Isolation and characterization of a metronidazole tolerant mutant of the cyanobacterium Spirulina platensis exhibiting multiple stress tolerance

Mutant cells of Spirulina platensis isolated after chemical mutagenesis (NTG treatment) exhibited approximately three-fold higher tolerance to metronidazole and DCMU (3,4-dichlorophenyl-1, 1-dimethylurea) as compared with wild-type cells. At the same time, mutant cells exhibited a several-fold higher tolerance to supra-high irradiance (38 W/m2) than the wild-type, a further response involving Hill reaction activity in the mutant towards the supra-high irradiance mechanism which enabled the mutant cells to withstand the high light intensities. The metronidazole and DCMU tolerance in the mutant cells could not be obviously attributed to lower rates of growth and photosynthesis as suggested previously. A typical coiling pattern in the mutant cells might result in a reduction of exposed surface area, thereby restricting entry of the above toxins. The mutant strains exhibiting tolerance to multiple stresses are potentially useful for application under field conditions.     

60Co－γ射线诱变钝顶螺旋藻的研究

用不同剂量的＾６０Ｃｏ－γ射线诱变钝顶螺旋藻Ｓｐｉｒｕｌｉｎａ ｐｌａｔｅｎｓｉｓ出发株（Ｓｐ）ＩＳ－９００１０,筛选获得两株抗高光抑制突变株（Ｓｐ）ＡＩｐ－９００１０和（Ｓｐ）ＡＩｐ－９００１１,然后比较出发株和突变株的一般形态和生理生化特性。出发株和突变株的一般形态有较大的差异,与出发株相比,两个突变株藻丝体显著主烃短,螺旋数目大大减小。出发株是对高光敏感的品系,而突变株表现明显的抗高光抑制,     

Anticoagulant activity of a sulfated polysaccharide from the green alga Arthrospira platensis

Background

The polysaccharide of culture medium from Arthrospira platensis was extracted by ultrafiltration, partially characterized and assayed for anticoagulant activity.

Methods

The crude polysaccharidic fraction was fractionated by anion exchange chromatography on DEAE-cellulose, subjected to acetate cellulose electrophoresis and characterized by physicochemical procedures. The anticoagulant effect of the ultrafiltrated polysaccharide was checked by several coagulation tests.

Results

Anion exchange chromatography revealed in the whole ultrafiltrated polysaccharidic fraction the occurrence of a sulfated spirulan-like component designated PUF2. The average molecular weight of PUF2 was determined by size exclusion chromatography combined with multi-angle light scattering (SEC-MALS) and viscosimetry and was 199 kDa and the sulfate content was 20% weight/dry weight. The physicochemical characterization indicated the occurrence of rhamnose (49.7%), galacturonic and glucuronic acid (32% of total sugar). The anticoagulant effect of this sulfated polysaccharide was mainly due to the potentiation of thrombin inhibition by heparin cofactor II and was 4-times higher than that of the porcine dermatan sulfate whereas it had no effect on anti-Xa activity.

Conclusions

An ultrafiltrated sulfated polysaccharide, likely a calcium spirulan was obtained from the culture medium of A. platensis and showed an anticoagulant activity mediated by heparin cofactor II.

General significance

Old culture medium of A. platensis may represent an important source for the spirulan-like PUF2 which was endowed with potentially useful anticoagulant properties whereas its obtention by ultrafiltration may represent an extraction procedure of interest.     

Capacity of Spirulina platensis to accumulate manganese and its distribution in cell

Effects of manganese salt (MnCl₂) on growth of Spirulina platensis and capacity of the cyanobacteria to accumulate the metal in various cell components were studied. S. platensis cells were shown to tolerate high concentrations of manganese and preserve, although strongly suppressed, the capacity to grow in the medium containing 5.1 mM MnCl₂. The concentrations of manganese that did not inhibit growth considerably altered cell ultrastructure and changed the protein profile. The accumulation of manganese in S. platensis cells was proportional to the period of culturing and manganese concentration in the medium, reaching a plateau at about 2.5 mM. A threshold intracellular concentration of this metal is estimated as 28 ± 3 μmol/g dry wt. The fractionation of the manganese-enriched biomass demonstrated that the major portion of intracellular manganese (over 90%) was found in the total protein fraction. The chromatographic separation of the soluble protein fraction showed that manganese was incorporated into proteins with molecular weight of 5 to 15 kD. Dry biomass adsorbed manganese cations; this evidence seems to indicate a considerable contribution of biosorption to manganese accumulation by S. platensis cells.     

Letters to the editor

The fine structure of the colonial volvocacean alga Eudorina illinoiensis (Kofoid) Pascher is described in detail, excepting the eye spot. The structure conforms closely to the Chlamydomonas type and helps confirm that certain ultrastructural features are peculiar to certain taxonomic groups, the characteristic structure of the transitional region of the flagellum being an example in this case. A spiral filament around the outer doublets of the axoneme is newly reported.

Particular attention is given to the flagellar apparatus and to the structure of the chloroplast in relation to the pyrenoid. Small stacks of thylakoids pass between the starch plates to enter the pyrenoid where they assume a tubular form. The spatial re-organisations required to achieve this are described.     

Growth characteristics of Arthrospira platensis cultured inside a new close-coil photobioreactor incorporating a mandrel to control culture temperature

The aim of this study was to investigate Arthrospira growth inside a new CCP incorporating a mandrel for culture temperature control. Some hydrodynamic aspects and photobioreactor performances were investigated as well. The bioreactor incorporated A. platensis grown under batch and semicontinuous conditions. Two systems were used to recycle Arthrospira cultures: a peristaltic pump and an airlift system. When the pump recycled the culture, we achieved a very high Dean number (De=3,950), which decreased a great deal when the pump was replaced with the airlift system. During outdoor Arthrospira batch growth, a cell concentration of 16.4 g (DW)l-1 was reached after 9 days. However, the maximum chlorophyll content of the biomass (2.0% of DW) was achieved on the fifth and sixth days. The highest daily biomass output rate was obtained using the airlift system, when the CCP was operated under a semicontinuous regime: the gross output rate was 2.85+/-0.37 g (DW) l-1 d-1 and the net was 2.32+/-0.11 g (DW) l-1 d-1. The advantages of the airlift system may be due to the low concentration of oxygen built up inside Arthrospira culture and the lack of cell damage due to the pump system. Thus, oxygen and pump stress may have been avoided.     

Effect of Resistance Training and <i>Spirulina platensis</i> on Expression of IL-6, Gp130 Cytokines,JAK-STAT Signaling in Male Rats Skeletal Muscle

The effect of resistance training and a herbal supplement on muscular signaling pathways are limited. We investigated the expression of IL-6, Gp130, JAK and STAT after resistance training, and Spirulina platensis supplementation in animal muscle. Thirty-two male Sprague Dawley rats (weight: 290 ± 20 g, and 9 weeks of age) were divided into four groups: control (CO; n = 8), Spirulina platensis supplementation (SP; n = 8), resistance exercise (RE; n = 8), and Spirulina platensis + resistance exercise (SP + RE; n = 8). The resistance exercise group trained five sessions each week for eight weeks. Spirulina 200 mg kg⁻¹ d⁻¹ was used in the SP and SP + RE groups. Gene expression was measured by real-time PCR following the last training session. One-way ANOVA test with Tukey’s post-hoc test were used for analysis of data (SPSS, version, 21). Data analysis revealed that the expression of IL-6 (P = 0.001), Gp130 (P = 0.001), JAK (P = 0.0001) and STAT (P = 0.004) increased significantly in the RE group. The expression of IL-6 (P = 0.018), JAK (P = 0.001) and STAT (P = 0.001) in SP + RE group also increased significantly (P ≤ 0.05). SP showed a significant increase in Gp130 (P = 0.001) and STAT (P = 0.001). Supplementation by Spirulina platensis may enhance muscle accretion during resistance training.     

Influence of ammonium chloride feeding time and light intensity on the cultivation of Spirulina (Arthrospira) platensis

This study dealt with the influence of both the feeding time and light intensity on the fed-batch culture of the cyanobacterium Spirulina (Arthrospira) platensis using ammonium chloride as a nitrogen source. For this purpose, a 2(2) plus star central composite experimental design combined with response surface methodology was employed, and the maximum cell concentration (X(m)), the cell productivity (P(X)), and the yield of biomass on nitrogen (Y(X/N)) were selected as the response variables. The optimum values of X(m) (1,833 mg L(-1)) and Y(X/N) (5.9 g g(-1)) estimated by the model at light intensity of 13 klux and feeding time of 17.2 days were very close to those obtained experimentally under these conditions (X(m) = 1,771 +/- 41 mg L(-1); Y(X/N) = 5.7 +/- 0.17 g g(-1)). The cell productivity was a decreasing function of the ammonium chloride feeding time and a quadratic function of the light intensity. The protein and lipid contents of dry biomass collected at the end of cultivations were shown to decrease with increasing light intensity.     

Far‐red dependent changes in the chemical composition of Spirulina platensis

The influence of far‐red light (FRL) was studied on the chemical composition of Spirulina platensis biomass. The following light compositions were used during the culture white light, blue‐red LED light (BRL) and BRL supplemented with FRL (BRFRL). Chlorophyll and phenol contents were measured by spectrophotometric methods, whereas presence of carotenoids, lipids, and phycobiliproteins were estimated by Fourier‐transform Raman spectrometry. Additionally, phenol content was investigated by fluorescence intensity of algae culture in the range of 430–650 nm. The content of chlorophyll and phenols in algae cells depended on the spectral composition of light and was the highest under BRL (16.7 ± 0.5 and 9.1 ± 0.6, respectively). It was shown that there is a positive linear correlation (R = 0.902 at p < 0.0000001) between the ratio of relative fluorescence intensity of S. platensis suspensions at 450 nm to the suspensions at 540 nm (F450/F540) and the content of phenolic compounds in the biomass. Changes in the F450/F540 ratio can explain approximately 80% changes of phenol contents in algae cells. Spirulina platensis Raman spectra demonstrated that the biomass of algae growing under white light and BRL had a significantly higher intensity of phycobiliprotein bands than the algae growing under BRFRL.     

Effective transformation of the cyanobacterium Spirulina platensis using electroporation

Although Spirulina (Arthrospira) is expected to be a suitableorganism for producing recombinant proteins, a gene transfer system hasnot yet been established, due to a lack of suitable vectors and because Spirulina appears refractory to common genetic manipulations. As theinitial stages of the development of recombinant DNA methodology, weexamined the effects on transformation efficiency of electroporationconditions such as electric-field strength (2, 4, 6, 8, 10, 12kV cm^-1) and time constant (2.5, 5 ms). At a time constant of2.5 ms, few transformants were observed regardless of the field strength.The longer time constant of 5.0 ms reproducibly yielded transformants atthe middle field strength of 4 - 8 kV cm^-1, but gave high killingand no transformation at the higher field strength of 10 - 12kV cm^-1. Chloramphenicol acetyltransferase (CAT) activities wereincreased only in the transformants from 2–6 kV cm^-1 and 5.0 ms.The density of the transformants was significantly correlated with therelative value of CAT activity (r = 0.89, n = 11, p < 0.01),suggesting that the chloramphenicol resistance was due to CAT activity. Weconcluded that transformation of S. platensis was most effective at apulse duration 5.0 ms with an electric field of 4 kV cm^-1, and thatforeign genes can be expressed in this organism.