rpsL Gene Research Articles

Novel Links between Antibiotic Resistance and Antibiotic Production

Novel Links between Antibiotic Resistance and Antibiotic Production

Conjugative transfer of chromosomally encoded antibiotic resistance from Helicobacter pylori to Campylobacter jejuni.

Many strains of Helicobacter pylori are naturally competent for transformation and able to transfer chromosomal DNA among different isolates using a conjugation-like mechanism. In this study, we sought to determine whether H. pylori can transfer DNA into Campylobacter jejuni, a closely related species of the Campylobacterales group. To monitor the transfer, a chromosomally encoded streptomycin resistance cassette prearranged by a specific mutation in the rpsL gene of H. pylori was used. Mating of the bacteria on plates or in liquid broth medium produced C. jejuni progeny containing the streptomycin marker. DNA transfer was unidirectional, from H. pylori to C. jejuni, and the progeny were genetically identical to C. jejuni recipient strains. DNase I treatment reduced but did not eliminate transfer, and DNase I-treated cell supernatants did not transform, ruling out phage transduction. Recombinants also did not occur when the mating bacteria were separated by a membrane, suggesting that DNA transfer requires cell-to-cell contact. Transfer of the streptomycin marker was independent of the H. pylori comB transformation system, the cag pathogenicity island, and another type IV secretion system called tfs3. These findings indicated that a DNase I-resistant, conjugation-like mechanism may contribute to horizontal DNA transfer between different members of the Campylobacteriales group. The significance of this DNA uptake by C. jejuni in the context of acquiring antibiotic resistance is discussed.

Detection of Streptomycin Resistance in Mycobacterium tuberculosis Clinical Isolates Using Four Molecular Methods in China

To evaluate the relationship between mutations in rpsL or rrs genes and streptomycin (SM) resistance, we compared four molecular methods for their clinical value in the detection of SM resistance. Genotypic analysis of SM resistance in 167 M. tuberculosis clinical strains isolated from Chinese patients was performed by direct DNA sequencing, SSCP, RFLP, and reverse dot-blot hybridization (RDBH) assays. Of the 98 SM-resistant isolates, 78 (79.6%) had missense mutations in codon 43 or 88 of rpsL resulting in a Lys to Arg substitution, 6 (6.1%) had mutations of the rrs gene at positions 513 A to C or T or 516 C to T, and 14 (14.3%) had the wild-type sequence. None of the 69 SM-susceptible isolates examined had alterations in rpsL or rrs. The results of the SSCP, RFLP, and RDBH analyses for these mutations and wild-type sequences were completely consistent with DNA sequencing data. Five distinct single-nucleotide substitutions in codon 43 or 88 of rpsL gene or in position 513 or 516 of rrs gene were correctly identified in 84 of 98 (85.7%) phenotypically SM-resistant isolates by RDBH assay. Molecular analyses of the rpsL and rrs genes are useful for rapid prediction of SM resistance in most clinical strains of M. tuberculosis. Reverse dot-blot hybridization assay is a rapid, simple, and reliable method for the detection of drug resistance.

Impact of reactive oxygen species on spontaneous mutagenesis in Escherichia coli

Reactive oxygen species (ROS) are potent oxidants that attack chromosomal DNA and free nucleotides, leading to oxidative DNA damage that causes genetic alterations. To avoid the ROS-mediated mutagenesis, cells have elaborate mechanisms including powerful antioxidant components and repair pathways that eliminate oxidative DNA damage. Because of the effective anti-mutagenic functions, it has been unclear to what extent the ROS contribute to spontaneous mutagenesis. Here we show that a significant portion of spontaneous mutations is actually caused by the ROS in aerobically growing Escherichia coli cells. Using the rpsL gene as a mutational target sequence, we established an experimental procedure to analyze spontaneous mutations occurring under a strictly anaerobic condition. Strong mutator phenotypes of cells defective in both mutM and mutY genes or ones lacking mutT gene were completely suppressed under the anaerobic condition, indicative of an absence of hydroxyl radicals in the cells. From a series of analyses with wild-type E. coli cells grown under different redox conditions, it appeared that 89% of base substitutions were caused by the ROS, especially hydroxyl radicals, in cells growing in the atmosphere. The ROS-mediated spontaneous mutations included highly site-specific base substitutions, two types of randomly occurring transversions, G:C-->C:G and A:T-->T:A, and -1 frameshifts at non-iterated base sequences.

A New System for Detecting Mutations in Arabidopsis thaliana and the Mutational Spectra Resulting from Ethylmethanesulfonate Treatment

A system was developed for the detection and analysis of mutations occurring on chromosomal DNA in plants. The plasmid pML4, carrying the Escherichia coli rpsL gene, a target gene for mutagenesis, was inserted into a shuttle vector, pCGN5138, to construct a plasmid which could be used for the transformation of plants. pML4 sequences were introduced into Arabidopsis thaliana mediated by Agrobacterium. The pML4 DNA was rescued from transgenic Arabidopsis plants exposed to mutagens, and the plasmids were introduced into Escherichia coli DH10B to isolate mutant clones. In this system, any form of inactivation mutation in the rpsL gene can be positively selected since it makes the E. coli cells resistant to streptomycin. Here we report that the system could detect the mutagenic effect of ethylmethanesulfonate (EMS). Further characterization of the mutants revealed that G:C to A:T transitions predominated among the EMS-induced mutations. This assay system is useful for the detection and analysis of mutations arising on chromosomal DNA in plants, and should be useful for evaluating analysis of the effects of environmental mutagens.

The Streptococcal Lipoprotein Rotamase A (SlrA) Is a Functional Peptidyl-prolyl Isomerase Involved in Pneumococcal Colonization

Streptococcus pneumoniae expresses two surface-exposed lipoproteins, PpmA and SlrA, which share homology with distinct families of peptidyl-prolyl isomerases (PPIases). In this study, we demonstrated for the first time that the lipoprotein cyclophilin, SlrA, can catalyze the cis-trans isomerization of proline containing tetrapeptides and that SlrA contributes to pneumococcal colonization. The substrate specificity of SlrA is typical for prokaryotic and eukaryotic cyclophilins, with Suc-Ala-Ala-Pro-Phe-p-nitroanilide (pNA) being the most rapidly catalyzed substrate. In a mouse pneumonia model the slrA knock-out D39DeltaslrA did not cause significant differences in the survival times of mice compared with the isogenic wild-type strain. In contrast, a detailed analysis of bacterial outgrowth over time in the nasopharynx, airways, lungs, blood, and spleen showed a rapid elimination of slrA mutants from the upper airways but did not reveal significant differences in the lungs, blood, and spleen. These results suggested that SlrA is involved in colonization but does not contribute significantly to invasive pneumococcal disease. In cell culture infection experiments, the absence of SlrA impaired adherence to pneumococcal disease-specific epithelial and endothelial non-professional cell lines. Adherence of the slrA mutant could not be restored by exogenously added SlrA. Strikingly, deficiency in SlrA did not reduce binding activity to host target proteins, but resulted in enhanced uptake by professional phagocytes. In conclusion, SlrA is a functional, cyclophilin-type PPIase and contributes to pneumococcal virulence in the first stage of infection, namely, colonization of the upper airways, most likely by modulating the biological function of important virulence proteins.

Global analysis of proteins synthesized by Mycobacterium smegmatis provides direct evidence for physiological heterogeneity in stationary-phase cultures.

We have characterized the induction kinetics of approximately 1,700 proteins during entry into and survival in carbon-starved stationary phase by Mycobacterium smegmatis. Strikingly, among the patterns of expression observed were a group of proteins that were expressed in exponential-phase cultures and severely repressed in 48-h stationary-phase cultures (Spr or stationary-phase-repressed proteins) but were synthesized again at high levels in > or =128-day stationary-phase cultures (Spr(128) proteins). A number of Spr(128) proteins were identified, and they included the heat shock protein DnaK, the tricarboxylic acid cycle enzyme succinyl coenzyme A synthase, a FixA-like flavoprotein, a single-stranded DNA binding protein, and elongation factor Tu (EF-Tu). The identification of EF-Tu as an Spr(128) protein is significant, as ribosomal components are known to be expressed in a growth rate-dependent way. We interpreted these data in terms of a model whereby stationary-phase mycobacteria comprise populations of cells that differ in both their growth status and gene expression patterns. To investigate this further, we constructed gene fusions between the rpsL gene promoter (which heads the Mycobacterium smegmatis operon encoding the tuf gene encoding EF-Tu) or the rrnA promoter gene and an unstable variant of green fluorescent protein. While the majority of cells in old stationary-phase cultures had low levels of fluorescence and so rpsL expression, a small but consistently observed population of approximately 1 in 1,000 cells was highly fluorescent. This indicates that a small fraction of the cells was expressing rpsL at high levels, and we argue that this represents the growing subpopulation of cells in stationary-phase cultures.

Study on rapid detective technique for streptomycin resistance in Mycobacterium tuberculosis by phage amplified biologically assay

目的 建立结核分枝杆菌(结核菌) 链霉素耐药性的噬菌体快速检测技术,并探讨其临床应用价值.方法应用分枝杆菌噬菌体感染结核菌建立链霉素耐药性的噬菌体检测技术,并对最佳测定条件进行探讨;将所建立的方法用于38株世界卫生组织药敏质控株和372株临床分离株链霉素耐药性测定,并与绝对浓度法和Bactec 960药敏结果比较,对不符合菌株进行最低抑菌浓度(MIC)和rpsL耐药基因检测.结果链霉素终浓度5 μg /ml作用24 h、噬菌体108噬菌体形成单位/ml感染60 min、杀毒剂5%室温作用5 min为选择的检测条件.噬菌体法检测38株药敏质控株结果完全符合.372株临床分离株链霉素耐药性检测结果表明,如以绝对浓度法药敏结果为判断标准,则本法敏感性为97.4%、特异性为91.0%、阳性预测值为81.7%、阴性预测值为98.9%、准确性为92.9%;如以Bactec 960药敏结果为判断标准,则本法敏感性为97.2%、特异性为97.1%、阳性预测值为94.6%、阴性预测值为98.5%、准确性为97.1%.有22株噬菌体法药敏结果与常规药敏试验结果不符,其中的11株噬菌体法检测结果与MIC 和rpsL耐药基因检测结果相同.结论噬菌体法检测链霉素耐药性快速、简便,具有很高的敏感性和特异性,可作为结核菌链霉素耐药性的快速检测方法。

Temperature-mediated heteroduplex analysis for the detection of drug-resistant gene mutations in clinical isolates of Mycobacterium tuberculosis by denaturing HPLC, SURVEYOR nuclease

Denaturing high-performance liquid chromatography (DHPLC) is a relatively new technique, which utilizes heteroduplex formation between wild-type and mutated DNA strands to identify point mutations. Heteroduplex molecules are separated from homoduplex molecules by ion-pair, reverse-phase liquid chromatography on a special column matrix with partial heat denaturation of the DNA strands. In order to investigate the application of this method for point mutation detection in drug-resistant genes of Mycobacterium tuberculosis, katG, rpoB, embB, gyrA, pncA and rpsL genes, which are responsible for isoniazid, rifampicin, ethambutol, fluoroquinolone, pyrazinamide and streptomycin resistance, respectively, were detected by temperature-mediated DHPLC in 10 multidrug-resistant and 10 drug-susceptible clinical isolates. The DHPLC data were compared with those from a conventional MIC test. The results show that DHPLC is cost-effective with high capacity and accuracy, and is potentially useful for genotypic screening for mutations associated with anti-tuberculosis drug resistance.

Frameshift mutations induced by the acridine mustard ICR-191 in embryos and in the adult gill and hepatopancreas of rpsL transgenic zebrafish

To determine whether frameshift mutations can be detected in rpsL transgenic zebrafish ( Brachydanio rerio), embryos, and adult fish were treated with 6-chloro-9-[3-(2-chloroethylamino)-propylamino]-2-methoxyacridine (ICR-191). Embryos exposed to 0, 10, or 20 μM ICR-191 in a water bath for 18 h exhibited induced mutant frequencies (MFs) of 14 × 10 −5, 16 × 10 −5, and 25 × 10 −5, respectively. Only embryos exposed to 20 μM ICR-191 showed a significant increase in MF. The mutational spectra differed between the control and ICR-191-treated groups and single G:C pair insertions, which are a marked characteristic of ICR-191 mutagenesis, were observed in both 10 and 20 μM-treated embryos. In adult fish treated with 1 μM ICR-191 in a water bath for 18 h, a significant increase in MFs was observed in both gill (12 × 10 −5 and 44 × 10 −5 in control and treated fish, respectively), and hepatopancreas (5 × 10 −5 and 29 × 10 −5, respectively) 2 weeks after exposure. Sequence analysis showed that 58% of mutations in gill and 94% of mutations in hepatopancreas were single G:C pair insertions, which is typical of mutations induced by ICR-191. Additionally, these mutations occurred predominantly at a single site (CC sequence at bps 140–141) in the rpsL gene. Three weeks after exposure, however, the increased MFs and prominent mutational spectra of ICR-treated fish were undetectable. These findings suggest that using our protocols the rpsL transgenic zebrafish mutation assay is more effective for adult fish than for embryos, but that frameshift mutations can be detected in both embryos and adults at appropriate sampling times after treatment with ICR-191.

Recognition of Phospholipids in Streptomyces Phospholipase D

To investigate the contribution of amino acid residues to the enzyme reaction of Streptomyces phospholipase D (PLD), we constructed a chimeric gene library between two highly homologous plds, which indicated different activity in transphosphatidylation, using RIBS (repeat-length independent and broad spectrum) in vivo DNA shuffling. By comparing the activities of chimeras, six candidate residues related to transphosphatidylation activity were shown. Based on the above result, we constructed several mutants to identify the key residues involved in the recognition of phospholipids. By kinetic analysis, we identified that Gly188 and Asp191 of PLD from Streptomyces septatus TH-2, which are not present in the highly conserved catalytic HXKXXXXD (HKD) motifs, are key amino acid residues related to the transphosphatidylation activity. To investigate the role of two residues in the recognition of phospholipids, the effects of these residues on binding to substrates were analyzed by surface plasmon spectroscopy. The result suggests that Gly188 and Asp191 are involved in the recognition of phospholipids in correlation with the N-terminal HKD motif. Furthermore, this study also provides experimental evidence that the N-terminal HKD motif contains the catalytic nucleophile, which attacks the phosphatidyl group of the substrate.

Microarray and allele specific PCR detection of point mutations in Mycobacterium tuberculosis genes associated with drug resistance

Global public health is threatened by the emergence of potentially dangerous antibiotic drug-resistant strains of Mycobacterium tuberculosis. Point mutations in certain M. tuberculosis genes are associated with the resistance of M. tuberculosis strains to antibiotic drugs. The purpose of this study was to develop a suitable microarray-based protocol for the detection of point mutations in M. tuberculosis genes associated with drug resistance. We initially developed a conventional, oligonucleotide microarray protocol and used it to detect and identify on a single microarray slide a number of point mutation-containing rpoB and katG gene target sequences. However, the occurrence of some non-specific hybridization led us to the development of an improved protocol based on allele specific PCR combined with tags/anti-tags and microarrays. This protocol was evaluated by detecting point mutations in M. tuberculosis katG and rpoB gene templates produced by recombinant PCR. The methodology allowed sequences containing single point mutations to be readily distinguished from wild type sequences. The data obtained with the improved protocol had strong and specific signals and relatively low amounts of non-specific hybridization. We successfully used this protocol to detect and identify (< 8 h) a number of clinically relevant point mutations in the rpoB, katG and rpsL genes of M. tuberculosis clinical isolates. Our allele specific PCR/tags and anti-tags/microarray protocol has several advantages over our conventional oligonucleotide microarray protocol, and it may have broad applications for point mutation detection.

Rapid detection of mutations of drug-resistant genes in Mycobacterium tuberculosis by PCR-oligonucleotide probes

目的 应用聚合酶链反应(PCR)-寡核苷酸探针快速检测结核菌耐药基因突变,建立一种新的分子药敏试验方法.方法以传统药敏试验、PCR-单链构象多态性和PCR-直接测序方法为对照,对利福平、链霉素(SM)和乙胺丁醇耐药的结核菌基因rpoB、rpsL、rrs 和embB的寡核苷酸探针,通过反向斑点杂交检测78株结核菌临床分离株PCR产物.结果 18株结核菌药物敏感株的4种耐药基因均为野生型.60株结核菌耐药分离株中,59株为耐RFP株,rpoB基因突变率为93.2%,最常见的突变位点为531位和526位密码子,33株为耐SM株,rpsL基因突变率为75.8%,均为43位密码子AAG→AGG突变,rrs基因突变率为9.1%,均为513位A→C突变,rpsL和rrs基因总突变率为84.8%;43株为耐EMB株,embB基因突变率为58.1%,均为306位密码子突变.结论应用PCR-寡核苷酸探针反向斑点杂交技术可简便、快速、准确地分析大多数结核菌耐药基因突变,检测其耐药性。

Detection of radiation-induced mutations in the liver after partial hepatectomy using HITEC transgenic mice

We investigate the dynamics of radiation-specific mutations in a mammalian differentiated cell of the liver in the transgenic mouse called Hypersensitive In vitro Test of Carcinogenecity (HITEC), carrying the rpsL gene as a reporter for mutation detection. In this study, we performed a partial hepatectomy (PH) to induce cell proliferation and increase the detection of mutation frequency. Prior to PH, the mice were exposed to 5 Gy gamma rays at 2 days, 10 days, 1 month or 2 months. The remnant liver was then resected at 3 or 10 days after PH, and the mutation frequencies (MFs) for both resected livers and remnant livers were analyzed. In mice where PH was done at 2 or 10 days after irradiation, the MF of the remnant livers of them increased approximately two times compared with that of the livers in which only irradiation was done. However, in mice where PH was done at 1 or 2 months after irradiation, the increase in MF was not seen. These results show that HP is effective in increasing the MF, and the repair system is clearly working even in mammalian differentiated cell.

薬剤耐性結核菌株の薬剤耐性パターンと遺伝子変異の解析

The antimycobacterial susceptibility test was performed and minimal inhibitory concentration (MIC) to drugs was determined in 98 strains of Mycobacteium tuberculosis (MTB) isolated in Tokyo from 2000 to 2003, to find which were resistant to any of the four main anti-MTB drugs, isoniazid (INH), rifampicin (RFP), streptomycin (SM), and ethambutol (EMB). 27strains of them were resistant only to SM, and 16 strains were resistant only to INH. 51 strains of them were resistant to not only INH but also other drugs. 38 strains were resistant to both INH and RFP. 19 strains were resistant to all four drugs, including 7 strains resistant to new quinolon anti-biotics also. Nucleotide or amino-acid mutations in drug resistant MTB genome were determined by DNA sequencing method. Mutation of codon 516, 526, or 531 of rpoB gene was detected in 98% of MTBs resistant to RFP. Deletion or insertion of katG gene or nucleotide mutation at regulatory region of ahpC gene was detected in MTBs highly resistant to INH. Amino acid mutation of katG gene, especially at codon 315, was detected in MTBs resistant to INH intermediate. Nucleotide mutations at regulatory region of inhA gene were detected in MTBs resistant to INH at low level. Amino acid mutation at codon 43 or 88 of rpsL gene was detected in MTBs highly resistant to SM, and nucleotide mutation at 512, 513, or 516 of rrs gene was detected in MTBs resistant to SM at low level. Amino acid mutation at codon 306 of embB gene was detected in 87% of MTBs resistant to EMB.

MNNG-induced mutations in the adult gill and hepatopancreas and in embryos of rpsL transgenic zebrafish

To evaluate the feasibility of a mutagenicity assay using adult rpsL transgenic zebrafish, 4- to 8-month-old females were exposed to N-methyl- N′-nitro- N-nitrosoguanidine (MNNG) (0, 15 or 30 mg/L in a water bath for 2 h). At 2 weeks after exposure, MNNG showed a concentration-dependent significant increase in mutant frequency (MF) of 8 × 10 −5, 18 × 10 −5, and 51 × 10 −5, respectively, in the gill. DNA sequencing revealed that 60–74% of the induced mutations were G:C to A:T transitions, consistent with the known mutagenic effects of MNNG. A marginal but significant increase in MF was observed in the hepatopancreas only in the group exposed to 30 mg/L, with the induction of some G:C to A:T transitions. A time-course of the appearance of mutations was determined in fish treated with 15 mg/L MNNG. In both, the gill and hepatopancreas, a higher MF was observed at 3 weeks than at 2 weeks, suggesting that an expression time of at least 3 weeks is preferable for the assay. When embryos (29 h post-fertilization) were exposed to MNNG (0, 50, and 150 mg/L) for 1 h, MFs increased significantly with an increase in the concentration of MNNG (5 × 10 −5, 40 × 10 −5, and 144 × 10 −5, respectively) at 3 days after exposure. G:C to A:T transitions were the predominant mutations, and these occurred at the same sites in the rpsL gene as in adult tissues. Thus, MNNG induces typical mutations in the gill and hepatopancreas of adult fish, and in embryos, suggesting that the rpsL zebrafish is a useful tool for monitoring genotoxicity caused by water-borne mutagens.

Characterisation of rpsL, rrs and embB mutations associated with streptomycin and ethambutol resistance in Mycobacterium tuberculosis

In order to characterise molecular mechanisms of first-line drug resistance in Mycobacterium tuberculosis and to evaluate the use of molecular markers of resistance (gene point mutations), we analysed 66 multi-drug-resistant (MDR) isolates from Latvian tuberculosis patients. They were all resistant to rifampin (RIF), isoniazid (INH) and streptomycin (SM), and 33 were resistant to ethambutol (EMB). Enzymatic digestion by MboII and nucleotide sequencing of the rpsL gene fragment detected a single nucleotide substitution K43R in 40 (61%) of the 66 SM-resistant M. tuberculosis isolates. Of the other 26 SM-resistant isolates, 16 (24%) had mutations at positions 513A→C and 516C→T of the rrs gene and 10 (15%) had the wild-type sequence. The single-stranded DNA conformation polymorphism (SSCP) method was used to detect mutations in the embB gene associated with EMB resistance. Substitutions in the embB gene were found by SSCP analysis in 15 (45%) and by sequencing in 17 (52%) of the 33 EMB-resistant isolates. Surprisingly, SSCP revealed a nucleotide mutation at codon M306 in five (15%) of 33 in vitro EMB-susceptible MDR isolates.

The Contribution of a Novel Ribosomal S12 Mutation to Aminoglycoside Resistance of Escherichia coli Mutants

This study characterised the contribution of a novel ribosomal S12 mutation to aminoglycoside resistance in Escherichia coli via step-wise mutation analysis. Mutants of E. coli NCTC 10418 were selected in four separate progressive series (I-IV) on plates containing increasing aminoglycoside (streptomycin, neomycin, gentamicin, tobramycin, and kanamycin) concentrations. Minimum inhibitory concentrations (MICs) of these aminoglycosides were established for the most resistant mutants in each series. There was no cross-resistance between streptomycin and the other aminoglycosides tested; however there was cross-resistance between the neomycin, tobramycin and kanamycin resistant mutants. DNA sequencing of a 423bp region of the rpsL gene encoding S12 revealed a novel Lys87→Glu mutation in the streptomycin selected resistant mutants, while there were no S12 mutations in resistant mutants resulting from selection with neomycin, gentamicin, and tobramycin and kanamycin.

The novel mutation K87E in ribosomal protein S12 enhances protein synthesis activity during the late growth phase in Escherichia coli.

Resistance to streptomycin in bacterial cells often results from a mutation in the rpsL gene that encodes the ribosomal protein S12. We found that a particular rpsL mutation (K87E), newly identified in Escherichia coli, causes aberrant protein synthesis activity late in the growth phase. While protein synthesis decreased with age in cells in the wild-type strain, it was sustained at a high level in the mutant, as determined using living cells. This was confirmed using an in vitro protein synthesis system with poly(U) and natural mRNAs (GFP mRNA and CAT mRNA). Other classical rpsL mutations (K42N and K42T) tested did not show such an effect, indicating that this novel characteristic is typical of ribosomes bearing the K87E mutant form of S12, although the K87E mutation conferred the streptomycin resistance and error-restrictive phenotypes also seen with the K42N and K42T mutations. The K87E (but not K42N or K42T) mutant ribosomes exhibited increased stability of the 70S complex in the presence of low concentrations of magnesium. We propose that the aberrant activation of protein synthesis at the late growth phase is caused by the increased stability of the ribosome.

Attenuation of an avian pathogenic Escherichia coli strain due to a mutation in the rpsL gene.

The diseases caused by pathogenic Escherichia coli constitute a major economic loss to the poultry industry. The development of a live oral E. coli vaccine to prevent or reduce diseases in poultry had been the objective of our work. Four spontaneous streptomycin-dependent (str-dependent) mutants were generated from a virulent avian strain that contains a mutation in the fur region of the chromosome. Genetic analysis of the mutants indicated that the str-dependent phenotype was due to a base change of C --> T at base 272 in the rpsL gene. The mutants were tested for attenuation using the day-old chick model. Day-old birds, in groups of 20, were either challenged with 10(6) colony-forming units (CFU) of the str-dependent mutant, the parent strain (containing the fur mutation), or the wild-type strain without the fur mutation. The parent strain and the wild-type strain were highly virulent, and 80% or more of the birds died. None of the birds challenged with the str-dependent mutants died, indicating attenuation of the mutants. The protective effect of the mutant as a live vaccine against the challenge with 10(6) CFU of the wild-type strain EC317 was investigated. Vaccination by both aerosol (day 1) and oral (days 14 and 28) routes using 10(8) CFU of the str-dependent mutant (EC1598) had no effect on the occurrence of cellulitis in the birds. Two vaccinations given as aerosol on day 1 and given orally on day 14 also had no significant effect on the occurrence of systemic lesions. Three immunizations on days 1, 14, and 28 resulted in a significant reduction in the number of birds with systemic lesions. Antibody titers prior to challenge were not predictive of outcome of challenge.