Interactions of insecticidal toxin gene products from Xenorhabdus nematophilus PMFI296

Four genes on a genomic fragment from Xenorhabdus nematophilus PMFI296 were shown to be involved in insecticidal activity towards three commercially important insect species. Each gene was expressed individually and in combinations in Escherichia coli, and the insecticidal activity of the lysates was determined. The combined four genes (xptA1, xptA2, xptB1, and xptC1), in E. coli, showed activity towards Pieris brassicae, Pieris rapae, and Heliothis virescens. The genes xptA1, xptB1, and xptC1 were involved in expressing activity towards P. rapae and P. brassicae, while the genes xptA2, xptB1, and xptC1 were needed for activity towards H. virescens. When each of these three genes was expressed individually in E. coli and the cell lysates were used in insect assays or mixed and then used, insecticidal activity was detected at a very low level. If the genes xptB1 and xptC1 were expressed in the same E. coli cell and this cell lysate was mixed with cells expressing xptA1, activity was restored to P. rapae and P. brassicae. Similarly mixing XptB1/C1 lysate with XptA2 lysate restored activity towards H. virescens. Individual gene disruptions in X. nematophilus PMFI296 reduced activity to insects; this activity was restored by complementation with cells expressing either xptA1 or xptA2 for their respective disruptions or E. coli expressing both xptB1 and xptC1 for individual disruptions of either of these genes. The genes xptA2, xptC1, and xptB1 were expressed as an operon in PMFI296 and inactivation of xptA2 or xptC1 resulted in silencing of downstream gene(s), while xptA1 was expressed as a single gene. Therefore, the two three gene product combinations interact with each other to produce good insecticidal activity.     

Sequence Analysis of Insecticidal Genes from Xenorhabdus nematophilus PMFI296

Three strains of Xenorhabdus nematophilus showed insecticidal activity when fed to Pieris brassicae (cabbage white butterfly) larvae. From one of these strains (X. nematophilus PMFI296) a cosmid genome library was prepared in Escherichia coli and screened for oral insecticidal activity. Two overlapping cosmid clones were shown to encode insecticidal proteins, which had activity when expressed in E. coli (50% lethal concentration [LC₅₀] of 2 to 6 μg of total protein/g of diet). The complete sequence of one cosmid (cHRIM1) was obtained. On cHRIM1, five genes (xptA1, -A2, -B1, -C1, and -D1) showed homology with up to 49% identity to insecticidal toxins identified in Photorhabdus luminescens, and also a smaller gene (chi) showed homology to a putative chitinase gene (38% identity). Transposon mutagenesis of the cosmid insert indicated that the genes xptA2, xptD1, and chi were not important for the expression of insecticidal activity toward P. brassicae. One gene (xptA1) was found to be central for the expression of activity, and the genes xptB1 and xptC1 were needed for full activity. The location of these genes together on the chromosome and therefore present on a single cosmid insert probably accounted for the detection of insecticidal activity in this E. coli clone. Although multiple genes may be needed for full activity, E. coli cells expressing the xptA1 gene from the bacteriophage lambda P_L promoter were shown to have insecticidal activity (LC₅₀ of 112 μg of total protein/g of diet). This is contrary to the toxin genes identified in P. luminescens, which were not insecticidal when expressed individually in E. coli. High-level gene expression and the use of a sensitive insect may have aided in the detection of insecticidal activity in the E. coli clone expressing xptA1. The location of these toxin genes and the chitinase gene and the presence of mobile elements (insertion sequence) and tRNA genes on cHRIM1 indicates that this region of DNA represents a pathogenicity island on the genome of X. nematophilus PMFI296.     

昆虫病原线虫共生菌BP品系杀虫毒素基因簇中各基因与杀虫活性的关系

昆虫病原线虫共生菌Xenorhabdus nematophilus BP的多个杀虫毒素基因集中在一起形成一个约40kb的基因簇。为研究这个基因簇中各基因与杀虫活性的关系,对该共生菌粘粒文库中5个粘粒克隆XnBP76、XnBP83、XnBP203、XnBPp378 和XnBP414及XnBP83的3个亚克隆插入DNA片段的基因结构和它们对棉铃虫的杀虫活性进行了比较,结果显示,xptB1, xptC1和xptA2 3个基因或后两者的联合表达产物具有最强的杀虫效果,缺失其中的任何1个或2个会使杀虫活力大幅度地下降或完全消失;而xptD1和xptA1的缺失对毒素基因簇的表达产物的杀虫活力影响很小;杀虫毒素的物理混合没有明显的增效作用。     

Interactions of Insecticidal Toxin Gene Products from Xenorhabdus nematophilus PMFI296

Four genes on a genomic fragment from Xenorhabdus nematophilus PMFI296 were shown to be involved in insecticidal activity towards three commercially important insect species. Each gene was expressed individually and in combinations in Escherichia coli, and the insecticidal activity of the lysates was determined. The combined four genes (xptA1, xptA2, xptB1, and xptC1), in E. coli, showed activity towards Pieris brassicae, Pieris rapae, and Heliothis virescens. The genes xptA1, xptB1, and xptC1 were involved in expressing activity towards P. rapae and P. brassicae, while the genes xptA2, xptB1, and xptC1 were needed for activity towards H. virescens. When each of these three genes was expressed individually in E. coli and the cell lysates were used in insect assays or mixed and then used, insecticidal activity was detected at a very low level. If the genes xptB1 and xptC1 were expressed in the same E. coli cell and this cell lysate was mixed with cells expressing xptA1, activity was restored to P. rapae and P. brassicae. Similarly mixing XptB1/C1 lysate with XptA2 lysate restored activity towards H. virescens. Individual gene disruptions in X. nematophilus PMFI296 reduced activity to insects; this activity was restored by complementation with cells expressing either xptA1 or xptA2 for their respective disruptions or E. coli expressing both xptB1 and xptC1 for individual disruptions of either of these genes. The genes xptA2, xptC1, and xptB1 were expressed as an operon in PMFI296 and inactivation of xptA2 or xptC1 resulted in silencing of downstream gene(s), while xptA1 was expressed as a single gene. Therefore, the two three gene product combinations interact with each other to produce good insecticidal activity.     

Cloning and heterologous expression of a novel insecticidal gene (tccC1) from Xenorhabdus nematophilus strain

We have identified and cloned a novel toxin gene (tccC1/xptB1) from Xenorhabdus nematophilus strain isolated from Korea-specific entomophagous nematode Steinernema glaseri MK. The DNA sequence of cloned toxin gene (3048 bp) has an open reading frame encoding 1016 amino acids with a predicted molecular mass of 111058 Da. The toxin sequence shares 50-96% identical amino acid residues with the previously reported tccC1 cloned from X. nematophilus, Photorhabdus luminescens W14 P. luminescens TTO1, and Yersinia pestis CO92. The toxin gene was successfully expressed in Escherichia coli, and the recombinant toxin protein caused a rapid cessation in mortality of Galleria mellonella larvae (80% death of larvae within 2 days). Conclusively, the heterologous expression of the novel gene tccC1 cloned into E. coli plasmid vector produced recombinant toxin with high insecticidal activity.     

The direct repeat sequence upstream of Bacillus chitinase genes is cis-acting elements that negatively regulate heterologous expression in E. coli

To explore the influence of the direct repeat sequence (DRS) in Bacillus chitinase genes on heterogonous expression in Escherichia coli, we cloned and sequenced the entire open reading frame (ORF) and upstream sequences of the chitinase B (chiB) and chitinase MY75 (chiMY75) from Bacillus thuringiensis and Bacillus licheniformis. A pair of 8-bp DRS was found upstream of each chi gene. Chi ORFs with a series of truncated DRS were cloned and transformed into E. coli XL-Blue. The activity of the transformants without the DRS were significantly higher in chitinase assays than transformants containing the DRS. SDS-PAGE showed that part and full deletion of the DRS increased chi gene expression by approximately 1.7 and 3.8-fold, respectively. Northern blotting revealed deletion of the DRS regions increased chiB and chiMY75 mRNA expression. Specific binding of DNA-binding factors in the E. coli cell lyaste was observed to both the chiB and chiMY75 promoter regions and DRS elements. This is the first investigation to demonstrate that heterologous expression of Bacillus chi genes in E. coli is negatively regulated by their upstream DRS regions, which act as cis-acting elements.     

Photorhabdus toxins: novel biological insecticides.

Following concerns over the potential for insect resistance to insecticidal Bacillus thuringiensis toxins expressed in transgenic plants, there has been recent interest in novel biological insecticides. Over the past year there has been considerable progress in the cloning of several alternative toxin genes from the bacteria Photorhabdus luminescens and Xenorhabdus nematophilus. These genes encode large insecticidal toxin complexes with little homology to other known toxins.     

Cloning of two genes from Bacillus circulans WL-12 which encode 1,3-beta-glucanase activity

Two genes encoding distinct 1,3-beta-glucanases have been cloned from Bacillus circulans and expressed in Escherichia coli. A cosmid library of B. circulans WL-12 DNA was constructed in the broad-host-range cosmid pLAFR1 and screened in E. coli for clones which exhibited 1,3-beta-glucanase activity. Two 1,3-beta-glucanase-positive clones were identified which contained genes encoding two independent 1,3-beta-glucanases as shown by biochemical, physical and molecular analyses. The cosmids, designated pMON5401 (27.1 kb insert) and pMON5402 (24.7 kb insert), encoded 68 kDa and 40 kDa 1,3-beta-glucanases, respectively. Both 1,3-beta-glucanases were purified from their respective E. coli strains, characterized biochemically, and were shown to exhibit lytic activity against purified yeast cell wall preparations.     

pfaB products determine the molecular species produced in bacterial polyunsaturated fatty acid biosynthesis

Insect blood (hemolymph) contains prophenoloxidase, a proenzyme that is activated to protective phenoloxidase when the insect is damaged or challenged with microorganisms. The Gram-negative bacterium Photorhabdus luminescens kills the lepidopteron insect Manduca sexta by using a variety of toxins. We screened P. luminescens and Photorhabdus asymbiotica cosmid libraries in an Escherichia coli host against previously activated M. sexta hemolymph phenoloxidase and identified three overlapping cosmid clones from P. luminescens and five from P. asymbiotica that suppressed the activity of the enzyme both in vitro and in vivo . Genome alignments of cosmid end sequences from both species confirmed that they contained orthologous loci. We examined one of the cosmids from P. luminescens in detail: it induced the formation of significantly fewer melanotic nodules, proliferated faster within the insect host and was significantly more virulent towards fifth-stage larvae than E. coli control bacteria. Insertional mutagenesis of this cosmid yielded 11 transposon mutants that were no longer inhibitory. All of these were insertions into a single 5.5-kb locus, which contained three ORFs and was homologous to the maltodextrin phosphorylase locus of E. coli . The implications of this novel inhibitory factor of insect phenoloxidase for Photorhabdus virulence are discussed.     

荧光发光杆菌TT01品系pirA2B2 基因的克隆表达与杀虫活性

【目的】Photorhabdus luminescens TT01基因组中的一对ORF plu4437-plu4436(简称pirA2B2)的预测氨基酸序列与另一对已证明编码产物有口服杀虫活性的ORF plu4093-plu4092(简称pirA1B1)有50%和45%的一致性,本文旨在研究pirA2B2基因座的表达产物是否也有杀虫活性。【方法】PCR扩增并克隆了pirA2,pirB2和pirA2B2基因,构建了重组表达载体pQE-pirA2,pQE-pirB2和pQE-pirA2B2并分别转入M15菌株表达,经SDS-PAGE和Western blot检测证明,3个重组菌株经IPTG诱导后,分别成功表达了可溶的PirA2,PirB2和PirA2B2蛋白。用亲和层析结合脱盐技术对3个重组菌株表达的外源蛋白分别进行纯化,并通过生物测定确定纯化蛋白的杀虫活性。【结果】生物测定结果显示联合表达的PirA2B2对大蜡螟和斜纹夜蛾五龄幼虫均有明显的血腔杀虫活性,LD50分别为每虫4.0和2.8μg,单独表达的PirA2或PirB2对上述2种害虫没有血腔杀虫活性,但两者的混合物具有与两者联合表达相似的杀虫活性;PirA2B2对大蜡螟和斜纹夜蛾初孵幼虫均无口服杀虫活性。【结论】pirA2B2是P.luminescens TT01菌株基因组中的另一个二元杀虫毒素基因。【意义】pirA2B2的成功克隆表达和杀虫功能的确定为进一步研究其与pirA1B1的关系以及该基因的表达调控等打下了基础。     

Molecular characterization of a novel chitinase from Bacillus thuringiensis subsp. kurstaki

AIMS: The present work aims to study a new chitinase from Bacillus thuringiensis subsp. kurstaki. METHODS AND RESULTS: BUPM255 is a chitinase-producing strain of B. thuringiensis, characterized by its high chitinolytic and antifungal activities. The cloning and sequencing of the corresponding gene named chi255 showed an open reading frame of 2031 bp, encoding a 676 amino acid residue protein. Both nucleotide and amino acid sequences similarity analyses revealed that the chi255 is a new chitinase gene, presenting several differences from the published chi genes of B. thuringiensis. The identification of chitin hydrolysis products resulting from the activity, exhibited by Chi255 through heterologous expression in Escherichia coli revealed that this enzyme is a chitobiosidase. CONCLUSIONS: Another chitinase named Chi255 belonging to chitobiosidase class was evidenced in B. thuringiensis subsp. kurstaki and was shown to present several differences in its amino acid sequence with those of published ones. The functionality of Chi255 was proved by the heterologous expression of chi255 in E. coli. SIGNIFICANCE AND IMPACT OF THE STUDY: The addition of the sequence of chi255 to the few sequenced B. thuringiensis chi genes might contribute to a better investigation of the chitinase 'structure-function' relation.     

地衣芽孢杆菌MY75菌株几丁质酶基因的异源表达及特性

【目的】地衣芽孢杆菌MY75菌株的几丁质酶基因的异源表达,并对表达蛋白的特性进行研究。【方法】制备MY75菌株培养上清粗蛋白,利用酶谱分析确定具有几丁质酶活的蛋白分子量。将该蛋白进行飞行时间质谱分析,确定其部分氨基酸序列,设计PCR引物对MY75菌株的几丁质酶基因进行克隆及异源表达。对表达蛋白的最适反应温度及pH,温度耐受性及金属离子对酶活力的影响等特性进行了研究,并测定了表达蛋白对真菌孢子萌发的抑制活性和对甜菜夜蛾幼虫的杀虫增效作用。【结果】酶谱分析证明MY75菌株培养上清液中仅含有一种55kDa的几丁质酶。将该编码基因chiMY克隆及序列分析后发现,基因长度为1797bp,编码599个氨基酸。在大肠杆菌中异源表达的几丁质酶ChiMY蛋白的分子量为67kDa。质谱分析证明,55kDa蛋白与67kDa蛋白序列相同。ChiMY最适pH和最适温度分别为7.0和50°C,为中性几丁质酶。Li+,Na+,和Mg2+离子对表达蛋白的酶活力具有促进作用,Mn2+,Cr3+,Zn2+和Ag+离子则能显著抑制酶活力,Cu2+和Fe3+离子完全抑制酶活性。生物测定的结果显示,异源表达的MY75几丁质酶能够抑制小麦赤霉及黑曲霉的孢子萌发,并且对苏云金芽孢杆菌的杀虫活力具有增效作用。【结论】地衣芽孢杆菌MY75菌株中仅有一种55kDa几丁质酶,其编码基因能够在大肠杆菌中大量表达,表达蛋白分子量与野生型蛋白之间有显著差异,由此证明MY75菌株中存在着几丁质酶的剪切加工过程。明确了地衣芽孢杆菌几丁质酶ChiMY具有抑制真菌活性及杀虫增效作用。上述全部研究结论在国内首次报道。     

Isolation and characterization of a cDNA from soybean and its homolog from Escherichia coli, which both complement the light sensitivity of Escherichia coli hemH mutant strain VS101

Using Escherichia coli strain VS101, whose hemH gene encoding the ferrochelatase is partially defective, we isolated and analyzed a clone (designated XWH-1) from a X phage library of soybean (Glycine max) cDNA, which exhibited weak complementation activity against the light sensitivity of VS101. In VS101 bacteria lysogenized with lambdaWH-1, a significant decrease in accumulation of protoporphyrin IX (PROTO IX) was detected as compared with that in non-lysogenic bacteria. On the other hand, in the wild-type E. coli strains lysogenized with lambdaWH-1, significant accumulation of delta-aminolevulinic acid (ALA) was observed, although accumulation of other intermediates such as uroporphyrinogen III (UROGEN III) and coproporphyrinogen III (COPROGEN III), was not observed. The growth of the wild-type bacteria in which the insert cDNA from deltaWH-1 had been introduced via a plasmid vector was markedly inhibited. By constructing, testing and sequencing a series of deletion clones of the insert, it was found that the insert encodes two proteins, a trancated LepA and a hypothetical protein ORF296, and that only ORF296 possesses the ability to block the heme biosynthetic pathway. ORF296 showed about 30% identity with the E. coli hypothetical protein YicL. By cloning and examining the gene for YicL in E. coli, we found that YicL shows the same effect as that of the soybean cDNA. From these findings, we concluded that the clone from soybean and yicL from E. coli block a step in an early stage of the heme biosynthetic pathway (probably the step catalyzed by HemB). Consequently, we postulate that the VS101 bacteria harboring these genes became light resistant as a result of a decrease in accumulated PROTO IX, and that the growth of the bacteria harboring these genes was inhibited because of the inhibition of heme biosynthesis at the step catalyzed by HemB.     

Cloning of the DNA repair genes mtcA, mtcB, uvsC, uvsD, uvsE and the leuB gene from Deinococcus radiodurans

A gene library from Deinococcus radiodurans has been constructed in the cosmid pJBFH. A 51.5-kb hybrid cosmid, pUE40, that transduced Escherichia coli HB101 from leucine dependence to independence was selected, and a 6.9-kb fragment which carried the leuB gene from D. radiodurans was subcloned into the EcoRI site of pAT153. The DNA repair genes mtcA, mtcB, uvsC, uvsD and uvsE, which code for two D. radiodurans UV endonucleases were identified by transforming appropriate repair-deficient mutants of D. radiodurans to repair proficiency with DNA derived from the gene library. Hybrid cosmid pUE50 (37.9 kb) containing an insert carrying both the mtcA and mtcB genes was selected and 5.6- and 2.7-kb DNA fragments carrying mtcA and mtcB, respectively, i.e., the genes that code for UV endonuclease alpha, were subcloned into the EcoRI site of pAT153. The three genes uvsC, uvsD and uvsE, that code for UV endonuclease beta, were all present in the 46.0-kb hybrid cosmid pUE60. The uvsE gene in a 12.2-kb fragment was subcloned into the HindIII site of pAT153 and the size of the insert reduced to 6.1 kb by deletion of a 6.7-kb fragment from the hybrid plasmid pUE62. None of the uvs genes introduced into the UV-sensitive E. coli CSR603 (uvrA-) was able to complement its repair defect. The mtcA, uvsC, uvsD and uvsE genes were found in the 52.5-kb hybrid cosmid pUE70. It is concluded that the DNA repair genes mtcA, mtcB, uvsC, uvsD and uvsE are located within an 83.0-kb fragment of the D. radiodurans genome.     

Molecular cloning, expression, and characterization of endoglucanase genes from Fibrobacter succinogenes AR1

A cosmid gene library was constructed in Escherichia coli from genomic DNA isolated from the ruminal anaerobe Fibrobacter succinogenes AR1. Clones were screened on carboxymethyl cellulose, and 8 colonies that produced large clearing zones and 25 colonies that produced small clearing zones were identified. Southern blot hybridization revealed the existence of at least three separate genes encoding cellulase activity. pRC093, which is representative of cosmid clones that produce large clearing zones, was subcloned in pGem-1, and the resulting hybrid pRCEH directed synthesis of endoglucanase activity localized on a 2.1-kb EcoRI-HindIII insert. Activity was expressed from this fragment when it was cloned in both orientations in pGem-1 and pGem-2, indicating that F. succinogenes promoters functioned successfully in E. coli. A high level of endoglucanase activity was detected on acid-swollen cellulose, ball-milled cellulose, and carboxymethyl cellulose; and a moderate level was detected on filter paper, Avicel, lichenan, and xylan. Most activity (80%) was localized in the periplasm of E. coli, with low but significant levels (16%) being detected in the extracellular medium. The periplasmic endoglucanase had an estimated molecular weight of 46,500, had an optimum temperature of 39 degrees C, and exhibited activity over a broad pH range, with a maximum at pH 5.0.     

Molecular cloning, expression, and characterization of endoglucanase genes from Fibrobacter succinogenes AR1.

A cosmid gene library was constructed in Escherichia coli from genomic DNA isolated from the ruminal anaerobe Fibrobacter succinogenes AR1. Clones were screened on carboxymethyl cellulose, and 8 colonies that produced large clearing zones and 25 colonies that produced small clearing zones were identified. Southern blot hybridization revealed the existence of at least three separate genes encoding cellulase activity. pRC093, which is representative of cosmid clones that produce large clearing zones, was subcloned in pGem-1, and the resulting hybrid pRCEH directed synthesis of endoglucanase activity localized on a 2.1-kb EcoRI-HindIII insert. Activity was expressed from this fragment when it was cloned in both orientations in pGem-1 and pGem-2, indicating that F. succinogenes promoters functioned successfully in E. coli. A high level of endoglucanase activity was detected on acid-swollen cellulose, ball-milled cellulose, and carboxymethyl cellulose; and a moderate level was detected on filter paper, Avicel, lichenan, and xylan. Most activity (80%) was localized in the periplasm of E. coli, with low but significant levels (16%) being detected in the extracellular medium. The periplasmic endoglucanase had an estimated molecular weight of 46,500, had an optimum temperature of 39 degrees C, and exhibited activity over a broad pH range, with a maximum at pH 5.0.     

Molecular cloning and functional expression of chitinase-encoding cDNA from the cabbage moth, Mamestra brassicae

Chitinase is a rate-limiting and endo-splitting enzyme involved in the bio-degradation of chitin, an important component of the cuticular exoskeleton and peritrophic matrix in insects. We isolated a cDNA-encoding chitinase from the last larval integument of the cabbage moth, Mamestra brassicae (Lepidoptera; Noctuidae), cloned the ORF cDNA into E. coli to confirm its functionality, and analyzed the deduced amino acid sequence in comparison with previously described lepidopteran chitinases. M. brassicae chitinase expressed in the transformed E. coli cells with the chitinase-encoding cDNA enhanced cell proliferation to about 1.6 times of the untransformed wild type strain in a colloidal chitin-including medium with only a very limited amount of other nutrients. Compared with the wild type strain, the intracellular levels of chitin degradation derivatives, glucosamine and N-acetylglucosamine were about 7.2 and 2.3 times higher, respectively, while the extracellular chitinase activity was about 2.2 times higher in the transformed strain. The ORF of M. brassicae chitinaseencoding cDNA consisted of 1686 nucleotides (562 amino acid residues) except for the stop codon, and its deduced amino acid composition revealed a calculated molecular weight of 62.7 and theoretical pI of 5.3. The ORF was composed of N-terminal leading signal peptide (AA 1-20), catalytic domain (AA 21-392), linker region (AA 393-498), and C-terminal chitin-binding domain (AA 499-562) showing its characteristic structure as a molting fluid chitinase. In phylogenetic analysis, the enzymes from 6 noctuid species were grouped together, separately from a group of 3 bombycid and 1 tortricid enzymes, corresponding to their taxonomic relationships at both the family and genus levels.     

Screening a wide host-range, waste-water metagenomic library in tryptophan auxotrophs of Rhizobium leguminosarum and of Escherichia coli reveals different classes of cloned trp genes

A metagenomic cosmid library was constructed, in which the insert DNA was derived from bacteria in a waste-water treatment plant and the vector was the wide host-range cosmid pLAFR3. The library was screened for clones that could correct defined tryptophan auxotrophs of the alpha-proteobacterium Rhizobium leguminosarum and of Escherichia coli. A total of 26 different cosmids that corrected at least one trp mutant in one or both of these species were obtained. Several cosmids corrected the auxotrophy of one or more R. leguminosarum trp mutants, but not the corresponding mutants in E. coli. Conversely, one cosmid corrected trpA, B, C, D and E mutants of E. coli but none of the trp mutants of R. leguminosarum. Two of the Trp+ cosmids were examined in more detail. One contained a trp operon that resembled that of the pathogen Chlamydophila caviae, containing the unusual kynU gene, which specifies kynureninase. The other, whose trp genes functioned in R. leguminosarum but not in E. coli, contained trpDCFBA in an operon that is likely co-transcribed with five other genes, most of which had no known link with tryptophan synthesis. The sequences of these TRP proteins, and the products of nine other genes encoded by this cosmid, failed to affiliate them with any known bacterial lineage. For one metagenomic cosmid, lac reporter fusions confirmed that its cloned trp genes were transcribed in R. leguminosarum, but not in E. coli. Thus, rhizobia, with their many sigma-factors, may be well-suited hosts for metagenomic libraries, cloned in wide host-range vectors.