水稻体内细菌的动态研究

经过对水稻两品种(沈农319、中百4号)不同时期、不同组织内生细菌动态变化研究结果表明,根组织带菌量最高,其次是叶,茎最低。发育阶段以孕穗期带菌量显着增高,随着组织衰老而降低。对分离到的4个主要种群显着性检验结果表明,巨大芽孢杆菌为两品种体内细菌优势种。通过对水稻这一世界性粮食作物体内细菌的种类,以及随生育期、组织间菌体数量变化的探讨研究,为水稻害虫的生物防治,提供遗传改良工程杀虫细菌的有效载体菌。     

烟草内生细菌种群动态研究

经过对 7个田间种植的烟草品种不同栽培时期、不同组织内生细菌种群动态研究表明 ,不同品种内生细菌种群有一定程度差异。同一品种中有的内生细菌为常住菌群 ,有的为暂居菌群 ,带菌量根中最高 ,茎次之 ,叶中最低。在整个生育期中 ,7个品种内生细菌数量表现出从种子到出苗期大幅增加 ,从出苗期到十字期又大幅度下降 ,随后从缓苗期到伸根期再一次急剧增加并维持在一个较高水平。通过对烟草这一重要经济作物内生细菌种群动态变化研究 ,可为烟草病虫害生物防治和促生增产研究提供理论基础。     

红树林内生细菌的分离及拮抗菌筛选*

红树林内生细菌及拮抗菌分离筛选结果表明:各品种红树体内均有大量的内生细菌,不同红树品种及部位内生细菌的数量不同,其中以红海榄体内的含量最高,达4．225×10⁴cfu／g(fw),其它依次为木榄、桐花树、秋茄和白骨壤等;不同部位以茎组织体内内生细菌的含量最多,达1．649×10⁴cfu/g(fw),其次为根和叶。获得的内生细菌中约有43．53％的内生细菌菌株对枯萎病菌(Fusarium oxysporum)、炭疽病菌(Colletotrich     

水稻优势内生细菌鉴定、定位与重组研究

对水稻品种D优527体内筛选到的优势细菌SR-15、SR-25、SL-37进行浸染、扫描电镜和透射电镜观察．结果表明。菌株主要在水稻组织的细胞间隙、细胞质内和液泡内定位。SR-15菌株通过质粒PUC-18转化和ERIC-PCR再分离实验验证,结果显示重组菌株在植株体内稳定定位,具有稳定的内生特性。生理、生化指标结合形态特点研究确定该菌株属盐敏芽孢杆菌Bacillus halmapalus 。致病性和促生性试验表明,菌株对水稻植株无致病性,在水稻生长中后期有明显促生作用。将带有Cry1Ac基因的质粒转入菌株SR-15,并经southern分析证明,其表达产物具有致死水稻二化螟84．7％的效应。     

红树林内生细菌的分离及拮抗菌筛选

红树林内生细菌及拮抗菌分离筛选结果表明:各品种红树体内均有大量的内生细菌,不同红树品种及部位内生细菌的数量不同,其中以红海榄体内的含量最高,达4．225×104cfu／g(fw),其它依次为木榄、桐花树、秋茄和白骨壤等;不同部位以茎组织体内内生细菌的含量最多,达1．649×104cfu/g(fw),其次为根和叶。获得的内生细菌中约有43．53％的内生细菌菌株对枯萎病菌(Fusarium oxysporum)、炭疽病菌(Colletotrichum sp．)等病原真菌及番茄青枯病菌(Ralstonia solanaceance)具有较强拮抗作用。对番茄生长测定发现,13株菌株中有9株(69．23％)表现为促进生长效果,4株(30．77％)表现为抑制生长作用。经初步鉴定,上述拮抗细菌均为芽孢杆菌(Bacillus sp．)。     

紫外光B辐射增强对水稻叶片内IAA和ABA含量的影响

两个水稻品种ＣＫ４６和Ｄｕｌａｒ生长在人工气候箱的条件下,在０．０和１３．０ｋＪｍ＾－２ｄａｙ＾－１下进行４周的照射处理,研究ＵＶ－８对水稻体内内源ＩＡＡ和ＡＢＡ含量的影响。结果表明：随着ＵＶ－Ｂ处理时间的延长,ＣＫ４６和Ｄｕｌａｒ叶片内的ＩＡＡ含量下降。相反,ＵＶ－Ｂ辐射增强使两个品种叶片内的ＡＢＡ含量上升。     

水稻优势内生细菌鉴定、定位与重组研究

对水稻品种D优527体内筛选到的优势细菌SR－15、SR－25、SL－37进行浸染、扫描电镜和透射电镜观察,结果表明,菌株主要在水稻组织的细胞间隙、细胞质内和液泡内定位。SR－15菌株通过质粒PU－一18转化和ERIC—PCR再分离实验验证,结果显示重组菌株在植株体内稳定定位．具有稳定的内生特性。生理、生化指标结合形态特点研究确定该菌株属盐敏芽孢杆菌Bacillus halmapalus。致病性和促生性试验表明,菌株对水稻植株无致病性,在水稻生长中后期有明显促生作用。将带有CrylAc基因的质粒转入菌株SR-15,并经Southern分析证明,其表达产物具有致死水稻二化螟84．7％的效应．     

根表铁锰氧化物胶膜对不同品种水稻吸镉的影响

采用土培方法,研究了不同品种水稻吸镉的差异及其与根表铁锰氧化物胶膜的关系,结果表明：不同品种水稻其根膜,根部及地上部含镉量均存在显著性差异,且镉在不同水稻植株体内运输转移能力不同,不同水稻其根表淀积的铁锰氧化物数量也存在显著性差异,根膜及地上部的含镉量与极膜的含铁量均未达到显著性相关,但与根膜的含锰量相关性显著。     

棉花维管组织内生细菌分析之一——不同抗性品种含菌动态与土质和生育期的关系

于１９９３年棉花生长季节,对种植在偏砂性和偏粘性土壤中的不同抗枯萎病品种中棉－１２、８６－１、川７３－２７和感病品种邯郸－１４进行了内生细菌分析。试验分别在五叶期、现蕾期和开花结铃后期取样,在ＴＳＡ培养基上分离维管组织内生细菌,共获得细菌分离物５３００余株。细菌数量经ＳＡＳ软件进行统计分析,结果表明,不同品种、不同土质及不同生育期的含菌量变化,在ａ＝０．０５水平上差异显著。四个品种在偏砂性土中的内生细菌含量均高于偏粘性土壤中的棉株,三个抗枯萎病品种的含菌量也均高于感病品种邯郸－１４,其中以８６－１含菌量最高,其次为中棉－１２,再次为川７３－２７。不同生育期的菌量变化是五叶期最低,现蕾期最高,开花结铃后期又下降,但仍高于五叶     

水稻褐飞虱内生共生细菌Arsenophonus的鉴定和系统分析

利用16S rDNA通用引物扩增了水稻褐飞虱Nilaparvata lugens（Stål）体内共生细菌的序列,经克隆、测序和NCBI数据库比对,发现褐飞虱体内存在杀雄菌属Arsenophonus类共生细菌,系统发育上与粉虱科和木虱科体内的Arsenophonus属亲源关系较近。在褐飞虱体内该共生细菌具有两种长度不同的16S rDNA序列,分别为1 504 bp和547 bp,其中后者为前者中间缺失了957 bp,其余序列相同。通过重新设计两对引物进行扩增,进一步确认不同褐飞虱地理种群及寄主种群均存在两种片段。Arsenophonus特异的 23S rDNA引物的扩增结果表明,Arsenophonus存在于所有检测的褐飞虱种群中,但不存在于水稻寄主中。荧光定量PCR检测发现3个褐飞虱室内寄主种群Arsenophonus属共生细菌含量不同,其中TN1种群明显高于Mudgo种群和ASD7种群。此为水稻褐飞虱体内存在Arsenophonus属共生细菌的首次报道。     

水稻内生放线菌类群及其对宿主病原菌的抗性研究

采用常规方法对广东省番禺和五山两地种植的水稻内生放线菌进行分离、鉴定和分析 ,结果表明水稻内生放线菌多属于链霉菌属 (Streptomyces) ,其中灰褐类群链霉菌 (S .griseofuscus)的分离频率最高为 36 1%～ 6 9% ,是水稻植株中的优势内生放线菌类群。研究了内生放线菌在水稻植株各器官中的分布 ,结果表明根中内生放线菌的多样性高于茎叶。番禺地区种植的水稻中分离出的内生放线菌种类较多。从感病品种及生长不良水稻植株中分离出的内生放线菌种类比较丰富。通过回接分离试验及利用扫描电镜观察内生菌在植物体内分布发现 ,水稻优势内生放线菌回接无菌组培苗后 ,不仅能够定殖在水稻植株的根表和根内部 ,而且存在于茎杆和叶片中。通过平板颉抗及代谢物的活性测定试验 ,发现所分离的内生放线菌 5 0 %对水稻某些病原菌有颉抗活性 ,其中灰褐类群链霉菌的比例达到 5 5 4 % ,成为所分离的水稻内生放线菌类群中具有颉抗活性的最大群体。     

Influence of plant species and environmental conditions on epiphytic and endophytic pink-pigmented facultative methylotrophic bacterial populations associated with field-grown rice cultivars

The total methylotrophic population associated with rice plants from different cultivars was enumerated at three different stages: vegetative, flowering, and harvesting. The bacterial population in the leaf, rhizosphere soil, endophytic in the stem and roots, and epiphytic in the florets and grains were determined from four rice cultivars, Il-mi, Nam-pyeoung, O-dae, and Dong-jin, sampled from three different field sites. The methylotrophic bacteria isolated on AMS media containing 0.5% methanol as the sole carbon source uniformly showed three distinct morphologies, which were recorded as separate groups and their distribution among the various samples was determined using the ecophysiological index. The growth stage at the time of sampling had a more significant effect on the methylotrophic population and their distribution than the field site or cultivar. A similar effect was also observed for the PPFMs, where their population in different plant parts increased from V10 to R4 and then decreased towards stage R9. A canonical discriminant analysis of the PPFM population from different parts of rice showed clear variations among the cultivars, sampled sites, and growth stages, although the variations were more prominent among the growth stages.     

玉米品种遗传多态性与根系内生细菌种群的相互关系

对辽宁省14个玉米主栽品种根系内主要细菌种群的分析结果表明,芽孢杆菌属（Bucillus ssp．）为玉米内生细菌的主要种群,其它种属包括肠杆菌属、沙雷氏杆菌属、假单孢菌属、黄单孢菌属和棍状杆菌属。内生细菌在不同玉米品种和不同生育期之间存在程度不同的差异。从90条随机引物中筛选出条带清晰、重复性好的13个引物,对14个玉米主栽品种进行遗传多态性的RAPD分析,共扩增出条带139条,其中多态性条带101条,多态性比率72．7％。利用SPSS统计分析软件对14个玉米品种在DNA水平和内生细菌种群水平上进行聚类分析,结果表明,品种亲缘关系在这两个水平上表现基本一致,即品种内生细菌的种类及其数量在很大程度上受品种的遗传背景控制。     

Comparative study of endophytic and endophytic diazotrophic bacterial communities across rice landraces grown in the highlands of northern Thailand

Communities of bacterial endophytes within the rice landraces cultivated in the highlands of northern Thailand were studied using fingerprinting data of 16S rRNA and nifH genes profiling by polymerase chain reaction–denaturing gradient gel electrophoresis. The bacterial communities’ richness, diversity index, evenness, and stability were varied depending on the plant tissues, stages of growth, and rice cultivars. These indices for the endophytic diazotrophic bacteria within the landrace rice Bue Wah Bo were significantly the lowest. The endophytic bacteria revealed greater diversity by cluster analysis with seven clusters compared to the endophytic diazotrophic bacteria (three clusters). Principal component analysis suggested that the endophytic bacteria showed that the community structures across the rice landraces had a higher stability than those of the endophytic diazotrophic bacteria. Uncultured bacteria were found dominantly in both bacterial communities, while higher generic varieties were observed in the endophytic diazotrophic bacterial community. These differences in bacterial communities might be influenced either by genetic variation in the rice landraces or the rice cultivation system, where the nitrogen input affects the endophytic diazotrophic bacterial community.     

玉米根系内生细菌种群及动态分析

2000-2002年,先后对辽宁省14个玉米主栽品种进行了根系内主要细菌种群分析．结果表明．玉米内生细菌的主要种群为芽孢杆菌属(Bucillus spp．),此外还包括肠杆菌属、沙雷氏杆菌属、假单胞菌属、黄单胞菌属和棍状杆菌属．其中Bacillus分布最广,已鉴定出8个种,包括枯草芽孢杆菌、巨大芽孢杆菌、蜡状芽孢杆菌、地衣芽孢杆菌、炭疽芽孢杆菌、蕈状芽孢杆菌、短小芽孢杆菌、环状芽孢杆菌．Bacillusspp．总量占根系内生细菌总量比苗期和成株期分别为75．5％和76．6％．内生细菌在不同玉米品种和不同生育期之间存在程度不同的差异．研究发现,品种的遗传背景与其内生细菌的种类和数量显著相关．     

Effect of host genotype on indigenous bacterial endophytes of cotton (Gossypium hirsutum L.)

The purpose of this study was to determine if populations of indigenous bacterial endophytes in seed, stem and root tissue of cotton seedlings are influenced by host genotype. Growth chamber and field experiments were conducted to test the hypothesis that host genotype has an effect on endophytic bacterial populations in seed tissues and the developing cotton seedling. Initially, population densities of bacteria within seed of nine cotton cultivars were very low (i.e., 10 2.0 colony forming units seed^–1). However, after 4 days growth on water agar, population densities within developing radicles increased significantly (log₁₀ 2–5 colony forming units) and significant cultivar differences were found. Significant cultivar differences occurred for populations of endophytic bacteria and the composition of bacterial functional groups differed among cultivars in field-grown seedlings at 5, 8, and 15 days after planting. Differences in the ranking of cultivars occurred for endophytic populations recovered from seed and aseptically and field-grown radicle and seedling tissues. These results suggest that whether originating from seed or from soil, cotton plants are capable of immediately establishing a carrying capacity for communities of endophytic bacteria following seed germination. During germination and development of the seedling, there are genetic and possible morphological/physiological effects that contribute to significant differences in colonization of bacterial endophytes among cotton cultivars.     

抗感青枯病番茄的内生细菌数量动态分析及其对青枯病的生物防治

对番茄内生细菌数量动态及其对青枯病的生物防治研究结果表明:番茄内生细菌可来源于种子内部。番茄不同生育期,内生细菌数量最多在成株期,其中抗病品种根、茎分别为24.3×104CFU/g鲜重和22.9×104CFU/g鲜重,感病品种根、茎分别为9.8×104CFU/g鲜重和13.4×104CFU/g鲜重。抗病品种中具有拮抗青枯菌的内生细菌菌株为17个,感病品种中7个。部分内生细菌具促进番茄种子萌发和防治番茄青枯病的作用,其中5R和3R内生菌株的防病效果分别达91.7%和81.3%。     

Ascending migration of endophytic rhizobia, from roots to leaves, inside rice plants and assessment of benefits to rice growth physiology

Rhizobia, the root-nodule endosymbionts of leguminous plants, also form natural endophytic associations with roots of important cereal plants. Despite its widespread occurrence, much remains unknown about colonization of cereals by rhizobia. We examined the infection, dissemination, and colonization of healthy rice plant tissues by four species of gfp-tagged rhizobia and their influence on the growth physiology of rice. The results indicated a dynamic infection process beginning with surface colonization of the rhizoplane (especially at lateral root emergence), followed by endophytic colonization within roots, and then ascending endophytic migration into the stem base, leaf sheath, and leaves where they developed high populations. In situ CMEIAS image analysis indicated local endophytic population densities reaching as high as 9 x 10(10) rhizobia per cm3 of infected host tissues, whereas plating experiments indicated rapid, transient or persistent growth depending on the rhizobial strain and rice tissue examined. Rice plants inoculated with certain test strains of gfp-tagged rhizobia produced significantly higher root and shoot biomass; increased their photosynthetic rate, stomatal conductance, transpiration velocity, water utilization efficiency, and flag leaf area (considered to possess the highest photosynthetic activity); and accumulated higher levels of indoleacetic acid and gibberellin growth-regulating phytohormones. Considered collectively, the results indicate that this endophytic plant-bacterium association is far more inclusive, invasive, and dynamic than previously thought, including dissemination in both below-ground and above-ground tissues and enhancement of growth physiology by several rhizobial species, therefore heightening its interest and potential value as a biofertilizer strategy for sustainable agriculture to produce the world's most important cereal crops.