Bacterial Density and Community Structure Associated with Aggregate Size Fractions of Soil-Feeding Termite Mounds

The building and foraging activities of termites are known to modify soil characteristics such as the heterogeneity. In tropical savannas the impact of the activity of soil-feeding termites (Cubitermes niokoloensis) has been shown to affect the properties of the soil at the aggregate level by creating new soil microenvironments (aggregate size fractions) [13]. These changes were investigated in greater depth by looking at the microbial density (AODC) and the genetic structure (automated rRNA intergenic spacer analysis: ARISA) of the communities in the different aggregate size fractions (i.e., coarse sand, fine sand, coarse silt, fine silt, and dispersible clays) separated from compartments (internal and external wall) of three Cubitermes niokoloensis mounds. The bacterial density of the mounds was significantly higher (1.5 to 3 times) than that of the surrounding soil. Within the aggregate size fractions, the termite building activity resulted in a significant increase in bacterial density within the coarser fractions (>20 m). Multivariate analysis of the ARISA profiles revealed that the bacterial genetic structures of unfractionated soil and soil aggregate size fractions of the three mounds was noticeably different from the savanna soil used as a reference. Moreover, the microbial community associated with the different microenvironments in the three termite mounds revealed three distinct clusters formed by the aggregate size fractions of each mound. Except for the 2–20 m fraction, these results suggest that the mound microbial genetic structure is more dependent upon microbial pool affiliation (the termite mound) than on the soil location (aggregate size fraction). The causes of the specificity of the microbial community structure of termite mound aggregate size fractions are discussed.This revised version was published online in November 2004 with corrections to Volume 48.     

油莎豆SRAP指纹图谱构建及遗传多样性分析

利用SRAP分子标记构建了14份不同地理来源、表型具有差异的油莎豆品系的分子指纹图谱并进行遗传多样性分析。结果表明100对引物中共有多态性引物42对,扩增出多态性带328条,平均每对引物7.8条。28对引物在12个品系上具有特征谱带,除品系4和14外,均可用1对引物进行鉴定;采用引物组合法仅用Me2/Em6和Me8/Em11这2对引物就可将14份材料区分开,并利用这2对引物构建了上述品系的数字指纹图谱。UPGMA聚类分析表明,所有参试材料间的遗传距离在0.12～0.75之间,平均为0.42,表明我国不同地理来源的油莎豆品系遗传差异较大,具有较为丰富的遗传多样性。     

The Genetic Structure and Evolutionary Fate of Parthenogenetic Amphibian Populations as Determined by Markovian Analysis

SYNOPSIS. One-locus, two-allele models are presented which describethe genetic consequences of naturally occurring andexperimentallyinduced parthenogesis in triploid and diploid amphibians. Themodels may in general be used to investigate genetic changeresulting from apomictic (ameiotic) and automictic (meiotic)parthenogenetic reproduction. These models quantify the influence of mutation, segregation,and selection upon genetic variability in parthenogeneticpopulations.They also allow an estimate of the relative importance of stochasticforces in altering this variability. They thus provide a basisfor understanding evolution in these populations. Some of the conclusions derived from this study contradict previouspredictions regarding genetic variability in parthenogeneticpopulations. First, if mutation is the sole source of geneticchange (i.e., strict apomixis), parthenogenetic populationsshould not become completely heterozygous. Second, small amountsof segregation occurring in apomictic populations have enormouseffects upon the genetic variability of these populations, i.e.,they should lose much of their heterozygosity. In addition to these conclusions, the results of this studysuggest that studies of protein variability in parthenogeneticspecies should contribute toward answering the question: Howmuch of the genetic variability observed in nature is evolutionarilyrelevant?     

用RISA法评估地下水细菌群落结构差异及变化

提出运用RISA法从细菌群落角度对垃圾填埋场地下水生态系统的空间异质性进行定量分析。RISA图谱的相似度聚类分析表明 :与随时间产生的变化相比 ,细菌群落在空间上的差异更大 ;同批取样不同位置和深度的地下水RISA图谱存在明显差异 ,整体上在 6 0 %～ 70 %相似度聚类。     

(GTG)5探针产生的DNA指纹图在近交系小鼠遗传检测中的应用

目的探讨用非放射性标记的寡聚核苷酸探针(GTG)5进行近交系小鼠的DNA指纹分析。方法用非放射性标记的寡聚核苷酸探针(GTG)5制作BALB/c、C57BL/6J、DBA/2、C3H近交系小鼠的DNA指纹图,对这四个品系的小鼠进行遗传检测,分析各品系内和品系间的遗传变异性。结果(GTG)5探针可产生具有良好多态性的DNA指纹图,平均图带数为8~12条。各品系内的DNA指纹图平均相似系数(-x)在0.96~1.00的范围内,具有相同指纹图的概率(P)均在3.1×10-1以上,极显著地高于品系间的相似系数(0.22~0.39)和相同指纹图的概率(P<1.07×10-4)。结论(GTG)5可用于制作近交系小鼠的DNA指纹图以对其进行遗传检测。     

Monitoring Impact of a Pesticide Treatment on Bacterial Soil Communities by Metabolic and Genetic Fingerprinting in Addition to Conventional Testing Procedures

Herbogil (dinoterb), a reference herbicide, the mineral oil Oleo (paraffin oil used as an additive to herbicides), and Goltix (metamitron) were taken as model compounds for the study of impacts on microbial soil communities. After the treatment of soil samples, effects on metabolic sum parameters were determined by monitoring substrate-induced respiration (SIR) and dehydrogenase activity, as well as carbon and nitrogen mineralization. These conventional ecotoxicological testing procedures are used in pesticide registration. Inhibition of biomass-related activities and stimulation of nitrogen mineralization were the most significant effects caused by the application of Herbogil. Even though Goltix and Oleo were used at a higher dosage (10 times higher), the application of Goltix resulted in smaller effects and the additive Oleo was the least-active compound, with minor stimulation of test parameters at later observation times. The results served as a background for investigation of the power of “fingerprinting” methods in microbial ecology. Changes in catabolic activities induced by treatments were analyzed by using the 95 carbon sources provided by the BIOLOG system. Variations in the complex metabolic fingerprints demonstrated inhibition of many catabolic pathways after the application of Herbogil. Again, the effects of the other compounds were expressed at much lower levels and comprised stimulations as well as inhibitions. Testing for significance by a multivariate t test indicated that the sensitivity of this method was similar to the sensitivities of the conventional testing procedures. The variation of sensitive carbon sources, as determined by factor weights at different observation times, indicated the dynamics of the community shift induced by the Herbogil treatment in more detail. DNA extractions from soil resulted in a collection of molecules representing the genetic composition of total bacterial communities. Distinct and highly reproducible community patterns, or genetic fingerprints, resulting from application of the different herbicides were obtained by the sequence-specific separation of partial 16S rDNA amplification products in temperature gradient gel electrophoresis. Significant pattern variations were quantified. For detailed analysis, application-responsive bands from the Herbogil and Oleo treatments were sequenced and their tentative phylogenetic positions were identified. Data interpretation and the potentials and biases of the additional observation windows on microbial communities are discussed.     

Relationships between Soil Organic Status and Microbial Community Density and Genetic Structure in Two Agricultural Soils Submitted to Various Types of Organic Management

The effects of soil organic management on indigenous microorganisms were studied by comparing mulching straw (S), conifer compost (CC), and conifer bark (CB) as well as grass landing with grass (G), clover (Cl), and fescue (F) in a silty–clay soil (Macon), and by incorporating vine shoot (VS) and single and double doses of farmyard manure (FM) and mushroom manure (MM) in a calcareous sandy soil (Chinon). Soil physicochemical and microbial characteristics were assessed at each site at two depths by sampling at 0–5 and 5–20 cm for the Macon site and 0–10 and 10–20 cm for the Chinon site. Changes in the quantity of soil organic matter (SOM), through an increase in C_org and N_org contents, and in its quality, through modifications in the C/N and humic acid/fulvic acid ratios, were essentially recorded at the surface layer of treated plots with differential magnitudes according to the inputs and soil type. Quantitative modifications in microbial communities were assessed by means of C-biomass measurements and resulted in an increase in microbial densities fitted with the increase of C_org and N_org contents. However, the deduced C incorporation in microbial biomass was negatively correlated with the C/N ratio, demonstrating a strong influence of the type of organic management on the rate of microbial processes. Qualitative modifications in microbial communities were evaluated by the characterization of the genetic structure of bacterial and fungal communities from DNA directly extracted from the soil, using bacterial and fungal automated ribosomal intergenic spacer analysis. Organic amendments led to changes in the bacterial and fungal communities of both sites. However, the magnitude and the specificity of these changes were different between sites, organic amendments, and microorganisms targeted, revealing that the impact of organic management is dependent on the soil and organic input types as well as on the particular ecology of microorganisms. A co-inertia analysis was performed to specify the role of the quantity and quality of SOM on the modifications of the genetic structure. A significant costructure was only observed for Macon plots at 0–5 cm between the bacterial genetic structure and the SOM characteristics, demonstrating the influence of the relative amount of the different humic substances (humic and fulvic acids) on microbial composition.     

Detection and Enumeration of a Tagged Pseudomonas fluorescens Strain by Using Soil with Markers Associated with an Engineered Catabolic Pathway

Previously we described a novel gene tagging method, using the moc (mannityl opine catabolism) region from the Agrobacterium tumefaciens Ti plasmid pTi15955, to identify microorganisms destined for release into the environment. Here, we used the engineered strain Pseudomonas fluorescens PF5MT12 carrying the moc region integrated into the bacterial chromosome to demonstrate the usefulness of the markers for detection and direct selection of marked organisms present in soil samples. Using this system, we routinely detected population levels as low as 10(sup2) CFU per g of soil sampled. In addition to direct selection, we developed an immunologically based assay using MOP cyclase, a unique enzyme associated with moc, as the epitope for detecting the tagged organism. The colony immunoblot assay proved to be highly specific and without any false-positive signals when used to identify organisms cultured from soil on nonselective medium. The numbers of colonies that were immunoreactive with the anti-MOP cyclase antibody were essentially equal to those that grew out on selection plates. This indicates that MOP cyclase can be used as a marker and that we can use nonselective medium to retrieve the marked genetically engineered microorganisms and then identify them by using colony immunoblot assays. These direct selection and colony immunoblot methods provide a sensitive and accurate strategy for identifying and enumerating marked organisms recovered from soil samples. We also developed a rapid assay for MOP cyclase that does not require cell permeabilization with toluene. This assay can be used to verify tagged organisms isolated by other methods or to screen large numbers of colonies for the tag following nonselective isolation.     

The Genetic Structure of Oreochromis spp. (Tilapia) Populations in Malaysia as Revealed by Microsatellite DNA Analysis

The genetic make-up of five populations of Oreochromis spp. was examined by microsatellite analysis. Eleven polymorphic microsatellite loci showed significant departures from the Hardy-Weinberg equilibrium. The mean heterozygosity ranged from 0.6280 to 0.7040 for each population. The genetic distance values showed a clear separation between O. niloticus and O. mossambicus. The differentiation of the O. niloticus populations was then tested with various genetic measures, which are based on both the Infinite Allele and the Stepwise Mutation models. All these measures grouped the populations similarly.     

Genetic Relationships Among Wild and Cultivated Accessions of Curry Leaf Plant (Murraya koenigii (L.) Spreng.), as Revealed by DNA Fingerprinting Methods

Murraya koenigii (L.) Spreng. (Rutaceae), is an aromatic plant and much valued for its flavor, nutritive and medicinal properties. In this study, three DNA fingerprinting methods viz., random amplification of polymorphic DNA (RAPD), directed amplification of minisatellite DNA (DAMD), and inter-simple sequence repeat (ISSR), were used to unravel the genetic variability and relationships across 92 wild and cultivated M. koenigii accessions. A total of 310, 102, and 184, DNA fragments were amplified using 20 RAPD, 5 DAMD, and 13 ISSR primers, revealing 95.80, 96.07, and 96.73% polymorphism, respectively, across all accessions. The average polymorphic information content value obtained with RAPD, DAMD, and ISSR markers was 0.244, 0.250, and 0.281, respectively. The UPGMA tree, based on Jaccard’s similarity coefficient generated from the cumulative (RAPD, DAMD, and ISSR) band data showed two distinct clusters, clearly separating wild and cultivated accessions in the dendrogram. Percentage polymorphism, gene diversity (H), and Shannon information index (I) estimates were higher in cultivated accessions compared to wild accessions. The overall high level of polymorphism and varied range of genetic distances revealed a wide genetic base in M. koenigii accessions. The study suggests that RAPD, DAMD, and ISSR markers are highly useful to unravel the genetic variability in wild and cultivated accessions of M. koenigii.     

The Mammalian DNA Replication Elongation Checkpoint: Implication of Chk1 and Relationship with Origin Firing as Determined by Single DNA Molecule and Single Cell Analyses

The regulation of DNA replication initiation is well documented, for both unperturbed and damaged cells. The regulation of elongation, or fork velocity, however, has only recently been revealed with the advent of new techniques allowing us to view DNA replication at the single cell and single DNA molecule levels. Normally in S phase, the progression of replication forks and their stability are regulated by the ATR-Claspin-Chk1 pathway. We recently showed that replication fork velocity varies across the human genome in normal and cancer cells, but that the velocity of a given fork is positively correlated with the distance between origins on the same DNA fiber. Accordingly, in DNA replication-deficient Bloom’s syndrome cells, reduced fork velocity is associated with an increased density of replication origins. Replication elongation is also regulated in response to DNA damage. In human colon carcinoma cells treated with the topoisomerase I inhibitor camptothecin, DNA replication is inhibited both at the level of initiation and at the level of elongation through a Chk1-dependent checkpoint mechanism. Together, these new findings demonstrate that replication fork velocity (fork progression) is coordinated with inter-origin distance and that it can be actively slowed down by Chk1-dependent mechanisms in response to DNA damage. Thus, we propose that the intra-S phase checkpoint consist of at least three elements: (1) stabilization of damaged replication forks; (2) suppression of firing of late origins; and (3) arrests of normal ongoing forks to prevent further DNA lesions by replication of a damaged DNA template.     

Enumeration and Localization of N(2)-Fixing Bacteria Associated with Roots of Spartina alterniflora Loisel

Numbers and possible locations of N(2)-fixing bacteria were investigated in roots of Spartina alterniflora Loisel, which support nitrogenase activity in the undisturbed native habitat. N(2)-fixing bacteria were recovered in cultures both from S. alterniflora roots and from the surrounding sediment, and they formed a greater proportion of the bacteria recovered from root homogenates than from salt-marsh sediment. N(2)-fixing bacteria were recovered in high numbers from the rhizoplane of S. alterniflora after roots were treated with 1 or 5% chloramine-T for 1 h or with 1% NaOCl for 1 or 2 h. Immersing S. alterniflora roots in 5% NaOCl for 1 h was more effective in distinguishing bacteria inside the roots since this treatment nearly eliminated N(2)-fixing bacteria recoverable from the rhizoplane, although high numbers of N(2)-fixing bacteria were recovered from homogenates of roots treated with 5% NaOCl for 1 h. However, this treatment was less effective with roots of Zea mays L. (Funks G4646) and Sorghum bicolor (L.) Moench (CK-60 A), indicating that techniques to surface sterilize roots should be evaluated for different plants. Bacteria were observed by light and electron microscopy inter- and intracellularly in the cortex and in the aerenchyma of S. alterniflora roots. This study clearly shows that bacteria, including N(2) fixers, colonize the interior of roots of S. alterniflora growing in a Chesapeake Bay, Maryland, salt marsh.     

Detection and Enumeration of a Tagged Pseudomonas fluorescens Strain from Soil by Using Markers Associated with an Engineered Catabolic Pathway

Volume 63, no. 2, p. 602: the article title should read as shown above. [This corrects the article on p. 602 in vol. 63.].     

河北区试小麦品种(系)DNA指纹图谱构建及遗传差异分析

采用42个SSR标记为2009-2013年河北省区域试验的70份小麦品种(系)构建DNA指纹图谱,进行遗传差异分析,为小麦品种改良和种质资源创新提供参考。结果表明,42个SSR标记在70份品种(系)中共检测到303个等位变异,单个SSR位点的平均等位变异为7.21个,PIC值平均0.69;基因多样性平均0.73,遗传相似系数变化范围为0.05-1.00,平均0.28;表明参加河北省区域试验的品种(系)间存在不同程度的遗传差异。聚类分析把70份品种(系)划分为4大类,6个亚类,表明同一育种单位或地区品种(系)遗传背景相近,应该加大外来小麦种质资源的引进和利用力度。     

Fingerprinting of Mixed Bacterial Strains and BIOLOG Gram-Negative (GN) Substrate Communities by Enterobacterial Repetitive Intergenic Consensus Sequence-PCR (ERIC-PCR)

PCR-based genomic fingerprinting by use of enterobacterial repetitive intergenic consensus primers (ERIC-PCR) was evaluated for its use in fingerprinting DNA of mixed Gram-negative bacterial strains and BIOLOG Gram-negative (GN) microplate substrate communities. ERIC-PCR fingerprints of six different pure bacterial strains and a combined mixture of the strains were compared with fingerprints obtained by two more established methods: amplified ribosomal DNA restriction analysis (ARDRA) and random amplified polymorphic DNA analysis (RAPD-PCR). The ERIC-PCR fingerprint of the mixed strains was highly reproducible and was more species-specific and representative of the individual strain fingerprints than the ARDRA and RAPD-PCR fingerprints, respectively. ERIC-PCR fingerprinting of model and rhizosphere BIOLOG GN substrate communities also provided clearly distinguishable fingerprints. Results of this study suggest that ERIC-PCR represents a rapid and highly discriminating method for fingerprinting DNA of mixed Gram-negative bacterial strains and BIOLOG GN substrate communities. Received: 11 September 1998 / Accepted: 29 October 1998     

Diversity and Seasonal Fluctuations of the Dominant Members of the Bacterial Soil Community in a Wheat Field as Determined by Cultivation and Molecular Methods

There is a paucity of knowledge on microbial community diversity and naturally occurring seasonal variations in agricultural soil. For this purpose the soil microbial community of a wheat field on an experimental farm in The Netherlands was studied by using both cultivation-based and molecule-based methods. Samples were taken in the different seasons over a 1-year period. Fatty acid-based typing of bacterial isolates obtained via plating revealed a diverse community of mainly gram-positive bacteria, and only a few isolates appeared to belong to the Proteobacteria and green sulfur bacteria. Some genera, such as Micrococcus, Arthrobacter, and Corynebacterium were detected throughout the year, while Bacillus was found only in July. Isolate diversity was lowest in July, and the most abundant species, Arthrobacter oxydans, and members of the genus Pseudomonas were found in reduced numbers in July. Analysis by molecular techniques showed that diversity of cloned 16S ribosomal DNA (rDNA) sequences was greater than the diversity among cultured isolates. Moreover, based on analysis of 16S rDNA sequences, there was a more even distribution among five main divisions, Acidobacterium, Proteobacteria, Nitrospira, cyanobacteria, and green sulfur bacteria. No clones were found belonging to the gram-positive bacteria, which dominated the cultured isolates. Seasonal fluctuations were assessed by denaturing gradient gel electrophoresis. Statistical analysis of the banding patterns revealed significant differences between samples taken in different seasons. Cluster analysis of the patterns revealed that the bacterial community in July clearly differed from those in the other months. Although the molecule- and cultivation-based methods allowed the detection of different parts of the bacterial community, results from both methods indicated that the community present in July showed the largest difference from the communities of the other months. Efforts were made to use the sequence data for providing insight into more general ecological relationships. Based on the distribution of 16S rDNA sequences among the bacterial divisions found in this work and in literature, it is suggested that the ratio between the number of Proteobacteria and Acidobacterium organisms might be indicative of the trophic level of the soil.     

Shifts in Social Structure of Black Howler (Alouatta pigra) Groups Associated with Natural and Experimental Variation in Population Density

We examined variation in the group structure of black howlers (Alouatta pigra) using the adult composition of 48 social groups. We compared the structure of groups at 5 sites with different population densities and variation in group structure over time with rising population density. In addition, we examined changes in the group structure of monkeys that were translocated from an area of high population density to an area with a much lower population density. We found at low population densities, groups comprised either heterosexual pairs or a single male with two females. At high population densities groups tended to be multimale and often contained >2 adult females. We suggest the relative costs and benefits of dispersal by maturing adults varies with population density, and in Alouatta pigra results in a shift from single to multimale groups of larger size with increasing population density.     

RISA法对生物强化处理油脂废水的效应评估

目的:建立对投菌生物强化处理废水的效应评估方法。方法:在流化床生物反应器系统处理油脂废水过程中,投加高效油脂降解菌进行强化处理,采用RISA法对生物强化处理油脂废水的效应进行了评估。结果:投加强化菌后,载体表面的球形菌明显增加,丝状菌减少;油脂去除率提高了15%~21%,CODCr去除率提高了20%~23.5%;RISA分析表明,投加的强化菌5d后在系统中还能被检测到,但在第8d时,强化菌的特征谱带已检测不到。结论:投加的强化菌对系统原有菌群结构产生的影响很小;本实验数据可为生物强化技术应用于实际污水处理提供参考。     

Ploidy Level and DNA Content of Erianthus arundinaceus as Determined by Flow Cytometry and the Association with Biological Characteristics

Erianthus arundinaceus is not only an important germplasm resource for sugarcane breeding but also a potential bioenergy plant. Making clear the distribution of the chromosome ploidy of wild E. arundinaceus in china is the premise of the research and utilization of this species. Therefore, the objectives of this study were to determine the ploidy level and DNA content of the 55 E. arundinaceus accessions using flow cytometry and to identify the correlation between ploidy and phenotypic traits. Among the 55 accessions, four tetraploids and 51 hexaploids were identified. The four tetraploids originated from Mengma Yunnan, Shuangjiang Yunnan, Gaozhou Guangdong and Chengle Sichuan. The mean DNA content was 4.82 pg/2C for the tetraploid and 7.30 pg/2C for the hexaploid plants. The ploidy was negatively correlated with cellulose content and positively correlated (P<0.05) with plant height, stem diameter, leaf width, dry weight per plant, fresh weight per plant and hemicellulose content. However, ploidy was not correlated with leaf length, tiller number and the ratio of dry weight and fresh weight. This study will be useful for revealing the distribution of the ploidy of wild E. arundinaceus in Chin, traits markers analysis, and utilization of this species, such as cultivar improvement and sugarcane breeding in the future.     

Genetic Diversity and Species-Diagnostic Markers of Mud Crabs (Genus Scylla) in Eastern Thailand Determined by RAPD Analysis

Genetic diversity of three mud crab species, Scylla serrata (Forsk?l), S. oceanica (Dana), and S. tranquebarica (Fabricius), collected from two locations in eastern Thailand (Chanthaburi and Trat) was examined by randomly amplified polymorphic DNA-polymerase chain reaction (RAPD-PCR). Ninety-one reproducible RAPD fragments, generated by UBC456, UBC457, and YNZ22, were polymorphic. The percentage of polymorphic bands within populations ranged from 47.92% to 77.59%. Species-specific RAPD markers were also observed and used to construct a molecular diagnostic key in these taxa. Large genetic differences between species were found (D(ij) = 0.425 to 0.751), whereas those between populations within each species were much lower (D(ij) = 0.171 to 0.199). The neighbor-joining tree based on genetic distances among pairs of individuals indicated three distinct groups, corresponding to S. serrata, S. oceanica, and S. tranquebarica. No genotypes were shared among these three species. This suggests the absence of genetic exchanges between sympatric mud crab species in eastern Thailand. Therefore, mud crabs in this area should be recognized as three different species rather than a single panmictic species exhibiting different morphs.