Multiple allelopathic activity of the crustose coralline algaLithophyllum yessoenseagainst settlement and germination of seaweed spores

A study was made to investigate possible formation by the crustose coralline algaLithophyllum yessoenseof multiple allelopathic-related substances against the settlement and germination of spores of various seaweeds. Seven different solvents (n-hexane, diethyl ether, acetone, ethyl acetate, acetonitrile, methanol, distilled water) and seawater were used to obtain crude extracts and secretory exudates from the coralline alga. The extracts and the algal conditioned seawater were tested for inhibitory activity against the settlement and germination of spores from 17 species representing 15 genera. Spore settlement of 14 species was inhibited over 90% by one or more extracts of the six organic solvents and conditioned seawater. The germination of spores from 13 species was inhibited by one or more extracts of all seven solvents and conditioned seawater. The species where spore settlement was not significantly affected showed strong inhibition of germination, andvice versa.     

Chloride dependence of endospore germination in Halobacillus halophilus

The ion requirement for germination and outgrowth of endospores from the moderately halophilic salt marsh bacterium Halobacillus halophilus was studied. Germination and outgrowth of endospores plated onto nutrient broth was dependent on the salt concentration in the artificial seawater used as the source of ions. Maximal germination and outgrowth were observed when double-concentrated artificial seawater was used. Replacement of chloride salts in the artificial seawater by other salts resulted in a complete loss of germination and outgrowth that was restored upon addition of chloride. To analyze the role of chloride more directly and quantitatively, a defined growth medium was used in which the artificial seawater was substituted by a solution of magnesium sulfate and sodium chloride. Spore germination and outgrowth were strictly dependent on the chloride concentration; maximal germination and outgrowth were observed at ≈ 1.3 M Cl^–. Chloride could be substituted by bromide, but not by sulfate or nitrate. Microscopic examinations of single spores clearly showed that germination is the chloride-dependent step. This first report on chloride dependence of spore germination in any endospore-forming bacterium adds another function to chloride in H. halophilus apart from its being essential for the physiology of the vegetative cell. Received: 21 May 1999 / Accepted: 26 July 1999     

Effects of Macroalgal Chemical Extracts on Spore Behavior of the Antarctic Epiphyte Elachista antarctica Phaeophyceae

Most macroalgal species along the Western Antarctic Peninsula (WAP) are defended against predation, many using chemical defenses. These subtidal communities are also mostly devoid of free living filamentous algae. However, one endo/epiphyte, Elachista antarctica, is found growing exclusively out of the palatable rhodophyte Palmaria decipiens. To understand this unusual and exclusive epiphytization, we tested whether macroalgal secondary metabolites such as those responsible for deterring sympatric grazers, affect the behaviors of the epiphyte's spores. Settlement, germination, and swimming behaviors of the epiphyte's motile spores were quantified in the presence of fractionated lipophilic and hydrophilic extracts of host P. decipiens and other rhodophytes from the shallow subtidal. Host P. decipiens was the only alga tested that did not inhibit spore settlement or germination. We also examined whether extracts from these chemically rich algae affect spore swimming behaviors and found spores to be chemotactically attracted to seawater soluble extract fractions of host P. decipiens. These results indicate that chemosensory behaviors of the epiphyte's spores to metabolites associated with these chemically defended macrophytes can explain this exclusive epiphyte–host interaction.     

Quantitative Analysis of Polymyxin B Released from Polymyxin B-Treated Dormant Spores of Bacillus subtilis and Relationship between Its Permeability and Inhibitory Effect on Outgrowth

Polymyxin B, one of the cyclic polypeptide antibiotics, binds to the coat of Bacillus subtilis dormant spores and inhibits them from growing after germination. When about 2.8 × 10⁸ cells/ml of polymyxin B-treated dormant spores were incubated in heart infusion broth, 3.6 μg/ml of polymyxin B were released into the liquid medium during germination. Incubation of the same concentration of polymyxin B-treated ones in 100 mM CaCl₂ solution released 4.0 μg/ml of the antibiotic. The effect of various concentrations of polymyxin B on germination, outgrowth and vegetative growth of the dormant spores was investigated; the results showed that concentrations of 4.0 μg/ml and higher of the antibiotic inhibited their outgrowth and vegetative growth after germination. Young vegetative cells were less sensitive to the antibiotic than germinated spores. In addition to these results, immunoelectron microscopy with colloidal gold particles indicated that polymyxin B permeated into the core of the germinated spores and inhibited them from outgrowing.     

不同氮、磷配比人工海水对海带胚孢子早期发育的影响

利用不同氮、磷配比的人工海水培养海带胚孢子,观察其对海带早期发育的影响.结果表明：培养于人工海水中的海带胚孢子80%能够正常发育,但与培养于天然海水中的对照组仍存在显著差异,且人工海水中海带胚孢子的萌发和配子体的形成时间滞后,人工海水培养所形成的海带雌配子体数量显著高于雄配子体（P<0.001）;不同氮、磷配比的人工海水对海带胚孢子萌发率的影响不同,N∶P＞15∶1的氮磷比会降低海带胚孢子的萌发率,而缺乏氮或磷营养盐的人工海水则极显著抑制海带胚孢子的萌发（P<0.001）;海带胚孢子能够在人工海水中进行早期发育,但人工海水中的氮、磷营养盐浓度以及氮/磷比均会对海带发育初期胚孢子的萌发率产生影响;人工海水中氮、磷营养盐的缺乏会导致海带配子体形成时间的滞后,并对其雌雄分化产生一定影响.     

A COMPARATIVE STUDY OF CELL DIVISION PATTERNS DURING GERMINATION OF SPORES OF ANEMIA,LYGODIUM AND MOHRIA (SCHIZAEACEAE)

Cell division patterns during germination of spores of Anemia (A. hirsuta, A. munchii, A. phyllitidis), Lygodium (L. circinatum, L. flexuosum, L. japonicum, L. salicifolium) and Mohria caffrorum have been examined by light microscopy of glycol methacrylate embedded materials. Spores of all species in a genus exhibited a constant pattern of division under different conditions of germination. In spores of species of Anemia, following an asymmetrical division, the proximal cell differentiated into the protonemal cell while the distal cell divided to produce the rhizoid. A similar division sequence was found in spores of Mohria caffrorum, but the fate of cells formed was reversed. In Lygodium spores, a proximal cell formed by an initial division of the spore cut off a protonemal cell, a rhizoid and a wedge-shaped cell by walls parallel to the polar axis. Our results contradict earlier observations on cell division sequence during germination of spores of these genera based on whole mount preparations.     

The influence of gramicidin S on hydrophobicity of germinating Bacillus brevis spores

Gramicidin S is known to prolong the outgrowth stage of spore germination in the producing culture. Bacillus brevis strain Nagano and its gramicidin S-negative mutant, BI-7, were compared with respect to cell-surface hydrophobicity and germination of their spores. Parental spores were hydrophobic as determined by adhesion to hexadecane, whereas mutant spores showed no affinity to hexadecane. Addition of gramicidin S to mutant spores resulted in a high cell surface hydrophobicity and a delay in germination outgrowth. The hydrophobicity of parental spores was retained throughout most of the germination period. Hydrophobicity was lost as outgrowing spores entered into the stage of vegetative growth. The data indicate that gramicidin S is responsible for the hydrophobicity of B. brevis spores. It is suggested that in making spores hydrophobic, the antibiotic plays a role in concentrating the spores at interfaces where there is a higher probability of finding nutrients for germination and growth.Abbreviation GS Gramicidin S     

Light germination ofAnthoceros miyabeanus spores

The effects of light on the spore germination of a hornwort species,Anthoceros miyabeanus Steph., were investigated. Spores of this species were photoblastic, but their sensitivities to light quality were different. Under either continuous white, red or diffused daylight, more than 80% of the spores germinated, but under blue light none or a few of them germinated. Under continuous far-red light or in total darkness, the spores did not germinate at all.Anthoceros spores required red light irradiation for a very long duration, i.e., over 12–24 hr of red light for saturated germination. However, the spore germination showed clear photo-reversibility by repeated irradiation of red and far-red light. The germination pattern clearly varied with the light quality. There were two fundamental patterns; (1) cell mass type in white or blue light: spores divide before germination, and the sporelings divide frequently and form 1–2 rhizoids soon after germination, and (2) germ tube type in red light: spores germinate without cell division, and the single-cell sporelings elongate without cell division and rhizoid formation.     

GROWTH REGULATION BY ETHYLENE IN FERN GAMETOPHYTES. V. ETHYLENE AND THE EARLY EVENTS OF SPORE GERMINATION

Early events during the germination of spores of the fern Onoclea sensibilis were studied to determine the time during germination when ethylene had its greatest inhibiting effect. Water imbibition by dry spores was rapid and did not appear to be inhibited by ethylene. During normal germination DNA synthesis occurred about four hours before the nucleus moved from a central position to the spore periphery. Following nuclear movement, mitosis and cell division occurred, partitioning the spore into a small rhizoid cell and a large protonemal cell. Cell division was complete approximately six hours after nuclear movement. Ethylene treatment of the spores blocked DNA synthesis, nuclear movement, and cell division. The earliest DNA replication in uninhibited spores was observed after 14 hours of germination, and the maximal rate of spore labeling with ³H-thymidine was between 16 and 20 hours. Spores were most sensitive to ethylene, however, during the stages of germination prior to DNA synthesis, and it was concluded that ethylene did not directly inhibit DNA replication but blocked germination at some earlier fundamental step. The effects of ethylene were reversible. since complete recovery from inhibition of germination was possible if ethylene was released and the spores were kept in light. Recovery was much slower in darkness. It was hypothesized that light acted photosynthetically to overcome the ethylene inhibition of germination. Consistent with this, it was shown that spores exhibit net photosynthesis after only two hours of germination.     

The preparation,germination properties and stability of superdormant spores of Bacillus cereus

Aims: To determine yields, germination and stability of superdormant Bacillus cereus spores. Methods and Results: Superdormant B. cereus spores were isolated by germination with high concentrations of inosine or l ‐alanine in 2–5% yield and did not germinate with high concentrations of either of these germinants, but germinated like starting spores with Ca‐DPA, dodecylamine, l ‐alanine plus inosine or concentrated complete medium. Yields of superdormant spores from germinations with low inosine concentrations were higher, and these spores germinated poorly with low inosine, but relatively normally with high inosine. Yields of superdormant spores were also higher when nonheat‐activated spores were germinated. Superdormant spores stored at 4°C slowly recovered some germination capacity, but recovery was slowed significantly at ?20°C and ?80°C. Conclusions: Factors that influence levels of superdormant B. cereus spores and the properties of such spores are similar to those in B. megaterium and B. subtilis, suggesting there are common mechanisms involved in superdormancy of Bacillus spores. Significance: Superdormant spores are a major concern in the food industry, because the presence of such spores precludes decontamination strategies based on triggering spore germination followed by mild killing treatments. Studies of the properties of superdormant spores may suggest ways to eliminate them.     

Immobilization of Penicillium chrysogenum: spore growth on Celite

Summary Penicillium chrysogenum spores have been immobilized by adsorption on two grades of wet or dry diatomaceous earth particles, Chromosorb-W and Celite R-633. Almost 90% of the spores were adsorbed within 2 h and those remaining in suspension were removed by washing to minimise the growth of free mycelia. After germination the immobilized biomass was almost independent of the spore loading on the particles and whether or not the spore suspension was added to wet or dry particles. The free biomass obtained was less than 5% of the immobilized biomass.     

Hydrolytic enzyme activities in germinating spores ofAdiantum capillus-veneris L.

Changes in hydrolytic enzyme activities were investigated during spore germination ofAdiantum capillus-veneris L. The spores were incubated for 3 days in the dark at 25 C for imbibition, and then germination of the spores was induced by continuous irradiation with red light. At day 2 after onset of the red light irradiation, rhizoids appeared out of spore coats and protonemal cells became visible on the following day. Lipase occurred in dry spores and its activity decreased during 3 days of dark incubation. The activity started to increase when the spore germination was induced by red light irradiation. On the other hand, amylolytic and aminopeptidase activities which were also detected in dry spores decreased continuously during the dark incubation and following the germination process. RNase activity also decreased during 3 days of dark incubation but the activity was retained thereafter at a constant level with or without red light irradiation. Developmental patterns of these hydrolytic enzymes were classified into two groups: One decreased during imbibition and dark incubation but increased after red light irradiation and the other continuously decreased during dark incubation and germination. These results are discussed in relation to compositional changes of cell constitutions such as lipid, sugars, proteins and amino acids during spore germination.     

Germination and reproductive biology in salty conditions of Asplenium marinum (Aspleniaceae), a European coastal fern

Although there are several species of ferns that are important components of many coastal ecosystems, the adaptations that allow these species to live in salty conditions have been studied only in two Acrostichum species. We have studied the effects of salt on germination, development of the gametophyte and sexual expression of the fern Asplenium marinum, which lives on coastal cliffs of Europe. Cultures at four different levels of salt concentration, 0%, 0.98%, 1.96% and 3.26%, were established for this purpose. Salt caused a significant delay in spore germination, and prevented it completely at high concentrations (3.26%). However, spores were able to recover germination ability after a period of seawater incubation once salinity concentrations decreased. Variable salinity conditions are a typical feature of sea cliffs where halophytes can grow. A salty culture medium also affects the development of the prothalli. Higher salinity of the substrate produced a significant decrease in gametophyte sizes, and affected the development of gametangia as well. Only males were found in a 0.98%-salt medium, and no gametangia were observed in cultures at 1.96%-salt medium. Recovered spores after one and a half month in high salinity concentration, 3.26%, were able, when transplanted to 0%-salt medium, to develop normal sexual prothalli, and this occurred in a shorter time than spores without any prior treatment. A. marinum can be considered as a halophyte fern that is able to germinate and grow in salty conditions. But it takes advantage of rainy periods that cause decrease of salt concentration, which seems to be important in particular for gametangia development and fertilization.     

Analysis of the slow germination of multiple individual superdormant Bacillus subtilis spores using multifocus Raman microspectroscopy and differential interference contrast microscopy

Aim: To analyse the dynamic germination of hundreds of individual superdormant (SD) Bacillus subtilis spores. Methods and Results: Germination of hundreds of individual SD B. subtilis spores with various germinants and under different conditions was followed by multifocus Raman microspectroscopy and differential interference contrast microscopy for 12 h and with temporal resolutions of ≤30 s. SD spores germinated poorly with the nutrient germinant used to isolate them and with alternate germinants targeting the germinant receptor (GR) used originally. The mean times following mixing of spores and nutrient germinants to initiate and complete fast release of Ca‐dipicolinic acid (CaDPA) (T_lag and T_release times, respectively) of SD spores were much longer than those of dormant spores. However, the ΔT_release times (T_release?T_lag) of SD spores were essentially identical to those of dormant spores. SD spores germinated almost as well as dormant spores with nutrient germinants targeting GRs different from the one used to isolate the SD spores and with CaDPA that does not trigger spore germination via GRs. Conclusions: Since (i) ΔT_release times were essentially identical in GR‐dependent germination of SD and dormant spores; (ii) rates of GR‐independent germination of SD and dormant spores were identical; (iii) large increases in T_lag times were the major difference in the GR‐dependent germination of SD as compared with spores; and (iv) higher GR levels are correlated with shorter T_lag times, these results are consistent with the hypothesis that low levels of a GR are the major reason that some spores in a population are SD with germinants targeting this same GR. Significance and Impact of the Study: This study provides information on the dynamic germination of individual SD spores and improves the understanding of spore superdormancy.     

Effect on germination and post-germination development of Colletotrichum dematium var circinans due to light and dark incubation and coverslip placement

Light regime was not a major factor in germination of spores of Colletotrichum dematium var circinans. Number of germ-tubes and appressoria formed were affected by incubation regime and coverslip placement. Most germ-tubes and appressoria were produced on spores under shimmed coverslips. Light incubation favored germ-tube production and dark incubation favored appressoria production. Predicted time to 100% germination was affected by treatments. Shortest times were predicted for light incubated spores under shimmed coverslips. Longest times were predicted for non-coverslipped spores. A significant number of appressoria were produced sessile on spores. Most sessile appressoria were produced on dark incubated spores. Approximately 56 % of all spores germinated, and approximately 60% of all germ-tubes and appressoria were produced on these spores which were situated closest to coverslip or droplet edges. Placement of germ-tubes on spores was not affected by treatments. However, percentages of germ-tubes, initiated from various areas of spores, were significantly different. This variation appears to be due to factors internal to spores.     

FREE AMINO ACID CHANGES DURING GERMINATION OF TELIOSPORES OF THE WHEAT BUNT FUNGUS,TILLETIA CARIES

Teliospores were aerated and agitated in a mineral salts medium and their free amino acid contents were analyzed at eight different times, from shortly after imbibition of water until just before germ tube emergence. In addition to the common amino acids, eight unidentified ninhydrin-positive components were detected. About 50 % or more of nearly each of the amino acids diffused out of the spores during the initial phase of germination. These released amino acids were actively taken up by the spores during the latter stages of germination. The free amino acids in largest amounts in the dormant spores of T. caries were arginine 15.0, glutamic acid 6.3, and alanine 3.7 μmoles per g dry spores. Together these three amino acids accounted for about 71 % of the total free amino acids in dormant spores of T. caries and T. controversa. The total amounts of free amino acids in spores of common bunt were much higher than in spores of dwarf bunt.     

Effect of sublethal heat treatment on the later stage of germination‐to‐outgrowth of Clostridium perfringens spores

Sublethal heating of spores has long been known to stimulate or activate germination; however, the underlying mechanisms are not yet fully understood. In this study, the entire germination‐to‐outgrowth process of spores from Clostridium perfringens, an anaerobic sporeformer, was visualized at single‐cell resolution. Quantitative analysis revealed that sublethal heating significantly reduces the time from completion of germination to the beginning of the first cell division, indicating that sublethal heating of C. perfringens spores not only sensitizes the responsiveness of germinant receptors but also directly or indirectly facilitates multiple steps during the bacterial regrowth process.

     

Analysis of the germination of individual Clostridium perfringens spores and its heterogeneity

Aims: To analyse the germination and its heterogeneity of individual spores of Clostridium perfringens. Methods and Results: Germination of individual wild‐type Cl. perfringens spores was followed by monitoring Ca‐dipicolinic acid (CaDPA) release and by differential interference contrast (DIC) microscopy. Following the addition of KCl that acts via germinant receptors (GRs), there was a long variable lag period (T_lag) with slow release of c. 25% of CaDPA, then rapid release of remaining CaDPA in c. 2 min (ΔT_release) and a parallel decrease in DIC image intensity, and a final decrease of c. 25% in DIC image intensity during spore cortex hydrolysis. Spores lacking the essential cortex‐lytic enzyme (CLE) (sleC spores) exhibited the same features during GR‐dependent germination, but with longer average T_lag values, and no decrease in DIC image intensity because of cortex hydrolysis after full CaDPA release. The T_lag of wild‐type spores in KCl germination was increased significantly by lower germinant concentrations and suboptimal heat activation. Wild‐type and sleC spores had identical average T_lag and ΔT_release values in dodecylamine germination that does not utilize GRs. Conclusions: Most of these results were essentially identical to those reported for the germination of individual spores of Bacillus species. However, individual sleC Cl. perfringens spores germinated inefficiently with either KCl or exogenous CaDPA, in contrast to CLE‐deficient Bacillus spores, indicating that germination of these species’ spores is not completely identical. Significance and Impact of the Study: This work provides information on the kinetic germination and its heterogeneity of individual spores of Cl. perfringens.     

Spores of microorganisms

Calcium-dipicolinate (Ca-DPA)-rich and Ca-DPA-deficientBacillus cereus spores were incubated in a synthetic medium with germination stimulants and in bactopeptone medium with a fairly high calcium ion concentration. In the complex medium the germination of Ca-DPA-rich spores was completely blocked at a concentration of 0.5m CaCl₂, whereas the complete blockage of germination in the synthetic medium required higher concentrations (0.6–0.8m) of calcium chloride. Ca-DPA-deficient spores germinated more slowly and less completely in the synthetic medium than in the bactopeptone medium. The germination of these spores took place, however, even at higher calcium ion concentrations (0.6–0.8m). On the contrary, lower calcium chloride concentrations (0.1–0.4m) accelerated the germination of these spores in the synthetic medium and the final percentage of phase-dark and stainable spores was higher. “H-forms” of the Ca-DPA-rich and Ca-DPA-deficient spores prepared by acid titration germinated in both media. The germination of the latter spores being slower and proceeding less completely. “H-forms” germinated completely or partially in media with a high concentration of calcium chloride. The percentage of germinated spores, however, was strongly influenced by the concentration of this cation, especially the “H-forms” of Ca-DPA-deficient spores. Moreover, the germination of Ca-DPA-deficient spores in this medium was affected by the length of previous storage and, in the case of “H-forms” by the pH at which they were titrated. It was assumed that the increased permeability of calcium into the calciumundersaturated spore periphery in Ca-DPA-deficient and in “H-forms” of spores of both types co-determines (in the presence of germinants) the germinability of bacterial spores.     

The effect of volatile and gaseous metabolites of swelling seeds on germination of fungal spores

Effects of volatile and gaseous metabolites of swelling seeds of pea, bean, wheat, corn, cucumber, tomato, lentil, carrot, red pepper and lettuce on germination of spores of five genera of fungi were found to depend rather on the fungal than on the plant genus. Germination of spores ofBotrytis cinerea, Mucor racemosus andTrichoderma viride was most severely inhibited. Spores ofVerticillium dahliae were less sensitive and germination of spores ofFusarium oxysporum was inhibited only in two cases. On the other hand, exudates of pea and bean stimulated germination of spores ofFusarium oxysporum. Also spores ofTrichoderma viride germinated better in an atmosphere enriched with exuded metabolites of swelling lettuce seeds. When carbon dioxide produced by the swelling seeds was absorbed in potassium hydroxide, spores ofTrichoderma viride andVerticillium dahliae did not germinate at all, the inhibitory effects of volatile and gaseous exudates on germination of spores ofMucor racemosus were accentuated, and also the percentage of germinated spores ofFusarium oxysporum decreased. Germination of spores ofBotrytis cinerea was not influenced. Absorption of volatile and gaseous metabolites in a solution of potassium permanganate decreased in most cases their inhibitory effects, particularly inBotrytis cinerea.