Root exudates of plants

Summary Comparisons have been made of the amount and composition of seed and seedling exudates in barley, wheat, cucumber, and bean. Except in the case of wheat a greater proportion of the total nitrogen content in the seed exudates was formed by protein and peptide nitrogen than by nitrogen of free amino acids. In contrast, the greater part of the total nitrogen in the exudates of seedlings was formed by free amino acid nitrogen, except in the case of barley. Peptides represented 8 to 26 per cent of the protein and peptide fraction in seed exudates, the highest amount being found in bean. On an equal weight basis, the spectrum of amino acids released from seeds and seedlings differed little between barley, wheat and cucumber; greater differences were observed in bean exudates. Seedlings exuded reducing substances to a considerably greater extent than seeds. The spectrum of reducing sugars in seed and root exudates differed greatly, especially in the case of keto sugars. Differences in the organic acid spectra were small, except for bean plants, the seedling exudate of which contained more organic acids with a richer spectrum than seed exudate. Both seeds and seedlings of cucumber exuded a small quantity and a poor spectrum of organic acids.     

转基因抗虫棉根系分泌物对棉花黄萎病菌生长的影响

转基因抗虫棉的抗病性下降已成为制约我国棉花生产的重要因素之一.以转基因抗虫棉及其亲本非转基因棉花对照为材料,研究转基因抗虫棉根系分泌物对棉花黄萎病菌孢子萌发和菌丝生长的影响,并对其根系分泌物中氨基酸及糖类的组成和含量进行了测定.结果表明：与亲本非转基因棉相比,2种转基因抗虫棉对棉花黄萎病菌的抗性下降,转基因抗虫棉的根系分泌物对黄萎病菌孢子萌发和菌丝生长均具有促进作用.与亲本常规棉中23相比,转基因双价抗虫棉中41根系分泌物中多了甲硫氨酸和赖氨酸,并且天冬氨酸、谷氨酸、丝氨酸、丙氨酸、缬氨酸、亮氨酸、酪氨酸的含量显著升高.泗棉三号与单价抗虫棉GK12的根系分泌物中虽然含有相同的氨基酸组分,但GK12的根系分泌物中酪氨酸、缬氨酸、亮氨酸的含量显著下降.中41根系分泌物中检测出4种糖类,而中23中仅检测出葡萄糖.抗虫棉GK12和泗棉三号根系分泌物中都检测出4种糖类,但其含量差异明显.     

The effect of root exudates from two transgenic insect-resistant cotton lines on the growth of Fusarium oxysporum

The attenuation of disease resistance in transgenic insect-resistant cotton has become one of the important factors restricting cotton production in China. Two transgenic insect-resistant cotton lines and their parental conventional cotton lines were used as the testing materials. The effects of root exudates of these cotton lines on the spore germination and mycelial growth of Fusarium oxysporum were studied and the components, contents of amino acids and sugars were determined. The results showed that the resistance of the two insect-resistant cotton lines to F. oxysporum was inferior to the parental lines, and that their root exudates promoted fungal spore germination and mycelial growth. Considerable differences in the components and contents of both, amino acids and sugars were found between the root exudates of transgenic cotton lines and their parental lines, where the disease indices were highly correlated with the total amount of sugars in the root exudates.     

不同品种小麦与蚕豆间作对蚕豆枯萎病的防治及其机理

通过田间小区试验和水培试验,研究了3个品种小麦（云麦42、云麦47和绵阳29）与蚕豆间作对蚕豆地上部生物量、枯萎病发生、根际微生物代谢功能多样性和枯萎病病原菌尖孢镰刀菌数量的影响,分析了3个不同小麦品种低分子量根系分泌物组分（糖、氨基酸和有机酸）的差异.结果表明： 云麦42与蚕豆间作（YM42/B）和云麦47与蚕豆间作（YM47/B）使蚕豆地上部生物量分别增加16.6%和13.4%,使蚕豆枯萎病病情指数分别降低47.6%和23.3%,绵阳29与蚕豆间作（MY29/B）对蚕豆地上部生物量和枯萎病病情指数均无显著影响.与单作蚕豆相比,YM42/B和YM47/B处理均显著提高了蚕豆根际微生物的平均颜色变化率（AWCD)及对碳源的总利用强度和Biolog ECO板中各种碳源的利用,明显改变了蚕豆根际微生物群落结构,并显著降低了蚕豆根际的尖孢镰刀菌数量;MY29/B处理对AWCD值、碳源总利用强度和Biolog ECO板中各种碳源的利用及蚕豆根际尖孢镰刀菌数量均无显著影响,也未明显改变蚕豆根际的微生物群落结构.3个小麦品种根系分泌物中可溶性糖、游离氨基酸总量和有机酸总量均表现为MY29＞YM47＞YM42.MY29根系分泌物中丝氨酸、谷氨酸、甘氨酸、缬氨酸、蛋氨酸、苯丙氨酸、赖氨酸的含量均显著高于YM42和YM47;精氨酸为YM42、YM47所特有,而亮氨酸为MY29所特有.MY29和YM47根系分泌物中检出酒石酸、苹果酸、柠檬酸、琥珀酸、延胡索酸和顺乌头酸6种有机酸,而YM42根系分泌物中检出洒石酸、苹果酸、柠檬酸和延胡索酸4种有机酸,且MY29和YM47根系分泌物中苹果酸含量显著高于YM42.小麦与蚕豆间作提高了蚕豆根际微生物的活性和碳源利用强度,改变了根际微生物的群落结构,降低了蚕豆根际尖孢镰刀菌的数量,促进了蚕豆生长,抑制了蚕豆枯萎病的发生,但小麦与蚕豆间作控病效果受小麦品种的影响,表明间作系统中非寄主作物根系分泌物的差异是影响间作对土传病害控制的重要因素.     

Identification of aliphatic and aromatic acids in root and seed exudates of peas,cotton, and barley

Summary We detected aromatic and aliphatic acids in root and seed exudates of aseptic cultures of pea, cotton and barley plants by thin-layer and gas-liquid chromatography. There were traces of p-hydroxybenzoic acid in the root and seed exudates of all three plant species. Acid hydrolysis of pea and barley seed exudates yielded p-hydroxybenzoic, and of cotton seed exudates yielded p-coumaric acid, as the predominant aromatic acid constituents of materials exuded by the germinating seeds. Lactic was the predominant aliphatic acid detected in pea and barley root exudates whereas malic acid was predominant in cotton exudates. With the exception of citric acid in peas, malic acid was the predominant acid found in pea, cotton and barley seed exudates. The germinating seed was responsible for a large portion of the total aliphatic and aromatic acid exudation of the seedling plant grown aseptically for 14 days. Trade names are used in this publication only to provide scientific information. Their use does not constitute a guarantee of the products named and does not signify that they are approved by the U.S. Department of Agriculture to the exclusion of others of suitable composition.     

Free amino acids in the seed and root exudates in relation to the nitrogen requirements of rhizosphere soil Fusaria

Summary The amounts of amino acids in seed exudates were generally higher than in root exudates of the same plant. The spectra and relative abundance of amino acids in both plants were similar but they were generally more abundant in cowpea exudates than in sorghum. Glutamic acid and alanine were the most abundant amino acids in the seed and root exudates of both plants. The proportions of the amino acids in the seed exudates were comparable to that stored in the seeds. Many of the major amino acids identified in the exudates were also found to support thein vitro growth ofFusarium spp. isolated from the rhizosphere and rhizoplane. This suggests that the amino acids exuded might contribute signficantly to Fusaria nutrition and its consequent predominance around the root. The significance of this pathogenesis is also discussed.     

Biochemical Changes in Root Exudate and Xylem Sap of Tomato Plants Infected with Meloidogyne incognita

Under two monoxenic culture techniques of growing plants (filter paper and silica sand cultures), sugar in root exudate from Meloidogyne incognita-infected tomato increased 133 to 836% over controls. In contrast, amino acids were moderately reduced 52 to 56%. Chromatographic analysis showed that galled root exudate contained three sugars, twelve amino acids, and three organic acids, whereas healthy root exudate contained four sugars, fifteen amino acids, and four organic acids. Polysaccharide was responsible for the large increase of sugars in galled root exudates. The concn and the absolute amount of total sugars in the infected plant xylem sap were greater than in healthy plant xylem sap up to 6 wk after inoculation, whereas amino acids were moderately lower than in controls throughout the test period. Chromatographic analysis showed that xylem sap from both healthy and infected plants at 4 wk after inoculation contained four sugars and five organic acids. We identified 18 and 17 amino acids in the healthy and infected plant xylem sap, respectively. The concn of sugar increased as the nematode inoculum increased at 2, 4 and 6 wk after inoculation. The amino acids in all samples from the infected plant moderately decreased with an increase of nematode inoculum. We suggest that changes in total sugars and amino acids, of infected plant xylem sap and root exudate are a probable mechanism by which tomato plants are predisposed to Fusarium wilt.     

Chemotaxis of deleterious rhizobacteria to velvetleaf (Abutilon theophrasti Medik.) seeds and seedlings

Abstract Intact seeds and seed and seedling root exudates of velvetleaf ( Abutilon theophrasti Medik.) were used as chemoattractants in experiments to determine the relative importance of chemotaxis in spermosphere and rhizosphere colonization by selected rhizobacteria. Results for soft-agar, capillary tube and soil chemotaxis assays indicated that selected deleterious rhizobacteria were specifically attracted to seed and seedling root exudates. Several amino acids and sugars detected in exudates were chemoattractants for these rhizobacteria. Using soil-chemotaxis assemblies, migration of rhizobacterial isolates through 2-cm distances of soil toward velvetleaf seeds or exudates was detected within 24 h. Isolates were not detected at the same site in soils without seeds or exudates until 72 h after inoculation. These results suggest that attraction of delecterious rhizobacteria toward seeds and seedling roots mediated by exudates (chemotaxis) might be the first step in establishment and subsequent colonization of biological control bacteria on weed seeds and seedling roots in soil.     

Amino acids in root exudates of cotton

Summary Cotton-field soils from a wilt-free zone (KPT) and from a wilt-sick zone (PLD), and root exudates of diploid and amphidiploid cotton strains grown in KPT and PLD soils were analyzed for 13 free amino acids employing microbiological assay techniques. Test organisms used wereLactobacillus arabinosus 17/5 andLeuconostoc mesenteroides P. 60.Arginine, proline, lysine, serine, glycine, cystine, and tyrosine occurred in both the soils; amounts of these were higher in PLD soil than in KPT soil.Seven to eleven amino acids were found in the root exudates of cotton. Aspartic acid, threonine (in one), phenylalanine and leucine were found in root exudates but not in the control soils. Diploid strains were found to exude greater amounts of amino acids than the amphidiploid strains. Comparing the effect of the two soils tested, it was found that amino acids in exudates of plants grown in PLD soil were higher except in the case of one diploid strain.In the inoculated series, amino acids in the exudates were markedly lower than the respective healthy controls in the diploid strains. In the exudates of amphidiploid strains also, amino acid contents were reduced but to a lesser extent.Significance of occurrence of cystine in the exudates of some strains is indicated.Part of Doctoral thesis, University of Madras.     

Root exudates of rice seedlings. The influence of one variety on another

Summary In the present study attempts have been made to elucidate the composition and physiological actions of root exudates from CB-1 Rupsail and the mixed population of these two varieties. The chemical nature of the different components of root exudates was studied by means of paper chromatography, bioassay and other biochemical procedures. It was noted that exudates from CB-1 and Rupsail seedlings inhibited root/shoot growth of test seedlings of both varieties. But when these two varieties were grown together root/shoot growth of both varieties were markedly promoted. Both qualitative and quantitative differences in amino acids, carbohydrates and growth substances contents of root exudates of individual and mixed population of rice varieties were noted.     

Assessment of the Role of Chemotaxis and Biofilm Formation as Requirements for Colonization of Roots and Seeds of Soybean Plants by <Emphasis Type="Italic">Bacillus amyloliquefaciens</Emphasis> BNM339

This article correlates colonization with parameters, such as chemotaxis, biofilm formation, and bacterial growth, that are believed to be connected. We show here, by using two varieties of soybean plants that seeds axenically produced exudates, induced a chemotactic response in Bacillus amyloliquefaciens, whereas root exudates did not, even when the exudates, also collected under axenic conditions, were concentrated up to 200-fold. Root exudates did not support bacterial cell division, whereas seed exudates contain compounds that support active cell division and high cell biomass at stationary phase. Seed exudates of the two soybean varieties also induced biofilm formation. B. amyloliquefaciens colonized both seeds and roots, and plant variety significantly affected bacterial root colonization, whereas it did not affect seed colonization. Colonization of roots in B. amyloliquefaciens occurred despite the lack of chemotaxis and growth stimulation by root exudates. The data presented in this article suggest that soybean seed colonization, but not root colonization, by B. amyloliquefaciens is influenced by chemotaxis, growth, and biofilm formation and that this may be caused by qualitative changes of the composition of root exudates.     

Amino Acid Release from the Seed Coat of Developing Seeds of Vicia faba and Pisum sativum

After removal of the embryo from developing ovules of Viciafaba L. and Pisum sativum L., seed-coat exudates were collectedand the amino acid fraction of the exudate was analyzed. InV. faba, alanine was the most important compound of the aminoacid fraction. In P. sativum, alanine and glutamine were thetwo most important components, whereas only small amounts ofasparagine were present. Comparison with published data suggeststhat seed-coat exudates may differ from phloem sap in the relativeimportance of these amino acids. Pisum sativum, pea, Vicia faba, broad bean, amino acid transport, amino acid unloading, seed-coat exudate, seed development     

Effect of root exudates on the spore germiantion of rhizosphere and rhizoplane mycoflora of chilli (Capsicum annuum L.) cultivars

Summary From root exudates of three cultivars of chilli (Capsicum annuum L.) 12 amino acids and 7 sugars were detected. Methionine, d-1- phenylalanine, citrulline and d-xylose were detected only from the root exudates of resdistant cultivars. The root exudates of resistant variety inhibited spore germination of the pathogen (Fusarium oxysporum f. sp.capsici), but that of susceptible variety enhanced spore germiantion of the same. Spore germiantion of antagonistic fungi (Trichderma viride andAspergillus sydowi) was also influenced by the root exudates of resistant and susceptible varieties, but the influence was different.Spore germiantion of a number of rhizosphere fungi was studied and in general root exudate of susceptible cultivar enhanced spore germiantion of majority of fungi, but spore germination of antagonistic fungi against the pathogen was inhibited. However, root exudate of resistant cultivar stimulated spore germination of antagonistic fungi.     

Effect of seed and root exudates on the growth ofXanthomonas phaseoli var.fuscans

In a medium containing bean, barley and wheat seed exudates,Xanthomonas phaseoli var.fuscans (Burk.) Starr et Burk. grew substantially better than in that containing root exudates of these plants. When the bacteria were cultivated in a medium containing root exudates of bean plants deprived of cotyledons after eleven days of growth, growth was slower than in the presence of root exudates of control plants. On the other hand, the growth was stimulated in a medium containing root exudates of bean plants deprived of leaves. It was found that seed exudates of these plants contained biologically active peptides stimulating the growth of the microorganism. These peptides were not found in root exudates. These findings suggest a relationship between the survival ofXanthomonas phaseoli var.fuscans in the rhizosphere of bean and the exudation of biologically active peptides originating from the stock substances of seeds and cotyledons.     

Decomposition of root exudates in soil

The conversion of synthetic root exudates, i.e. of a mixture of amino acids, organic acids and sugars, added to soil in a single dose or continuously, was studied. After the addition of a single dose, the root exudates were gradually mineralized and after 76 hours, 85% of carbon had been released in the form of carbon dioxide. The extent and rate of mineralization was not influenced by the simultaneous addition of ammonium phosphate. The continuous addition of substrate formed a model artificial rhizosphere. In the steady state, 93% of the carbon in the added substrate was mineralized to carbon dioxide. The conversion of organic acids, sugars and amino acids and the mineralization of nitrogen was studied simultaneously by chromatography. In soil continuously enriched with root exudates, phenomena similar to the rhizosphere effect in nature were observed both in the numbers of microorganisms and in the relative incidence of the nutritional groups of bacteria.     

Root exudates of plants

Summary The composition of the root exudates of barley and wheat in the initial growth phases was investigated; amino acids, organic acids, sugars and certain aromatic compounds could be identified. A knowledge of the composition of root exudates is important from the standpoint of the interaction between the plants and the micro-organisms in the rhizosphere. Some aspects of the rhizosphere effect connected with the present work are discussed.     

Overexpression of <Emphasis Type="Italic">Thellungiella halophila</Emphasis> H<Superscript>+</Superscript>-PPase (<Emphasis Type="Italic">TsVP</Emphasis>) in cotton enhances drought stress resistance of plants

An H⁺-PPase gene, TsVP from Thellungiella halophila, was transferred into two cotton (Gossypium hirsutum) varieties (Lumianyan19 and Lumianyan 21) and southern and northern blotting analysis showed the foreign gene was integrated into the cotton genome and expressed. The measurement of isolated vacuolar membrane vesicles demonstrated that the transgenic plants had higher V–H⁺-PPase activity compared with wild-type plants (WT). Overexpressing TsVP in cotton improved shoot and root growth, and transgenic plants were much more resistant to osmotic/drought stress than the WT. Under drought stress conditions, transgenic plants had higher chlorophyll content, improved photosynthesis, higher relative water content of leaves and less cell membrane damage than WT. We ascribe these properties to improved root development and the lower solute potential resulting from higher solute content such as soluble sugars and free amino acids in the transgenic plants. In this study, the average seed cotton yields of transgenic plants from Lumianyan 19 and Lumianyan 21 were significantly increased compared with those of WT after exposing to drought stress for 21 days at flowering stage. The average seed cotton yields were 51 and 40% higher than in their WT counterparts, respectively. This study benefits efforts to improve cotton yields in arid and semiarid regions.     

Chemotaxis of Bradyrhizobium japonicum to soybean exudates.

The chemotactic response of Bradyrhizobium japonicum toward soybean seed and root exudates was examined. Assays using various isoflavones and fractionated exudate indicated that isoflavones are not the principal attractants in exudates. Likewise, induction of nod genes with isoflavones or seed exudate before assay did not enhance chemotaxis. Screening of numerous compounds revealed that only dicarboxylic acids and the amino acids glutamate and aspartate were strong attractants. The presence of glutamate, aspartate, and dicarboxylic acids in appreciable concentrations in soybean seed and root exudates indicates that these compounds likely represent natural chemoattractants for B. japonicum.     

Chemotaxis of Bradyrhizobium japonicum to soybean exudates.

The chemotactic response of Bradyrhizobium japonicum toward soybean seed and root exudates was examined. Assays using various isoflavones and fractionated exudate indicated that isoflavones are not the principal attractants in exudates. Likewise, induction of nod genes with isoflavones or seed exudate before assay did not enhance chemotaxis. Screening of numerous compounds revealed that only dicarboxylic acids and the amino acids glutamate and aspartate were strong attractants. The presence of glutamate, aspartate, and dicarboxylic acids in appreciable concentrations in soybean seed and root exudates indicates that these compounds likely represent natural chemoattractants for B. japonicum.     

转基因棉花中糖类和游离氨基酸含量的变化对棉蚜泌蜜量及蜜露主要成分的影响

以3个转基因棉和2个亲本对照棉花品种为研究材料,分别测定了这5种棉花植株体内主要糖分与游离氨基酸含量;同时,分别用这5个棉花品种的叶片饲养棉蚜Aphis gossypii Glover并测定其蜜露分泌量及其主要营养成分。结果表明,转基因棉花“国抗22”叶片中葡萄糖、蔗糖、麦芽糖的平均含量及可溶性糖总量分别比亲本对照棉“泗棉3号”减少61.76%、 89.05%、77.86%和23.61%,转基因棉花“苏抗103”和“中抗310”叶片中葡萄糖、蔗糖、麦芽糖的平均含量及可溶性糖总量分别比亲本对照棉“苏棉12”下降14.15%、32.80%、92.22%、11.46% 和4 6.81%、93.19%、61.11%、43.91%,游离氨基酸总量及各种氨基酸、果糖、鼠李糖、海藻糖的含量在不同转基因棉与亲本对照棉花品种间也存在很大差异,其中一些处理间的差异达显著或极显著水平。这表明外源基因的导入已经影响到了转基因棉花品种中主要糖分与游离氨基酸的合成。棉蚜取食转基因棉花品种“国抗22”后,蜜露的日平均分泌量比取食对照品种“泗棉3号”减少40.54%,取食其他两个转基因棉花品种“苏抗103”和“中抗310”后蜜露的分泌量也比取食对照棉花品种“苏棉12”降低22.67%和30.0%,但棉蚜取食转基因棉花后蜜露中游离氨基酸的总量均高于对照棉花品种,蜜露中可溶性总糖、蔗糖和各种氨基酸含量在取食转基因棉和常规棉花品种间存在一定差异。