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1.
优良解磷菌株诱变选育与解磷培养基优化 总被引:2,自引:1,他引:1
对解磷菌枯草芽孢杆菌X1055进行紫外线诱变选育,筛选到优良解磷突变株1055Y1。该菌株摇瓶培养72h发酵液中有效磷含量最高达到5.22mg/L,解磷能力比出发菌株提高17.8%。在单因子试验筛选最适碳源、氮源基础上,通过Plackett-Burman设计,确定接种量、pH、KCl浓度等因素对突变株1055Y1解磷能力具有显著影响。应用爬坡试验和Box-Behnken设计的响应面法,对突变株1055Y1解磷培养基进一步优化。结果表明:在250ml发酵培养基中,接种量10.21ml、pH6.75、KCl浓度0.12g/L时,突变株1055Y1解磷达到最佳水平,发酵液有效磷含量达到7.03mg/L。 相似文献
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盐碱地解磷真菌的分离鉴定及性能研究 总被引:4,自引:1,他引:3
为提高盐碱地中磷素利用率,分别从黄河三角洲及新疆盐碱地筛选得到解磷真菌各10株和6株,经18S r DNA鉴定,确定为曲霉菌属6株,青霉菌属9株,镰刀菌1株。解磷真菌的溶磷指数(SPI)为1.1~2.4;液体解磷量为11.4 mg L~(-1)~231.7 mg L~(-1);培养基的pH下降至3.40~4.97。线性关系分析表明,液体培养基的可溶性磷含量与pH呈显著负相关(r=-0.87)。选取解磷效果较好的菌株进行解磷动力学及耐盐能力测定。结果表明,解磷能力受时间的影响比较大,随着培养基内可溶性磷含量的增加,培养基的pH逐渐下降;所有菌株在NaCl浓度1.5 M条件能够生长,解磷真菌PSDX-8的最适生长NaCl浓度为1.2 M,其耐盐性最强。说明所筛选的解磷真菌具有在盐碱土壤中应用的潜力,这为开发高效磷肥提供了微生物资源。 相似文献
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为筛选并构建高效的作物根际解磷真菌,探讨解磷真菌的解磷机理,本研究从小麦和棉花根际土壤中分离筛选了一株高解磷能力的真菌YTY,对其离子束诱变的最佳条件进行探讨,进一步构建YTY的高效解磷突变菌,并从有机酸角度研究YTY的解磷机理。结果表明,从作物根际土壤分离的解磷真菌YTY具有较高的解磷能力,形态学和ITS鉴定表明该菌为草酸青霉;YTY的最佳诱变条件为30 keV和1×1015 ions·cm-2,利用该诱变条件获得了3株高效解磷突变株,即p-1-1、p-1-2、p-1-3,解磷能力分别较出发菌株YTY提高了56.88%、42.26%和32.15%;YTY培养液(5 d)的pH值为2.5,离子色谱法测得其中含有3种有机酸,即乳酸、乙酸和草酸,同时测得3株突变菌培养液的pH值为2.0,显著低于出发菌株YTY,且乳酸、乙酸、草酸和总酸含量均显著高于YTY,表明有机酸是YTY解磷的重要物质,且乳酸、乙酸、草酸是YTY解磷的主要有机酸。本研究结果为解磷真菌的离子束诱变选育提供了参考,并为真菌YTY解磷机理的探明及开发应用提供了理论依据和生物材料。 相似文献
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一株耐盐解磷菌的解磷能力及对玉米敏感期生长的影响 总被引:3,自引:0,他引:3
《水土保持研究》2015,(5)
从黄河三角洲盐碱化土壤中筛选了一株高效解磷真菌QL1501,经鉴定为草酸青霉菌,菌株QL1501对无机磷的解磷能力远大于对有机磷的解磷,解无机磷最大浓度达85.21mg/L。菌株QL1501的最适生长pH值为8时菌体生长极好。当NaCl浓度为1%~5%时,菌株解磷能力变化不大,溶液中有效磷浓度为76.08~65.37mg/L。当溶液中NaCl浓度高于7%时,菌体生长受到较大影响。接种解磷真菌QL1501处理的玉米株高、根干重和植株干重均显著高于未接种的对照处理,说明该解磷菌作为解磷生物肥料具有良好的效果。 相似文献
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山西矿区复垦土壤中解磷细菌的筛选及鉴定 总被引:5,自引:1,他引:4
【目的】矿区复垦土壤贫瘠、 有效磷含量低。解磷细菌能够将有机磷和难溶性无机磷转化为可溶性磷,促进植物对磷素的利用。因此筛选和鉴定具有解磷能力的菌株,可为解决矿区生态恢复使用的微生物肥料提供菌种资源。【方法】采用平板分离法初筛菌株,得到D/d1.5的菌株,然后以磷酸钙为磷源,通过液体发酵试验复筛菌株,挑选出解磷率高于巨大芽孢杆菌(Bacillus megaterium)As1.223的菌株。以磷矿粉和卵磷脂为磷源,液体发酵试验测定菌株的解磷能力及磷酸酶活性。进行菌株的生长试验以测定菌株温度适宜性、 耐盐性及耐酸碱性。通过形态学、 基因序列分析及脂肪酸组成分析综合进行菌株鉴定。 菌落形态观察用营养琼脂平板培养基培养;菌体形态即细胞形态及其大小采用扫描电镜观察;基因序列分析采用16S rDNA序列测定,基因在线比对采用EzTaxon数据库;使用美国MIDI公司的Sherolock全自动细菌鉴定系统对菌株进行脂肪酸组成分析。【结果】利用无机磷和有机磷平板培养基,从山西省矿区复垦区土壤样品中筛选出19株解磷微生物,其中D/d1.5的有7株。在以磷酸钙为磷源的液体培养试验中,4株菌的解磷率高于巨大芽孢杆菌As1.223,解磷率为7.89%~12.61%,最高的为菌株Y14。4株菌对磷矿粉的解磷率为0.81%~1.21%,最高的为菌株Y14。在以卵磷脂为磷源的液体培养试验中,4株菌的解磷率与酸性磷酸酶活性分别为1.79%~3.07%和24.3~28.4U/L,均高于巨大芽孢杆菌As1.223; 碱性磷酸酶活性为11.9~50.2U/L;菌株Y14的解磷率与磷酸酶活性均最高。4株菌均有较强的环境适应能力,以Y14的适应性最强。H22、 Y11和Y34与假单胞菌属(Pseudomonas sp.)同源性在99%以上,Y14与泛菌属(Pantoea sp.)有99.79%的同源性; H22、 Y11和Y34的细胞脂肪酸组成特征峰与假单胞菌属(Pseudomonas sp.)相一致,Y14与泛菌属(Pantoea sp.)相一致;H22、 Y11和Y34被鉴定为假单胞菌(Pseudomonas sp.),Y14为泛菌属(Pantoea sp.)。【结论】分离、 筛选到4株高效解磷菌,对于磷酸钙和卵磷脂的解磷率均高于巨大芽孢杆菌As1.223。4株菌分别隶属于假单胞菌属(Pseudomonas sp.)和泛菌属(Pantoea sp.)。菌株Y14无机磷与有机磷平板的D/d值分别为3.28与1.59,降解磷酸钙、 磷矿粉、 卵磷脂的解磷率分别为12.61%、 1.21%、 3.07%,酸性与碱性磷酸酶活性分别为28.4 U/L和50.2 U/L,均为4株菌里最高的,且环境适应能力最强,生长温度为20~60℃,能耐受pH 4~11的酸碱梯度和2%~7%的盐分梯度,Y14被鉴定为泛菌属(Pantoea sp.)。4株菌均具有良好的解磷能力及较强的环境适应能力,可望进一步研发成为微生物肥料生产菌种。综合D/d值、 解磷率、 磷酸酶活性和生长试验,本试验最终确定适合山西矿区复垦农田推广的高效解磷菌菌株为Y14。 相似文献
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家蚕肠道产蛋白酶菌株的分离与鉴定及其发酵条件 总被引:1,自引:0,他引:1
为探明家蚕肠道中产蛋白酶细菌的种类分布及其作用效果,本研究以家蚕(Bombyx mori)4龄幼虫肠道内容物为材料,采用牛肉膏蛋白胨培养基和酪蛋白培养基分离筛选产蛋白酶细菌菌株,利用16SrDNA序列分析鉴定其种属,并研究其产酶能力和产酶活力较高菌株的最适发酵条件。结果获得3株产蛋白酶菌株皓月NA1、951NA3和951NA6,均归属于不动杆菌属(Acinetobacter),其中皓月NA1号细菌产酶能力最强,最佳产酶量为29.5U/mL。以玉米粉10000mg/L、黄豆粉10000mg/L、MgSO4400mg/L、NaC115000mg/L和K2HPO41000mg/L作为发酵培养基成分,在35℃、起始pH9.0、装液量为80mL/150mL、180r/min振荡培养48h的优化发酵条件下,皓月NA1号细菌最大产酶量可达50U/m L。研究结果对家蚕肠道微生物的分布及肠道益生菌的作用效果调控有着十分重要的意义。 相似文献
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研究筛选滇重楼根际土壤解磷菌,提高滇重楼产量和品质,为其微生物菌肥的研发提供优良菌株。采集四川、云南、贵州中10个不同地区野生品和移栽品滇重楼根际土壤分离筛选高效解无机磷菌,通过钼锑钪比色法进行溶磷能力测定,结合生理生化和16S rDNA进行鉴定分析。结果表明,共分离纯化42株溶磷菌,发酵液中有效磷的含量为66.68~104.10 mg/L,其中属于芽孢杆菌属Z3-4菌株解无机磷能力最强,发酵上清液中有效磷的含量为104.10 mg/L、增磷量为38.55 mg/L、解磷率为37.03%。菌株Z3-4是一株具有高效解无机磷作用的细菌,可应用于生物菌肥的生产。 相似文献
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采用盆栽试验,研究了施用硝态氮、铵态氮对解磷细菌发酵液不同组分解磷活性及其对小白菜产量、品质的影响。结果表明,施用相同氮肥时,浇灌解磷细菌原发酵液处理 T3的作用效果明显优于菌体悬浮液T2及菌液上清T1;以硝态氮为底肥时,施用发酵原液的土壤有效态磷含量较高,小白菜产量最高,品质明显优化,即硝态氮含量下降, Vc、可溶性糖、可溶性蛋白、纤维素以及植株磷含量显著增加,且增加变幅均高于以铵态氮为底肥的效果。由此可知,硝态氮与解磷细菌发酵原液配施时, W1菌株解磷效果更好,可能是解磷菌株W1最适的氮源。因此,种植小白菜时直接向其根际施用解磷细菌发酵液并配施硝态氮肥,更有利于提高小白菜的品质及产量。 相似文献
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溶磷真菌液体培养条件下对磷矿粉的溶解效果 总被引:2,自引:2,他引:0
Rock phosphate (RP) is a low efficiency P fertilizer that is directly applied to the soil and can be solubilized by phosphate-solubilizing microorganisms (PSMs) in fermentation or soil conditions. This study investigated dynamic solubilization of 2 concentrations of rock phosphate in a liquid culture with different dosages of glucose by two fungal isolates,Aspergillus niger P39 and Penicillium oxalicum P66, from soybean and wheat rhizosphere soil. Although during the 20 day culture period A. niger P39 had a stronger ability to acidify the culture media than P. ozalicum P66, soluble P concentrations at glucose dosages of 30 and 50 g L^-1 with RP of 15 g L^-1 in the culture solution were much higher by P. oxalicum P66. The greater effectiveness of P. oxalicum P66 compared to A. niger P39 in the solubilization of RP was strongly associated with the production of organic acids. This study suggested that for RP solubilization the type rather than the concentration of PSM-produced organic acids was more important. 相似文献
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为获得快速酿造水蜜桃酒的专用酵母菌株,生产优质水蜜桃酒,以水蜜桃自然发酵醪为筛菌原料,通过TTC显色法与杜氏小管法初筛;再经耐酒精能力、发酵速度与产酒能力以及发酵液风味分析与感官评定三级复筛,获得了优质高效的酿酒酵母菌PY01(Saccharomyces cerevisiae PY01);并以初始pH值、主发酵温度、酵母接种量为自变量,以酒精度为响应值作酿酒工艺的响应面优化。结果表明,PY01菌株发酵水蜜桃酒最适发酵参数为初始pH 值3.9,发酵温度26℃,酵母接种量6.2%。在此条件下发酵可得到酒精度为12.78% vol,总糖含量为6.71 g·L-1,风味纯正,口感醇厚,典型性的半干型水蜜桃发酵酒。本研究结果为水蜜桃发酵酿酒产业菌种的选择与工艺优化提供了基础。 相似文献
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草酸青霉菌HB1溶磷能力及作用机制 总被引:2,自引:0,他引:2
一些功能微生物具有溶磷能力且同一菌株对不同难溶性磷酸盐的溶解能力存在差异。该研究以草酸青霉菌HB1为研究对象,通过固体平板培养试验、摇瓶培养试验和土壤培养试验系统研究了不同磷源(磷酸钙、磷矿粉、磷酸铁、磷酸铝)与氮源(铵态氮、硝态氮)供应下HB1溶磷能力及其作用机制,并验证了其在高、低不同磷水平土壤中的溶磷能力。结果表明,接种HB1的不同磷源培养基上均有溶磷圈出现,根据溶磷圈直径/菌落直径初步确定HB1溶解磷酸钙的能力较强;摇瓶培养试验表明供试磷源为磷酸钙、磷酸铁时HB1发酵液中有效磷含量为884、265 mg/L(铵态氮),或945、206 mg/L(硝态氮),其溶磷能力不受氮源形态影响;磷矿粉为磷源时,HB1发酵液中有效磷含量可达199 mg/L(供应铵态氮),为硝态氮供应的7.14倍;而磷酸铝为磷源时,HB1发酵液中有效磷含量为120 mg/L(供应硝态氮),为铵态氮供应的3.29倍;此外,供应铵态氮条件下,HB1对难溶性磷酸盐的溶解能力与介质中pH值呈显著的负相关关系。HB1接种于不同磷水平的土壤中培养21 d,在低磷和高磷土壤中HB1均能有效定殖且增加了土壤有效磷含量,比不接菌对照分别增加45.00%和14.17%。综上,草酸青霉菌HB1对磷酸钙和磷矿粉的溶磷效果较好,并通过分泌氢质子酸解含磷矿物实现溶磷作用,且HB1在低磷土壤中溶磷能力较强。 相似文献
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前期工作构建了苹果酸转运蛋白基因过表达的卷枝毛霉重组菌株Mc-MT-2,该菌株的脂质含量大幅度提高。该研究从培养基成分筛选、微生物生长控制以及发酵模式等方面深入探讨Mc-MT-2菌株发酵产油脂的调控策略。结果表明,Mc-MT-2菌株最佳生长及产孢培养条件是以葡萄糖与苹果酸为复合碳源且复合配比为9∶1,氮源为胰蛋白胨,其他成分同Kendrick培养基,初始pH值为5。经分批培养获得生物量、脂质含量和脂质产量分别为11.2 g/L,24%和2.6 g/L。在3 L发酵罐扩大培养中,补料培养Mc-MT-2菌株获得生物量、脂质含量和脂质产量最大值为15.4 g/L、28.6%和4.4 g/L,比分批培养分别提高1.38、1.19和1.69倍。该研究为卷枝毛霉重组菌株Mc-MT-2在脂质生产中的进一步应用奠定理论基础。 相似文献
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A large proportion of phosphate fertilizer applied to calcareous soils reacts with calcium. Changes in soil phosphorus (P) availability after single application of biochar and phosphate-solubilizing bacteria have been reported. However, interaction of biochar (increasing soil pH) and phosphate-solubilizing bacteria (decreasing soil pH) on P availability in calcareous soil is not well known. An incubation experiment was conducted to study how the interactive effects of biochars (produced from wheat straw and cow manure at 300°C and 500°C with residence time of 1, 3 and 6 h) at different rates (0, 5 and 10 t ha?1) and phosphate-solubilizing Pseudomonas sp. IS8b2 affected on content of soil available P after 0, 60, 120 and 180 days of incubation (DOI) in a calcareous soil. After 60 DOI, the maximum value of available P (50.31 mg kg?1) was observed in the compound treatment of Pseudomonas sp. IS8b2 and wheat straw biochar (10 t ha?1) produced at 500°C with residence time of 3 h. We conclude that the combination use of wheat straw biochar and phosphate-solubilizing bacterium is promising to potentially improve soil P availability in calcareous soil, but further research at field scale is needed to confirm this. 相似文献
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Li CP Salvador AS Ibrahim HR Sugimoto Y Aoki T 《Journal of agricultural and food chemistry》2003,51(23):6808-6815
Food proteins were phosphorylated by heating in a dry state in the presence of phosphate. When casein, whey protein isolate (WPI), and egg white proteins (EWP), which were lyophilized from their solutions in a phosphate buffer, were dry-heated at various temperatures and pH levels for 1-5 days, EWP was more highly phosphorylated than casein and WPI. Phosphorylation of EWP was promoted with a decrease of pH from 7.0 to 3.0 when the incubation temperature was raised from 55 to 100 degrees C. The phosphorus content of EWP increased from 0.08 to 0.64% by dry-heating at pH 3.0 and 85 degrees C for 5 days in the presence of phosphate. The electrophoretic mobility of EWP increased with an increase in the phosphorylation level. The heat-induced polymerization of EWP by dry-heating was not affected by the presence of phosphate. Although the solubility of EWP decreased by dry-heating at pH 3.0-5.5, the phosphorylation depressed the insolubilization at low pH. The phosphate bonds in phosphorylated EWP (P-EWP) were stable at pH 2.0-10.0 and were more acid-labile and base-stable than phosphoesters of egg riboflavin-binding protein (RfBP). (31)P NMR spectral data suggested that besides phosphoesters, phosphodiester and polyphosphate bonds were introduced in P-EWP. Heat stability of EWP was improved, and calcium phosphate-solubilizing ability of EWP was enhanced by phosphorylation. 相似文献
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两株高效溶磷菌的溶磷能力及其对玉米生长和红壤磷素形态的影响 总被引:1,自引:0,他引:1
19.
试验研究了不同溶磷细菌的组合效应,筛选出最佳组合,并通过单因子试验和正交试验对最佳组合菌株的培养条件进行了优化。结果表明:溶磷细菌最佳组合为拉恩式菌(W2)+假单胞菌1(W3)+假单胞菌2(W4);W2+W3+W4以葡萄糖为碳源、硫酸铵为氮源培养液有效磷含量最大,为609.1 mg/L,比空白增加了18.4倍;正交试验表明W2+W3+W4的最适培养条件为葡萄糖15 g/L,硫酸铵为0.67 g/L,培养液初始p H值7,接菌量1%,经过进一步实验,W2+W3+W4在优化后培养条件下对磷酸三钙的溶解能力为664.29 mg/L,比在普通发酵培养液中的溶磷量显著增加55.19 mg/L(P0.05),为增强溶磷微生物在土壤中的竞争能力和溶磷能力提供理论基础。 相似文献
20.
Isolation and characterization of phosphate-solubilizing bacteria from walnut and their effect on growth and phosphorus mobilization 总被引:2,自引:0,他引:2
Xuan Yu Xu Liu Tian Hui Zhu Guang Hai Liu Cui Mao 《Biology and Fertility of Soils》2011,47(4):437-446
The objectives of this work were to isolate and characterize walnut phosphate-solubilizing bacteria (PSB) and to evaluate
the effect of inoculation with the selected PSB stains to walnut seedlings fertilized with or without insoluble phosphate.
Thirty-four PSB strains were isolated and identified under the genera Pseudomonas, Stenotrophomonas, Bacillus, Cupriavidus, Agrobacterium, Acinetobacter, Arthrobacter, Pantoea, and Rhodococcus through a comparison of the 16S ribosomal DNA sequences. All isolated PSB strains could solubilize tricalcium phosphate (TCP)
in solid and liquid media. Phosphate-solubilizing activity of these strains was associated with a drop in the pH of medium.
A significantly negative linear correlation was found between culture pH and phosphorus (P) solubilized from inorganic phosphate.
Three isolates Pseudomonas chlororaphis (W24), Bacillus cereus (W9), and Pseudomonas fluorescens (W12) were selected for shade house assays because of their higher phosphate-solubilizing abilities. Under shade house conditions,
application of W24 or W12 remarkably improved plant height, shoot and root dry weight, and P and nitrogen (N) uptake of walnut
seedlings. These increases were higher on combined inoculation of PSB with TCP addition. The most pronounced beneficial effect
on growth of walnut plants was observed in the co-inoculation of the three PSB strains with TCP addition. In comparison, the
isolate of W9 failed to increase available soil P, nutrient levels in plants, or to promote plant growth, suggesting that
more insoluble phosphate compounds than tricalcium phosphate should be used as substrates to assess the phosphate-solubilizing
ability of PSB under greenhouse conditions. The present results indicated that strains P. chlororaphis or P. fluorescens could be considered for the formulation of new inoculants of walnut, even of more woody plants. 相似文献