中华苜蓿根瘤菌噬菌体的分离及主要壳蛋白基因g23的系统进化分析

【目的】揭示苜蓿根瘤菌噬菌体的形态学特征及主要壳蛋白g23基因的分布地位,为根瘤菌噬菌体的生态学研究提供数据支持。【方法】以中华苜蓿根瘤菌(Sinorhizobium meliloti USDA1002T)为宿主,采用双层平板法分离土壤环境中的苜蓿根瘤菌噬菌体,利用电子显微镜观察纯化的噬菌体形态特征;提取噬菌体DNA,PCR扩增编码噬菌体壳蛋白的g23基因,构建系统进化树,以形态学鉴定和分子生物学相结合的方法,明确分离获得的苜蓿根瘤菌噬菌体g23基因的系统进化地位。【结果】分离获得了3株噬菌体,头部均呈二十面体,直径大小为81–86 nm,尾部有收缩尾鞘,长度大约为54–70 nm。克隆测序结果显示,获得的3株噬菌体g23基因株间相似度较高,但与可培养的Exo T-、Schizo T-、T-、Pseudo T-evens相似度较低。系统进化分析表明,获得的3株噬菌体不隶属于目前已划分的不同环境噬菌体g23基因的分类类群中。【结论】3株噬菌体均属于肌尾噬菌体科的裂性噬菌体,与目前获得的所有噬菌体g23基因相似性较低,属于新的侵染中华苜蓿根瘤菌的噬菌体株。     

根瘤菌可溶性蛋白和酯酶的电泳图谱分析

我们分析行了二十株根瘤菌可溶性蛋白和酯酶的电泳图谱。菌株中14株分离自野大豆的快生型大豆根瘤菌和3株慢生型大豆根瘤菌;另外3株根瘤菌分别分离于苜蓿、豌豆和三叶草。根据它们电泳谱带的Rf值,计算了各根瘤菌可溶性蛋白图谱间的相似性系数。快生型大豆根瘤菌的电泳图谱均不同于慢生型大豆根瘤菌和其他根瘤菌。鉴于各菌株有其独特图谱,以此作为根瘤菌分类和鉴定的依据,是较可靠的方法。     

黄土高原地区大豆根瘤菌的遗传多样性和系统发育

【目的】研究黄土高原地区大豆根瘤菌的遗传多样性和系统发育。【方法】采用BOX-PCR、16S rDNAPCR-RFLP、16S-23S IGS PCR-RFLP和16S rRNA基因序列分析方法对分离自我国黄土高原地区4个省的15个地区的130株大豆根瘤菌及部分参比菌株进行了遗传多样性和系统发育分析。【结果】BOX-PCR反映的菌株多样性最丰富,形成的遗传群最多,16S rDNA PCR-RFLP方法在属、种水平上聚群较好,16S-23S IGSPCR RFLP反映的多样性介于BOX-PCR和16S rDNA PCR-RFLP之间,能够较好地反映出属、种和亲缘关系很近的菌株间的差异,3种方法聚类分析结果基本一致,可将所有供试菌株分为两大类群,中华根瘤菌属(Sinorhizobium)和慢生根瘤菌属(Bradyrhizobium)。从系统发育来看,供试的快生大豆根瘤菌为费氏中华根瘤菌(Sinorhizobium fredii),慢生大豆根瘤菌为日本慢生大豆根瘤菌(Bradyrhizobium japonicum)和辽宁慢生根瘤菌(Bradyrhizobium liaoningense)。【结论】我国黄土高原地区大豆根瘤菌具有较丰富的遗传多样性,S.fredii优势种,慢生大豆根瘤菌仅占10%,同时,分离到2株B.liaoningense。     

新疆土著大豆根瘤菌的表型多样性

选用分离自新疆昌吉市郊土壤的大豆根瘤菌61株和参比菌5株,对它们进行唯一碳氮源、抗生素抗性和抗逆性等表型性状分析,结果表明所有菌株在70.1％相似水平上分为快生大豆根瘤菌和慢生大豆根瘤菌2群,其中快生大豆根瘤菌在81.4％相似水平上又分为2个亚群,40株供试的新疆快生大豆根瘤菌与新疆中华根瘤菌聚为一群;7株供试菌聚为一小群,抗逆性强。所有供试快生菌株都与费氏中华根瘤菌相似性低,所以新疆快生大豆根瘤菌可能是与费氏中华根瘤菌相独立的一个种。     

鲁黄1号大豆与根瘤菌的共生匹配性

大豆可与中华根瘤菌属及慢生根瘤菌属的多种根瘤菌共生固氮.研究大豆品种与不同种根瘤菌之间的共生匹配性,对获得高效根瘤菌用于接种,提高大豆的产量及品质有重要的理论和实践意义.本研究使用黄淮海地区的优质高蛋白大豆品种鲁黄1号从当地土壤内捕捉并分离纯化到27株根瘤菌.经持家基因recA的序列分析,发现其中18株属于中华根瘤菌属,9株属于慢生根瘤菌属.选用两个属的代表菌株各一株(Sinorhizobium fredii S6和Bradyrhizobium sp. S10),分别在蛭石、土壤盆栽及大田试验条件下,研究这两株菌单独及混合接种对鲁黄1号大豆的生长、结瘤、固氮活力、产量、种子蛋白含量及含油量的影响.结果表明： 与S10菌株相比,S6菌株对大豆的促生能力更强,对提高产量和品质的效果更好,从而确定S6为与鲁黄1号大豆相匹配的高效根瘤菌,可作为黄淮海地区推广种植鲁黄1号大豆时接种高效根瘤菌的菌种资源.
     

安徽地区大豆根瘤菌遗传多样性研究

采用RAPD技术对分离自安徽地区的大豆根瘤菌和部分参比菌株进行了遗传多样性和系统发育研究.结果表明:来自山东即墨、宿州灵壁、凤阳小溪河和六安金寨的菌株归为慢生型根瘤菌、来自安庆宿松、凤阳中都城、巢湖含山、滁州天长、淮北杜集、蚌埠淮上的菌株归为S.xinjiangensis,来自滁州全椒和风阳韭山洞的菌株是与花生根瘤菌和苜蓿根瘤菌更接近的快生型根瘤菌.而1株来自巢湖庐江的大豆根瘤菌和其它菌株的遗传距离较远,单独归为一类,其遗传地位特殊.     

Tn5-Mob系统诱导根瘤菌属之间耐盐和共生性状的转移

本实验通过质粒pSUP501l及其辅助质粒RP4将Tn5-Mob随机插入苜蓿根瘤菌(Rhizo-bium meliloti 042B)的基因组中,得到86株接合子SR。随机选取4株SR,通过辅助质粒R68．45的三亲本杂交,将它们的DNA片段引入慢生型大豆根瘤菌(Bradyrhizobium,japo—nicum USDA 110),获得106株接合子BSR。大部分BSR菌株获得了生长快速的特性和耐盐性,一般能耐0．3—0．5m01／L Nacl,其中有些菌株能产生黑色素。将9o株BSR回接大豆和苜蓿植株,发现47株能在大豆和苜蓿植株结瘤,但在苜蓿卜无固氮活性;26株只能在大豆植株结瘤固氮;13株只能在苜蓿植株结瘤而不固氮;4株在大豆和菖蓿植株均不结瘤。其中,获得了4株耐盐性和固氮酶活性强的接合子。     

根瘤菌属胞外多糖的研究

本文研究了豌豆根瘤菌(Rhizobum Leguminosarum),苜蓿根瘤菌(R. meliloti),三叶草根瘤菌(R. trifolii),菜豆根瘤菌(R. phaseoli),豇豆根瘤菌(Rradyrhizobium sp.(Vigna))和大豆根瘤菌(R. Japonicum)产生的胞外多糖化学组分的差异,结果表明,不同种的根瘤菌能产生具有不同组分的胞外多糖,其多糖组分的差异主要表现在糖醛酸和甘露糖的含量。豌豆根瘤菌、三叶草根瘤菌,菜豆根瘤菌产生的胞外多糖含有糖醛酸,大豆根瘤菌和苜蓿根瘤菌产生的胞外多糖一般不含有糖醛酸。根瘤菌有快生型和慢生型之别,这种差异也可由其产生的胞外多糖组分看到,一般快生型根瘤菌:豌豆根瘤菌,苜蓿根瘤菌,菜豆根瘤菌,三叶草根瘤菌,(包括最近证明的快生型大豆根瘤菌)的胞外多糖中甘露糖所占百分比较低(低于20％),葡萄糖所占的百分比较高(高于60％),而慢生型根瘤菌:大豆根瘤菌和豇豆根瘤菌的胞外多糖中甘露糖所占百分比较高(高于36％),葡萄糖所占的百分比较低(低于50％)。     

五株大豆根瘤菌噬菌体的普遍性转导

本文研究了5种烈性大豆根瘤菌噬菌体在大豆根瘤菌菌株间的普遍性转导。噬菌体psc和psx能在慢生大豆根瘤USDA110菌株间转导营养缺陷型标记和卡那霉素抗性标记。快生大豆根瘤菌MD3菌株间可通过噬菌体pfm转导营养缺陷标记和卡那霉素抗性标记。噬菌体pfc和pfx可在快生豇豆根瘤菌ANU240及其变种ANU265间转导抗性基因和定位于共生质粒（sym质粒）上的结瘤基因（common nod）。所有转导频率均在10-6~10-7之间。用紫外线处理噬菌体裂解液可以相应提高转导频率。     

一株能在大豆上结瘤的苜蓿中华根瘤菌

苜蓿中华根瘤菌(Sinorhizobium meliloti)XJ96077分离自新疆的苜蓿根瘤中,其原宿主为紫花苜蓿(Medicago sativa)。交叉结瘤试验发现,它既可在苜蓿上又能在大豆上结瘤固氮。DNA(G C)mol％分析表明,XJ96077的DNA(G C)mol％为61．9％,与已报道的根瘤菌属的DNA(G C)mol％范围(59％-64％)相符。DNA同源性分析表明,XJ96077与苜蓿中华根瘤菌USDA1002^T和042BM的同源性分别达到93％和80％,说明XJ96077归属于苜蓿中华根瘤菌。应用绿色荧光蛋白基因标记XJ96077,得到重组菌株XJ96077(G)。将其接种普通紫花苜蓿,通过激光共聚焦荧光显微镜可以检测到标记基因的表达。接种北引1号大豆上,同样可以清楚地观察到标记基因在根瘤中的表达,从而确证了XJ96077能同时在苜蓿和大豆上结瘤。通过不同品种大豆的结瘤试验,发现XJ96077对大豆品种的结瘤能力不同。     

Deinococcus misasensis and Deinococcus roseus, novel members of the genus Deinococcus, isolated from a radioactive site in Japan

Two gamma- and UV-radiation resistant, Gram-positive, red- or pink-pigmented, rod-shaped, strictly aerobic, oxidase- and catalase-positive bacterial strains, TDMA-25^T and TDMA-uv51^T, were isolated from fresh water collected at Misasa, a radioactive site in Japan. Phylogenetic analysis based on 16S rRNA gene sequences placed both in a distinct lineage in the family Deinococcaceae, and the highest degrees of sequence similarity determined belonged to Deinococcus maricopensis LB-34^T (88.8–89.3%), Deinococcus pimensis KR-235^T (86.4–86.7%) and Deinococcus yavapaiensis KR-236^T (86.1%). The DNA G+C content of the strains was 53–58 mol%. The major respiratory quinone was MK-8. The predominant fatty acids were C_15:0 iso, C_16:0 iso, C_13:0 iso, C_17:0 iso, C_16:0, C_13:0 anteiso, C_15:0 and C_12:0 iso. The strains degraded gelatin, casein, starch and Tween 80. Unique physiological characteristics, differences in their fatty acid profiles, and genotypic and phylogenetic features, differentiated strains TDMA-25^T and TDMA-uv51^T from closely related Deinococcus species. Hence, the two strains are described as novel species of the genus Deinococcus. The names Deinococcus misasensis sp. nov. (type strain TDMA-25^T=JCM 14369=NBRC 102116=CCUG 53610) and Deinococcus roseus sp. nov. (type strain TDMA-uv51^T=JCM 14370=NBRC 102117=CCUG 53611) are proposed.     

Burkholderia phenoliruptrix sp. nov., to accommodate the 2,4,5-trichlorophenoxyacetic acid and halophenol-degrading strain AC1100

Strain AC1100 is well-known for its ability to degrade a variety of recalcitrant xenobiotics, including 2,4,5-trichlorophenoxyacetic acid. We performed a polyphasic-taxonomic study to determine its taxonomic position. The G+C content of strain AC1100 was 62.6 mol%. On the basis of 16S rRNA gene sequence similarity, strain AC1100 belonged to the b-Proteobacteria and was most closely related to Burkholderia fungorum (98.3% similarity). DNA-DNA hybridisations, comparison of protein profiles, cellular fatty acid analysis and biochemical tests allowed genotypic and phenotypic differentiation of strain AC1100 from other Burkholderia species. Our data show that strain AC1100 represents a novel species for which the name Burkholderia phenoliruptrix sp. nov. is proposed. The type strain is AC1100^T (= LMG 22037^T = CCUG 48558^T).     

A yeast clade near Candida kruisii uncovered: nine novel Candida species associated with basidioma-feeding beetles

Yeasts similar to Candida kruisii were isolated repeatedly from the digestive tracts of basidioma-feeding beetles, especially nitidulids inhabiting and feeding on a variety of agarics in the southeastern USA and Barro Colorado Island, Panama. Based on the identical sequences of the D1/D2 domains of the LSU rRNA gene (rDNA) and host beetle information, the isolates were grouped into 19 genotypes which varied from C. kruisii by up to 38 nucleotide differences in the D1/D2 region. Phylogenetic analysis of rDNA sequences and phenotypic traits placed the isolates in C. kruisii and in nine undescribed taxa. The new species and type strains are designated as Candida pallodes (NRRL Y-27653^T), C. tritomae (NRRL Y-27650^T), C. panamensis (NRRL Y-27657^T), C. lycoperdinae (NRRL Y-27658^T), C. atbi (NRRL Y-27651^T), C. barrocoloradensis (NRRL Y-27934^T), C. aglyptinia (NRRL Y-27935^T), C. stri (NRRL Y-48063^T), and C. gatunensis (NRRL Y-48064^T). A phylogeny based on analysis of a combined database of sequences of SSU and LSU rDNA and the ITS region showed that the nine new species formed a novel sister clade to C. kruisii that was strongly supported by bootstrap analysis. Candida pallodes, C. tritomae, C. panamensis, and C. lycoperdinae formed one subclade, while C. atbi, C. barrocoloradensis, C. aglyptinia, C. stri, and C. gatunensis formed a second distinct subclade within the larger clade. Candida pallodes and C. atbi showed a strong host specificity to beetle species in the genus Pallodes (Coleoptera: Nitidulidae) collected from a variety of agarics. On the other hand, C. panamensis, C. tritomae, and C. lycoperdinae were associated with several unrelated beetles in Erotylidae, Scarabaeidae, Tenebrionidae, and Curculionidae as well as Lycoperdina ferruginea (Nitidulidae). Candida pallodes, C. tritomae, C. lycoperdinae, and C. atbi have been isolated repeatedly in the USA, while the other five new species have been found only at Barro Colorado Island, Panama.     

Gordonia lacunae sp. nov., isolated from an estuary

An actinomycete, strain BS2^T, was isolated from a sand sample collected from an estuary in Plettenberg Bay, Western Cape Province, South Africa. Based on 16S rRNA gene sequence similarities and chemotaxonomy, strain BS2^T was identified as a member of the genus Gordonia. It exhibited weak antibiosis against Mycobacterium aurum A+ and Mycobacterium smegmatis LR222. Phenotypic and phylogenetic results allowed for the differentiation of strain BS2^T from other species within the genus Gordonia. DNA–DNA hybridization further differentiated strain BS2^T from its nearest phylogenetic neighbour, Gordonia terrae NRRL B-16283^T (57.5±4.4% DNA relatedness). Strain BS2^T is therefore a novel species within the genus Gordonia, for which the name Gordonia lacunae is proposed, with the type strain being BS2^T (=DSM 45085^T=NRRL B-24551^T).     

Geminicoccus roseus gen. nov., sp. nov., an aerobic phototrophic Alphaproteobacterium isolated from a marine aquaculture biofilter

A Gram-negative, strictly aerobic, diplococcoid bacterium (strain D2-3^T) was isolated from the biofilter of a recirculating marine aquaculture system. Phylogenetic analysis of the 16S rRNA gene sequence of D2-3^T indicated that the new organism occupied a novel lineage within the -1 subclass of Proteobacteria and was related to the genera Rhodothalassium, Azospirillum, Craurococcus, Acidiphilium, and Tistrella. The highest sequence similarity (90.8%) of the 16S rRNA gene sequence of D2-3^T was to that of Candidatus “Alysiosphaera europaea”. D2-3^T was mesophilic, heterotrophic, required sea salt, and had a pH optimum of 8.0. Growth in the presence of light resulted in the formation of pink colonies, a 25% increased cell yield, and a slightly increased growth rate. D2-3^T contained carotenoids and low amounts of bacteriochlorophyll a. Membranes of D2-3^T contained b-type cytochromes. The G+C content of the DNA was 60.3±0.1 mol%. Phylogenetic, morphological, physiological, and biochemical analyses demonstrated that D2-3^T represented a new aerobic phototrophic genus, for which the name Geminicoccus roseus gen. nov., sp. nov. is proposed for the type species (D2-3^T=DSM 18922^T=ATCC BAA-1445^T).     

Mycobacterium fluoranthenivorans sp. nov., a fluoranthene and aflatoxin B1 degrading bacterium from contaminated soil of a former coal gas plant

Mycobacterium strain FA4^T was isolated with fluoranthene as the single carbon source from soil of a former coal gas plant, polluted with polycyclic aromatic hydrocarbons. The physiological properties, fatty acid pattern, and the 16S ribosomal RNA gene sequence indicated membership to the genus Mycobacterium, but were different from all type strains of Mycobacterium species. Based on comparative 16S rRNA gene sequence analyses strain FA4^T could be assigned to the Mycobacterium neoaurum taxon showing 98% sequence similarity to M. diernhoferi as its closest neighbour. The occurrence of epoxymycolate in the cell wall differentiates FA4 from all members of this taxon which synthesize wax-ester mycolates in addition to alpha-mycolates. Strain FA4^T is able to degrade aflatoxin B₁. This biological attribute might be useful in biological detoxification processes of foods and feeds. From the investigated characteristics it is concluded that strain FA4^T represents a new species, for which we propose the name Mycobacterium fluoranthenivorans sp. nov. The type strain of Mycobacterium fluoranthenivorans is FA4^T (DSM 44556^T = CIP 108203^T).     

Nocardioides halotolerans sp. nov., isolated from soil on Bigeum Island, Korea

A strictly aerobic, Gram-positive, motile, coccoid-shaped, halotolerant actinobacterium (10% NaCl, w/v), designated MSL-23^T, was isolated from a soil sample on Bigeum Island, Korea. Results of 16S rRNA gene sequence analysis indicated that the isolate belonged to the genus Nocardioides, with the highest sequence similarity (95.63%) being to Nocardioides kribbensis KCTC 19038^T. The major menaquinone was MK-8(H₄), and the predominant cellular fatty acids were i-C_16:0, ai-C_17:0, C_18:1 ω9c and 10-methyl-C_16:0. The DNA G+C content was 69.7 mol%. The 16S rRNA gene sequence of strain MSL 23^T and its chemotaxonomic properties showed it to be unique in the genus Nocardioides. Phenotypic characteristics distinguished strain MSL-23^T from other Nocardioides species. On the basis of the phenotypic, chemotaxonomic and phylogenetic data strain MSL-23^T represents a novel species, for which the name Nocardioides halotolerans sp. nov. is proposed, with MSL-23^T (=KCTC 19274^T=DSM 19273^T) as the type strain.     

Psychrobacter salsus sp. nov. and Psychrobacter adeliensis sp. nov. isolated from fast ice from Adelie Land, Antarctica

Nine psychrotolerant bacteria were isolated from fast ice in the middle of Geologie Archipelago, Adelie Land, Antarctica and were categorized into two groups, based on their SDS-PAGE profiles. Representatives from each of the two groups, namely strains DD 48^T and SJ 14^T exhibited phenotypic and chemotaxonomic characteristics confirming to the genus Psychrobacter. The 16S rRNA gene sequence indicated that the two isolates are closely related to each other and to the already reported fifteen species of Psychrobacter. Detailed studies on the phenotypic characteristics, chemotaxonomic properties and phylogenetic analysis of strains DD 48^T and SJ 14^T indicated that they are distinctly different from each other and the reported species of Psychrobacter. At the DNA-DNA hybridisation level, the two species exhibit less than 70% similarity. Thus, strains DD 48^T and SJ 14^T are identified as new species of the genus Psychrobacter for which the names Psychrobacter salsus sp. nov. and Psychrobacter adeliensis sp. nov. respectively are proposed.