菊粉酶产生菌的筛选及~(60)Co诱变选育

目的:从新疆石河子盐碱地菊芋生长根际土壤中分离筛选高产菊粉酶活力菌株。方法:通过稀释平板涂布法分离微生物;利用60Co诱变选育,96孔板筛选突变菌株;采用3,5-二硝基水杨酸比色法测定菊粉酶酶活。结果:分离到12株具有菊粉酶活力的菌株,复筛得到1株高产菊粉酶活力菌株,将其命名为G-60;以此菌株为出发菌株进行60Co诱变,利用96孔板对诱变菌株进行筛选,经摇瓶发酵酶活测定,得到1株高产菊粉酶酶活的突变株,酶活达46.62 U/mL,是未诱变菌株酶活的2.72倍。结论:经诱变得到1株高产菊粉酶活力的突变菌株。     

内切型菊粉酶生产菌株的筛选及诱变选育

采用透明圈法筛选得到了产菊粉酶的多株菌株,并得到了1株产内切型菊粉酶较高的隐球酵母属（Cryptococcus)菌株L1,以L1作为出发菌株经Co^60诱变后,得到1株产内切型菊粉酶最好菌株C10,其诱变后低聚果糖得率比诱变前提高了52．6％,酶活力提高了51．9％。     

产耐高温谷氨酰胺转胺酶菌株的快速筛选方法

目的:采用亚硝基胍(NTG)诱变结合96孔板高通量筛选方法筛选产耐高温谷氨酰胺转胺酶(MTG)的茂原链霉菌(Streptomyces mobaraensis)。方法:通过优化96孔板高通量测定MTG活性的方法、确定筛选温度和时间,建立了产耐高温MTG菌株的快速筛选方法;通过优化NTG诱变条件建立了筛选突变库;通过96孔板高通量初筛、摇瓶复筛获得了产耐高温MTG的突变株12-82,并通过摇瓶发酵对12-82所产MTG进行热稳定性分析。结果:采用2mg/ml NTG、p H8.0、60min的诱变条件获得突变株,将突变株的发酵上清液于70℃水浴7.5min,再在37℃空气浴、反应10min的条件下测定MTG活性,从5 200株突变株中筛选出5株产耐高温MTG的突变株,其中突变株12-82在50℃水浴60min以及70℃水浴1.5min的酶活残留率均比出发株高出近20%,且80℃保温2min仍有11.9%的酶活残留率。结论:利用NTG诱变结合96孔板高通量筛选的方法筛选到5株所产MTG热稳定性相对较高的突变株,其中突变株12-82在50℃、70℃和80℃的酶活残留率均有10%~20%的提高。这为高温食品加工领域所需耐高温MTG生产菌株的高效筛选提供了可行性方案。     

葡聚糖酶高产菌株的诱变筛选及其摇瓶发酵条件的初步研究

从土壤中分离出的一株产葡聚糖酶酶活31 U／ml的野生菌株,经UV、^60Co、LiCl诱变筛选后得到了产葡聚糖酶高产菌株SB126,经发酵条件优化试验后检测其酶活达到85U／ml,较野生菌株提高了近两倍。葡聚糖酶摇瓶较适发酵条件为：装量30ml(250m1)、转速180r／min、pH7．0、温度30℃、接种量8％、发酵周期5d。     

产纤溶酶少根根霉菌株的诱变筛选

目的:通过对自南方小酒药中筛选得到的1株产纤溶酶的少根根霉Or株的诱变筛选,提高原有菌株的产酶能力。方法:以Or为出发菌株,进行亚硝基胍、紫外线、Co60诱变,以血纤维蛋白平板法为检测方法,筛选高产酶突变株。结果:经诱变传代后得到高产突变株8B,其产酶活性稳定为291.05U/mL,为原菌株产酶活力的6.34倍。该菌在血琼脂平板上不产生溶圈,诱变后孢子成熟提前8h。结论:物理诱变和化学诱变交替应用,能显著提高少根根霉Or株单位体积发酵液的产酶量,并能缩短孢子的成熟周期。该菌不具有溶血性,与已有报道的产纤溶酶的菌株不同。     

复合诱变在青霉高产菊粉酶菌株选育中的应用

以Penicillium sp．B01为出发菌株,经吖黄素或DES（硫酸二乙酯）分别与^60Co-γ射线对其孢子悬液进行复合诱变。经过初筛和复筛,在30μg／mL吖黄素诱变时间2h,剂量率为4．11Gy／min的^60Co-γ射线辐射使累计剂量为20．55Gy复合诱变的条件下,筛选出一株菊粉酶活比出发菌株高32％的突变菌株B01-A13-Co31。经同工酶电泳验证,变异株与出发菌株相比酶带有所变化。将此菌种连续传代6次进行产酶性能的稳定性测定,表明此菌株具有良好的遗传稳定性。     

斜卧青霉A10产纤维素酶的酶学性质研究

以斜卧青霉（Penieillium decumbens）A10为出发菌株,经450Gy ^60Coγ-射线诱变处理,选育出一株具有较高纤维素酶活力且传代稳定的正突变株A50,发酵60h后,其CMC酶活和滤纸酶活分别为27．28IU／mL和1．98IU／mL,较出发菌株A10分别提高了33．2％和45．59％。对突变株A50的产酶组分进行研究,通过SDS—PAGE电泳分析,从蛋白质水平上证明突变株A50确实是A10在遗传物质上发生改变的菌株,其CMC酶活最适作用pH值为4．0,最适作用温度为60℃;而滤纸酶活的最适作用pH值为5．2,最适作用温度45℃,二者在一定范围内具有较高的稳定性。     

黑曲霉(Aspergillus niger)产菊粉酶菌株的筛选及培养条件的研究

Ak3个地区7个土壤样品中筛选高产菊粉酶的黑曲霉菌株,对筛选出的黑曲霉菌株进行了形态鉴定,探讨了温度、pH值对菊粉酶活力的影响,比较了固体和液体两种扩大培养法对黑曲霉菌株产菊粉酶的影响。结果表明：经过初筛和复筛得到A4、A6、A8、A12、At4、A15和A16共7株黑曲霉菌株,菊粉酶活力大于15．0U／mL,经数码生物摄影显微镜镜检符合黑曲霉的形态特征。A8菌株的菊粉酶酶活最高,达到25．0U／mL,在60℃、pH值5．0的条件下酶活性最大。     

微孔板与响应面相结合筛选壳聚糖酶高产菌株

利用微孔板与响应面相结合筛选壳聚糖酶高产菌株.经平板透明圈法从土样中筛选出60株产壳聚糖酶菌株,再经96孔板复筛得到1株产壳聚糖酶活力较高的菌株.通过Plackett-Burman设计实验确定蛋白胨、胶体壳聚糖、CaCl2对产酶具有显著影响;最后应用中心组合设计和响应面分析得到以上3个因素的最佳浓度分别为(%,w/v)...     

直接利用糖质原料生产L-苹果酸菌种的选育

从土壤中筛选到一株产L－苹果酸的黄曲霉菌,经紫外线、亚硝基胍（NTG）、硫酸二乙酯（DES）和^60Co辐射等诱变处理,并经多次分离得到一株性能稳定的高产L－苹果酸突变株黄曲霉HA5800,35℃,200r/min摇瓶发酵120h,产L－苹果酸72g/L、糖酸转化率为74．22％,经山东省卫生防疫站检定,该菌株不产黄曲霉素素B1。     

常压室温等离子体(ARTP)诱变茂源链霉菌菌株

采用常压室温等离子体（ARTP）诱变技术处理茂源链霉菌（Streptoverticillium mobaraense）菌株HS47的孢子,选育微生物谷氨酰胺转胺酶（MTG）高产菌株。菌株的致死率强度和正突变率高低结果表明,在电源功率为120W,处理距离2mm,工作气流量10slpm时,等离子体氦气对茂源链霉菌HS47孢子的最佳处理时间为30s。将诱变后的孢子液稀释涂布后,利用96孔板高通量筛选方法对单菌落进行初筛,选出高产的突变株进行两轮试管复筛,筛选过程中保持对菌株的分离纯化,最终获得一株高产菌株M-8,其MTG酶活由2.8U/ml提高到5.1U/ml,较出发菌株HS47提高了82%。该菌株的摇瓶发酵实验证明,其酶活的提高是单位菌株分泌的MTG有所增加的结果。经过8次传代,证实该菌株具有良好的遗传稳定性。这为谷氨酰胺转胺酶的工业化生产提供了菌种支持和理论支持。     

Enhanced inulinase production in solid state fermentation by a mutant of the marine yeast <Emphasis Type="Italic">Pichia guilliermondii</Emphasis> using surface response methodology and inulin hydrolysis

In order to isolate inulinase overproducers of the marine yeast Pichia guilliermondii, strain 1, cells were mutated by using UV light and LiCl₂. One mutant (M-30) with enhanced inulinase production was obtained. Response surface methodology (RSM) was used to optimize the medium compositions and cultivation conditions for inulinase production by the mutant in solid-state fermentation. The initial moisture, inoculum, the amount ratio of wheat bran to rice bran, temperature, pH for the maximum inulinase production by the mutant M-30 were found to be 60.5%, 2.5%, 0.42, 30°C and 6.50, respectively. Under the optimized conditions, 455.9 U/grams of dry substrate (gds) of inulinase activity was reached in the solid state fermentation culture of the mutant M-30 whereas the predicted maximum inulinase activity of 459.2 U/gds was derived from RSM regression. Under the same conditions, its parent strain only produced 291.0 U/gds of inulinase activity. This is the highest inulinase activity produced by the yeast strains reported so far.     

一株高产木聚糖酶真菌的筛选及酶学性质分析

从近百份土样中,首先筛选得到具有明显半纤维素水解活性透明圈的菌株564株,其中202株的木聚糖酶活力用96孔板筛选方法进行了验证。结果显示：基于96孔深孔板测定的酶活力与初筛测得的透明圈活力趋势一致。最终筛选得到一株高产木聚糖酶的菌株ECU2023,经核糖体rDNA内部转录间隔区的序列对比,鉴定为泡盛曲霉（Aspergillus awamori）。研究获得了其最佳培养条件：pH6．0,培养时间4d,C源为30～40g/L玉米芯粉。经过（NH4）2SO4沉淀和Superdex G-75凝胶过滤层析后,其中主要木聚糖酶成分的最适反应pH为6．0,最适反应温度为50℃。     

紫外线和60Co-γ联合诱变褐色高温单孢菌及产酶特性研究

本研究以褐色高温单孢菌(Thermomonospora fusca)为出发菌株,通过紫外线和60Co-γ射线联合诱变,获得了一株纤维素酶高产菌株AV8,CMC酶活力达到0.679 IU/mL,与出发菌株相比,其产酶能力提高3.53倍。通过对AV8产纤维素酶的培养条件进行测定,结果显示:产纤维素酶最适应温度为55℃;该菌的最适产CMC酶初始PH值为7.0,最适产FPA酶初始PH值为8.0;当培养到第7天时,产CMC酶达到高峰。当培养到第8天时产FPA酶达到高峰。     

黑曲霉产菊粉酶菌株的选育及培养基优化

为获得高产菊粉酶的黑曲霉菌株,以Aspergillus niger YH-1为出发菌株,经过亚硝基胍(NTG)诱变,以高温高菊芋粉相结合的方式进行梯度驯化,选育出一株产菊粉酶菌株YH-3,并运用响应面实验方法对该菌株的培养基进行优化。确定了最佳培养基组成:菊芋粉25.2 g/L、豆饼粉40 g/L、蔗糖酯4.9 g/L、NaCl 5.5 g/L。发现内切菊粉酶活力(I)由60.9 U/mL提高到165.0 U/mL,比出发菌株提高了1.7倍。研究证明蔗糖酯对于黑曲霉YH-3发酵产菊粉酶是一种有效的促进剂。     

核黄素工业菌株高通量筛选方法的建立和应用

枯草芽孢杆菌是主要的核黄素工业生产菌之一,高通量筛选技术是选育获得高产核黄素菌株的关键环节。为实现工业菌种选育与高通量筛选技术相结合,对流式细胞分选、液滴微流控分选和96孔板筛选在核黄素工业菌株筛选中的应用进行了研究,并对96孔板筛选方法进行了优化。在流式细胞分析中,来源于同一株工业菌的低产菌株P1与高产菌株R1的细胞荧光与核黄素产量不成正相关。在液滴微流控分析中,P1和R1的发酵液上清荧光与核黄素产量成正相关,然而液滴分选后活细胞的数量很少。在96孔板筛选实验中,振荡培养后P1和R1的发酵液荧光分别为22 264 a.u.、28 647 a.u.;静置培养后荧光分别为7 095 a.u.、10 189 a.u.,核黄素产量与荧光成正相关,且二者荧光差异显著。利用96孔板静置培养的方法对工业菌株S1的突变体库进行筛选,得到的优选菌株核黄素产量为2.53 g/L,相比S1提高了15%。这些结果表明96孔板静置培养-荧光检测筛选可以应用于核黄素工业生产菌产量的提高。     

高产Y-氨基丁酸酵母菌株的亚硝基胍诱变选育

目的：探讨亚硝基胍诱变选育高产Y-氨基丁酸酵母菌株的方法。方法：使用亚硝基胍对酵母菌株进行诱变;采用含溴甲酚绿的YEPD培养基筛选突变菌,采用薄层层析法和比色法鉴定变异菌株发酵液中的Y-氨基丁酸及其含量;对突变菌株连续继代培养4代,测定各代发酵液中Y-氨基丁酸的含量,鉴定诱变菌株的遗传稳定性：结果：亚硝基胍诱变酵母的最佳浓度为1．0g．L^-1,最佳诱变时间为15min;获得了5株突变菌株,菌落呈绿色;薄层层析法鉴定突变菌株都能产Y-氨基丁酸;诱变菌发酵液中的Y-氨基丁酸含量各异,但高于对照,且增长幅度很大;对突变菌株后代遗传稳定性进行了鉴定,结果表明突变菌株4遗传性较稳定。结论：采用1．0g．L^-1的亚硝基胍溶液处理酵母菌15min,经筛选鉴定,获得了一株遗传稳定的高产Y-氨基丁酸的酵母菌株。     

Preliminary report on the biological effects of space flight on the producing strain of a new immunosuppressant, Kanglemycin C

Kanglemycin C (K-C) is a new immunosuppressant isolated from the culture broth of Nocardia mediterranei var. kanglensis 1747-64. To improve the productivity of K-C and to study the biological effects of space flight on its producing strain, spores from five K-C producing strains (U-10, U-15, U-7, M-13, γ-33) mutated from the wild strain N. mediterranei var. kanglensis 1747-64 were carried into space by an unmanned spaceship, “Shenzhou III” (Divine Vessel III) on March 25, 2002. Comparatively, the strain U-7 was the highest K-C producing strain among the above five starting strains when cultivated in 500-ml Erlenmeyer flasks. After a 6 day and 18 h flight, the treated spores went through serial screening processes to screen for high-yield K-C mutant strains, using thin layer chromatography and high performance liquid chromatography (HPLC). The K-C yield produced by one mutant strain, designated as F-16, derived from the starting strain U-7 was increased by up to 200% when compared to that produced by the starting strain U-7 in 500-ml Erlenmeyer flasks after careful postflight HPLC analysis. Another mutant strain, designated as F-210, derived from the starting strain M-13 showed reduced productivity of K-C as well as exhibited changes in some morphological and physiological characteristics. For example, the broth color of the strain F-210 changed from yellow to purple after 96 h of culture, but that of the ground control strain M-13 remained yellow. Similarly, the mycelium morphological change from filamentous to coccoid of F-210 occurred later than that of ground control M-13. Examination of the survivability of postflight spores indicated that exposure to radiation, during the 162 h of space flight, plays a critical role in the survival rates of spores such that spores exposed to strong radiation exhibited lower survival rates than spores exposed to weak radiation.Jianqin Zhou and Chenghang Sun have contributed equally to this work.