^32p示踪法研究溶磷真菌对磷肥转化固定和有效性的影响

采用^32P示踪技术,研究了溶磷青霉菌P8对肥料磷与土壤有效磷的转化、固定和有效性的影响．结果表明,溶磷青霉菌菌剂能够增加玉米、花生的生物量,促进作物对土壤和肥料磷素的吸收;溶磷菌剂具有防止有效磷转化为难溶Ca10-P的作用,增加有效态磷(Ca2-^32P、Ca8-^32p)的比例．随时间延长,施入的^32P转化为Ca10-P的数量(或比例)逐渐增加,但是相对于未接种菌剂处理,接种青霉菌菌剂的土壤磷和肥料磷转化为Ca10-P比例最低．溶磷青霉菌菌剂不仅能够防止有效磷向难溶磷Ca10-P的转化,而且其效果能够维持较长时间．     

~(32)P示踪法研究溶磷真菌对磷肥转化固定和有效性的影响

采用³²P示踪技术,研究了溶磷青霉菌P8对肥料磷与土壤有效磷的转化、固定和有效性的影响.结果表明,溶磷青霉菌菌剂能够增加玉米、花生的生物量,促进作物对土壤和肥料磷素的吸收;溶磷菌剂具有防止有效磷转化为难溶Ca₁₀-P的作用,增加有效态磷(Ca₂-³²P、Ca₈-³²P)的比例.随时间延长,施入的³²P转化为Ca₁₀-P的数量(或比例)逐渐增加,但是相对于未接种菌剂处理,接种青霉菌菌剂的土壤磷和肥料磷转化为Ca₁₀-P比例最低.溶磷青霉菌菌剂不仅能够防止有效磷向难溶磷Ca₁₀-P的转化,而且其效果能够维持较长时间.     

一株溶磷真菌筛选鉴定及其溶磷促生效果

【目的】从高产农田筛选高效溶磷微生物菌株,为溶磷微生物肥料开发提供高效菌种资源。【方法】利用菌株的形态学特性、培养特征和ITS rDNA序列分析方法进行菌株鉴定,结合液体培养和土壤培养方法研究菌株的溶磷能力,进而采用温室盆栽和田间小区试验,明确溶磷菌P83促进作物生长和提高作物产量的作用效果。【结果】溶磷菌株P83鉴定为斜卧青霉菌(Penicillium decumbens)。液体条件下培养10 d,菌株P83表现显著高效的溶磷能力,对Ca3(PO4)2(5g/L)的溶解效果,有效磷达956 mg/L,溶解率为42.68%,对湖南永和磷矿粉的溶液效果,有效磷达到152.8 mg/L;将P83菌株分别接种于施用Ca3(PO4)2、Zn3(PO4)2和磷矿粉(RP)3种磷源的盆栽试验土壤中,结果显示,菌株P83对玉米植株促生效果比对照显著提高,玉米植株鲜重提高9.5%-89.2%、干重增加35%-231%,土壤有效磷提高2.1-40.5 mg/kg。田间小区玉米产量结果显示,溶磷菌P83增产效果最好(P=0.05),玉米子粒产量达9.2t/hm2,比不接种菌剂的对照增加2.4 t/hm2,增产率为35.3%。【结论】获得了一株溶解难溶磷的斜卧青霉菌P83,它能够活化多种难溶磷、显著增加土壤有效磷水平,对玉米生长和增加作物产量具有显著作用,是一株展现良好应用前景的高效溶磷菌种。     

一株新的溶磷棘孢青霉菌Z32的分离、鉴定及其土壤定殖与溶磷特性

【目的】从植物根部土壤中分离到一株高效溶磷真菌Z32,进行了分类学鉴定和土壤定殖与溶磷特性的初步研究。为溶磷微生物的应用提供新的菌株。【方法】通过形态特征、培养特征和ITSrDNA序列分析方法进行菌株鉴定。通过菌株Z32在土豆液体培养基培养过程中培养液pH的变化确定溶磷菌株的溶磷能力。利用菌株土培试验,进行菌株的土壤定殖和土壤中不同形态无机磷转化试验。【结果】菌株Z32鉴定为棘孢青霉菌(Penicillium aculeatum)。菌株Z32能在4d内完全溶解固体培养基中的磷酸三钙,18h内将土豆液体培养基的pH值从7.0降低到1.5左右。菌株Z32在20℃时的定殖效果最好,21d时,菌数达到起始的9.83倍,而且能够保持到49d不消亡。在20℃时,添加菌株Z32的土培实验在21d时,土壤中Ca8H2(PO4)6·5H2O、AlPO4和FePO4等难溶无机磷向可溶性的CaHPO4转化,CaHPO4含量增加了58.83%。49d时,土壤中的Ca8H2(PO4)6·5H2O、AlPO4和和FePO4被转化后,没有随着微生物的减少而完全被固定。【结论】筛选到一株新的溶磷菌株Z32在土壤中很好定殖,能够转化土壤中多种形态的难溶无机磷为可溶性的CaHPO4,显著增加土壤中CaHPO4的含量。同时阻滞了Ca8H2(PO4)6·5H2O、AlPO4和和FePO4等难溶无机磷的固定。     

两株溶磷真菌的筛选、鉴定及溶磷效果的评价

【目的】从作物根围土壤中筛选高效溶磷菌株。【方法】结合溶磷圈筛选法和钼锑抗比色法评价菌株的溶磷能力;利用菌株的形态学特性、培养性状和微管蛋白β-tubulin基因序列分析方法进行菌株的鉴定;采用气相色谱-质谱法(GC-MS)对溶磷菌的产酸物质进行分析;并用平板亲和性实验测定菌株间的兼容性。【结果】筛选得到2株高效溶磷菌株P1-1、P2-2;经鉴定,菌株P1-1为黑曲霉(Aspergillus niger),P2-2为塔宾曲霉(A.tubingensis)。2株溶磷菌株的产酸物质相同,均为草酸、葡萄糖酸、乳酸和甘油酸。这2株溶磷菌与杀线虫功能菌株淡紫拟青霉(Purpureocillium lilacinum)、橄榄色链霉菌(Streptomyces olivaceus)和苍白杆菌(Ochrobactrum pseudogrignonense)兼容性好。2菌株分别在Ca_3(PO_4)_2、Zn_3(PO_4)_2、羟基磷灰石为磷源的无机磷固体培养基中25°C培养5 d,测定溶磷圈的直径(D)与菌落直径(d),通过计算其比值D/d的大小对比,以及在Ca_3(PO_4)_2、Zn_3(PO_4)_2、羟基磷灰石为磷源的液体培养基中培养5 d,测定发酵液中有效磷含量进行比较后判定,这2株溶磷菌溶解磷的能力强且效果相当。【结论】获得了2株高效的溶磷真菌。它们能活化多种难溶性磷源,同时伴随挥发性酸性物质的产生;2个菌株与1组杀根结线虫微生物菌群兼容性均良好。     

贵州两处茶园溶磷青霉菌的筛选、鉴定及溶磷能力分析

为维持土壤自然完整性、活化利用土壤中难溶性磷,从贵州名茶产地都匀、贵定茶园土壤中筛选高效溶磷真菌,为制备真菌肥料提供菌种资源。利用溶磷指数(SPI)、形态特征和ITS rDNA序列筛选、鉴定菌株,并采用液体摇床培养实验测定鉴定菌株在以磷酸钙、磷酸铁或磷酸铝为唯一磷源的无机磷液体培养基中的溶磷能力。共筛选到7个高效溶磷菌落,经形态观察分属2种菌株,鉴定为微紫青霉(Penicillium janthinellum)和赭绿青霉(Penicillium ochrochloron)。液体培养基接种、摇床培养15 d,微紫青霉菌在以Ca3(PO4)2、Fe3(PO4)2或AlPO4为唯一磷源的上清液中有效磷含量分别为73.47 mg·L^-1、30.93 mg·L^-1和14.00 mg·L^-1,4℃继续保存至30d后对Fe-P和Al-P的溶解量分别达到72.20 mg·L^-1、32.84 mg·L^-1;赭绿青霉菌培养15d的溶磷量分别为30.72 mg·L^-1、4.14 mg·L^-1和1.51 mg·L^-1,30d对Fe-P和Al-P的溶解量分别达到35.19 mg·L^-1和10.98 mg·L^-1。微紫青霉菌溶解无机磷能力明显优于赭绿青霉菌,有望应用于地区缺磷茶园土壤真菌肥料的制备。     

溶磷真菌ATMT转化条件优化及其对矮牵牛的促生效果评价

[目的]建立和优化一株溶磷真菌咖啡果小蠹青霉菌Penicillium brocae的转化体系,并利用分子标记观察其在根部的定殖;检测接种咖啡果小蠹青霉菌对植物的促生作用,为菌肥的研发奠定基础.[方法]利用农杆菌介导的转化体系(Agrobacterium tumefaciens-mediated transformati...     

不同碳源对三种溶磷真菌溶解磷矿粉能力的影响

通过液体培养法 ,对 3种溶磷真菌利用葡萄糖、果糖、蔗糖、麦芽糖、淀粉和纤维素等碳源溶解宜昌产磷矿粉的试验 ,结果表明 ,菌株P2 3在供给葡萄糖时的溶磷能力最高 ,并在一定程度上能够利用长链碳源淀粉和纤维素为营养而溶磷 ;而高效溶磷菌株P6 6和P39溶磷的最佳碳源是果糖和麦芽糖 ,该两菌株利用淀粉和纤维素的溶磷效果很小 ,甚至不溶磷。 3种溶磷真菌培养滤液 pH值、可滴定酸含量与其溶磷量之间的相关性因菌株而异 ,差别很大。菌株P2 3培养滤液pH值、可滴定酸含量与其溶磷量之间相关性很低 ,但菌株P6 6和P39培养滤液pH值、可滴定酸含量与其溶磷量之间相关性却达到极显著水平 (P <0 0 1)。结果表明 ,不同碳源对溶磷菌溶解磷矿粉能力影响很大 ,分析推断 3种菌株产生的有机酸活化磷矿粉能力为P6 6>P39>P2 3。     

农杆菌介导生防棘孢木霉菌转化体系的优化

目的:实现棘孢木霉菌T4的遗传转化并优化其转化体系.方法:以潮霉素抗性为选择标记,利用农杆菌转化法介导转化棘孢木霉菌.结果:潮霉素基因成功整合到受体菌基因组中,转化子抗性基因可稳定遗传.结论:最优的转化体系和条件为:IM和CM培养基中AS浓度为200 μg/mL,棘孢木霉T4孢子浓度为106/mL,农杆菌浓度为200 μL( OD600约0.8),共培养时间为48 h,转化效率约为50个转化子/106个孢子.     

吸水链霉菌NND-52-C基因工程宿主载体系统的构建

吸水链霉菌NND-52-C菌株是大环内酯类抗生素-阿扎霉素B的高产菌株。采用原生质体转化技术,将来自变铅青链霉菌TK24菌株的pU702质粒转化吸水链霉菌NND-52-C菌株的原生质体,建立了吸水链霉菌NND-52-C菌株的基因工程宿主载体系统。确定了NND-52-C菌株原生质体制备和再生的条件,其原生质体形成率达到10^8／mL,再生率约为0．2％,转化率为10^2-10^3个转化子／μg质粒DNA。     

Bioconversion of Iodoacetophenones by Marine Fungi

Nine marine fungi (Aspergillus sclerotiorum CBMAI 849, Aspergillus sydowii Ce19, Beauveria felina CBMAI 738, Mucor racemosus CBMAI 847, Penicillium citrinum CBMAI 1186, Penicillium miczynskii Ce16, P. miczynskii Gc5, Penicillium oxalicum CBMAI 1185, and Trichoderma sp. Gc1) catalyzed the asymmetric bioconversion of iodoacetophenones 1-3 to corresponding iodophenylethanols 6-8. All the marine fungi produced exclusively (S)-ortho-iodophenylethanol 6 and (S)-meta-iodophenylethanol 7 in accordance to the Prelog rule. B. felina CBMAI 738, P. miczynskii Gc5, P. oxalicum CBMAI 1185, and Trichoderma sp. Gc1 produced (R)-para-iodophenylethanol 8 as product anti-Prelog. The bioconversion of para-iodoacetophenone 3 with whole cells of P. oxalicum CBMAI 1185 showed competitive reduction-oxidation reactions.     

禾谷镰孢菌高产毒菌株的构建*

为研究禾谷镰孢菌Fusarium graminearum Schw.单端孢霉烯族毒素生物合成基因（产毒基因）在寄主体内的表达,作者构建了带报告基因GUS（(-葡糖苷酸酶基因）的质粒pGUSTRI6P5,并通过对野生型菌株的转化获得禾谷镰孢高产毒菌株。该质粒含有由TRI5（禾谷镰孢单端孢霉二烯合酶基因）启动子（TRI5 Prom）驱动的GUS基因编码区、潮霉素B抗性基因和拟枝孢镰孢F. sporotrichioides的产毒调控基因TRI6（FSTRI6）。用pGUSTRI6P5转化野生型菌株GZ3639后,在含潮霉素 B的培养基上选取抗性菌落,单孢分离获单孢菌株（转化子）。在GYEP（葡萄糖-酵母粉-蛋白胨）液体培养基上,转化子B4-1和B16-1的GUS比活力强,15-AcDON（15-乙酰脱氧雪腐镰刀菌烯醇）产量高,且两者呈正相关（相关系数（r）分别为0.9839和0.9523）。B4-1和B16-1两个转化子可作为研究禾谷镰孢与其寄主相互作用的工具菌株。     

Antagonistic activity of Penicillium oxalicum Corrie and Thom,Penicillium decumbens Thom and Trichoderma harzianum Rifai isolates against fungi,bacteria and insects in vitro

The antibiotic activity of 70 isolates belonging to the genera Aspergillus, Penicillium, Fusarium, Alternaria and Trichoderma was tested as preliminary screening. The highest activity was obtained with three Penicillium oxalicum isolates, one Penicillium decumbens isolate and the Trichoderma harzianum isolate. After that, we chose these five isolates in order to carry out other studies with bacteria, fungi and insects. Extracts from these isolates were obtained. The extracts were tested for antibiotic activity with positive results, which implies that metabolite production is involved in this antagonistic effect. The highest activity was shown by T. harzianum and P. oxalicum extracts, but there was high variability among P. oxalicum isolates.     

Establishment of a gene transfer system for Pseudozyma flocculosa, an antagonistic fungus of powdery mildew fungi

A reliable DNA-mediated transformation system has been developed for Pseudozyma flocculosa, a fungus that is antagonistic to powdery-mildew fungi. Plasmids harboring various selectable markers under the control of different promoters were tested. Molecular analyses demonstrated that successful transformation could be achieved using a plasmid that confers resistance to hygromycin B under the control of the Ustilago maydis hsp70 promoter and terminator sequences. On average, 1-40 (mean = 20) transformants were obtained per 10 microg of linearized DNA per 10(8) protoplasts. Southern analysis of the transformants revealed that, in each case, the vector had integrated in multiple tandem copies into the genome of P. flocculosa, and that integration events were random. Pulsed-field gel electrophoresis was employed to separate the genome of P. flocculosa into at least 11 chromosomes with sizes ranging from 0.55 Mb to 2.9 Mb. Hybridization with the plasmid indicated that integration of vector DNA had occurred in one to several chromosomes depending on the transformant examined.     

Transformation of Aspergillus terreus with the hygromycin B resistance marker from Escherichia coli

Aspergillus terreus was transformed to hygromycin B resistance using a bacterial resistance gene under the control of Aspergillus nidulans regulatory sequences. Southern hybridization of transformants indicated that in most of the cases the vector DNA was integrated into the recipient chromosome in the form of tandem arrays. Transformants were mitotically stable in both selective and non-selective medium and retained their capacity to produce xylanase or glucoamylase activities.     

Transformation of Aspergillus nidulans with the hygromycin-resistance gene, hph

Aspergillus nidulans strain G191 was transformed to hygromycin resistance using plasmid pDH25, which contains the bacterial hygromycin B phosphotransferase gene (hph) fused to promoter elements of the A. nidulans trpC gene. Southern hybridizations of transformants revealed multiple, integrated copies of the vector. A pleiotropic effect conferring increased hygromycin B sensitivity was found to be associated with the A. nidulans pyrG89 allele. Plasmid pDH25 features a ClaI site immediately preceding the hph start codon thus permitting convenient replacement of the trpC sequences with other eukaryotic promoters.     

Transformation frequencies are enhanced and vector DNA is targeted during retransformation of Leptosphaeria maculans, a fungal plant pathogen.

Summary Leptosphaeria maculans, a fungal pathogen of Brassica spp., was successfully transformed with the vector pAN8-1, encoding phleomycin resistance. Protoplasts of a vigorous Phleo^r transformant were then retransformed using the partially homologous vector, pAN7-1 which encodes hygromycin B resistance. Retransformation of this strain to hygromycin resistance occurred at frequencies that were consistently twofold higher than with the original recipient strain. Linearised pAN7-1 DNA transformed phleomycin-resistant protoplasts at higher frequencies still. All the transformants that were tested retained a phleomycin-resistant phenotype (20/20). Molecular analysis of five transformants generated with circular pAN7-1 DNA indicated that in four cases the pAN7-1 vector had integrated into pAN8-1 sequences. These results suggest that transformation frequencies in L. maculans are limited by the ability of vector DNA to integrate into the genome. Hence, construction of strains with target sites for integration may prove to be a generally useful method for improving transformation frequencies of poorly characterised filamentous fungi, particularly when using heterologous vectors. This would greatly facilitate the identification of genes by transfer of gene libraries and the standardisation of chromosomal location effects in studies of expression of nested promoter deletions.