Xyloglucanases in the interaction between saprobe fungi and the arbuscular mycorrhizal fungus Glomus mosseae

We studied the production of xyloglucanase enzymes of pea and lettuce roots in the presence of saprobe and arbuscular mycorrhizal (AM) fungi. The AM fungus Glomus mosseae and the saprobe fungi Fusarium graminearum, Fusarium oxysporum-126, Trichoderma harzianum, Penicillium chrysogenum, Pleurotus ostreatus and Aspergillus niger were used. G. mosseae increased the shoot and root dry weight of pea but not of lettuce. Most of the saprobe fungi increased the level of mycorrhization of pea and lettuce, but only P. chrysogenum and T. harzianum inoculated together with G. mosseae increased the dry weight of pea and lettuce respectively. The AM and saprobe fungi increased the production of xyloglucanases by plant roots. The level of xyloglucanase activities and the number of xyloglucanolytic isozymes in plants inoculated with G. mosseae and most of the saprobe fungi tested were higher than when both microorganisms were inoculated separately. The possible relationship between xylogucanase activities and the ability of AM and saprobe fungi to improve the dry weight and AM root colonization of plants was discussed.     

丛枝菌根真菌对番茄信号物质的诱导效应

盆栽番茄Lycopersicon esculentum幼苗分别接种丛枝菌根(AM)真菌摩西球囊霉Glomus mosseae、地表球囊霉G.versiforme、根内球囊霉G.intraradices、幼套球囊霉G.etunicatum及珠状巨孢囊霉Gigaspora margarita 35d后,开始测定番茄植株内源信号物质水杨酸(SA)、茉莉酸(JA)、一氧化氮(NO)和过氧化氢(H2O2)含量变化,抗性相关酶活性,丙二醛(MDA)含量以及生长量等指标。结果表明,接种AM真菌增加了番茄植株鲜重、株高、地上部和地下部干重、叶片和根系NO、JA、H2O2含量和结合态SA含量,其中,以摩西球囊霉G.mosseae诱导作用最大,叶片和根系内NO、JA、H2O2和结合态SA含量分别比对照增加了3.3和1.9倍、6.8和8.0倍、0.9和1.2倍、1.9和2.6倍,而根系中游离态SA含量一直处于较低水平,只有摩西球囊霉G.mosseae处理在诱导高峰时根系游离态SA含量比对照略有增加。接种AM真菌处理的番茄叶片和根系超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)、苯丙氨酸解氨酶(PAL)活性显著增加,其中以摩西球囊霉G.mosseae的诱导效应最大,与未接种对照相比分别增加了0.6和0.3倍、7.9和3.1倍、0.4和1.2倍、2.3和1.9倍;幼套球囊霉G.etunicatum的诱导效应最小:与未接种对照相比分别增加了0.26和0.14倍、2.3和1.0倍、0.1和0.28倍、0.55和0.31倍;而MDA含量下降,分别降低了66%和68%、34%和41%、51%和50%、12%和26%、18%和29%。表明AM真菌能诱导植物同时产生多种信号物质,而且这些信号参与了AM真菌-番茄共生体系统抗性的表达。     

丛枝菌根真菌对滨梅扦插苗生根、生长和抗病相关酶活性的影响

研究Glomus mosseae,G.diaphanum和G.etunicatum对滨梅插条生根、生长和抗病相关酶活性的影响.结果表明:G.mosseae侵染导致最高生根百分率(47.6%),最多次生细根(20.4条),最高的根干重(0.26 g),最高的地上部分干重(3.55 g),最高的幼苗高度(51.3 cm)及...     

AM真菌种间差异对枳壳生长及耐热性效应的研究※

用地表球囊霉、莫西球囊霉、珠状巨孢球囊霉及其混合菌剂接种无菌根枳壳幼苗进行盆栽试验,25℃培养4个月,观察对枳壳菌根形成和营养生长的影响,在40℃高温胁迫30d,调查分析菌根枳壳的耐热性。试验结果表明:接种AM真菌的根系形成了20%～80%的菌根侵染率;菌根枳壳的苗高、苗质量、节间长、茎基粗、须根数量和须根长度等营养生长显著增加;叶片中的SOD,POD活性和根系活力显著增强,可溶性蛋白、可溶性糖含量显著升高,叶片中的MDA含量降低,膜透性显著变小,枳壳苗的耐热性显著提高;但是,AM真菌在促进枳壳苗菌根化、营养生长和提高耐热性方面存在着种间差异,地表球囊霉、莫西球囊霉、珠状巨孢球囊霉、混合菌剂与枳壳根系形成丛枝菌根的侵染率依次为20.4%±1.2%、61.8%±3.4%、85.7%±2.7%、83.3%±2.2%,促进枳壳苗营养生长提高枳壳苗耐热能力的AM真菌依次为:地表球囊霉<莫西球囊霉<珠状巨孢球囊霉<混合菌剂,认为珠状巨孢球囊霉和莫西球囊霉是枳壳耐高温胁迫菌根化育苗的重要优良菌种。     

Arbuscular mycorrhizal fungi-parasite-host interaction for the control of<Emphasis Type="Italic"> Striga hermonthica</Emphasis> (Del.) Benth. in sorghum [<Emphasis Type="Italic">Sorghum bicolor</Emphasis> (L.) Moench]

Five Glomus species (G. intraradices, G. albidum, G. mosseae, G. fasciculatum, and G. etunicatum) were compared against a check [without arbuscular mycorrhizal (AM) fungi, plus Striga] and control (without AM fungi or Striga) treatments for the control of Striga in a tolerant sorghum variety (War-wara bashi) in an experiment carried out in 12-cm-diameter clay pots. The experiment was carried out in a controlled growth chamber. G. mosseae significantly reduced the number of Striga emerging per plant, increased plant growth, shoot and total dry matter yield of sorghum, did not affect the root dry matter compared with the other AM fungi species, but had a comparable effect to the control treatment. All the AM fungi except G. mosseae, and also the Striga-infested treatment, increased the root:shoot ratio compared to the control treatment. The percent reduction (62%) of Striga emergence after G. mosseae inoculation resulted in about a 30% increase in total dry matter yield of sorghum over the control, while the total loss in dry matter yield of sorghum due to Striga infestation was 36%. Root colonization of sorghum by AM fungi was highest for G. mosseae (44%) followed by G. intraradices (24%) and G. albidum (23%) then G. fasciculatum (18%), with the lowest recorded for G. etunicatum (14%). No colonization of Striga roots was observed. The potential of AM fungi to reduce or to compensate for Striga infestation could be important for soil management, especially in the tropics, and for the reduction of Striga-resistant varieties of sorghum which are mycorrhiza-responsive.     

AM真菌和胞囊线虫对大豆根内酶活性的影响*

将‘鲁豆4号’大豆接种丛枝菌根(AM)真菌聚生球囊霉Glomus fasiculatum和大豆胞囊线虫(SCN)Heterodera glycines 4号生理小种后, 定期测定大豆根系中AM真菌及线虫侵染速率、过氧化物酶(POD)、苯丙氨酸解氨酶(PAL)、β-1,3葡聚糖酶及几丁质酶活性的动态变化。结果表明, 接种AM真菌大豆根系中4种酶活性高于对照水平; 先接种AM真菌后接种SCN处理根系中POD、PAL及几丁质酶的活性高于只接种SCN的处理,并且酶活性峰值出现的时间均早于或相当于后者。另外,PAL及几丁质酶活性出现高峰时期也正是AM真菌侵染率迅速升高及线虫侵染速率快速下降期。因此,AM真菌先激活了大豆的防御反应,然后使其对SCN的侵染产生快速反应,PAL及几丁质酶在AM真菌诱导的抗、耐线虫病害机制中起重要作用。值得注意的是,先接种AM真菌后接种SCN处理大豆根系中,β-1,3葡聚糖酶活性低于只接种AM真菌的处理。作者认为本试验条件下,该酶在大豆抗SCN病害中的作用表现不明显。     

干旱胁迫下AM真菌对油蒿叶片保护系统的影响

基利用盆栽试验在正常水分和干旱胁迫条件下研究了灭菌土接种AM真菌摩西球囊霉(Glomus mosseae)和土著AM真菌对油(蒿Artemisia ordosica)生长及叶片保护系统的影响。结果表明,干旱胁迫显著抑制了土著AM真菌对油蒿的侵染,但对G.mosseae的侵染影响较小。正常水分和干旱胁迫条件下,接种AM真菌显著增加了油蒿生物量和干重以及根系含磷量;提高了叶绿素、可溶性糖、可溶性蛋白含量并降低了脯氨酸和丙二醛含量;显著增强了过氧化氢酶(CAT)和过氧化物酶(POD)活性,增强了油蒿对干旱的防御能力。     

黄檗根围丛枝菌根(AM)真菌的分离与分子鉴定

从东北林业大学林场采集黄檗Phellodendron amurense根系及根围土壤,采用形态学和分子生物学方法对分离得到的丛枝菌根(arbuscular mycorrhiza,AM)真菌孢子进行了分类鉴定。依据AM真菌孢子形态特征鉴定出黄檗根围土壤中存在4种AM真菌:根内球囊霉Glomus intraradices,摩西球囊霉Glomus mosseae,美丽盾孢囊霉Scutellospora calospora和变形球囊霉Glomus versiforme,而应用nested-PCR技术从黄檗根内只检测到了G.intraradices,G.mosseae和Scu.calospora,表明G.versiforme未侵染黄檗根系。     

Hydrolytic enzymes and ability of arbuscular mycorrhizal fungi to colonize roots

The production of hydrolytic enzymes from external mycelia associated with roots and colonized soybean roots (Glycine max L.) inoculated with different arbuscular-mycorrhizal (AM) fungi of the genus GLOMUS:, and the possible relationship between these activities and the capacity of the AM fungi to colonize plant roots was studied. There were differences in root colonization and plant growth between the GLOMUS: strains, and also between two isolates of G. mosseae. Hydrolytic activities in the root and external mycelia associated with roots differed in the AM fungi tested. Correlations were only found between the endoxyloglucanase activity of the external mycelia associated with roots of the AM fungi tested and the percentage root colonization or plant growth. However, hydrolytic activities of roots colonized by the different endophytes correlated with those of external mycelia. The hydrolytic activities were not qualitatively different because the endoxyloglucanase from AM colonized roots and the external mycelia did not show a high degree of polymorphism in the different species of fungus tested. The possible role of the hydrolytic activity of external hyphae of AM fungi was discussed as a factor affecting fungal ability to colonize the root and influence plant growth.     

Cu2+污染土壤接种AM真菌对紫云英生长的影响

通过5个土壤Cu2 水平(0,20,50,100,150mgkg-1)的盆栽试验,研究了不同土壤Cu2 水平接种AM真菌对紫云英生长的影响。结果表明:(1)随着土壤Cu2 水平升高,紫云英生物量下降,与未接种相比,接种AM真菌明显提高了紫云英的生物量,接种G.intraradices对紫云英生物量的提高比接种G.mosseae更为明显,两者间呈显著性差异。(2)随着土壤Cu2 水平升高,紫云英根段浸染率下降,菌丝琥珀酸脱氢酶、碱性磷酸酶活性也下降。(3)在相同土壤Cu2 水平接种不同的AM真菌,紫云英根段浸染率有显著差异,接种G.intraradices的紫云英根段浸染率显著高于接种G.mosseae的处理,其菌丝琥珀酸脱氢酶活性及碱性磷酸酶活性也显著高于接种G.mosseae的处理。(4)接种G.intraradices能显著抑制Cu2 从紫云英地下部分向地上部分的运转,降低Cu2 的毒害,接种G.mosseae相对促进了Cu2 的运转。以上结果显示,Cu2 污染土壤中接种G.intraradices对紫云英生长具有促进作用。     

AM真菌在煤矿废弃物中生态适应性的初步研究

以粉煤灰、草炭、蛭石、河沙为培养基质,分别对4种不同AM真菌:Glomus mosseae,G.diaphanum,G.intraradices和G.versiforme的生态适应性进行研究。结果表明,菌根的侵染率、孢子密度和菌丝长度分别与菌根真菌种类、培养基质状况及寄主植物种类有关。4种基质的扩繁效果顺序为:河沙>粉煤灰>草炭>蛭石。G.mosseae和G.diaphanum在基质中的产孢量和菌丝长度优于G.intraradices和G.versiforme,可作为优势菌株。4种菌根真菌在粉煤灰中对寄主的侵染率均达到60%以上,粉煤灰作为菌根真菌培养基质具有更大潜力和实际应用价值。     

不同pH水平下两种菌根真菌对紫云英生长的影响及其相互作用

设计在不同pH水平（4.3、5.1、5.8、6.8）下两种VA菌根真菌Glomus mosseae和Gigaspora margarita对紫云英Astragalus sinicus进行单接种、混合接种及无接种对照的盆栽实验。对紫云英地上和地下部分生物量、根部侵染率、SDH和ALP酶活进行了检测。实验结果表明：紫云英的生长效应与VA菌根真菌的侵染率及两种酶活成明显相关性。土壤pH升高,单接种Glomus mosseae和混合接种的侵染率也随之升高,而单接种Gigaspora margarita的侵染率呈现     

Chib1和PAL5基因在AM真菌Glomus fasciculatus诱导大豆抗线虫病害防御反应中的作用

本研究系统分析了大豆（品种：‘鲁豆4’）接种AM真菌Glomus fasciculatum和胞囊线虫（SCN,Heterodera glycines）4号生理小种后各处理菌根和线虫侵染率、几丁质酶和苯丙氨酸解氨酶（PAL）活性及几丁质酶基因Chib1和苯丙氨酸解氨酶基因PAL5转录物的动态变化。结果表明,接种SCN对AM真菌的侵染率没有产生显著影响,但先接种AM真菌后接种SCN的大豆根内线虫侵染率明显低于只接种SCN的处理。另外,先接种AM真菌后接种SCN的大豆根内几丁质酶和PAL活性显著提高,活性高峰出现在接种线虫后的第3天。值得注意的是,先接种AM真菌后接种SCN的大豆根内两种基因Chib1和PAL5转录物高峰也出现在接种SCN后的第3天,即AM真菌侵染率快速上升而SCN侵染率快速下降时期。所以Chib1和PAL5基因的表达可能是AM真菌诱导的抗大豆胞囊线虫病害防御反应的一种表现。因此推测Chib1和PAL5直接参与了AM真菌诱导大豆抗胞囊线虫病害的防御反应。     

不同pH水平下两种菌根真菌对紫云英生长的影响及其相互作用

设计在不同pH水平(4.3、5.1、5.8、6.8)下两种VA菌根真菌Glomus mosseae和Gigaspora margarita对紫云英Astragalus sinicus进行单接种、混合接种及无接种对照的盆栽实验.对紫云英地上和地下部分生物量、根部侵染率、SDH和ALP酶活进行了检测.实验结果表明:紫云英的生长效应与VA菌根真菌的侵染率及两种酶活成明显相关性.土壤pH升高,单接种Glomus mosseae和混合接种的侵染率也随之升高,而单接种Gigaspora margarita的侵染率呈现出先上升后下降的趋势.本实验设计了特异性扩增Glomus mosseae和Gigaspora margarita的引物gml和gigl,在混合接种实验中,nested PCR扩增结果显示:在低pH水平下(4.3-5.1)大多数根段为Gigaspora margarita所侵染,在高pH水平下(5.8-6.8)Glomusmosseae表现出较强的竞争力,但并没有检测到两种VA真菌存在于同一条侵染根段;对比单接种实验,在低pH水平下,Glomus mosseae显著抑制了Gigaspora margarita的侵染,而在高pH水平下Gigasporamargarita明显促进Glomus mosseae的侵染.     

丛枝菌根真菌对牡丹生长及相关生理指标的影响

以采自山东省菏泽牡丹园的牡丹'凤丹'种子为试材,采用盆栽的方法研究了接种丛枝菌根(Arbuscular mycorrhizal,AM)真菌Glomus mosseae、Glomus versiforme和Glomus intraradices对牡丹幼苗生长及生理生化特性的影响.结果表明:(1)不同AM真菌的侵染率不同,并以G.mosseae的侵染率最高,为48.3%;(2)AM真菌能够促进牡丹幼苗生长,接种G.mosseae的植株干重比对照显著提高了69.5%;(3)AM真菌能够提高牡丹的叶绿素、可溶性糖、可溶性蛋白、矿质元素(N、P、K)含量和硝酸还原酶活性,并对可溶性蛋白含量和硝酸还原酶活性的影响达显著水平.(4)植株总干重与菌根侵染率、硝酸还原酶活性、叶绿素含量呈极显著正相关,与可溶性糖、可溶性蛋白含量呈显著正相关.研究发现,G.mosseae是最适宜牡丹接种的优良菌种.     

Influence of liming,inoculum level and inoculum placement on root colonization of subterranean clover

Arbuscular mycorrhizal (AM) fungi differ in their response to soil pH. Thus, change in soil pH may influence the relative abundance of mycorrhizal fungi inside roots. Root colonization by two AM fungi was studied in relation to addition of lime (CaCO3), quantity of inoculum and inoculum placement. Addition of CaCO3 to an acid soil decreased the colonization of roots by Acaulospora laevis but increased colonization by Glomus invermaium when both fungi were present. In acid soil (pH 4.7), almost all roots were colonized by A. laevis, while G. invermaium was dominant when soil pH was increased to pH 7.3. This occurred regardless of whether the inoculum was banded or mixed throughout the soil. There was no effect of CaCO3 on the relative abundance of fungi inside roots at intermediate rates of CaCO3 application (pH 5.3-6.3) when both fungi were inoculated together. In this experiment, both fungi colonized roots at all levels of CaCO3 when inoculated alone, except for A. laevis at the highest level of CaCO3. We conclude that soil pH affects the competitive ability of these two AM fungi during mycorrhiza formation primarily by affecting hyphae growth in soil and thus the relative abundance of hyphae at the root surface and subsequently inside the root.     

Regulation of arbuscular mycorrhizal development by plant host and fungus species in alfalfa

Two cvs of alfalfa ( Medicago sativa L.), Gilboa and Moapa 69, were inoculated in glasshouse pots with three arbuscular mycorrhizal (AM) fungi to investigate the efficacy of mycorrhizas with respect to the extent of colonization and sporulation. Paspalum notatum Flugge also was inoculated to describe fungal parameters on a routine pot culture host. Percentage root length of P. notatum colonized by Glomus mosseae (Nicol. & Gerd.) Gerdemann & Trappe, Glomus intraradices Schenck & Smith, and Gigaspora margarita Becker & Hall increased from 10 to 21 wk, and all fungi sporulated during that period. In alfalfa, only colonization by G. intraradices increased over that time period, and it was the only fungus to sporulate in association with alfalfa at 10 wk. Glomus mosseae did not sporulate after 16–21 wk despite having colonized 30–35% of the root length of both alfalfa cvs. In vitro experiments in which Ri T-DNA-transformed roots of alfalfa were inoculated with AM fungi showed normal mycorrhizal formation by G. intraradices and a hypersensitivity-like response to Gi. margarita . Colonized cells became necrotic, and HPLC analysis indicated increased concentrations of phenolics and isoflavonoids in these root segments. These data strongly support the existence of a degree of specificity between AM fungi and host that might rely on specific biochemical regulatory processes initiated in the host as a result of the attempts at colonization by the fungus.     

Effects of preplant inoculation of apple (Malus domestica Borkh.) with arbuscular mycorrhizal fungi on population growth of the root-lesion nematode,Pratylenchus penetrans

Six species of arbuscular mycorrhizal (AM) fungi (Glomus aggregatum, G. clarum, G. etunicatum, G. intraradices, G. mosseae and G. versiforme) were evaluated, in three greenhouse experiments, for their effects on reproduction of the root-lesion nematode, Pratylenchus penetrans, and growth of Ottawa 3 apple rootstock. Glomus mosseae increased total dry weights of nematode-inoculated and non-inoculated rootstock in all three greenhouse experiments, and G. intraradices increased dry weights in two of three greenhouse experiments. Plants inoculated with G. mosseae generally supported fewer P. penetrans per gram of root than plants inoculated with other AM fungi, but did not differ significantly from the controls in any greenhouse experiment. Colonization of roots by AM fungi was reduced by P. penetrans at initial inoculum densities greater than 250 nematodes/L soil. In field trials, preplant inoculation with either G. intraradices or G. mosseae increased rootstock growth and leaf concentrations of P, Mg, Zn and Cu in fumigated plots but not in non-fumigated plots, indicating that colonization by native AM fungi in non-fumigated plots may have been sufficient for adequate nutrient acquisition. The abundance of vesicles and arbuscules was greater in roots of plants inoculated with AM fungi before planting than in roots of non-inoculated plants, in both fumigated and non-fumigated plots. P. penetrans per gram of root and per 50 ml soil were significantly lower for G. mosseae- inoculated plants than for non-inoculated plants in fumigated soil but not in non-fumigated soil.     

丛枝菌根真菌对植物根尖分生区和根冠细胞的侵染*

一般说来,从枝菌根（ＡＭ）真菌大多数是从植物根系根毛区（成熟区）侵入和扩展的,在显微镜下往往看不到根尖分生区和根冠表皮细胞被ＡＭ真菌侵染的特征。这就很容易给人们造成一种假象,似乎ＡＭ真菌不能侵染根尖分生区和根冠表皮细胞,即它们对ＡＭ真菌是免疫的。然而笔者多次于显微镜下看到ＡＭ真菌侵染根尖分生区和根冠表皮细胞,并形成典型的泡囊、丛枝、菌丝等结构。这一现象导致作者在温室盆栽和大田条件下研究了玫瑰红巨孢囊霉（ Ｇｉｇａｓｐｏｒａ　ｒｏｓｅａ Ｎｉｃｏｌ　＆ Ｓｃｈｅｎｃｋ）、珠状巨孢囊霉（Ｇｉｇａｓｐｏｒａ　ｍａｒｇａｒｉｔａ　Ｂｅｃｋｅｒ　＆　Ｈａｌｌ）、根内球囊霉（Ｇｌｏｍｕｓ　ｏｍｔｒａｒａｄｉｃｅｓ　ｓｃｈｅｎｃｋ　＆　Ｓｍｉｔｈ、摩西球囊霉（Ｇｌｏｍｕｓ ｍｏｓｓｅａｅ （Ｎｉｃｏｌ　＆ Ｇｅｒｄ．） Ｇｅｒｄｅｍａｎｎ　＆ Ｔｒａｐｐｅ）、地表球囊霉（ Ｇｌｏｍｕｓ ｖｅｒｓｉｆｏｒｍｅ（ Ｋａｒｓｔｅｎ）Ｂｅｒｃｈ）和弯丝硬囊霉（ Ｓｃｌｅｒｏｃｙｓｔｉｓ　ｓｉｎｕｏｓａ　Ｇｅｒｄｅｍａｎｎ　＆ Ｂａｋｈｉ）对棉花（Ｇｏｓｓｙｐｉｕｍ　ｈｉｒｓｕｔｕｍ　Ｌ．）、烟草（Ｎｉｃｏｔｉａｎａ　 ｔａｂａｃｕｍ Ｌ．）和白