Thellungiella halophila, a salt-tolerant relative of Arabidopsis thaliana, possesses effective mechanisms to discriminate between potassium and sodium

Thellungiella halophila is a salt‐tolerant close relative of Arabidopsis thaliana. Significant mRNA similarity was confirmed by hybridization of T. halophila mRNA with the A. thaliana GeneChip ATH1. To establish a platform for future molecular comparison of the two species several physiological mechanisms, which may confer high salt tolerance to T. halophila, were investigated. Determination of ion content in shoots and roots of A. thaliana and T. halophila indicated different strategies of ion uptake and translocation from root to shoot in the two species. During salt stress T. halophila accumulated less sodium than A. thaliana. Tissue concentrations of sodium and potassium showed negative correlation in A. thaliana but not in T. halophila. Electrophysiological experiments proved high potassium/sodium selectivity of root plasma membrane channels in T. halophila. In particular, voltage‐independent currents were more selective for potassium in T. halophila than in A. thaliana. Single cell sampling of T. halophila leaves during salt exposure revealed increased concentrations of sodium and decreased concentrations of potassium in epidermal cells suggesting that this cell type could function to ensure storage of sodium and exchange of potassium with the rest of leaf. Application of salt resulted in a sharp drop of transpiration in A. thaliana. By contrast, transpiration in T. halophila responded more slowly and was only slightly inhibited by salt treatment, thus maintaining high water uptake and ion transport.     

Deoxyribonucleic acid relatedness among strains of the moderately halophilic speciesDeleya halophila

The genomic relatedness among 16 strains assigned to the moderately halophilic speciesDeleya halophila and other 20 representative strains of halophilic and nonhalophilic species was estimated by determination of deoxyribonucleic acid (DNA) base composition and by DNA-DNA hybridization studies. The guanine-plus-cytosine (G + C) base contents, determined from the melting temperature of DNAs ofD. halophila strains, were 66.0–68.8 mol %. DNA-DNA homology studies, determined by membrane filter technique, indicate that the 16 strains ofD. halophila comprise a genetically homogeneous group. High homology (70–100%) was obtained between the type strainD. halophila CCM 3662 and the otherD. halophila strains studied; however, very low DNA relatedness was found between the representative strains ofD. halophila and otherDeleya species (13-0%), as well as other moderately halophilic, marine, or nonhalophilic bacteria investigated.     

Precipitation of calcium carbonate byDeleya halophila in media containing NaCl as sole salt

The precipitation of calcium carbonate by 27 strains ofDeleya halophila using solid and liquid media containing different NaCl concentrations (2.5, 7.5, or 20%, wt/vol) as sole salt, and two incubation temperatures (22° and 32°C) have been studied. All the strains tested were able to precipitate calcium carbonate under the different environmental conditions assayed. Crystals formed were calcite and vaterite; the ratio of calcite to vaterite was dependent on total salts and on the type of medium.     

Influence of salt concentration and temperature on the fatty acid compositions of Ectothiorhodospira and other halophilic phototrophic purple bacteria

Influences of the salt concentration on the fatty acid composition of Ectothiorhodospira species and other phototrophic purple bacteria have been analysed. Major fatty acids in bacteria of the genera Rhodobacter, Rhodopseudomonas, Chromatium, and Ectothiorhodospira were straight chain saturated and monounsaturated C-16 and C-18 fatty acids. Salt-dependent responses of all investigated bacteria revealed relations to their salt optima. Minimum values of C-16 and saturated fatty acids and maximum values of C-18 and unsaturated fatty acids were found at or close to the salt optima. Responses of Ectothiorhodospira mobilis upon changes in salinity were nearly identical, whether cells were grown in batch culture or in continuous culture with identical dilution rates at all salt concentrations. With increasing temperature, the fatty acid composition of Ectothiorhodospira mobilis and Ectothiorhodospira halophila strains showed decreasing portions of C-18 and of unsaturated fatty acids, while the contents of C-16 and saturated fatty acids increased. The results are discussed with respect to bilayer stabilisation and membrane fluidity.Abbreviations PC phosphatidylcholine - PG phosphatidylglycerol - CL cardiolipin - PE phosphatidylethanolamine     

Cell walls from Actinopolyspora halophila,an extremely halophilic actinomycete

Cell wall components were prepared from Actinopolyspora halophila (strain wt), an extremely halophilic actinomycete requiring a minimum 12% NaCl concentration for growth, and from an erythromycin-resistant strain of A. halophila (strain ER) that required only 6% NaCl for growth. Both cell wall preparations contained glutamic acid, alanine, and diaminopimelic acid in a 1:2:1 molar ratio. On the basis of muramic acid content, peptidoglycans from the wt and ER strains contained 255 and 245 disaccharide units per mg dry weight respectively. In addition, both cell wall preparations contained from 10 to 20% more glucosamine than muramic acid, and equimolar amounts of d-galactose and d-arabinose. Analysis of cell walls before and after digestion with Myxobacter AL-1 protease indicated that nearly all glycan disaccharide units were peptide-substituted and that peptide cross-bridging was facilitated by direct peptide linkages between N-diaminopimelic acid and C-terminal alanine. While the peptidoglycan of A. halophila wt was 50% peptide cross-linked, that from A. halophila ER was approximately 67% peptide cross-linked. Chemical modifications involving substitution of non-N-acetylated hexosamines of the cell walls greatly enhanced their sensitivity to lysozyme. Although differences in peptidoglycan structure between the two strains of A. halophila were observed, these probably do not account for the reduced salt requirement for growth of the erythromycin-resistant strain.Issued as NRCC 25165     

The effect of salt on the lipid composition of Ectothiorhodospira

Major components of polar lipids of halophilic phototrophic Ectothiorhodospira species were PG, CL, PC and PE. PA was only present in minor amounts. According to ¹⁴C-incorporation, polar lipids approximated to 75%–93% of the total lipid carbon. With increasing salinity, a strong increase in the portion of PG and a decrease in that of PE (especially in Ectothiorhodospira mobilis BN 9903) and CL (especially in E. halophila strains) were observed. Moreover, there was a significant increase in the excess negative charges of phospholipids upon increasing medium salinity. This increase was most dramatic in the slightly halophilic E. mobilis BN 9903, but quantitatively less important in both strains of E. halophila which had, however, a higher percentage of negative charges of their lipids. During salt-shift experiments, E. halophila BN 9630 responded to suddenly increased salinity by promoting the biosynthesis of PG and decreasing that of PC, CL and PE. Upon dilution stress, responses were reversed and resulted in a strong increase in PE biosynthesis. The effects of lipid charges and bilayer forming forces in stabilizing the membranes of Ectothiorhodospira species during salt stress are discussed.Abbreviations PC phosphatidylcholine - PG, PG-1, PG-2 phosphatidylglycerol - CL, CL-1, Cl-2 cardiolipin - PE phosphatidylethanol-amine - PA phosphatidic acid - NL nonpolar lipids - ori origin - TLC thin layer chromatography     

Detection of a Phage Genome Carrying a Zonula Occludens like Toxin Gene (zot) in clinical isolates of Stenotrophomonas maltophilia

During a study of the genetic diversity of Stenotrophomonas strains, we found an autonomous replicating DNA molecule in chromosomal DNA preparations of the clinical Stenotrophomonas maltophilia strain c5. The entire sequence of 6,907 bp of the isolated DNA molecule was determined, which was called φSMA9. Seven ORFs, which code for proteins with considerable similarity to proteins in databases, were identified in the DNA sequence. The largest ORF shows high sequence similarities to the pI protein of the filamentous phage φLf, which was later shown to be identical to toxin Zot of Vibrio cholerae. Beside the Zot-like protein, six other proteins with similarities to known phage proteins such as a phage replication protein RstA and phage absorption or coat protein are encoded on φSMA9, which indicate that this circular DNA molecule represents the replicative form of a linear phage genome. A PCR-based screening showed that only five from the totally investigated 47 Stenotrophomonas strains of clinical and environmental origin harbor these genes. Altogether, we describe the first genome of a phage for the nosocomial pathogen Stenotrophomonas, which contains a Zot toxin like gene and might be regarded as the first Stenotrophomonas virulence factor.     

Comparative salt tolerance analysis between Arabidopsis thaliana and Thellungiella halophila, with special emphasis on K(+)/Na(+) selectivity and proline accumulation

The eco-physiology of salt tolerance, with an emphasis on K⁺ nutrition and proline accumulation, was investigated in the halophyte Thellungiella halophila and in both wild type and eskimo-1 mutant of the glycophyte Arabidopsis thaliana, which differ in their proline accumulation capacity. Plants cultivated in inert sand were challenged for 3 weeks with up to 500 mM NaCl. Low salinity significantly decreased A. thaliana growth, whereas growth restriction was significant only at salt concentrations equal to or exceeding 300 mM NaCl in T. halophila. Na⁺ content generally increased with the amount of salt added in the culture medium in both species, but T. halophila showed an ability to control Na⁺ accumulation in shoots. The analysis of the relationship between water and Na⁺ contents suggested an apoplastic sodium accumulation in both species; this trait was more pronounced in A. thaliana than in T. halophila. The better NaCl tolerance in the latter was associated with a better K⁺ supply, resulting in higher K⁺/Na⁺ ratios. It was also noteworthy that, despite highly accumulating proline, the A. thaliana eskimo-1 mutant was the most salt-sensitive species. Taken together, our findings indicate that salt tolerance may be partly linked to the plants’ ability to control Na⁺ influx and to ensure appropriate K⁺ nutrition, but is not linked to proline accumulation.     

Accelerated Adsorption of Bacteriophage T5 to Escherichia coli F, Resulting from Reversible Tail Fiber-Lipopolysaccharide Binding

A dual specificity for phage T5 adsorption to Escherichia coli cells is shown. The tail fiber-containing phages T5(+) and mutant hd-3 adsorbed rapidly to E. coli F (1.2 x 10(-9) ml min(-1)), whereas the adsorption rate of the tail fiber-less mutants hd-1, hd-2, and hd-4 was low (7 x 10(-11) ml min(-1)). The differences in adsorption rates were due to the particular lipopolysaccharide structure of E. coli F. Phage T4-resistant mutants of E. coli F with an altered lipopolysaccharide structure exhibited similar low adsorption for all phage strains with and without tail fibers. The same held true for E. coli K-12 and B which also differ from E. coli F in their lipopolysaccharide structures. Only the tail fiber-containing phages reversibly bound to isolated lipopolysaccharides of E. coli F. Infection by all phage strains strictly depended on the tonA-coded protein in the outer membrane of E. coli. We assume that the reversible preadsorption by the tail fibers to lipopolysaccharide accelerates infection which occurs via the highly specific irreversible binding of the phage tail to the tonA-coded protein receptor. The difference between rapid and slow adsorption was also revealed by the competition between ferrichrome and T5 for binding to their common tonA-coded receptor in tonB strains of E. coli. Whereas binding of T5(+) to E. coli K-12 and of the tail-fiber-less mutant hd-2 to E. coli F and K-12 was inhibited 50% by about 0.01 muM ferrichrome, adsorption of T5 to E. coli F was inhibited only 40% by even 1,000-fold higher ferrichrome concentrations.     

Influence of resistance-factors on the phage types ofSalmonella Panama

The resistance to antibiotics which has been increasingly observed in naturally occurringSalmonella panama, is due to an R-factor. A relationship was found between phage pattern and the presence of this R-factor. All strains belonging to phage types A, C and E are sensitive to all antibiotics and are indicated in phage-typing by wild-type phage 47 or host-range mutants of phage 47. All strains belonging to phage types B, D and F possess an R-factor and are indicated by host-modified variants of phage 47. Phage type G, indicated by a host-range mutant, and group Z contain strains with, as well as without an R-factor. Spontaneous drug-sensitive segregants of type B, D and F strains have the phage pattern A, C and E respectively. Conversely, the phage pattern of A, C and E type strains change into B, D and F respectively after infection with the R-factor ofS. panama. The theory can be advanced that type B type A+R-factor, D — C+R-factor and F = E+R-factor. This change in phage type can be considered to be due to the fact that the R-factor exerts restriction and modification of the phage which indicates theS. panama strain without the R-factor.Many of the antibiotic-resistantEscherichia coli strains found in nature possess an R-factor which can be transferred toS. panama in vitro. Relatively few of these R-factors were found to possess also the restriction marker. Thus up to the present the number ofE. coli strains possessing an R-factor which is able to create a dependable combination of phage type and drug resistance inS. panama is relatively small.     

Genome-informed approach to identify genetic determinants of Flavobacterium psychrophilum phage susceptibility

The fish pathogen Flavobacterium psychrophilum infects farmed salmonids worldwide, and application of bacteriophages has been suggested for controlling disease outbreaks in aquaculture. Successful application of phages requires detailed knowledge about the variability in phage susceptibility of the host communities. In this study, we analysed the genetic diversity of F. psychrophilum hosts and phages from the Baltic Sea area to identify genetic determinants of phage-host interaction patterns. A host range analysis of 103 phages tested against 177 F. psychrophilum strains (18 231 phage–host interactions) identified nine phage clusters, infecting from 10% to 91% of the strain collection. The core genome-based comparison of 35 F. psychrophilum isolates revealed an extremely low overall genomic diversity (>99.5% similarity). However, a small subset of 16 ORFs, including genes involved in the type IX secretion system (T9SS), gliding motility and hypothetical cell-surface related proteins, exhibited a highly elevated genetic diversity. These specific genetic variations were linked to variability in phage infection patterns obtained from experimental studies, indicating that these genes are key determinants of phage susceptibility. These findings provide novel insights on the molecular mechanisms determining phage susceptibility in F. psychrophilum and emphasizes the importance of phages as drivers of core genomic diversity in this pathogen.     

EAEC噬菌体PNJ1809-11和PNJ1809-13作为环境消毒剂的杀菌效果评估

[目的] 分析2株肠聚集性大肠杆菌（EAEC） CVCC232噬菌体PNJ1809-11、PNJ1809-13的生物学特性,并对其作为环境消毒剂的杀菌效果进行评估。[方法] 透射电镜下观察PNJ1809-11、PNJ1809-13的形态;通过宿主谱、最佳感染复数（MOI）、一步生长曲线、对pH和温度耐受性的测定分析PNJ1809-11、PNJ1809-13的生物学特性;比较2株噬菌体的体外杀菌效果和喷雾、雾化处理后的杀菌效果;检测噬菌体在模拟养殖环境下的耐受性,及喷雾处理的噬菌体制剂在模拟养殖环境下的杀菌效果和对宿主菌生物被膜的清除效果;分析宿主菌的抗性突变率。[结果] 电镜下观察PNJ1809-11、PNJ1809-13均为肌尾病毒科噬菌体;PNJ1809-11可裂解155株大肠杆菌,PNJ1809-13可裂解46株大肠杆菌;噬菌体PNJ1809-11、PNJ1809-13的最佳感染复数（MOI）均为10,最适pH均为7;与PNJ1809-13相比,PNJ1809-11具有较好的热稳定性;在模拟的封闭装置中,将两株噬菌体分别经喷雾、雾化处理后,二者对宿主菌的杀灭效果均可达99%以上;对人工污染的粪便表面细菌的杀灭效果均达到99%以上。噬菌体PNJ1809-11、PNJ1809-13及两者的混合制剂（噬菌体鸡尾酒）对宿主菌CVCC232形成的生物被膜的裂解效率分别为78%、30%和83%。噬菌体PNJ1809-11在养殖温度、粪便pH以及阳光照射下,其耐受性均强于PNJ1809-13。宿主菌对PNJ1809-11、PNJ1809-13的抗性突变率分别为2.5×10^–3和1.0×10^–3。[结论] 综上,噬菌体PNJ1809-11的环境耐受力更强,噬菌体鸡尾酒对生物被膜的裂解效果更好,提示噬菌体PNJ1809-13或噬菌体鸡尾酒经喷雾处理后具有作为环境杀菌剂的潜力。     

氨氮对3种吸附态亚硝化单胞菌的抑制动力学

[背景] 氨氮浓度会明显影响亚硝化单胞菌的活性,但氨氮浓度对吸附态亚硝化单胞菌菌种的抑制动力学尚缺乏研究。[目的] 研究氨氮浓度对3种吸附态亚硝化单胞菌（Nitrosomonas eutropha CZ-4、Nitrosomonas halophila C-19和Nitrosomonas europaea SH-3）的影响。[方法] 以碳酸钙作为吸附基质,设定氨氮浓度为25-1 000 mg/L,测定3种亚硝化单胞菌（N.eutropha CZ-4、N. halophila C-19和N. europaea SH-3）的亚硝氮积累速率与最大比生长速率,并通过Edwares2模型建立氨氧化的抑制动力学方程。[结果] N. halophila C-19在初始氨氮浓度为50-100 mg/L时的亚硝氮积累最快,N. europaea SH-3的亚硝氮积累则在初始氨氮浓度为50-200 mg/L时最快,而N. eutropha CZ-4则适于在初始氨氮浓度为50-400 mg/L时积累亚硝氮;N. eutropha CZ-4的最大比生长速率出现在初始氨氮浓度为50-400 mg/L时,明显高于N. halophila C-19（25-100 mg/L）,而N. europaea SH-3的生长速度在初始氨氮浓度为50-800 mg/L区间内无显著差异;N. europaea SH-3的K_I（922.76 mg/L）显著高于N. eutropha CZ-4（597.88 mg/L）,而CZ-4的K_I又显著高于N. halophila C-19（186.24 mg/L）,N. europaea SH-3的K_m（72.06 mg/L）显著高于N. halophila C-19（23.23 mg/L）。[结论] 3种吸附态亚硝化单胞菌的生长和氨氧化对氨氮浓度变化的响应存在明显差异,对于认识不同亚硝化单胞菌在不同氨氮浓度污水中的功能并开发相应的工程技术具有重要意义。     

An Extremely Halophilic Proteobacterium Combines a Highly Acidic Proteome with a Low Cytoplasmic Potassium Content

Halophilic archaea accumulate molar concentrations of KCl in their cytoplasm as an osmoprotectant and have evolved highly acidic proteomes that function only at high salinity. We examined osmoprotection in the photosynthetic Proteobacteria Halorhodospira halophila and Halorhodospira halochloris. Genome sequencing and isoelectric focusing gel electrophoresis showed that the proteome of H. halophila is acidic. In line with this finding, H. halophila accumulated molar concentrations of KCl when grown in high salt medium as detected by x-ray microanalysis and plasma emission spectrometry. This result extends the taxonomic range of organisms using KCl as a main osmoprotectant to the Proteobacteria. The closely related organism H. halochloris does not exhibit an acidic proteome, matching its inability to accumulate K⁺. This observation indicates recent evolutionary changes in the osmoprotection strategy of these organisms. Upon growth of H. halophila in low salt medium, its cytoplasmic K⁺ content matches that of Escherichia coli, revealing an acidic proteome that can function in the absence of high cytoplasmic salt concentrations. These findings necessitate a reassessment of two central aspects of theories for understanding extreme halophiles. First, we conclude that proteome acidity is not driven by stabilizing interactions between K⁺ ions and acidic side chains but by the need for maintaining sufficient solvation and hydration of the protein surface at high salinity through strongly hydrated carboxylates. Second, we propose that obligate protein halophilicity is a non-adaptive property resulting from genetic drift in which constructive neutral evolution progressively incorporates weakly stabilizing K⁺-binding sites on an increasingly acidic protein surface.     

The Replicon of the Cryptic Plasmid pSBO1 Isolated from Streptococcus bovis JB1

The cryptic plasmid pSBO1 (3904 bp) was isolated from Streptococcus bovis JB1. pSBO1 contained an open reading frame (ORF) that is homologous to sequences encoding the replication protein (Rep) in pEFC1 (isolated from Enterococcus faecalis), pSK639 (Staphylococcus epidermidis), pLA103 (Lactobacillus acidophilus), and pUCL287 (Tetragenococcus halophila). In addition, four 22-bp direct repeats (DRs) were located upstream of the putative replication gene (rep) of pSBO1. Recombinant plasmids (pSBE10 and pSBE11) containing the DRs and putative rep of pSBO1 replicated in S. bovis 12-U-1 and no8 strains. This result indicates that the putative rep encoded Rep and that the replicon of pSBO1 contained the DRs and the rep. Gel shift assays showed that the Rep of pSBO1 bound the 22-bp DRs. Received: 14 September 2000 / Accepted: 28 November 2000     

A bacteriophage of a moderately halophilic bacterium

A bacteriophage of an aerobic, gram-negative, rod-shaped halophilic bacterium, provisionally named Pseudomonas sp. G3, is described. The phage has a head and a tail and is similar in appearance to Salmonella phage Beccles. It infects its bacterial host at all salt concentrations in which the bacteirum is able to grow. In contrast to phages of halophilic archaebacteria, the newly-described phage is relatively stable in the absence of salt. It also infects Vibrio costicola and two unidentified halophilic eubacteria.Abbreviations PPT proteose peptone-tryptone medium - pfu plaque-forming unit - G+C guanine + cytidine content, mol %     

Comparative sequence analysis of the SALT OVERLY SENSITIVE1 orthologous region in Thellungiella halophila and Arabidopsis thaliana

To provide a framework for studies to understand the contribution of SALT OVERLY SENSITIVE1 (SOS1) to salt tolerance in Thellungiella halophila, we sequenced and annotated a 193-kb T. halophila BAC containing a putative SOS1 locus (ThSOS1) and compared the sequence to the orthologous 146-kb region of the genome of its salt-sensitive relative, Arabidopsis thaliana. Overall, the two sequences were colinear, but three major expansion/contraction regions in T. halophila were found to contain five Long Terminal Repeat retrotransposons, MuDR DNA transposons and intergenic sequences that contribute to the 47.8-kb size variation in this region of the genome. Twenty-seven genes were annotated in the T. halophila BAC including the putative ThSOS1 locus. ThSOS1 shares gene structure and sequence with A. thaliana SOS1 including 11 predicted transmembrane domains and a cyclic nucleotide-binding domain; however, different patterns of Simple Sequence Repeats were found within a 540-bp region upstream of SOS1 in the two species.     

Restriction and modification of phage 47 and lambda by R factors

S. panama 47 (antibiotic-sensitive, phage pattern A) was infected with R factors from a number of field strains of Enterobacteriaceae (Salmonella, Escherichia coli, Citrobacter, Enterobacter, Klebsiella andProteus) isolated from human and animal sources. These R factors could be grouped into 11 types i.e. R1 R11 on the basis of induced changes in the phage type of the recipient.R8 and R11 renderS. panama resistant to the phages A H:S. panama 47 (R3) and 47 (R6) adsorb the phages A F, but there is no phage multiplication: phages G and H are considered to be restricted and modified in these strains. The R factors R5 and R7 also exert restriction and modification on a number of the typing phages A H. The nature of the changes in phage pattern brought about by R4, R9 and R10 is not understood. R2 does not exert restriction (i.e. no change in phage pattern). The R factors were also investigated for the fi (fertility inhibition) and spp (restriction of phage ) markers.The R factors R3 R11 readily segregate, in the sense that the restriction and modification loci, and occasionally the Resistance Transfer Factor as a whole was frequently lost after R transfer. These 9 types of R factors were encountered infrequently in the present material.Resistance to tetracycline inS.panama is nearly always due to R factors of type R1. In other members of Enterobacteriaceae, notably inE.coli, R1 is less frequently found than R2.     

Protein characterization of lactococcus lactis ssp. lactis and L. lactis ssp. cremoris bacteriophages isolated from cheese wheys

Proteins of Lactococcus lactis ssp. lactis and L. lactis ssp. cremoris bacteriophages were studied using antibody inhibition assay and immunoblotting. Antisera were prepared against four representative L. lactis ssp. lactis and L. lactis ssp. cremoris phages (D59-1, F4-1, G72-1, and I37-1), which were selected from 17 isolates, derived from commercial cheese wheys. The reactivities of the four antisera with 13 other phage isolates were tested. Among these isolates, two phage groups having distinct serological properties were found. Group I reacted with the antisera against phages D59-1/F4-1 and Group II reacted with the antisera against phages G72-1/I37-1. Strongly lytic phages, capable of lysing phage-resistant host strains, were found to share protein similarities with the phage protein group I, and phages isolated from phage-sensitive host strains belonged to the phage protein group II. Furthermore, group I was composed of all prolate and some isometric phages, whereas group II was composed solely of the isometric phages. Thus, the two serologically distinct phage groups were not correlated with the two morphological groups, prolate and isometric. Proteins of the four phages were further characterized by immunoblotting and silver staining. A 22.5-kDa antigenic polypeptide of phage I37-1, and three polypeptides of 65, 37, 21 kDa in phage F4-1 were responsible for the cross-reactivities in group II and group I, respectively. Correspondence to: R. A. Ledford     

Studies of two strains of Actinopolyspora halophila,an extremely halophilic actinomycete

Actinopolyspora halophila is an extremely halophilic actinomycete requiring a minimum salt concentration of 12% (w/v) for growth in liquid media at 37°C. During antibiotic sensitivity testing of the organism, an erythromycin-resistant phenotypic variant designated A. halophila ER, was isolated. This strain was approximately 60-fold more resistant to erythromycin than the wild-type strain, and, moreover, was capable of growth in 6% sodium chloride. Optimal growth of both strains in liquid media was observed in 20% salt.After resuspension in water for up to 20 days, the organism exhibited good growth in fresh salt-containing media. Cultures resuspended in salt-containing media, however, were subject to extensive cellular autolysis.In addition to resistance to -lactam antibiotics which was mediated by cellular and exocellular -lactamases, the organism was insensitive to all other tested antibiotics except amakacin, chloramphenicol, kanamycin, gentamycin, naladixic acid, streptomycin, and tetracycline. No plasmids were detected in either strain. A. halophila possessed high cellular levels of catalase, -lactamase, and -glucosidase. A variety of exocellular enzymes including protease, -lactamase, xylanase, and carboxymethyl cellulase, were secreted maximally into growth media containing 15% NaCl.Issued as NRCC 25148