Bacterial growth in plant tissue culture media

C. LEIFERT AND W.M. WAITES. 1992. When Murashige and Skoog's liquid plant medium was inoculated with 10 different bacterial species in the absence of plants only Bacillus subtilis showed significant growth. The numbers of Lactobacillus plantarum, Pseudomonas maltophilia, Erwinia carotovora and Staphylococcus saprophyticus decreased rapidly and were not detected at 28 d.
Bacillus subtilis, Lact. plantarum, Ps. maltophilia, Erw. carotovora and Staph. saprophyticus grew and persisted in the same medium in the presence of Delphinium plants, while only Lact. plantarum and Erw. carotovora grew and persisted in the presence of Hemerocallis plants.
Hemerocallis plants lowered the pH of media from 5.6 to about 3.9 while Delphinium plants increased it to about 5.9 within 7 d after subculturing on fresh media. The pH drop in Hemerocallis media is thought to prevent the growth and persistence of bacteria such as B. subtilis, Staph. saprophyticus and Ps. maltophilia , which were found to be more sensitive to low pH than Lact. plantarum and Erw. carotovora. Bacterial growth in the medium altered the pH, reduced the plant growth and/or resulted in plant death.     

Effect of medium acidity on growth and rooting of different plant species growing in vitro

Micropropagated Choisya, Daphne, Delphinium, Hemerocallis, Hosta, Iris and Photinia were found to adjust the pH of Murashige and Skoog's plant tissue culture medium (initial pH 5.6 or 3.5) to different values depending on the species. When plant growth and rooting rates were determined after plants had been grown on media initially adjusted or buffered to values between 2.6 and 5.7 the different plant species were also found to have distinct pH requirements for optimal growth and/or rooting rates.Abbreviations MS Murashige & Skoog's (1962) medium - MS19 MS with additionally 10 g l^–1 sucrose - 80 mg l^–1 adenine sulphate and 130.9 mg l^–1 NaH₂PO₄ - BA 6-benzyladenine - NAA 1-naphthyl-acetic acid - IBA 3-indole-butyric acid - IAA 3-indole-acetic acid - 2iP N₆(2-isopentyl) adenine     

Bacterial contaminants of micropropagated plant cultures

Bacterial contaminants of micropropagated plant cultures were isolated and characterized with standard bacteriological tests and appropriate API strips. Results obtained were analysed by the API identification software. Of 198 bacterial strains isolated from nine plant species, 90% were identified as Bacillus, Enterobacter, Micrococcus, Staphylococcus, Pseudomonas or Lactobacillus species. Possible sources of contamination are discussed.     

Variability in tissue cultures of Choisy a ternata originating from a single tree

The extent of the variability has been studied in a population of variant strains of Choisya ternata obtained from two cell lines. The cultures differed from each other in morphological, physiological and biochemical traits. In particular, some of them yielded one of the two dihydrofuroquinoline alkaloids (platydesminiuro) in greater amounts than the whole plant while the other alkaloid (balfourodinium) was always produced in much lower quantities than in the whole plant or in cultures of rootless foliated stems. The variants obtained from the first line biotransformed ellipticine and gave rise to protoplast-derived clones more easily than the variants originating from the second line. Neither photoautotrophy, nor habituation, nor growth rate were correlated with alkaloid accumulation: these characters cannot be used for the selection of high-producing cultures. On the other hand, a photoautotrophic strain accumulated three free sterols not detected in the others or in the plant.     

Viscosinamide, a new cyclic depsipeptide with surfactant and antifungal properties produced by Pseudomonas fluorescens DR54

Pseudomonas fluorescens DR54 showed antagonistic properties against plant pathogenic Pythium ultimum and Rhizoctonia solani both in vitro and in planta. Antifungal activity was extractable from spent growth media, and fractionation by semi-preparative HPLC resulted in isolation of an active compound, which was identified as a new bacterial cyclic lipodepsipeptide, viscosinamide, using 1D and 2D 1H-, 13C-NMR and mass spectrometry. The new antibiotic has biosurfactant properties but differs from the known biosurfactant, viscosin, by containing glutamine rather than glutamate at the amino acid position 2 (AA2). No viscosin production was observed, however, when Ps. fluorescens DR54 was cultured in media enriched with glutamate. In vitro tests showed that purified viscosinamide also reduced fungal growth and aerial mycelium development of both P. ultimum and R. solani. Viscosinamide production by Ps. fluorescens DR54 was tightly coupled to cell proliferation in the batch cultures, as the viscosinamide produced per cell mass unit approached a constant value. In batch cultures with variable initial C, N or P nutrient levels, there were no indications of elevated viscosinamide production during starvation or maintenance of the cultures in stationary phase. Analysis of cellular fractions and spent growth media showed that a major fraction of the viscosinamide produced remained bound to the cell membrane of Ps. fluorescens DR54. The isolation, determination of structure and production characteristics of the new compound with both biosurfactant and antibiotic properties have promising perspectives for the application of Ps. fluorescens DR54 in biological control.     

Comparative antibiotic eradication of mycoplasma infections from continuous cell lines

Accumulating data implicate mycoplasma contamination as the single biggest problem in the culture of continuous cell lines. Mycoplasma infection can affect virtually every parameter and functional activity of the eukaryotic cells. A successful alternative to discarding infected cultures is to attempt to eliminate the contaminants by treatment with specific and efficient antimycoplasma antibiotics. The addition of antibiotics to the culture medium during a limited period of time (1-3 wk) is a simple, inexpensive, and very practical approach for decontaminating continuous cell lines. Here, we examined the effectiveness of several antibiotic treatment protocols that we have employed routinely in our cell lines bank. On an aggregate, 673 cultures from 236 chronically mycoplasma-positive cell lines were exposed to one of the following five antibiotic regimens: mycoplasma removal agent (quinolone; a 1-wk treatment), enrofloxacin (quinolone; 1 wk), sparfloxacin (quinolone; 1 wk), ciprofloxacin (quinolone; 2 wk), and BM-Cyclin (alternating tiamulin and minocycline; 3 wk). The mycoplasma infection was permanently (as determined by three solid mycoplasma detection assays) eliminated by the various antibiotics in 66-85% of the cultures treated. Mycoplasma resistance was seen in 7-21%, and loss of the culture as a result of cytotoxically caused cell death occurred in 3-11% of the cultures treated. Overall, 223 of the 236 mycoplasma-positive cell lines could be cured in a first round of antibiotic treatment with at least one regimen. Taken together, 95% of the mycoplasma-infected cell lines were permanently cleansed of the contaminants by antibiotic treatment, which validates this approach as an efficient and technically simple mycoplasma eradication method.     

Microbial hazards in plant tissue and cell cultures

Summary A wide range of microorganisms (filamentous fungi, yeasts, bacteria, viruses and viroids) and micro-arthropods (mites and thrips) have been identified as contaminants in plant tissue cultures. Contaminant may be introduced with the explant, during manipulations in the laboratory or by micro-arthropod vectors. Contaminants may express themselves immediately or can remain latent for long periods of time. This often makes it difficult to identify the source of contamination. Disinfection protocols have now been developed for a wide range of plant species including those infected with viruses/viroids or endophytic bacteria. They may include the selection of pathogen-free donor plants or donor plant treatments such as thermotherapy. Also microbiological quality assurance systems (e.g. Hazard Analysis Critical Control Point; HACCP procedures) have been adapted to the needs of commercial plant tissue culture laboratories. These are aimed at, preventing the introduction of pathogens, into tissue cultures at establishment and in the laboratory. In established in vitro cultures preventative strategies have proved to be essential, since it is extremely difficult to eliminate environmental bacterial and fungal contaminants using, antibiotics and fungicides. In many cases anti-microbial treatments only inhibit contaminants and low levels of contamination persist. In particular, the use of antibiotics against Gram-negative bacteria (including plant pathogenic bacteria and Agrobacterium tumefaciens vector systems used in genetic engineering) has been shown frequently to be extremely difficult or unsuccessful. Detection of latent contamination may involve the use of general and semi-selective microbial growth media or serological and PCR-based molecular techniques for specific pathogens. However, it is often difficult to detect low numbers of latent bacterial contaminants (e.g. levels present following antibiotic treatment or when acidified plant media are used). This poses a particular risk in the production of transgenic plants where the elimination or detection of Agrobacterium tumefaciens-based vector systems cannot be guaranteed with the currently available methodologies. Recent research has also shown that there is a risk of the transmission of human pathogens in plant tissue cultures.     

High incidence of plant growth-stimulating bacteria associated with the rhizosphere of wheat grown on salinated soil in Uzbekistan

Soil salinization is increasing steadily in many parts of the world and causes major problems for plant productivity. Under these stress conditions, root-associated beneficial bacteria can help improve plant growth and nutrition. In this study, salt-tolerant bacteria from the rhizosphere of Uzbek wheat with potentially beneficial traits were isolated and characterized. Eight strains which initially positively affect the growth of wheat plants in vitro were investigated in detail. All eight strains are salt tolerant and have some of the following plant growth-beneficial properties: production of auxin, HCN, lipase or protease and wheat growth promotion. Using sequencing of part of the 16S rDNA, the eight new isolates were identified as Acinetobacter (two strains), Pseudomonas aeruginosa , Staphylococcus saprophyticus , Bacillus cereus , Enterobacter hormaechei , Pantoae agglomerans and Alcaligenes faecalis . All these strains are potential human pathogens. Possible reasons for why these bacteria present in the rhizosphere and establish there are discussed.     

The role of antibiotic production by a strain of Pseudomonas fluorescens in the suppression of Pseudocercosporella herpotrichoides, the causal agent of eyespot disease of cereals

Pseudomonas fluorescens strain 220 is an effective antagonist of Pseudocercosporella herpotrichoides , the eyespot pathogen of cereals. Culture filtrates of Ps. fluorescens 220 were inhibitory to spore germination and hyphal growth of P. herpotrichoides and at least two compounds with antifungal and antibacterial activity were identified in cultures grown in nutrient broth. In plant tests, both a culture broth of Ps. fluorescens 220 and a crude antibiotic extract reduced eyespot disease, whereas a mutant strain of 220 deficient in antibiotic production had no effect. Production of antibiotics would therefore appear to be a major factor in the suppression of P. herpotrichoides infection. A loss of disease control when Ps. fluorescens 220 was applied to plants in water was not due to lack of survival, as populations of a marked strain of Ps. fluorescens 220 applied to the stem base of wheat plants were similar whether applied in water or culture broth.     

Draft Genome Sequence of Staphylococcus saprophyticus subsp. saprophyticus M1-1, Isolated from the Gills of a Korean Rockfish, Sebastes schlegeli Hilgendorf, after High Hydrostatic Pressure Processing

A bacterium designated M1-1 was isolated from the gills of a Korean rockfish, Sebastes schlegeli Hilgendorf, after high hydrostatic pressure processing. Studies of 16S rRNA phylogeny and comparative genomics demonstrated that the isolate belongs to Staphylococcus saprophyticus subsp. saprophyticus. Here, we report the draft genome sequence of S. saprophyticus subsp. saprophyticus M1-1 (KACC 16562).     

Response of spring rape (Brassica napus var. oleifera L.) to inoculation with plant growth promoting rhizobacteria containing 1-aminocyclopropane-1-carboxylate deaminase depends on nutrient status of the plant

Responses of rape (Brassica napus var. oleifera L.) to inoculation with plant growth promoting rhizobacteria, Pseudomonas putida Am2, Pseudomonas putida Bm3, Alcaligenes xylosoxidans Cm4, and Pseudomonas sp. Dp2, containing 1-aminocyclopropane-l-carboxylate (ACC) deaminase were studied using growth pouch and soil cultures. In growth pouch culture, the bacteria significantly increased root elongation of phosphorus-sufficient seedlings, whereas root elongation of phosphorus-deficient seedlings was not affected or was even inhibited by the bacteria. Bacterial stimulation of root elongation of phosphorus-sufficient seedlings was eliminated in the presence of a high ammonia concentration (1 mM) in the nutrient solution. Bacterial effects on root elongation of potassium-deficient and potassium-sufficient seedlings were similar. The bacteria also decreased inorganic phosphate content in shoots of potassium- and phosphorus-sufficient seedlings, reduced ethylene production by phosphorus-sufficient seedlings, and inhibited development of root hairs. The effects of treatment with Ag+, a chemical inhibitor of plant ethylene production, on root elongation, ethylene evolution, and root hair formation were similar to bacterial treatments. The number of bacteria on the roots of phosphorus-deficient seedlings was not limited by phosphorus deficiency. In pot experiments with soil culture, inoculation of seeds with bacteria and treatment with aminoethoxyvinylglycine, an inhibitor of ethylene biosynthesis in plants, increased root and (or) shoot biomass of rape plants. Stimulation of plant growth caused by the bacteria was often associated with a decrease in the content of nutrients, such as P, K, S, Mo, and Ba, in shoots, depending on the strain used. The results obtained show that the growth-promoting effects of ACC-utilizing rhizobacteria depend significantly on the nutrient status of the plant.     

Use of Shake Cultures in a Semisolid Thioglycolate Medium for Differentiating Staphylococci from Micrococci

The standard diagnostic test for differentiating staphylococci from micrococci is based on the ability of the former to produce acid anaerobically in a glucose-containing growth medium. This test has been modified to provide greater convenience, easier interpretation of results, and better correlation with deoxyribonucleic acid (DNA) base composition. In the modified test, shake cultures in Brewer's fluid thioglycolate medium with 0.3% agar added are observed for growth in the anaerobic zone of the tubes. This test was applied to 125 strains of staphylococci and micrococci, and all except two strains gave results that were consistent with other criteria. Of particular interest were eight strains of Micrococcus saprophyticus and three strains of M. lactis that have a DNA composition of 30 to 37% guanine plus cytosine (GC). All 11 of these cultures produced anaerobic growth and thus would be classified as staphylococci. Strains of M. lactis that have a high GC content in their DNA grew only aerobically. Some cultures of staphylococci produced characteristic band patterns of anaerobic growth and other cultures produced only a few anaerobic colonies from an inoculum of 10(6) to 10(7) cells. These observations suggest some interesting genetic and metabolic capabilities in such cultures.     

Morphological, Biochemical, and Growth Characteristics of Pseudomonas cepacia from Distilled Water

Studies were conducted on three strains of Pseudomonas cepacia isolated and maintained in distilled water and on a laboratory-subcultured strain transferred to distilled water. Optimum growth rates and maximum population yields of the four strains in distilled water were obtained at 37 C, although high population levels (10(6)-10(7)/ml) were reached and maintained over extended incubation periods at temperatures from 18 C to 42 C. Two strains were able to grow in distilled water at temperatures ranging from 12 C to 48 C and to survive 48 h and 21 days at 50 C and 10 C, respectively. Cells from distilled water cultures inoculated into Trypticase soy broth showed an immediate two- to three-log drop at upper and lower temperature limits; survivors were able to initiate logarithmic growth. Results obtained in morphological, biochemical, and antibiotic tests affirmed the strain differences noted in growth studies.     

Intense association of non-culturable endophytic bacteria with antibiotic-cleansed in vitro watermelon and their activation in degenerating cultures

The study was undertaken with a view to unravel the source of bacterial colony growth observed in a section of micropropagated triploid watermelon cultures that were supposedly cleansed of the associated endophytic bacteria through antibiotic treatment, and thereafter maintained under stringent sterility checks to prevent lateral intrusion of contaminants. Five different bacteria were retrieved from colony growth-displaying watermelon cultures that were previously treated with gentamycin and five isolates from cefazolin-treated stocks with the organisms showing tolerance to the respective antibiotic. These watermelon cultures were in degeneration phase (over 6 months after the previous sub-culturing), while the actively maintained counterpart stocks appeared healthy with no colony growth on different bacteriological media during tissue-screenings. The latter cultures, however, revealed abundant motile, tetrazolium-stained bacterial cells in microscopy, suggesting tissue colonization by non-culturable endophytes. PCR screening on healthy cultures endorsed tissue colonization by different bacterial phylogenic groups. A few organisms could be activated to cultivation from healthy watermelon stocks through host tissue extract supplementation, which also enhanced the growth of all the organisms. The study indicated that a fraction of antibiotic-tolerant bacteria survived intra-tissue in non-culturable form during the preceding cleansing activity, multiplied to substantial numbers thereafter, and turned cultivable in degenerating cultures contributed by tissue breakdown products. This study brings out the existence of a deep endophyte association in tissue cultures which is not easily dissociable. It also signifies the utility of in vitro system for investigations into plant–endophyte association and to bring normally non-culturable novel organisms to cultivation facilitating their future exploitation.     

Yeast contaminants of micropropagated plant cultures

L eifert , C., W aites , W.M., N icholas , J.R. & K eetley , J.W. 1990. Yeast contaminants of micropropagated plant cultures. Journal of Applied Bacteriology 69 , 471–476.
Of 36 yeast strains isolated from contaminated plant cultures 78% were Candida, 20% Rhodotorula and 2% were Cryptococcus species. Strains of Candida guilliermon-dii represented 45% of all yeasts isolated. Yeasts grew rapidly on plant growth media with a pH of between 2.5 and 6.0 and decreased the medium pH to values of between 2.0 and 3.0. Candida yeasts growing on plant medium for 28 d metabolized about 75% of the sucrose and produced fermentation products such as ethanol and acetic acid. In contrast, Rhodotorula did not produce ethanol or acetic acid and only metabolized about 20% of the sucrose. Possible sources of contamination are discussed.     

A contaminant,Erwinia carotovora,affecting commercial plant tissue cultures

Summary Commercial plant tissue cultures of several ornamental plants exhibiting reduced vigor and chlorosis in stage II were found to contain bacterial contaminants. In most cases, visible evidence of the contaminants in the tissue-culture medium was not easily discernible. Physiological and pathological tests employing pure cultures proved 5 of the 10 isolates obtained to beErwinia carotovora, an important pathogen of many horticultural plants. The tissue cultures from whichE. carotovora was isolated were of plant types nonsusceptible under normal commercial production methods. These results indicate nonhost plants may serve as carriers ofE. carotovora during tissue-culture propagation and also possibly under normal methods of commercial production. Florida Agricultural Experiment Stations Journal Series No. 883. This investigation was supported in part by The Fred C. Gloeckner Foundation.     

Suppression of maize root diseases caused by Macrophomina phaseolina, Fusarium moniliforme and Fusarium graminearum by plant growth promoting rhizobacteria.

A plant growth-promoting isolate of a fluorescent Pseudomonas sp. EM85 and two bacilli isolates MR-11(2) and MRF, isolated from maize rhizosphere, were found strongly antagonistic to Fusarium moniliforme, Fusarium graminearum and Macrophomina phaseolina, causal agents of foot rots and wilting, collar rots/stalk rots and root rots and wilting, and charcoal rots of maize, respectively. Pseudomonas sp. EM85 produced antifungal antibiotics (Afa+), siderophore (Sid+), HCN (HCN+) and fluorescent pigments (Flu+) besides exhibiting plant growth promoting traits like nitrogen fixation, phosphate solubilization, and production of organic acids and IAA. While MR-11(2) produced siderophore (Sid+), antibiotics (Afa+) and antifungal volatiles (Afv+), MRF exhibited the production of antifungal antibiotics (Afa+) and siderophores (Sid+). Bacillus spp. MRF was also found to produce organic acids and IAA, solubilized tri-calcium phosphate and fixed nitrogen from the atmosphere. All three isolates suppressed the diseases caused by Fusarium moniliforme, Fusarium graminearum and Macrophomina phaseolina in vitro. A Tn5:: lacZ induced isogenic mutant of the fluorescent Pseudomonas EM85, M23, along with the two bacilli were evaluated for in situ disease suppression of maize. Results indicated that combined application of the two bacilli significantly (P = 0.05) reduced the Macrophomina-induced charcoal rots of maize by 56.04%. Treatments with the MRF isolate of Bacillus spp. and Tn5:: lacZ mutant (M23) of fluorescent Pseudomonas sp. EM85 significantly reduced collar rots, root and foot rots, and wilting of maize caused by Fusarium moniliforme and F. graminearum (P = 0.05) compared to all other treatments. All these isolates were found very efficient in colonizing the rhizotic zones of maize after inoculation. Evaluation of the population dynamics of the fluorescent Pseudomonas sp. EM85 using the Tn5:: lacZ marker and of the Bacillus spp. MRF and MR-11(2) using an antibiotic resistance marker revealed that all the three isolates could proliferate successfully in the rhizosphere, rhizoplane and endorhizosphere of maize, both at 30 and 60 days after seeding. Four antifungal compounds from fluorescent Pseudomonas sp. EM85, one from Bacillus sp. MR-11(2) and three from Bacillus sp. MRF were isolated, purified and tested in vitro and in thin layer chromatography bioassays. All these compounds inhibited R. solani, M. phaseolina, F. moniliforme, F. graminearum and F. solani strongly. Results indicated that antifungal antibiotics and/or fluorescent pigment of fluorescent Pseudomonas sp. EM85, and antifungal antibiotics of the bacilli along with the successful colonization of all the isolates might be involved in the biological suppression of the maize root diseases.     

Selective Isolation of Leptospiras from Contaminated Material by Incorporation of Neomycin to Culture Media

Incorporation of neomycin to the culture medium was found to be effective in inhibiting Escherichia coli contaminants without interfering with the growth of serotype L. autumnalis. The growth of 12 other Leptospira serotypes was unaffected by the addition of 300 mug of neomycin per ml to Ellinghausen medium or 5 mug/ml to Fletcher medium. Neomycin-containing medium was found to be of value in the isolation of leptospiras from cultures of blood from infected laboratory animals. A higher percentage of isolates was obtained in swine kidneys from an abattoir in medium containing neomycin than resulted from the same medium without antibiotic or with 5-fluorouracil. Contaminated leptospiral cultures growing in media with 5-fluorouracil were purified by subculturing into neomycin-containing media.     

Cefotaxime prevents microbial contamination and improves microspore embryogenesis in wheat and triticale

Key message

Cefotaxime (100 mg/l) mitigate occasional gram negative bacterial contamination in wheat and triticale microspore culture and most importantly it increases cell growth and green plant production.

Abstract

Isolated microspore culture is a promising option to rapidly fix the product of meiotic recombination of F₁ hybrids, in the process of varietal development. Clean culture and high embryogenesis rate are essential to commercial triticale and wheat microspore cultures. So, this study investigated (1) contaminants from isolated microspores cultures, (2) two antibiotics to control bacterial growth, and (3) the contribution of antibiotics to increased microspore-derived embryo-like structures (ELS), green and albino plants. Five species of bacteria were identified in contaminated cultures (Erwinia aphidicola, Pantoea agglomerans, Pseudomonas sp., Staphylococcus epidermis and Staphylococcus warneri) using fatty acid analysis and 16S ribosomal RNA sequences analysis, and yeast. Antibacterial susceptibility test using Cefotaxime and Vancomycin resulted in strong inhibition of 24 bacterial isolates, using Cefotaxime at 100 mg/l, but not Pseudomonas sp. Other antibiotic treatments inhibited bacterial growth at least partially. Microspore induction medium supplemented with the same antibiotics treatments resulted in successful microspore embryogenesis and green plant production. Antibiotic treatments were first tested in triticale and then validated in wheat cultivars AC Carberry and AC Andrew. Induction medium supplemented with Cefotaxime at 50 and 100 mg/l substantially increased the formation of ELS and green plants in triticale and wheat, respectively. Incidentally, it also affected the occurrence of albinism in all genotypes. Our results demonstrated dual purpose of Cefotaxime for isolated microspore culture, most importantly it increases cell growth and success of microspore cultures in triticale and wheat genotypes, but would also prevent accidental loss of cultures with most common bacterial contaminants.     

Taxonomic and nomenclatural notes on Delphinium L

BLANCHE, C. & MOLERO, J., 1993. Taxonomic and nomenclatural notes on Delphinium L. Delphinium viciosoi Pau and Delphinium intrincatum Pau, two poorly known plants from Iran, are typified. A new combination for the latter, Aconitella intrincata (Pau) Blanche & Molero is given. The name Delphinium ambiguum L. should not be attached to the plant known as Delphinium nanum DC, but should be considered as a synonym for Consolida ajacis (L.) Schur (= Delphinium ajacis L.).