Fine structure of the cell surface and Golgi apparatus of Ochromonas

Ochromonas danica has an unusually flexible cell surface capable of producing projections of varying sizes and shapes: large projections, 340-360 nm long, and small projections, 50-110 nm long. These projections have been demonstrated by transmission and scanning electron microscopy; some of them may break off into the medium and be the source of extracellular membranes and vesicles reported in the cell-free O. danica growth medium. Ruthernium red stained the acid mucopolysaccharide layer just outside the cell surface as well as small blebs at the cell surface. The Golgi complex of O. danica, Ochromonas malhamensis, Ochromonas sociabilis and Ochromonas sp. produced small coated vesicles which may move toward and fuse with the plasma membrane. The role of the several vesicles is unknown but possible functions are discussed.     

Selective and Differential Media for Isolation and Tentative Identification of Each Species of Pityrosporum Residing on Normal or Diseased Human Skin

Selective and differential media were designed for each species of Pityrosporum; P. pachydermatis, P. ovale, and P. orbiculare in order to make feasible a quantitative cultivation. Medium for P. pachydermatis (medium A) was composed of 1% trypticase peptone (BBL), 0.5% yeast extract (BBL), 0.3% glucose, 0.2% NaCl, 1.2% KH₂ PO₄ (anhydrous), 1.5% agar, 0.01% ampicillin, and 0.025% cycloheximide with a pH of 5.5. Medium for P. ovale (medium B) was medium A supplemented with 0.05% sodium acetate (anhydrous), 0.2% Tween 80, and 0.025% (selective medium) or 0.075% (differential medium) sodium laurate. Medium for P. orbiculare was medium B (devoid of laurate) supplemented with 2% olive oil, 0.25% glycerol, 0.25% gall powder, 0.05% sodium palmitate, 0.05% sodium stearate, 0.05% sodium oleate and 8% (selective medium) or 10% (differential medium) sodium lactate and an increase in Tween to 1%. For isolation of Pityrosporum, specimens were suspended in 0.1% Tween 80 solution and inoculated onto agar plates of three selective media. The plates were incubated aerobically at 37 C for 8–10 days under conditions of prevention of water loss from the media. The plating efficiency of each selective medium, expressed as a ratio of cultural counts to microscopic counts was generally over 70%. Species of Pityrosporum could also be identified when we inoculated the cell suspension onto differential agar plates and incubated the preparations at 37 C for 7 days.     

Comparative study on hydrolases in five species of Ochromonas (Chrysomonadina)

Acid phosphatase and β-glucosidase were shown to be present in five species of Ochromonas grown in organic media (O. danica, O. malhamensis, O. minuta, O. sociabilis and Ochromonas sp. 933/4). Acid phosphatase was found to have a pH optimum at 4.0 in O. danica, and at 5.1 in the four other species. No alkaline phosphatase was found in any of the above mentioned species. β-glucosidase in the species studied has a pH optimum at 4.6 Low α-glucosidase activity was found only in O. danica. Acid phosphatase in all the five species shows an increase in activity during the logarithmic phase of growth and a decrease during the early stationary phase. β-glucosidase shows a similar behavior only in O. danica.     

Effects of solutes on the formation of crystalline sheets of the Ca(2+)-ATPase in detergent-solubilized sarcoplasmic reticulum.

The Ca(2+)-ATPase crystals formed in detergent solubilized sarcoplasmic reticulum (SR) at 2 degrees C in a crystallization medium of 0.1 M KCl, 10 mM K-Mops (pH 6.0), 3 mM MgCl2, 3 mM NaN3, 5 mM DTT, 25 IU/ml Trasylol, 2 micrograms/ml 1,6-di-tert-butyl-p-cresol, 20% glycerol and 20 mM CaCl2 (J. Biol. Chem. 263, 5277 and 5287 (1988)) contain highly ordered sheets of ATPase molecules, that associate into large multilamellar stacks (greater than 100 layers). When the crystallization is performed in the same medium but in the presence of 40% glycerol at low temperature the stacking is reduced to 4-5 layers and the average diameter of the crystalline sheets is increased from less than 1 micron to 2-3 microns. Glycerol and low temperature presumably reduce stacking by interfering with the interactions between the hydrophilic headgroups of Ca(2+)-ATPase molecules in adjacent lamellae, while not affecting or promoting the ordering of ATPase molecules within the individual sheets. Electron diffraction patterns could be regularly obtained at 8 A and occasionally at 7 A resolution on crystals formed in 40% glycerol, either at 2 degrees C or at -70 degrees C. In the same media but in the absence of glycerol, polyethyleneglycol 1450, 3000 and 8000 (1-8%) induced the formation of ordered crystalline arrays containing 10-12 layers that were similar to those obtained in 40% glycerol. Replacement of 40% glycerol with 10-50% glucose or supplementation of the standard crystallization medium with polyethyleneglycol (PEG 3000 or 8000; 1, 2, 5 and 8%) had no beneficial effect on the order of crystalline arrays compared with media containing 40% glycerol.     

Fine Structure of the Cell Surface and Golgi Apparatus of Ochromonas*

SYNOPSIS. Ochromonas danica has an unusually flexible cell surface capable of producing projections of varying sizes and shapes: large projections, 340–360 nm long, and small projections, 50–110 nm long. These projections have been demonstrated by transmission and scanning electron microscopy; some of them may break off into the medium and be the source of extracellular membranes and vesicles reported in the cell-free O. danica growth medium. Ruthenium red stained the acid mucopolysaccharide layer just outside the cell surface as well as small blebs at the cell surface. The Golgi complex of O. danica, Ochromonas malhamensis, Ochromonas sociabilis and Ochromonas sp. produced small coated vesicles which may move toward and fuse with the plasma membrane. The role of the several vesicles is unknown but possible functions are discussed.     

Culture-induced changes in osmolality of tobacco cell suspensions using four exogenous sugars

Suspension cultures of tobacco cells were grown in B5 media supplemented with sucrose, glucose, mannitol and sorbitol as exogenous sugars to examine culture-induced changes in the osmolality of the medium. Osmolality decreases were greatest in sucrose and glucose media during the 14 days in culture, and in glucose media were essentially linear, presumably reflecting the use of this sugar as a food source. Osmolality decreases occurred during the first week of culture in mannitol- and sorbitol-supplemented media, but later stabilized. Fresh weight of cultured cells in sucrose- and glucose-supplemented media increased by <200% during 14 days in culture, whereas cultured cells in mannitol- and sorbitol-supplemented media increased by only 39 and 48%, respectively. Cells transferred to the original liquid medium (B5 medium with 3% sucrose and 3% glucose) grew vigorously if they had been cultured in sucrose- and glucose-supplemented media; however, cells grown in mannitol- and sorbitol-supplemented media needed to be subcultured several times to recover their normal growth rate. By subculturing cells into increasingly higher conditions of sugars, cells tolerant to 560 mOsmol kg-1 H2O were obtained. The high osmolality-adapted cells increased by 140% in fresh weight in 8% glucose-supplemented medium. Glucose was best suited for producing the high osmolality required because sucrose concentrations at 10% sucrose and above resulted in cell death. To limit the decrease of osmolality in these suspension cultures requires changing the medium every 3 days to maintain osmolality above the 530 mOsmol kg-1 H2O needed to co-culture these as feeder cells with gametic and zygotic cells. This revised version was published online in June 2006 with corrections to the Cover Date.     

Properties of an Ethionine-Resistant (ER) Mutant of Ochromonas danica

SYNOPSIS. On prolonged incubation of ethionine-sensitive (ES) cells of Ochromonas danica in L-ethionine-containing media, growth was resumed by an ethionine-resistant (ER) mutant. Such mutants arise at random and are selected by the ethionine-containing medium. Ethionine resistance is not lost on repeated transfers thru ethionine-less media. ES cells incubated with ethionine form a large posterior vacuole before they disintegrate. Inhibition of reserve substance utilization is suggested to underlie growth inhibition of O. danica by ethionine. In ES cells incubated with ethionine, ¹⁴C uptake from labeled methionine, ethionine or serine is reduced by 65%. In ER cells the decrease in ¹⁴C uptake is 90%. This decrease in uptake of ethionine seems to be how ER O. danica evades growth inhibition by ethionine.     

Optimisation of culture conditions for production of eicosapentaenoic acid byMortierella elongate NRRL 5513

Summary WhenMortierella elongata NRRL 5513 was cultured in shake flasks at 25°C, mycelial growth reached a stationary phase at 48 h but maximum eicosapentaenoic acid (EPA) production was observed at 6 days. When incubated at 11°C, EPA production also continued to rise during the stationary phase of growth, reaching a maximum after 10 days. An initial culture pH of 6.1 was found to be optimum for EPA production. The effect of temperature on EPA production was dependent on medium constituents. In glucose and linseed oil supplemented media, optimum temperature for EPA production was 11 and 15°C respectively. A maximum EPA yield of 0.61 g/l was obtained in linseed oil (2%), yeast extract (0.5%) supplemented basal medium. Maximum EPA content as a percentage of lipids (15.12%) was observed when the latter medium was supplemented with 0.25% urea.     

In vitro cultivation of Paragonimus miyazakii and P. ohirai

Excysted metacercariae of Paragonimus miyazakii and P. ohirai were cultured in various media at 37.5 C in a 5% CO2 atmosphere. Paragonimus miyazakii grew rapidly and showed a well-developed ovary, uterus, and testes at 172 days in NCTC 109 supplemented with 30% rabbit serum, 50% egg yolk-109, and rabbit red blood cells (RBC's). However, none of the worms formed yolk or eggs in these cultures. On the other hand, P. ohirai grew to the adult stage, in which vitellaria and imperfect ova were formed, in NCTC 109 supplemented with 30% dog serum, 10% yeast extract Earle's solution (YLE), and dog RBC's at 252 days. The maximum body length of these worms measured 7.0 mm (mean 5.5 mm) at 252 days. The dog RBC's were an essential ingredient of the culture medium for the development of P. ohirai. Additions of liver concentrate, chick embryo extract (CEE), and egg yolk-109 in the medium did not provide any additional benefits for the development of worms. Using this supplemented medium, adult worms of P. ohirai removed from rats were maintained in vitro to examine their ability to lay eggs. Egg laying occurred during the first 10-13 days for worms that survived more than 60 days. The number of eggs deposited in this medium was about 2 times that found when Hanks' BSS and NCTC 109 were used.     

Stabilization of diluted aqueous solutions of horseradish peroxidase

Effects of pH, enzyme concentration, and various supplements on the catalytic activity, temperature stability, and secondary structure of horseradish peroxidase (HRP) were studied in diluted aqueous solutions. In 5.0 mM citrate-phosphate buffer (pH 4.2) at 55 degrees C and infinite dilution, HRP was inactivated with a rate constant of 2.86 x 10(-3) s-1. CaCl2, BSA, and glycerol caused protective effects, whereas KCl, LiCl, maltose, PEG-6000 (at a concentration above 3%), Triton X-100, ethanol, and Kathon CG had an opposite effect and altered the secondary structure of HRP. Two HRP-stabilizing media: the "glycerol-based" one containing 10% ethanol and 20% glycerol, or the "protein-based" one containing 0.1% Kathon CG and 0.2 g/l of BSA in 50.0 mM Tris-HCl buffer (pH 7.2) supplemented with 50 mM CaCl2 were developed, and the stability of HRP (0.36 nM) and its immunoglobulin, cortisol, and progesterone conjugates were compared in these two media. The protein-based medium displayed a greater stabilizing effect particularly on HRP-steroid conjugates.     

Heat injury and repair in Campylobacter jejuni

A procedure for detecting and quantitating heat injury in Campylobacter jejuni was developed. Washed cells of C. jejuni A7455 were heated in potassium phosphate buffer (0.1 M, pH 7.3) at 46 degrees C. Samples were plated on brucella agar supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate and on a medium containing brilliant green, bile, Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate. Colonies were counted after 5 days of incubation at 37 degrees C in an atmosphere containing 5% O2, 10% CO2, and 85% N2. After 45 min at 46 degrees C, there was virtually no killing and ca. two log cycles of injury. Cells grown at 42 degrees C were more susceptible to injury than cells grown at 37 degrees C. The addition to brucella agar supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate of three different antibiotic mixtures used in the isolation of C. jejuni from foods or clinical specimens did not prevent recovery of heat-injured C. jejuni. Cells lost 260 nm of absorbing materials during heat injury. The addition of 5% NaCl or 40% sucrose to the heating buffer prevented leakage but did not prevent injury. Of the additional salts, sugars, and amino acids tested for protection, only NH4Cl, KCl, and LiCl2 prevented injury. Heat-injured C. jejuni repaired (regained dye and bile tolerance) in brucella broth supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate within 4 h. Increasing the NaCl in this medium to 1.25% inhibited repair, and increasing it to 2% was lethal. Heat-injured C. jejuni will repair at 42 degrees C but not at 5 degrees C.     

Heat injury and repair in Campylobacter jejuni.

A procedure for detecting and quantitating heat injury in Campylobacter jejuni was developed. Washed cells of C. jejuni A7455 were heated in potassium phosphate buffer (0.1 M, pH 7.3) at 46 degrees C. Samples were plated on brucella agar supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate and on a medium containing brilliant green, bile, Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate. Colonies were counted after 5 days of incubation at 37 degrees C in an atmosphere containing 5% O2, 10% CO2, and 85% N2. After 45 min at 46 degrees C, there was virtually no killing and ca. two log cycles of injury. Cells grown at 42 degrees C were more susceptible to injury than cells grown at 37 degrees C. The addition to brucella agar supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate of three different antibiotic mixtures used in the isolation of C. jejuni from foods or clinical specimens did not prevent recovery of heat-injured C. jejuni. Cells lost 260 nm of absorbing materials during heat injury. The addition of 5% NaCl or 40% sucrose to the heating buffer prevented leakage but did not prevent injury. Of the additional salts, sugars, and amino acids tested for protection, only NH4Cl, KCl, and LiCl2 prevented injury. Heat-injured C. jejuni repaired (regained dye and bile tolerance) in brucella broth supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate within 4 h. Increasing the NaCl in this medium to 1.25% inhibited repair, and increasing it to 2% was lethal. Heat-injured C. jejuni will repair at 42 degrees C but not at 5 degrees C.     

Effect of vitamin A supplementation at different gaseous environments on in vitro development of pre-implantation sheep embryos to the blastocyst stage

Vitamin A (all-trans retinol) is an important antioxidant whose role in embryo development in vitro and in vivo is well established. Oxidative stress is a major cause of defective embryo development. This study evaluated the effects of all-trans retinol supplementation to maturation and embryo culture media under different gaseous environments on the development of ovine oocytes and embryos in vitro. The percentages of cleavage, morula and blastocyst, total cell count and comet assay were taken as indicators of developmental competence of embryos. In experiments I and II, all-trans retinol at concentrations of 0, 2, 4, 6, 8 and 10 μM were supplemented to the oocyte maturation medium and cultured in an environment of 5% or 20% O2 respectively. All-trans retinol supplementation (6 μM) to the maturation medium at 5% O2 levels significantly increased blastocyst yield and total cell number (P < 0.05). Maturation of oocytes in a 20% O2 environment bettered cleavage rates in the 6 μM supplemented group compared with the control group (P < 0.05). In experiments III and IV, all-trans retinol, at the aforesaid concentrations was supplemented to embryo culture media under a 5% or 20% O2 environment, respectively. All-trans retinol supplementation to the embryo culture medium at 5% O2 levels did not yield any significant result whereas the culture at 20% O2 levels gave significantly higher blastocyst yield in the 6 μM supplemented group compared with the control group (P < 0.01).     

怀山药种质资源的包埋玻璃化超低温保存与植株再生

通过对怀山药(Dioscorea opposita)种质资源的包埋玻璃化超低温保存与植株再生进行研究,结果表明:将低温下锻炼7天的怀山药试管苗带芽茎段放入预培养基中,低温下培养3天,然后在室温下用3%的海藻酸钠和0.5mol·L-1CaCl2包埋,包埋珠用MS+0.2mol·L-1蔗糖+2mol·L-1甘油+50g·L-1二甲基亚砜在0°C下装载60分钟,用30%甘油+15%乙二醇+10%二甲基亚砜+15%聚乙二醇+0.4mol·L-1蔗糖在0°C下脱水60分钟,迅速投入液氮,24小时后立即用40°C水浴快速化冻,再用MS+0.5mol·L-1蔗糖溶液洗涤2次,转入再生培养基中培养,可获得再生植株。再生植株成活率因基因型而异,铁棍山药、太谷山药、怀庆1号山药和B号山药的成活率分别为64.29%、49.21%、13.11%和39.81%。     

圆红冬孢酵母菌发酵产油脂培养基及发酵条件的优化研究

采用均匀设计和单因子试验法,系统考察了圆红冬孢酵母菌(Rhodosporidiumtoruloides)在不同碳氮比条件下产油发酵情况以及添加无机盐对产油发酵的影响,通过均匀设计软件对二次多项回归方程求解及单因素分析得知在培养基组成分别为葡萄糖70g/L,硫酸铵0.1g/L,酵母粉0.75g/L,磷酸二氢钾0.4g/L,七水硫酸镁1.5g/L,初始pH6.0,在灭菌(121℃15min)后添加ZnSO41.91×10-6mmol/L、CaCl21.50mmol/L、MnCl21.22×10-4mmol/L、CuSO41.00×10-4mmol/L。发酵摇瓶装液量为250mL三角瓶装培养基50mL,接种量为10%(种龄28h)。在上述条件下,30℃振荡(200r/min)培养120h,所得菌体油脂含量高达76.1%,脂肪得率系数可达22.7。     

Cryopreservation of zygotic embryos of a Japanese terrestrial orchid (Bletilla striata) by vitrification

The seeds of a Japanese terrestrial orchid (Bletilla striata Rchb.f.) were germinated and cultured on solidified new Dogashima (ND) medium for 10 days. These embryos were then precultured on ND medium supplemented with 0.3 m sucrose for 3 days at 25°C in continuous dark. The embryos were then overlaid with a mixture of 2 m glycerol and 0.4 m sucrose for 15 min at 25°C and finally dehydrated with highly concentrated vitrification solution (PVS2) for 3 h at 0°C prior to immersion into liquid nitrogen for 30 min. After rapid warming, the embryos were washed with liquid ND medium supplemented with 1.2 m sucrose for 20 min and then plated on ND medium. Successfully vitrified and warmed embryos developed into normal plantlets. The rate of plant regeneration amounted to about 60%. This vitrification method appears to be a promising technique for cryopreservation of orchids. Received: 19 September 1996 / Revision received: 3 January 1997 / Accepted: 24 February 1997     

Metabolic comparison of cryopreserved and normal cells from <Emphasis Type="Italic">Tabernaemontana divaricata</Emphasis> suspension cultures

A cryopreservation protocol for Tabernaemontana divaricata suspension cell cultures (6 Div BW 101) was established. Cells were precultured in MS medium supplemented with 0.5 and 0.33 M mannitol for 2 or 3 days following with incubation in MS media with a mixture of 1 M sucrose, 0.5 M glycerol, 0.5 M DMSO, and 0.04 M L-proline as cryoprotectant in an ice bath for 20 min. The cells were transferred into 2 ml cryogenic vials and then, the vials were put into the cryogenic container prior to placing at a −80 °C freezer for 4 h followed by rapid immersion in liquid nitrogen. The cells were transferred without washing a MS medium solidified with 7% (w/v) agarose. Cells that were precultured 3 days after subculturing in MS medium supplemented with 0.5 M mannitol for 3 days, showed growth recovery. Metabolic profiling of control and cryopreserved Tabernaemontana divaricata cells was performed by ¹H-NMR spectroscopy combined with PCA, GC, and HPLC. Differences of metabolic accumulation were found in the level of several amino acids, carbohydrates, and fumaric acid. However, the levels of the main alkaloid precursor tryptamine did not change.     

娄彻氏链霉菌ATCC10739产抗生素Borrelidin发酵条件优化及其分离纯化

对娄彻氏链霉菌ATCC10739固体发酵产生十八元大环内酯抗生素Borrelidin进行了发酵条件的优化。首先筛选得到了理想的发酵培养基;其次考察了发酵时间、起始pH值以及在ISP-2培养基中添加附加碳源、氮源对Borrelidin产量的影响。初步确定最适发酵条件为:ISP-2培养基中添加1%甘油,起始pH值为6.0,培养温度30°C,发酵时间为7 d,产量可达1.336 mg/L。采用有机溶剂萃取、硅胶层析和半制备型高效液相色谱(HPLC)等分离技术纯化得到Borrelidin。     

Freeze-Sectioning of Plant Tissues

Techniques are described for freeze-sectioning a wide range of both fresh and fixed plant tissues. Gelatin-antifreeze media are used to support but not infiltrate the tissue during sectioning. At cryostat temperatures of -10 to -15 C, 15% gelatin (w/v) containing 0.8% dimethyl sulfoxide (DMSO), or 1.5% ethanediol (ethylene glycol), or 2% glycerol is used. Lower concentrations of gelatin and higher concentrations of antifreezes are required for sectioning at -24 C. Petri plates of media are stored at 2 C, and used by simply melting a hole in the medium. Fresh tissues can be placed directly in the hole, or prefrozen at temperature of liquid nitrogen, or equilibrated in antifreeze solution, before freeze-sectioning in the gelatin antifreeze medium. Many plant tissues have highly vacuolated cells and need equilibration in antifreeze solutions prior to freeze-sectioning. Fixed tissues are rehydrated and washed in water or buffer for 15-24 hr before equilibrating in a 10% solution of either DMSO, ethanediol or glycerol (named in order of rapidity of equilibration). Pretreatment in 10% DMSO is usually for 1-6 hr at 2 C for histochemical studies; or in 10% ethanediol or glycerol for 15-24 hr at either room temperature or 37 C for morphological studies. These methods permit serial cryostat sections free from freezing and thawing artifacts to be cut as thin as 2 μ.     

Optimization of submerged culture requirements for the production of mycelial growth and exopolysaccharide by Cordyceps jiangxiensis JXPJ 0109

AIMS: The objective of the present study was to investigate the optimal culture requirements for mycelial growth and exopolysaccharide production by Cordyceps jiangxiensis JXPJ 0109 in submerged culture. METHODS AND RESULTS: The effects of medium ingredients (i.e. carbon and nitrogen sources, and growth factor) and other culture requirements (i.e. initial pH, temperature, etc.) on the production of mycelia and exopolysaccharide were observed using a one-factor-at-a-time method. More suitable culture requirements for mycelial growth and exopolysaccharide production were proved to be maltose, glycerol, tryptone, soya bean steep powder, yeast extract, medium capacity 200 ml in a 500-ml flask, agitation rate 180 rev min(-1), seed age 4-8 days, inoculum size 2.5-7.5% (v/v), etc. The optimal temperatures and initial pHs for mycelial growth and exopolysaccharide production were at 26 degrees C and pH 5 and at 28 degrees C and pH 7, respectively, and corresponding optimal culture age were observed to be 8 and 10 days respectively. According to the primary results of the one-factor-at-a-time experiments, the optimal medium for the mycelial growth and exopolysaccharide production were obtained using an orthogonal layout method to optimize further. Herein the effects of medium ingredients on the mycelial growth of C. jiangxiensis JXPJ 0109 were in the order of yeast extract > tryptone > maltose > CaCl2 > glycerol > MgSO4 > KH2PO4 and the optimal concentration of each composition was 15 g maltose (food-grade), 10 g glycerol, 10 g tryptone, 10 g yeast extract, 1 g KH2PO4, 0.2 g MgSO4, and 0.5 g CaCl2 in 1 l of distilled water, while the order of effects of those components on exopolysaccharide production was yeast extract > maltose > tryptone > glycerol > KH2PO4 > CaCl2 > MgSO4, corresponding to the optimal concentration of medium was as follows: 20 g maltose (food-grade), 8 g glycerol, 5 g tryptone, 10 g yeast extract, 1 g KH2PO4, and 0.5 g CaCl2 in 1 l of distilled water. CONCLUSIONS: Under the optimal culture requirements, the maximum exopolysaccharide production reached 3.5 g l(-1) after 10 days of fermentation, while the maximum production of mycelial growth achieved 14.5 g l(-1) after 8 days of fermentation. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first report on the submerged culture requirements for mycelial growth and exopolysaccharide in C. jiangxiensis, and this two-step optimization strategy in this study can be widely applied to other microbial fermentation processes.