光唇鱼仔稚幼鱼肠道菌群与养殖水体细菌群落的相关性

采用16S rRNA高通量测序,系统研究了光唇鱼(Acrossocheilus fasciatus)仔鱼、稚鱼和幼鱼肠道菌群组成及与同时期养殖水体细菌群落的相关性。研究结果表明,光唇鱼仔鱼、稚鱼和幼鱼的肠道菌群中Chao1指数和Shannon指数均没有显著变化(P>0.05);而随着光唇鱼幼体的发育,养殖水体中Chao1指数和Shannon指数呈现显著下降趋势(P<0.05)。光唇鱼仔鱼和稚鱼肠道菌群中的优势菌门由变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes)和厚壁菌门(Firmicutes)组成,而同时期养殖水体中优势菌门为变形菌门;光唇鱼幼鱼肠道菌群中的优势菌门为梭杆菌门(Fusobacteria)和变形菌门,同时期养殖水体中优势菌门由变形菌门、拟杆菌门和梭杆菌门组成。线性回归分析结果显示,随光唇鱼幼体发育,在光唇鱼肠道菌群中变形菌门、厚壁菌门和梭杆菌门相对丰度的时序变化趋势与其在养殖水体中相同。在属水平上,光唇鱼仔鱼、稚鱼肠道菌群中优势菌属均为醋酸杆菌属(Acetobacter),而幼鱼肠道菌群中优势菌属为鲸杆菌属(Cetobacte...     

中国林蛙蝌蚪肠道及皮肤微生物多样性分析

肠道及皮肤微生物群落对宿主的健康有着至关重要的影响.本研究使用16S rRNA基因测序技术研究中国林蛙(Rana chensinensis)Gosner38期蝌蚪肠道和皮肤共生微生物群落组成之间的差异.在门水平上,林蛙蝌蚪肠道中的优势门为变形菌门(Proteobacteria)、厚壁菌门(Firmicutes)和拟杆菌...     

不同养殖场林麝肠道微生物组成和功能的差异

肠道疾病是养殖林麝(Moschus berezovskii)常见疾病。动物肠道微生物伴随宿主进化并与胃肠道构成了复杂的微生态系统。为探究不同饲养环境对圈养林麝肠道微生物组成和功能的影响,本研究对采自国内5个不同养殖场的215份粪便样品进行了16S rRNA基因高通量测序,对比分析不同养殖场林麝肠道微生物组成、多样性和功能的差异。结果显示,厚壁菌门和拟杆菌门是未喂食复合益生菌的祁连县养殖场林麝肠道菌群的绝对优势菌门,而喂食复合益生菌的甘肃两当县和陕西凤县的4家养殖场林麝肠道菌群的绝对优势菌门为厚壁菌门和变形菌门。不同养殖场林麝肠道菌群组成、优势菌门、优势菌属、潜在致病菌、代谢及疾病相关功能均有显著差异。祁连县养殖场林麝肠道微生物的α多样性和疾病相关功能表达量显著低于其他养殖场,并以肠型2为主,其主导菌为厚壁菌门、UCG-005和拟杆菌属;两当县和凤县的4家养殖场林麝肠道菌群潜在致病菌相对丰度较低。本研究推测食物组成差异可能是导致不同养殖场林麝肠道微生物差异的主要因素,复合益生菌的使用可能是导致α多样性和潜在致病菌下降的重要因素。该结果可为林麝的人工养殖和有效管理提供科学依据,也对人工饲养...     

土壤动物肠道微生物多样性研究进展

随着分子生物学技术方法的快速发展,动物肠道微生物已成为医学、动物生理学与微生物生态学等研究领域热点。土壤动物种类繁多,分布广泛,其作为陆地生态系统重要组分,是驱动生态系统功能的关键因子。土壤动物体内的微生物由于与宿主长期共存,在与宿主协同进化中形成了丰富多样的群落结构,能够影响土壤动物本身的健康,进而介导土壤动物生态功能的实现。近些年,土壤动物肠道微生物工作方兴未艾,日渐得到重视。总结了四个部分内容：1)首先总结了土壤动物肠道微生物多样性领域的研究现状,该领域年发文量逐年增长,且近十年增长快速。土壤模式生物肠道微生物多样性研究较多且更为深入。土壤动物肠道微生物多样性组成与驱动机制、共存机制及群落构建的理论研究是该领域前沿;2)进而展示了土壤动物肠道微生物多样性组成和研究方法,土壤动物肠道菌群组成以变形菌门、厚壁菌门、放线菌门和拟杆菌门为主。早期工作基于传统分离培养,近年来新一代测序技术推动了该领域发展;3)接着关注了土壤动物肠道微生物的生态学功能,总体上体现在肠道微生物能帮助宿主分解食物基质、参与营养利用、影响寿命和繁殖及提高宿主免疫能力,且其能够影响土壤动物的气体排放及介导其对生态系...     

基于加权共变化网络分析水稻根系微生物群落间的差异

为了解水稻根系微生物群落间的差异,比较水稻根内、根表以及根际3个生态位微生物群落组成差异;探究水稻根系生态位之间、变化种群间的相互关系;以期为今后水稻根系微生物研究提供具有参考价值的依据.本研究利用WGCNA算法对水稻根系3个生态位的微生物群落数据分别构建共表达网络,找出根内、根表以及根际微生物群落间的差异网络,以网络为单位比较分析不同生态位间微生物群落的差异,并基于共变化网络分析进一步探究差异种群间的相互关系.通过WGCNA算法对水稻根系3个生态位的微生物群落进行共表达网络分析,结果发现:在水稻根内-根表-根际3个生态位间,微生物群落构成的共表达互作网络存在差异.进一步分析3个生态位间差异网络,发现根际-根表差异网络中的OTUs分布于6个门18个属中,优势菌门为变形菌门(Proteobacteria,72.97％);在根际-根内差异网络中的OTUs分布于9个门35个属,优势菌门为变形菌门(Proteobacteria,66.36％)、放线菌门(Actinobacteria,9.09％)、拟杆菌门(Bacteroidetes,10.9％);根表-根内差异网络中的OTUs分布于12个门36个属中,其中优势菌门为变形菌门(Proteobacteria,41.41％)、拟杆菌门(Bacteroidetes,10.10％)、厚壁菌门(Firmicutes,12.12％)、疣微菌门(Verrucomicrobia,10.10％).Rhodobacter、No-vosphingobium等3个核心菌属、Blvii28、Dechloromonas等6个核心菌属和Cellvibrio、Geobacter等5个核心菌属,分别在根际-根表差异种群微生物共变化网络、根际-根内差异种群微生物共变化网络和根表-根内差异种群微生物共变化网络中起重要的调控作用.     

肠道微生物与首发抑郁症的关系分析

目的 分析肠道微生物与首发抑郁症的关系。方法 选取本院92例首发抑郁症患者纳入抑郁症组,并取同期年龄、性别构成等匹配体检健康者50例作为对照组,评估其24项汉密尔顿抑郁量表(HAMD-24)评分,并于量表评估完成24 h内进行新鲜粪便的收集,以PCR法定性分析16S rRNA V3-V4可变区,并采用Pearson法分析菌群与HAMD-24评分的相关性。结果 两组菌群多样性指数(Ace、Chao、Shannon、Simpson)比较差异无统计学意义(P>0.05);主坐标分析(PCoA)显示两组肠道微生物群落构成有差异。LEfSe结果显示,首发抑郁症患者以拟杆菌门、β-变形菌纲、产碱菌科、幽门螺杆菌和伯克菌目等肠道微生物为主;对照组优势菌主要包括厚壁菌门、乳酸杆菌目和双歧杆菌科等。抑郁症组厚壁菌门、放线菌门、柔壁菌门、Ruminococcus、Subdoligranulum、Enterobacter、Coprococcus、Bifidobacterium、Lactobacillus丰度明显低于对照组(P<0.05),拟杆菌门、Klebsiella、Flavonifracto...     

基于高通量测序技术研究水貂远端肠道细菌群落组成

【目的】研究水貂远端肠道微生物群落组成及其多样性。【方法】通过高通量测序技术研究水貂远端肠内容物细菌的组成和多样性。【结果】从10只健康水貂远端肠道内容物样品中得到146 287高质量序列代表17个菌门、167个细菌属。水貂肠道细菌以厚壁菌门(59.99%)、拟杆菌门(16.2%)、梭杆菌门(11.5%)、放线菌门(5.9%)和变形菌门(5.3%)为主,其中厚壁菌门最为丰富。厚壁菌门中的梭菌目是最丰富的目,而梭菌目中的链球菌占有50%以上的OTUs,是最大的细菌属。【结论】水貂肠道内存在复杂的微生物区系,这对进一步研究水貂对营养物质吸收利用提供了理论基础。     

基于高通量测序技术研究水貂远端肠道细菌群落组成（英文）

【目的】研究水貂远端肠道微生物群落组成及其多样性。【方法】通过高通量测序技术研究水貂远端肠内容物细菌的组成和多样性。【结果】从10只健康水貂远端肠道内容物样品中得到146 287高质量序列代表17个菌门、167个细菌属。水貂肠道细菌以厚壁菌门(59.99%)、拟杆菌门(16.2%)、梭杆菌门(11.5%)、放线菌门(5.9%)和变形菌门(5.3%)为主,其中厚壁菌门最为丰富。厚壁菌门中的梭菌目是最丰富的目,而梭菌目中的链球菌占有50%以上的OTUs,是最大的细菌属。【结论】水貂肠道内存在复杂的微生物区系,这对进一步研究水貂对营养物质吸收利用提供了理论基础。     

转基因鲤鱼与对照鲤肠道微生物群落差异研究

以转“全鱼”生长激素基因鲤(Cyprinus carpio L.)和野生对照鲤为对象, 采用454高通量测序技术对其肠道微生物16S rRNA基因进行测序并分析了3个不同发育阶段微生物群落结构的变化, 进而探讨了转基因鲤与对照鲤肠道微生物群落的差异。基于转基因鲤和对照鲤不同发育时期(6日龄、2月龄、5月龄)肠道微生物群落组成的DCA排序分析显示, 2月龄转基因鲤与对照鲤肠道微生物组成不同。Alpha多样性及均匀度都显示转基因鲤肠道微生物多样性高于对照鲤。从门水平的比较分析发现, 转基因鲤肠道中存在较多的厚壁菌门(Firmicutes)细菌, 而对照鲤中拟杆菌门(Bacteroidetes)细菌较多, 其中2月龄转基因鲤肠道内Bacteroidetes/Firmicutes比值低于对照鲤。研究结果表明, 在所分析的3个发育时期, 转基因鲤的肠道微生物组成与对照鲤相比发生了改变, 且在2月龄时存在差异。该研究为进一步揭示转基因鱼肠道微生物与宿主的相互影响和作用机制提供了很好的参考。     

高通量测序分析小头裸裂尻鱼皮肤和肠道的微生物多样性

【目的】解析小头裸裂尻鱼不同部位的微生物群落结构、物种组成、多样性特征以及菌群功能差异。【方法】通过Illumina MiSeq扩增子高通量测序,分析小头裸裂尻鱼皮肤黏膜、肠道黏膜和肠道内容物3个部位微生物菌群组成差异,并通过Tax4Fun预测菌群潜在功能。【结果】皮肤黏膜微生物α多样性最高,其Shannon指数显著高于肠道黏膜(P<0.05)和肠道内容物(P<0.001)。主坐标分析表明,皮肤黏膜微生物显著区别于其他2个部位。在门水平小头裸裂尻鱼3个部位相对丰度前五的微生物类群均为放线菌门(Actinobacteria)、变形菌门(Proteobacteria)、厚壁菌门(Firmicutes)、绿弯菌门(Chloroflexi)和蓝藻门(Cyanobacteria),其中肠道内容物中放线菌门相对丰度(46.53%)显著高于肠道黏膜(29.23%,P<0.05)和皮肤黏膜(25.83%,P<0.01);肠道黏膜中变形菌门的相对丰度(40.33%)显著高于肠道内容物(26.10%,P<0.05)。对各部位相对丰度前10的菌群进行分析发现,小头裸裂尻鱼皮肤黏...     

A comparison of nonlethal sampling methods for amphibian gut microbiome analyses

Noninvasive sampling methods for studying intestinal microbiomes are widely applied in studies of endangered species and in those conducting temporal monitoring during manipulative experiments. Although existing studies show that noninvasive sampling methods among different taxa vary in their accuracy, no studies have yet been published comparing nonlethal sampling methods in adult amphibians. In this study, we compare microbiomes from two noninvasive sample types (faeces and cloacal swabs) to that of the large intestine in adult cane toads, Rhinella marina. We use 16S rRNA gene sequencing to investigate how microbial communities change along the digestive tract and which nonlethal sampling method better represents large intestinal microbiota. We found that cane toads' intestinal microbiota was dominated by Bacteroidetes, Proteobacteria and Firmicutes and, interestingly, we also saw a high proportion of Fusobacteria, which has previously been associated with marine species and changes in frog immunity. The large and small intestine of cane toads had a similar microbial composition, but the large intestine showed higher diversity. Our results indicate that cloacal swabs were more similar to large intestine samples than were faecal samples, and small intestine samples were significantly different from both nonlethal sample types. Our study provides valuable information for future investigations of the cane toad gut microbiome and validates the use of cloacal swabs as a nonlethal method to study changes in the large intestine microbiome. These data provide insights for future studies requiring nonlethal sampling of amphibian gut microbiota.     

The Microbial Community in the Feces of the White Rhinoceros (Ceratotherium simum) as Determined by Barcoded Pyrosequencing Analysis

As a non-ruminant herbivore, the white rhinoceros has the ability to utilize fibrous plant matter through microbial fermentation in the hindgut. So far, there has been no report using molecular techniques to study the gut microbiota of the white rhinoceros. We used barcoded pyrosequencing to characterize 105,651 sequences of 16S rRNA genes obtained from fecal samples from five white rhinoceroses. Results showed that Firmicutes and Bacteroidetes were the predominant phyla in the samples, which were comprised largely of unclassified bacteria. The microbiota of one animal treated with drug therapy differed from those in other healthy animals, and was dominated by Aerococcus -related bacteria. The core microbiota in the healthy rhinoceros were dominated by phyla Firmicutes and Bacteroidetes, represented by the Ruminococcaceae, Lachnospiraceae, Rikenellaceae and Prevotellaceae families. The present work provides a phylogenetic framework for understanding the complex microbial community of the rhinoceros; however, further studies are required to link the distinctive microbiota with their digestive role in the hindgut of the white rhinoceros.     

Evolution of symbiotic bacteria in the distal human intestine

The adult human intestine contains trillions of bacteria, representing hundreds of species and thousands of subspecies. Little is known about the selective pressures that have shaped and are shaping this community's component species, which are dominated by members of the Bacteroidetes and Firmicutes divisions. To examine how the intestinal environment affects microbial genome evolution, we have sequenced the genomes of two members of the normal distal human gut microbiota, Bacteroides vulgatus and Bacteroides distasonis, and by comparison with the few other sequenced gut and non-gut Bacteroidetes, analyzed their niche and habitat adaptations. The results show that lateral gene transfer, mobile elements, and gene amplification have played important roles in affecting the ability of gut-dwelling Bacteroidetes to vary their cell surface, sense their environment, and harvest nutrient resources present in the distal intestine. Our findings show that these processes have been a driving force in the adaptation of Bacteroidetes to the distal gut environment, and emphasize the importance of considering the evolution of humans from an additional perspective, namely the evolution of our microbiomes.     

The role of gut microbes in satisfying the nutritional demands of adult and juvenile wild,black howler monkeys (Alouatta pigra)

In all mammals, growth, development, pregnancy, and lactation increase nutritional demands. Although primate field studies tend to focus on shifts in activity and diet as mechanisms to compensate for these demands, differences in digestive efficiency also are likely to be important. Because the gut microbiota can impact host digestive efficiency, we examined differences in activity budget, diet, and the gut microbial community among adult male (N = 4), adult female (N = 4), and juvenile (N = 5) wild black howler monkeys (Alouatta pigra) across a ten‐month period in Palenque National Park, Mexico to determine how adult females and juveniles compensate for increased nutritional demands. Results indicate that adult females and juveniles consumed more protein and energy than adult males. Adult males, adult females, and juveniles also possessed distinct gut microbial communities, unrelated to diet. Juveniles exhibited a gut microbiota characterized by bacteria from the phylum Firmicutes, such as Roseburia and Ruminococcus, and demonstrated high fecal volatile fatty acid content, suggesting increased microbial contributions to host energy balances. Adult females possessed a higher Firmicutes to Bacteroidetes ratio, also suggesting increased energy production, and their gut microbiota was characterized by Lactococcus, which has been associated with folate biosynthesis. On the basis of these patterns, it appears that the gut microbiota differentially contributes to howler monkey nutrition during reproduction and growth. Determining the nutritional and energetic importance of shifts in activity, diet, and the gut microbiota in other nonhuman primate taxa, as well as humans, will transform our understanding of these life history processes and the role of host‐microbe relationships in primate evolution. Am J Phys Anthropol 155:652–664, 2014. © 2014 Wiley Periodicals, Inc.     

Marked seasonal variation in the wild mouse gut microbiota

Recent studies have provided an unprecedented view of the microbial communities colonizing captive mice; yet the host and environmental factors that shape the rodent gut microbiota in their natural habitat remain largely unexplored. Here, we present results from a 2-year 16 S ribosomal RNA gene sequencing-based survey of wild wood mice (Apodemus sylvaticus) in two nearby woodlands. Similar to other mammals, wild mice were colonized by 10 bacterial phyla and dominated by the Firmicutes, Bacteroidetes and Proteobacteria. Within the Firmicutes, the Lactobacillus genus was most abundant. Putative bacterial pathogens were widespread and often abundant members of the wild mouse gut microbiota. Among a suite of extrinsic (environmental) and intrinsic (host-related) factors examined, seasonal changes dominated in driving qualitative and quantitative differences in the gut microbiota. In both years examined, we observed a strong seasonal shift in gut microbial community structure, potentially due to the transition from an insect- to a seed-based diet. This involved decreased levels of Lactobacillus, and increased levels of Alistipes (Bacteroidetes phylum) and Helicobacter. We also detected more subtle but statistically significant associations between the gut microbiota and biogeography, sex, reproductive status and co-colonization with enteric nematodes. These results suggest that environmental factors have a major role in shaping temporal variations in microbial community structure within natural populations.     

Bacterial community composition of the gut microbiota of <Emphasis Type="Italic">Cylindroiulus fulviceps</Emphasis> (diplopoda) as revealed by molecular fingerprinting and cloning

Bacterial clone libraries of the gut microbiota of nurtured and starved Cylindroiulus fulviceps specimens displayed the predominance of the phyla Bacteroidetes (55 and 37 %, respectively) and Proteobacteria (40 and 35 %, respectively) and a high similarity to bacteria previously detected in the intestinal tract of termites and beetles, which are known to harbor symbiotic bacteria essential for digestive activity. Bacterial isolates were dominated by Proteobacteria (74 %), followed by members of the phyla Actinobacteria, Firmicutes and Bacteroidetes. PCR-DGGE fingerprints of the gut samples showed that intestinal bacteria were affected by starvation, although the change was not significant.     

Real-time PCR quantification of the predominant bacterial divisions in the distal gut of Meishan and Landrace pigs

Firmicutes and Bacteroidetes are closely related to body fat in humans and mice, which are the two dominant bacterial divisions of gut microbiota in mammals. Here real-time PCR analysis indicated that Meishan pigs had a 34% reduction in percentage Bacteroidetes (P=0.008) and a significantly lower proportion of Bacteroides (P=0.013) than Landrace pigs. The percentage of Bacteroidetes or Bacteroides had a negative correlation with body fat (R(2) was 0.63 for Bacteroidetes and 0.57 for Bacteroides, P<0.05). There was a trend that the percentage of Firmicutes in Meishan pigs was higher in numerical value than in Landrace pigs, although this difference was not statistically significant (P=0.290) between the two breeds. These suggested that body fat correlated with the percentage of Bacteroidetes division of the gut microbiota in the common pig breeds, and the differences of gut microbial ecology in obese versus lean animals may be analogous.     

Seasonal variation in structure and function of gut microbiota in Pomacea canaliculata

Gut microbiota is associated with host health and its environmental adaption, influenced by seasonal variation. Pomacea canaliculata is one of the world''s 100 worst invasive alien species. Here, we used high‐throughput sequencing of the 16S rRNA gene to analyze the seasonal variation of gut microbiota of P. canaliculata. The results suggested that the predominant gut microbial phyla of P. canaliculata included Firmicutes and Proteobacteria, which helped digest plant food and accumulate energy. The gut microbiota of P. canaliculata in summer group showed the highest diversity, whereas the winter group possessed the lowest, probably due to the shortage of food resources of P. canaliculata in winter. Principal coordinate analysis analysis based on unweighted unifrac and weighted unifrac indicated that the composition of gut microbiota of P. canaliculata significantly varied across seasons. Bacteroidetes tended to be enriched in summer by linear discriminant analysis effect size analysis. Actinobacteria and Cyanobacteria were extremely abundant in autumn, while Fusobacteria and Cetobacterium enriched in winter. In conclusion, the structure of the gut microbiota of P. canaliculata was significantly different among seasons, which was beneficial to the environment adaptation and the digestion and metabolism of food during different periods.