16S rRNA gene copy number from both untreated and anthracene-enriched soil samples. Sequences within the order Sphingomonadales, but unrelated to any previously described genus, dominated the 16S rRNA gene clone libraries derived from (13)C-enriched DNA and were designated "anthracene group 1." Sequences clustering with Variovorax spp., which were also highly represented, and sequences related to the genus Pigmentiphaga were newly associated with anthracene degradation. The bacterial groups collectively identified across all seven extracts were all recovered in the first extract, although quantitative PCR analysis of SIP-identified groups revealed quantitative differences in extraction patterns. These results suggest that performing multiple DNA extractions on soil samples improves the extractable DNA yield and the number of quantifiable eubacterial 16S rRNA gene copies but have little qualitative effect on the identification of the bacterial groups associated with the degradation of a given carbon source by SIP.     

不同土壤采样设计下土壤表层微生物α多样性的差异分析

【背景】土壤采样是土壤研究的基础,采样方案的不同可能会对土壤微生物多样性的研究结果产生一定影响。【目的】研究不同的土壤采样设计方案对土壤样品16S rRNA基因高通量测序结果的影响。【方法】对2个不同生境样地的土壤进行网格化采样,对采集的18个土壤样品进行16S rRNA基因测序分析,通过模拟5种常见土壤采样方法,对比不同采样方式所获得的测序结果。【结果】不同采样方式会产生不同的测序结果。在测序深度有效的情况下,细菌总物种数随着采样数的增加而逐渐增长,增长速度在采样数大于5以后趋于平缓;样品中的优势物种(序列数200以上)只需很少的采样数(1-3)即可观察到全部物种;Shannon-Wiener指数与Simpson指数的变化较相似,当采样数由1到3时两指数均有较大增长,之后变化放缓。【结论】土壤细菌微生物测序研究中,土壤样地采样数量低于3个会影响测序结果的可靠性,采样方案选择梅花形采样法或蛇形采样法较为适宜。