白腐菌在两种固体基质上的漆酶产量及同工酶活性比较研究

一株新分离的白腐菌Z1可在两种农业废弃物(麸皮和稻草秸杆)基质上生长并分泌漆酶,其中在麸皮基质上的漆酶产量比在稻草秸杆基质上的漆酶产量高出10倍左右,同时活性电泳显示Z1菌在麸皮基质上可产生3条漆酶同工酶,比在稻草秸杆基质上多1条,其活性也比在稻草秸杆基质中的漆酶活性高。     

Application of Diffusive Gradient in Thin Film to Estimate Available Copper in Soil Solution

In Chile, there are several agricultural areas with soils containing high levels of copper of both anthropic and geochemical origin. The diffusive gradient in thin film (DGT) technique is a promising tool for the evaluation of the bioavailability of metals in situ in different environmental systems. The objective of this study was the preparation, validation, and application of DGT to soil solutions and soil containing copper over 1000 mg kg^?1.

The results show that a resin gel thickness of 0.3 mm gives the best reproducibility and response in the absorption of copper by DGT. The amount of copper extracted in a period of 4 h by the devices from the soil solution corresponds to 13% of the total metal present in the solution.

The DGT allowed a more representative estimation of the amount of Cu available in the soil, more in agreement with the absence of symptoms of phytotoxicity in cultivated species. This shows that the determination of available Cu by DTPA must be handled cautiously because in soils with high Cu content the amount of metal that can have direct influence on absorption by the plant is overestimated.     

百里杜鹃保护区马缨杜鹃土壤真菌群落特征

近年来,贵州百里杜鹃保护区戛木管理区发现有部分马缨杜鹃感染根腐病,造成其大量死亡,致病机制尚不明确。为了研究马缨杜鹃根腐病发病区土壤真菌群落结构组成,探讨真菌微生物种类组成变化与根腐病发病的关联,以感病马缨杜鹃根部土壤和未感病马缨杜鹃根部土壤的土壤为对象,利用高通量测序技术进行测序,发现2份感病杜鹃根部土壤中分别有846和911个操作分类单元(operating taxonomic unit, OTUs),而未感病杜鹃根部土壤仅有439个OTUs。通过分析土壤真菌物种丰度和分类、α-多样性、β-多样性、主成分(principal component analysis, PCA)分析和聚类分析。结果表明:感病马缨杜鹃和未感病马缨杜鹃根部土壤真菌多样性和群落结构存在较大差异,未感病杜鹃根部土壤的真菌微生物种类明显少于感病杜鹃根部土壤。     

Enhanced Immobilization of Cr(VI) in Soils by the Amendment of Rice Straw Char

This study investigated the effect of rice straw char (RSC) on the immobilization of Cr(VI) in soils. The Cr(VI) sorption experiments on the RSC and RSC-amended soils were conducted using the batch method. RSC exhibited Cr(VI) reduction capacity due to its black carbon content. The addition of RSC to the soils enhanced the overall Cr(VI) immobilization of the soils, which is primarily attributed to the Cr(VI) reduction capacity of RSC. The effects of RSC amendment on the Cr(VI) sorption of the soils increased with increasing RSC content in the soils and decreased with increasing pH or anion contents in the soil solutions. After Cr(VI) was sorbed by the soils, a portion of the Cr(VI) was converted to Cr(III) and the remainder was sorbed onto the soils. The presence of RSC in the soils decreased the portion of sorbed Cr(VI) in the soils and therefore lowered the potential remobilization of Cr(VI) from the soils. The results suggested that RSC amendment can be applied to develop a cost-effective method for immobilizing Cr(VI) in polluted soils, thus lowering the environmental risk from Cr(VI) toxicity.     

受稻瘟病原真菌侵染的水稻早期表达基因的cDNA克隆

以亲和性与非亲和性两个稻瘟病原真菌小种（Ｍａｇｎａｐｏｒｔｈｅ ｇｒｉｓｅａ（Ｈｅｂｅｒｔ）Ｂａｒｒ）感染同一水稻品种（Ｏｒｙｚａｓａｔｉｖａ Ｌ．ｃｖ．Ｓｈｅｎｘｉａｎｇｇｅｎｇ Ｎｏ．４）的植株产生明显不同的致病和抗病反应,由此建立了有效的感染系统。应用差异显示技术获得两个在侵染早期具有诱导表达特征的ｃＤＮＡ克隆,其中一个同时在致病和抗病反应中进行早期诱导表达,但在抗病反应中的诱导相对早于其在     

Molecular Cloning of Early-expressed cDNAs from Rice in Response to Infection by Rice Blast Fungus Magnaporthe grisea

Compatible and incompatible reactions in rice plants (Oryza sativa L. cv. Shenxianggen No.4) were resulted from inoculation with two different virulent races of rice blast fungus (Magnaporthe grisea (Hebert) Barr), and thus an effective infecting system was established between rice plants and the rice blast pathogen. Two cDNA clones that showed induced and temporal patterns in expression in the very early stage in response to infection of the fungus were obtained from the plants by use of differential display. Of the two cDNA clones, Fastresp-a was induced to express in both compatible and incompatible interactions although it was expressed earlier in the former reaction. The second one, Fastresp-b, was only expressed in incompatible interaction. Southern blot analysis of the rice genomic DNA indicated that both of the two clones were from genome of the plant. No significant homology to the two genes was found from the rice gene database. This suggested that they were novel genes in rice and may play important roles in rice resistant response to infection of rice blast fungus.     

银杏内生真菌No.1028的培养条件及其代谢产物对作物真菌病害的抑制作用

通过大量筛选从银杏茎中分离到一株内生真菌(编号为No.1028),其代谢产物对重要作物真菌病害病原菌具有明显的抑制作用。结果表明:离体条件下内生真菌发酵液对番茄早疫病菌、黄瓜枯萎病菌、菜豆炭疽病菌、葡萄炭疽病菌、水稻纹枯病菌、黄瓜立枯病菌均有较强的抑制作用,对上述不同病原菌的抑制率分别为:66.7%、48.3%、64.6%、36.5%、57.1%和23%。同时也研究了不同碳源、氮源、无机离子对内生真菌No.1028生物学特性和生长的影响。结果发现玉米粉、黄豆饼粉比较适合其生长和抑菌代谢产物的合成,Na+对抑菌代谢产物的合成有较明显的促进作用。     

Isolation and Characterization of Anti-Inflammatory Sorbicillinoids from the Mangrove-Derived Fungus Penicillium sp. DM815

Marine derived fungus has gained increasing ground in the discovery of novel lead compounds with potent biological activities including anti-inflammation. Here, we first report the characterization of one new sorbicillinoid ( 1 ) and fourteen known compounds ( 2 – 15 ) from the ethyl acetate (AcOEt) extract of a cultured mangrove derived fungus Penicillium sp. DM815 by UV, IR, HR ESI-Q-TOF MS, and NMR spectra. We then evaluated the anti-inflammatory effects of eleven sorbicillinoids ( 1 – 11 ) using cultured macrophage RAW264.7 cells. The results show that compound 9 , and to a lesser degree compound 5 , significantly inhibited the Gram-negative bacteria lipopolysaccharide (LPS)-induced upregulation of the inducible nitric oxide synthase (iNOS). Consistently, compounds 5 and 9 significantly reduced the level of nitric oxide (NO), the product of iNOS, induced by LPS. We further show that these two compounds dose-dependently inhibited LPS-triggered iNOS expression and NO production, but had no effect on proliferation of RAW264.7 cells in the presence of LPS. In conclusion, our study identifies novel and known sorbicillinoids as potent anti-inflammatory agents, holding the promise of developing novel anti-inflammation treatment in the future.     

猪苓菌丝形成菌核伴生菌的发现及应用

在野生猪苓(Grifola umbellata (Pers.) Pilát)菌核生长穴中首次分离到猪苓菌丝形成菌核所必需的伴生菌(Grifola sp.).实验证明:纯培养的猪苓菌丝不能形成菌核,但其与伴生菌共培养,无论在实验室培养基上或用树棒栽培,猪苓菌核形成很快且发育正常;伴生菌是猪苓菌丝形成菌核的关键生物因子.另外,伴生菌菌丝和猪苓菌菌丝二者形态差别较大,前者多为细长的薄壁菌丝,后者多为细胞直径较大的薄壁和厚壁菌丝.     

猪苓菌丝形成菌核伴生菌的发现及应用

在野生猪苓 (Grifolaumbellata (Pers .)Pil偄ｔ)菌核生长穴中首次分离到猪苓菌丝形成菌核所必需的伴生菌(Grifolasp .)。实验证明 :纯培养的猪苓菌丝不能形成菌核 ,但其与伴生菌共培养 ,无论在实验室培养基上或用树棒栽培 ,猪苓菌核形成很快且发育正常 ;伴生菌是猪苓菌丝形成菌核的关键生物因子。另外 ,伴生菌菌丝和猪苓菌菌丝二者形态差别较大 ,前者多为细长的薄壁菌丝 ,后者多为细胞直径较大的薄壁和厚壁菌丝。     

Effects of Cadmium and Mixed Heavy Metals on Rice Growth in Liaoning,China

Joint effects of Cd and other heavy metals (Pb, Cu, Zn and As) on the growth and development of rice plants and the uptake of these heavy metals by rice were studied using the pot-culture method combined with chemical and statistical analyses. The results showed that the growth and development of rice plants were strongly influenced by the double-element combined pollution. There was an average decrease in the height of rice plants of 4.0–5.0 cm, and grain yield was decreased by 20.0–30.0%, compared with the control. The uptake of Cd by rice plants was promoted due to the interactions between Cd and the other heavy metals added to the soil. The Cd concentration in roots, stems/leaves and seeds increased 31.6–47.7, 16.7–61.5 and 19.6–78.6%, respectively. Due to interactions, uptake of Pb, Cu and Zn by roots and stems/leaves was inhibited, accumulation of Pb, Cu and Zn in seeds was increased, uptake of As by roots was promoted and uptake of As by stems/leaves was inhibited. In particular, the upward transporting ability of the heavy metals absorbed by rice plants was significantly increased.     

一株产漆酶土壤真菌F-5的分离及土壤修复潜力

漆酶因可氧化许多种有机污染物,在土壤污染修复方面的应用潜力受到广泛重视。筛选具有较高漆酶活性的土壤真菌,可以为污染土壤修复提供生物资源。通过培养基中愈创木酚颜色反应,从土壤中筛选获得1株真菌菌株F-5。18S rRNA基因序列显示该菌株属于巨座壳科(Family Magnaporthaceae)。单因素试验和正交试验结果显示,蔗糖和蛋白胨分别是最有利于该菌产漆酶的碳源和氮源。在适当培养条件下,真菌F-5培养液酶活性可达4033U/L,表现出该菌具有较强的产漆酶能力。在多环芳烃(PAHs)污染土壤的生物修复中,真菌F-5可使土壤中苯并(a)芘、二苯并(a,h)蒽等高环、高毒性多环芳烃降解,并使土壤多环芳烃毒性当量大幅降低。因此,真菌F-5适合修复PAHs污染土壤。     

Meloidogyne hapla in Organic Soil: Effects of Environment on Hatch,Movement and Root Invasion

Using new techniques, hatch and movement of Meloidogyne hapla and nematode invasion o f lettuce roots growing in organic soil were studied under controlled soil conditions of temperature, moisture, O₂ and CO₂. When O₂ levels of 2.7, 5, 10, 21 and 40% with CO₂ maintained at 0.03% were used, O₂ below 21% or at 40% reduced nematode activities compared with those at 21%. When CO₂ levels of 0.03, 0.33, 2.8, 10 and 30% with O₂ maintained at 21% were used, all levels above 0.03% CO₂ resulted in less activity than at 0.03% except for more invasion at 0.33% than at 0.03%. Results suggested M. hapla was tolerant of CO₂ below 10% but adversely affected by 30% CO₂. Effect of O₂ was influenced by the level of CO₂ present. No larvae invaded roots at 3.2% O₂ and 18.6% CO₂ but hatch and movement occurred. Night and day temperatures of 21.1 and 26.7 C were more favorable for movement and invasion than 15.5 and 21.1 C, 26.7 and 32.2 C or 26.7 and 32.2 C. Optimum moisture for movement was 80 cm suction and for invasion was 100 cm.     

Siderophores,NTA, and Citrate: Potential Soil Amendments to Enhance Heavy Metal Mobility in Phytoremediation

Phytoremediation of heavy metal-contaminated sites is often limited by the low bioavailability of the contaminants. Complexing agents can help to improve this technique by enhancing heavy metal solubility. We investigated the effect of three organic chelating agents, that is, the siderophore desferrioxamine B (DFOB), nitrilotriacetate (NTA), and citrate on binding of Cu, Zn, and Cd by either Namontmorillonite, kaolinite, or goethite. The different effects of the complexing agents on metal sorption can mainly be explained by the differences in stability constants and surface charge characteristics. In the presence of clay minerals, NTA was the most efficient ligand with respect to mobilization of heavy metals. In goethite suspensions, the effect of DFOB was more pronounced. In all systems, Cu proved to be the most affected element by the presence of the ligands. In batch experiments with heavy metal-contaminated soils from field sites, NTA was the most efficient metal mobilizer.     

秸秆生物反应堆对西瓜连作土壤微生物数量和土壤酶活性的影响

于西瓜大棚内分别对连作2、4、8年的土壤铺设玉米秸秆生物反应堆,同时设立各自相应的对照,定期测定各处理土壤养分含量、pH值、土壤微生物数量和土壤酶活性等,以评价秸秆生物反应堆修复连作土壤、改善土壤健康状况的效应。结果表明,使用秸秆生物反应堆1年或2年之后,连作土壤有机质含量、土壤微生物数量、土壤多酚氧化酶、蔗糖酶活性等显著提高。连作8年的土壤连续2年使用秸秆生物反应堆后,土壤有机质含量达到了2.41%;土壤细菌数量为1.65×108CFU/g、放线菌为3.12×106CFU/g、真菌为0.5×105CFU/g,土壤中丛枝菌根(AM)真菌孢子密度达到57个/50mL,分别是对照的2.2、5、1.44、1.36和3.2倍;多酚氧化酶和蔗糖酶活性则分别是对照的1.25和2.13倍。表明秸秆生物反应堆处理对修复连作土壤、改善土壤健康具有一定作用。     

Effects of a Combined Amendment on Pb,Cd, and As Availability and Accumulation in Rice Planted in Contaminated Paddy Soil

The objectives of the present study were to investigate the mitigation of lead (Pb), cadmium (Cd), and arsenic (As) in a multi-metal contaminated soil and their accumulation in rice plants (Oryza sativa L., cv II You 93) using a combined amendment (CMF, calcium carbonate + metakaolin + fused calcium–magnesium phosphate fertilizer). The results showed that application of CMF was effective in reducing the acid-extractable concentrations of soil Pb and Cd. The exchangeable concentrations of soil As showed an initial decrease followed by a gradual increase. The application of 0.2% CMF notably reduced the concentrations of Pb, Cd, and As in brown rice by 46.5%, 43.6%, and 32.0%, respectively. The concentration of As in brown rice was 0.179 mg kg^?1 at 0.2% CMF, which met the maximum levels of contaminants in foods of China (MLs) (the ML of Pb, Cd, and As is 0.2 mg kg^?1 according to the China national standard GB 2762-2012). At 1.6% CMF, the concentrations of Pb and Cd in brown rice were 0.002 and 0.185 mg kg^?1, respectively, i.e., reductions of 99.6% and 74.1%, and these values also fell within the MLs.     

On the Mechanisms of the Excretion and Uptake of the Alkaloid Aurantioclavine during the Growth of the Fungus Penicillium nalgiovense VKM F-229

The biphasic dynamics of the alkaloid aurantioclavine in the culture liquid of P. nalgiovense VKM F-229 is shown to be due to the diauxic growth of the fungus on two carbon sources, succinate and mannitol. In the phase of active growth on succinate, the fungus synthesizes aurantioclavine and excretes it into the medium in an energy-independent manner, as a result of which the concentration of the alkaloid in the culture liquid rises. During the phase of metabolic adaptation to the other carbon source, mannitol, the concentration of aurantioclavine in the culture liquid falls, probably due to the energy-dependent uptake of the alkaloid by fungal cells. The reversible excretion of aurantioclavine in P. nalgiovense indicates that this process is regulatory and depends on the growth parameters and the physiological state of the fungus.     

Instances of Soil and Crop Heavy Metal Contamination in China

Both general and specific investigations of soil and crop heavy metal contamination were carried out across China. The former was focused mainly on Cd, Hg, As, Pb, and Cr in soils and vegetables in suburbs of four large cities; the latter investigated Cd levels in both soils and rice or wheat in contaminated areas throughout 15 provinces of the country. The results indicated that levels of Cd, Hg, and Pb in soils and some in crops were greater than the Governmental Standards (Chinese government limits for soil and crop heavy metal contents). Soil Cd ranged from 0.46 to 1.04?mg kg^?1, on average, in the four cities and was as high as 145?mg kg^?1 in soil and 7?mg kg^?1 in rice in the wide area of the country. Among different species, tuberous vegetables seemed to accumulate a larger portion of heavy metals than leafy and fruit vegetables, except celery. For both rice and wheat, two staple food crops, the latter seemed to have much higher concentrations of Cd and Pb than the former grown in the same area. Furthermore, the endosperm of both wheat and rice crops had the highest portion of Cd and Cr. Rice endosperm and wheat chaff accumulated the highest Pb, although the concentrations of all three metals were variable in different parts of the grains. For example, 8.3, 6.9, 1.4, and 0.6?mg kg^?1 of Pb were found in chaff, cortex, embryo, and endosperm of wheat compared with 0.11, 0.65, 0.71, and 0.19?mg kg^?1 in the same parts of rice, respectively. Untreated sewage water irrigation was the major cause of increasing soil and crop metals. Short periods of the sewage water irrigation increased individual metals in soils by 2 to 80% and increased metals in crops by 14 to 209%. Atmospheric deposition, industrial or municipal wastes, sewage sludge improperly used as fertilizers, and metal-containing phosphate fertilizers played an important role as well in some specific areas.     

过量铜、锌对外生菌根菌牛乳牛肝菌生物量、呼吸和糖酵解酶活性的影响

在过量铜或锌胁迫下,独立培养的外生菌根菌牛乳牛肝菌（Suillus     

类芦根际溶磷真菌的筛选、鉴定及其溶磷能力分析

为揭示类芦(Neyraudia reynaudiana)等水土保持植物的耐低磷机制,开发溶磷菌种质资源,提高赤红壤磷素利用率,从类芦根际土壤中筛选到一株溶磷能力较强的真菌FP1,经形态学和ITS序列分析,鉴定为黑曲霉(Aspergillus niger)。3种难溶性磷酸盐液体培养基接种菌株FP1后,其pH值和溶磷量的动态变化显示,培养液的pH值均呈显著下降趋势。溶磷量与培养时间有关,除磷酸三钙外,菌株FP1对其他难溶性磷酸盐的溶磷趋势均为先上升再下降并趋于稳定。菌株FP1对不同磷源的最大溶磷率顺序为:磷酸铝(92.02%)磷酸三钙(41.62%)3种磷酸盐的混合物(35.86%)磷酸铁(19.20%)。FP1对磷酸铝和磷酸铁都具有较强的溶磷能力,表明抗逆性强的水土保持植物类芦根际土壤蕴藏着高效的溶磷微生物资源。