云南土壤宏基因组文库中替加环素耐药基因的筛选与分析

[背景]随着抗生素的广泛应用以及滥用,出现了多重耐药的"超级细菌",并且在临床上已出现对治疗"超级细菌"感染的最后一线抗生素——替加环素耐药的细菌.[目的]对土壤环境中存在的替加环素耐药基因进行筛选调查,探讨替加环素耐药机制,为临床抗生素治疗提供借鉴.[方法]利用功能宏基因组学技术对土壤宏基因组文库进行替加环素耐药阳性...     

土壤宏基因组文库来源酯酶的鉴定与表征

【目的】利用宏基因组学技术挖掘土壤微生物来源的新型酯酶。【方法】构建土壤微生物宏基因组文库,利用三丁酸甘油酯平板法对所构建的文库进行筛选,并对阳性克隆中鉴定出的酯酶基因进行异源表达和生物化学特性分析。【结果】通过筛选文库中的12万个克隆,获得了一个阳性克隆,对克隆中的DNA片段进行序列分析,发现了一个可能的酯酶基因,通过研究其表达产物,确定其最适pH为9.0,最适反应温度为56°C,在90°C下仍可保持20%的酶活性;能专一性水解短链脂类,对长链脂类无水解作用;对一定浓度范围内的有机试剂如二甲基亚砜、甲醇、乙醇有较好的耐受性,尤其当二甲基亚砜含量为10%(体积比)时,相对酶活可提高44%。【结论】不依赖于微生物可培养性的宏基因组学技术可以发现新的活性酶,本研究获得的对高温、有机试剂有较好耐受性的酯酶ESTYN1具有在工业生产中应用的潜力。     

Chitinase genes revealed and compared in bacterial isolates, DNA extracts and a metagenomic library from a phytopathogen-suppressive soil

Soil that is suppressive to disease caused by fungal pathogens is an interesting source to target for novel chitinases that might be contributing towards disease suppression. In this study, we screened for chitinase genes, in a phytopathogen-suppressive soil in three ways: (1) from a metagenomic library constructed from microbial cells extracted from soil, (2) from directly extracted DNA and (3) from bacterial isolates with antifungal and chitinase activities. Terminal restriction fragment length polymorphism (T-RFLP) of chitinase genes revealed differences in amplified chitinase genes from the metagenomic library and the directly extracted DNA, but approximately 40% of the identified chitinase terminal restriction fragments (TRFs) were found in both sources. All of the chitinase TRFs from the isolates were matched to TRFs in the directly extracted DNA and the metagenomic library. The most abundant chitinase TRF in the soil DNA and the metagenomic library corresponded to the TRF¹⁰³ of the isolate Streptomyces mutomycini and/or Streptomyces clavifer . There were good matches between T-RFLP profiles of chitinase gene fragments obtained from different sources of DNA. However, there were also differences in both the chitinase and the 16S rRNA gene T-RFLP patterns depending on the source of DNA, emphasizing the lack of complete coverage of the gene diversity by any of the approaches used.     

Evaluation of functional gene enrichment in a soil metagenomic clone library

We evaluated the use of mixed oligonucleotide probes hybridized to metagenomic clones spotted on high density membranes. The pooled probes included oligonucleotides designed for genes associated with denitrification, antibiotic resistance, and dehalogenation among others. Pyrosequence comparison between the clones and the original DNA demonstrated the utility of clone screening with pooled probes.     

MyTaxa: an advanced taxonomic classifier for genomic and metagenomic sequences

Determining the taxonomic affiliation of sequences assembled from metagenomes remains a major bottleneck that affects research across the fields of environmental, clinical and evolutionary microbiology. Here, we introduce MyTaxa, a homology-based bioinformatics framework to classify metagenomic and genomic sequences with unprecedented accuracy. The distinguishing aspect of MyTaxa is that it employs all genes present in an unknown sequence as classifiers, weighting each gene based on its (predetermined) classifying power at a given taxonomic level and frequency of horizontal gene transfer. MyTaxa also implements a novel classification scheme based on the genome-aggregate average amino acid identity concept to determine the degree of novelty of sequences representing uncharacterized taxa, i.e. whether they represent novel species, genera or phyla. Application of MyTaxa on in silico generated (mock) and real metagenomes of varied read length (100–2000 bp) revealed that it correctly classified at least 5% more sequences than any other tool. The analysis also showed that ∼10% of the assembled sequences from human gut metagenomes represent novel species with no sequenced representatives, several of which were highly abundant in situ such as members of the Prevotella genus. Thus, MyTaxa can find several important applications in microbial identification and diversity studies.     

Identification and characterization of a novel cold-adapted esterase from a metagenomic library of mountain soil

A novel lipolytic enzyme was isolated from a metagenomic library after demonstration of lipolytic activity on an LB agar plate containing 1% (w/v) tributyrin. A novel esterase gene (estIM1), encoding a lipolytic enzyme (EstIM1), was cloned using a shotgun method from a pFosEstIM1 clone of the metagenomic library, and the enzyme was characterized. The estIM1 gene had an open reading frame (ORF) of 936 base pairs and encoded a protein of 311 amino acids with a molecular mass 34 kDa and a pI value of 4.32. The deduced amino acid sequence was 62% identical to that of an esterase from an uncultured bacterium (ABQ11271). The amino acid sequence indicated that EstIM1 was a member of the family IV of lipolytic enzymes, all of which contain a GDSAG motif shared with similar enzymes of lactic acid microorganisms. EstIM1 was active over a temperature range of 1–50°C, at alkaline pH. The activation energy for hydrolysis of p-nitrophenyl propionate was 1.04 kcal/mol, within a temperature range of 1–40°C. The activity of EstIM1 was about 60% of maximal even at 1°C, suggesting that EstIM1 is efficiently cold-adapted. Further characterization of this cold-adapted enzyme indicated that the esterase may be very valuable in industrial applications.     

Isolation of antibiotics turbomycin a and B from a metagenomic library of soil microbial DNA

To access the genetic and biochemical potential of soil microorganisms by culture-independent methods, a 24,546-member library in Escherichia coli with DNA extracted directly from soil had previously been constructed (M. R. Rondon, P. R. August, A. D. Bettermann, S. F. Brady, T. H. Grossman, M. R. Liles, K. A. Loiacono, B. A. Lynch, I. A. MacNeil, M. S. Osburne, J. Clardy, J. Handelsman, and R. M. Goodman, Appl. Environ. Microbiol. 66:2541-2547, 2000). Three clones, P57G4, P89C8, and P214D2, produced colonies with a dark brown melanin-like color. We fractionated the culture supernatant of P57G4 to identify the pigmented compound or compounds. Methanol extracts of the acid precipitate from the culture supernatant contained a red and an orange pigment. Structural analysis revealed that these were triaryl cations, designated turbomycin A and turbomycin B, respectively; both exhibited broad-spectrum antibiotic activity against gram-negative and gram-positive organisms. Mutagenesis, subcloning, and sequence analysis of the 25-kb insert in P57G4 demonstrated that a single open reading frame was necessary and sufficient to confer production of the brown, orange, and red pigments on E. coli; the predicted product of this sequence shares extensive sequence similarity with members of the 4-hydroxyphenylpyruvate dioxygenase (4HPPD) family of enzymes. Another member of the same family of genes, lly, which is required for production of the hemolytic pigment in Legionella pneumophila, also conferred production of turbomycin A and B on E. coli. We further demonstrated that turbomycin A and turbomycin B are produced from the interaction of indole, normally secreted by E. coli, with homogentisic acid synthesized by the 4HPPD gene products. The results demonstrate successful heterologous expression of DNA extracted directly from soil as a means to access previously uncharacterized small organic compounds, serving as an example of a chimeric pathway for the generation of novel chemical structures.     

从植物共生菌宏基因组文库筛选新的生物催化酶基因

【目的】通过建立宏基因组文库的高通量保存与基于探针洗脱的多次膜杂交筛选方法,从植物共生菌宏基因组文库筛选具有生物催化潜力的新酶基因。【方法】首先根据滴度将初始文库噬菌体包装颗粒感染到EPI300-T1R E.coli,过夜培养后对应保存于96孔板;提取粘粒进行文库的杂交筛选。【结果】描述的洗脱条件可完全去除尼龙膜上与靶DNA结合的探针,并且尼龙膜上的靶DNA至少可用于7次探针杂交,从而明显提高宏基因组文库的筛选效率。【结论】以Enoate reductase(ER)和短链脱氢酶(SDR)的同源基因片段为探针,运用该方法经两轮筛选获得候选单克隆并进行了部分粘粒的测序,发现了新的ER和SDR同源基因,并克隆到相应的全长基因序列用于后续的表达与酶化学研究。     

Isolation and characterization of a family VII esterase derived from alluvial soil metagenomic library

A novel esterase gene, estDL30, was isolated from an alluvial metagenomic library using function-driven screening. estDL30 consisted of 1,524 nucleotides and encoded a 507-amino acid protein. Sequence analysis revealed that EstDL30 is similar to many type B carboxylesterases, containing a G-E-S-A-G pentapeptide with a catalytic Ser residue. Phylogenetic analysis suggested that EstDL30 belongs to the family VII lipases, together with esterases from Bacillus subtilis (P37967), Streptomyces coelicolor A3(2) (CAA22794), and Arthrobacter oxydans (Q01470). Purified EstDL30 showed its highest catalytic efficiency toward p-nitrophenyl butyrate, with a k _cat of 2293 s⁻¹ and k _cat/K _m of 176.4 s⁻¹mM⁻¹; however, little activity was detected when the acyl chain length exceeded C₈. Biochemical characterization of EstDL30 revealed that it is an alkaline esterase that possesses maximal activity at pH 8 and 40° C. The effects of denaturants and divalent cations were also investigated. EstDL30 tolerated well the presence of methanol and Tween 20. Its activity was strongly inhibited by 1 mM Cu²⁺ and Zn²⁺, but stimulated by Fe²⁺. The unique properties of EstDL30, its high activity under alkaline conditions and stability in the presence of organic solvents, may render it applicable to organic synthesis.     

Isolation of xylose isomerases by sequence- and function-based screening from a soil metagenomic library

Background

The recent development of improved enzymes and pentose-using yeast for cellulosic ethanol processes calls for new attention to the lignocellulose pretreatment step. This study assessed the influence of pretreatment pH, temperature, and time, and their interactions on the enzymatic glucose and xylose yields from mildly pretreated wheat straw in multivariate experimental designs of acid and alkaline pretreatments.

Results

The pretreatment pH was the most significant factor affecting both the enzymatic glucose and xylose yields after mild thermal pretreatments at maximum 140°C for 10 min. The maximal enzymatic glucose and xylose yields from the solid, pretreated wheat straw fraction were obtained after pretreatments at the most extreme pH values (pH 1 or pH 13) at the maximum pretreatment temperature of 140°C. Surface response models revealed significantly correlating interactions of the pretreatment pH and temperature on the enzymatic liberation of both glucose and xylose from pretreated, solid wheat straw. The influence of temperature was most pronounced with the acidic pretreatments, but the highest enzymatic monosaccharide yields were obtained after alkaline pretreatments. Alkaline pretreatments also solubilized most of the lignin.

Conclusions

Pretreatment pH exerted significant effects and factor interactions on the enzymatic glucose and xylose releases. Quite extreme pH values were necessary with mild thermal pretreatment strategies (T ≤ 140°C, time ≤ 10 min). Alkaline pretreatments generally induced higher enzymatic glucose and xylose release and did so at lower pretreatment temperatures than required with acidic pretreatments.     

TagCleaner: Identification and removal of tag sequences from genomic and metagenomic datasets

Background

Shared-usage high throughput screening (HTS) facilities are becoming more common in academe as large-scale small molecule and genome-scale RNAi screening strategies are adopted for basic research purposes. These shared facilities require a unique informatics infrastructure that must not only provide access to and analysis of screening data, but must also manage the administrative and technical challenges associated with conducting numerous, interleaved screening efforts run by multiple independent research groups.

Results

We have developed Screensaver, a free, open source, web-based lab information management system (LIMS), to address the informatics needs of our small molecule and RNAi screening facility. Screensaver supports the storage and comparison of screening data sets, as well as the management of information about screens, screeners, libraries, and laboratory work requests. To our knowledge, Screensaver is one of the first applications to support the storage and analysis of data from both genome-scale RNAi screening projects and small molecule screening projects.

Conclusions

The informatics and administrative needs of an HTS facility may be best managed by a single, integrated, web-accessible application such as Screensaver. Screensaver has proven useful in meeting the requirements of the ICCB-Longwood/NSRB Screening Facility at Harvard Medical School, and has provided similar benefits to other HTS facilities.     

Isolation and characterization of a novel organic solvent-tolerant and halotolerant esterase from a soil metagenomic library

Soil metagenome conceals a great variety of unexploited genes for industrially important enzymes. To identify novel genes conferring lipolytic activity, one metagenomic library comprising of 200,000 transformants were constructed. Among the 48,000 clones screened, 19 clones which exhibited lipolytic activity were obtained. After sequence analysis, 19 different lipolytic genes were identified. One of these genes, designated as estWSD, consisted of 1152 nucleotides, encoding a 383-amino-acid protein. Multiple sequence alignment and phylogenetic analysis indicated that EstWSD and its closest homologues may constitute a new family of bacterial lipolytic enzymes. The best substrate for the purified EstWSD among the ρ-nitrophenol esters examined was ρ-nitrophenol butyrate. Recombinant EstWSD displayed a pH optimum of 7.0 and a temperature optimum of 50 °С. This enzyme retained 52% of maximal activity after incubation at 50 °C for 3 h. Furthermore, EstWSD also exhibited salt tolerance with over 51% of its initial activity in the presence of up to 4.5 M NaCl for 1 h. In particular, this enzyme showed remarkable stability in 15% and 30% dimethylsulfoxide, ρ-xylene, hexane, heptane, and octane even after incubation for 72 h. To our knowledge, it is the first report to find a novel esterase belonging to a new lipolytic family and possessing such variety of excellent features. All these characteristics suggest that EstWSD may be a potential candidate for application in industrial processes.     

A small-insert bovine genomic library highly enriched for microsatellite repeat sequences

A bovine genomic phagemid library was constructed with randomly sheared DNA. Enrichment of this single-stranded DNA library with CA or GT primers resulted in 45% positive clones. The 14% of positive clones with (CA · GT)>12, and not containing flanking repetitive elements, were sequenced, and the efficiency of marker production was compared with random M13 bacteriophage libraries. Primer sequences and genotyping information are presented for 390 informative bovine microsatellite markers. The genomic frequency for 11 tri- and tetranucleotide repeats was estimated by hybridization to a lambda genomic library. Only GCT, GGT, and GGAT were estimated to have a frequency of >100 per genome. Enrichment of the phagemid library for these repeats failed to provide a viable source of microsatellite markers in the bovine. Comparison of map interval lengths between 100 markers from the enriched library prepared from randomly sheared DNA and M13 bacteriophage libraries prepared from Mbo1 restriction digests suggested no bias in skeletal genomic coverage based on source of small insert DNA. In conclusion, enrichment of the bovine phagemid library provides a sufficient source of microsatellites so that small repeat lengths and flanking repetitive sequences common in the bovine can be eliminated, resulting in a high percentage of informative markers.The nucleotide sequence data reported in this paper have been submitted to GenBank and have been assigned the accession numbers U25689 and U25690.     

Polyketide synthase pathways identified from a metagenomic library are derived from soil Acidobacteria

Polyketides are structurally diverse secondary metabolites, many of which have antibiotic or anticancer activity. Type I modular polyketide synthase (PKS) genes are typically large and encode repeating enzymatic domains that elongate and modify the nascent polyketide chain. A fosmid metagenomic library constructed from an agricultural soil was arrayed and the macroarray was screened for the presence of conserved ketosynthase [β-ketoacyl synthase (KS)] domains, enzymatic domains present in PKSs. Thirty-four clones containing KS domains were identified by Southern hybridization. Many of the KS domains contained within metagenomic clones shared significant similarity to PKS or nonribosomal peptide synthesis genes from members of the Cyanobacteria or the Proteobacteria phyla. However, analysis of complete clone insert sequences indicated that the blast analysis for KS domains did not reflect the true phylogenetic origin of many of these metagenomic clones that had a %G+C content and significant sequence similarity to genes from members of the phylum Acidobacteria. This conclusion of an Acidobacteria origin for several clones was further supported by evidence that cultured soil Acidobacteria from different subdivisions have genetic loci closely related to PKS domains contained within metagenomic clones, suggesting that Acidobacteria may be a source of novel polyketides. This study also demonstrates the utility of combining data from culture-dependent and -independent investigations in expanding our collective knowledge of microbial genomic diversity.     

Structural and functional characterization of a novel lipolytic enzyme from a Brazilian Cerrado soil metagenomic library

Objective

To isolate putative lipase enzymes by screening a Cerrado soil metagenomic library with novel features.

Results

Of 6720 clones evaluated, Clone W (10,000 bp) presented lipolytic activity and four predicted coding sequences, one of them LipW. Characterization of a predicted esterase/lipase, LipW, showed 28% sequence identity with an arylesterase from Pseudomonas fluorescens (pdb|3HEA) from protein database (PDB). Phylogenetic analysis showed LipW clustered with family V lipases; however, LipW was clustered in different subclade belonged to family V, suggesting a different subgroup of family V. In addition, LipW presented a difference in family V GH motif, a glycine replaced by a serine in GH motif. Estimated molecular weight and stokes radius values of LipW were 29,338.67–29,411.98 Da and 2.58–2.83 nm, respectively. Optimal enzyme activity was observed at pH 9.0–9.5 and at 40 °C. Circular dichroism analysis estimated secondary structures percentages as approximately 45% α-helix and 15% β-sheet, consistent with the 3D structure predicted by homology.

Conclusion

Our results demonstrate the isolation of novel family V lipolytic enzyme with biotechnological applications from a metagenomic library.

     

Expression and purification of organic solvent stable lipase from soil metagenomic library

Gene for organic solvent stable lipase was overexpressed from soil metagenomic library. The clone with maximum activity was selected, and enzyme was purified by gel-permeation chromatography with a molecular mass of approx. 40 kDa. The deduced aminoacid sequence indicated that the protein belongs to the lipase family I.3 and containing a C-terminal secretion signal for ABC dependent transport together with possible motifs for Ca(2+) binding sites. The enzyme expressed maximum activity at 30 °C and pH 7.0 and found to be stable in pH and temperature ranging from 6.0-9.0 and 20-60 °C, respectively. Furthermore, the enzyme was found highly resistant to many organic solvents, especially isopropanol, DMSO, methanol, xylene and hexane. The enzyme showed enhanced activity in the presence of divalent cations (Mg(2+), Mn(2+), Ca(2+), Hg(2+), Cu(2+)), whereas the presence of trivalent cation (Fe(3+)) inhibited the activity.     

Molecular cloning, overexpression and characterization of a novel feruloyl esterase from a soil metagenomic library

The gene estF27, encoding a protein with feruloyl esterase activity, was cloned through functional screening from a soil metagenomic library and expressed in Escherichiacoli BL21 (DE3) with high solubility. Sequence analysis showed that estF27 encoded a protein of 291 amino acids with a predicted molecular mass of 31.16 kDa. According to the substrate specificity, EstF27 was classified as a type A feruloyl esterase. EstF27 displayed optimal activity at 40°C and pH 6.8. This enzyme was stable in a broad pH range of 5.0-10.0 over 24 h, and retained more than 50% of its activity after 96 or 120 h incubation in the presence of 3 M KCl or 5 M NaCl. The enzyme activity was slightly enhanced by the addition of Mg(2+) and Fe(3+) at a low concentration, and completely inhibited by Cu(2+). In the enzymatic hydrolysis of destarched wheat bran, EstF27 could release ferulic acid from it in the presence of xylanase from Thermomyces lanuginosus. Given its alkalitolerance, halotolerance and highly soluble expression, EstF27 is a promising candidate for industrial applications.     

Prediction and identification of sequences coding for orphan enzymes using genomic and metagenomic neighbours

Despite the current wealth of sequencing data, one‐third of all biochemically characterized metabolic enzymes lack a corresponding gene or protein sequence, and as such can be considered orphan enzymes. They represent a major gap between our molecular and biochemical knowledge, and consequently are not amenable to modern systemic analyses. As 555 of these orphan enzymes have metabolic pathway neighbours, we developed a global framework that utilizes the pathway and (meta)genomic neighbour information to assign candidate sequences to orphan enzymes. For 131 orphan enzymes (37% of those for which (meta)genomic neighbours are available), we associate sequences to them using scoring parameters with an estimated accuracy of 70%, implying functional annotation of 16 345 gene sequences in numerous (meta)genomes. As a case in point, two of these candidate sequences were experimentally validated to encode the predicted activity. In addition, we augmented the currently available genome‐scale metabolic models with these new sequence–function associations and were able to expand the models by on average 8%, with a considerable change in the flux connectivity patterns and improved essentiality prediction.     

Cloning and characterization of a novel GH44 family endoglucanase from mangrove soil metagenomic library

A novel endoglucanase gene, mgcel44, was isolated from a mangrove soil metagenomic library by functional-based screening. It encodes a 648-aa peptide with a catalytic domain of glycosyl hydrolase family 44. The deduced amino acid sequence of mgcel44 shares less than 50 % identity with endoglucanases in GenBank database. mgcel44 was cloned and overexpressed in Escherichia coli. The recombinant enzyme, MgCel44, has a molecular mass of 70.8 kDa as determined by SDS-PAGE. Its optimal pH and temperature for activity were 6 and 45 °C, respectively. It was highly active at 25–45 °C and pH 5–8. Its activity was enhanced in 0.5 M NaCl by >1.6-fold and stable up to 1.5 M NaCl. MgCel44 was resistant to several organic solvents and had high activity at 15 % (v/v) solvent after incubating for 24 h at 25 °C.