广东与海南养殖罗非鱼无乳链球菌的分离、鉴定与特性分析

从中国广东、海南罗非鱼主养区发生爆发性疾病的多个养殖场的罗非鱼病鱼体上,分离到多株致病菌株。人工感染试验显示分离菌株具有较强的致病力,有多株经腹部注射分离细菌浓度为1×106CFU/mL时可使100%的受感染鱼死亡,选择其中7株强毒株进行药物敏感性实验与鉴定。不同菌株对药物敏感性存在一定的差异但与菌株来源无相关性,29种抗生素中对13种敏感、7种不敏感、9种存在菌株的差异。各分离菌株均为革兰氏阳性菌,呈β溶血。采用链球菌快速鉴定系统ID32STREP、Lancefield分析及多项补充生理生化鉴定结果,初步判断为无乳链球菌Streptococcus agalactiae。PCR扩增16S rRNA基因和GBS-specific gene cfb(CAMP factor)基因的全长序列,BLAST分析显示所有菌株的16S rRNA基因与GenBank上登录的无乳链球菌的相应序列高度同源(99.8%),各分离菌株间的16S rRNA基因序列也高度同源(≥99.9%?100%)。各菌株cfb基因序列高度同源(100%),BLAST显示与已知无乳链球菌的相应序列也具有高度同源性(≥99.0%)。综合上述实验结果,可判定广东与海南罗非鱼主养区2009年夏季发生的罗非鱼爆发性疾病的病原菌为无乳链球菌。     

1株虎源致病性肠球菌的分离鉴定及序列分析

从病死老虎肺脏中分离到1株肠球菌,并对该菌做了生理生化鉴定、药敏试验,致病性试验。本菌对多种抗生素高度耐药,对小白鼠有强致病性,其LD50为2.7×109.2cfu。并用PCR方法扩增分离菌株16S rDNA基因,获得1 415 bp片段,该片段核苷酸序列提交GenBank,登陆号为HM346186,将分离株的16S rDNA核苷酸序列与GenBank上其他肠球菌进行同源性分析。结果表明,分离株的16S rDNA核苷酸序列与肠球菌(EU285587)的同源性为100%,因此该分离菌株被鉴定为致病性肠球菌,命名为YN-1株(云南-1株)。     

光唇鱼源无乳链球菌的分离鉴定及遗传特征

【目的】为查明浙江养殖光唇鱼大量死亡的病原,了解病原的遗传特征。【方法】本工作对患病光唇鱼进行病原分离,结合形态特征、生理生化特性和16S rRNA基因序列同源性,对分离菌株进行鉴定;采用人工回感试验确定其病原性,并对分离株的血清型、多位点序列分型(multilocus sequence typing,MLST)、毒力基因型和表面蛋白抗原基因型等遗传特征进行分析;此外,还测试了菌株的药敏特性。【结果】从患病光唇鱼体中分离得到优势菌株ACRO-0708,为革兰氏阳性球菌,不溶血,分子与生化鉴定为无乳链球菌(Streptococcus agalactiae);人工感染试验证实其对光唇鱼有较强的致病性,LD50为6.47×10~3CFU/g,属于血清型Ⅰb和MLST型ST261,毒力基因型为sip~+bibA~+cfb~+hylB~+iagA~+fbsA~+fbsB~+bac~–bca~–cylE~–scpB~–lmb~–,不携带所检测的6种表面蛋白基因。药敏试验结果显示,对青霉素、氨苄西林等8种药物较敏感,对氯霉素、复方新诺明等7种药物耐药。【结论】引起浙江养殖光唇鱼死亡的病原菌为无乳链球菌,其分子特征与水产动物主要流行的无乳链球菌株具有显著差异,生产中可选用氨苄西林、氟苯尼考等药物进行防治。     

红拟石首鱼海豚链球菌分离、鉴定及致病性研究

2001年9月-12月,浙江舟山部分网箱养殖红拟石首鱼发生了陆续死鱼,发病鱼表现为眼球突出、浑浊,失去方向性,皮肤溃疡等症状。从病鱼的肾脏和肝脏中分离到菌株SO-2和SO-3,对两分离株进行了致病性试验,发现两者对红拟石首鱼、罗非鱼及小白鼠均有致病力,SO-2和SO-3对红拟石首鱼、罗非鱼及小白鼠的LD50分别为4.8×108CFU/尾和1.9×107CFU/尾2、.8×108CFU/尾和8.3×107CFU/尾及9.6×106CFU/只和4.2×106CFU/只,试验感染鱼出现眼球突出、浑浊及失去方向性等与自然发病相似症状,确定该两株菌为致病菌。两分离株为革兰氏染色阳性,呈链状球菌,β溶血,10℃生长,45℃不生长;接触酶阴性,水解七叶灵、精氨酸;VP试验、脲酶和马脲酸试验阴性,发酵葡萄糖、水杨苷、蔗糖和淀粉,不发醇阿拉伯糖、菊糖、乳糖、蜜二糖、棉子糖和山梨醇。分离株对氨卞青霉素、万古霉素和先锋Ⅴ等高度敏感,对庆大霉素、复方新诺明、林可霉素、氟哌酸等不敏感。应用16SrRNA基因进行的菌株PCR鉴定,确定该两株菌为海豚链球菌。       

杂交鲟海豚链球菌的分离、鉴定及药物敏感性

【目的】2012年7月,北京市怀柔区一家养殖场的杂交鲟爆发疾病,陆续死鱼。为确定病原,【方法】从具有典型症状的患病鱼的肝、肾和脾中分离获得3株分离菌,编号HRS12718L、HRS12718K和HRS12718S。采用形态特征、理化特性、16S rDNA和海豚链球菌特异性基因逐步鉴定病原菌的种类。取HRS12718K分离株进行人工感染实验,确认病原菌的致病性。开展药物敏感性实验筛选分离株的敏感药物。【结果】结果显示3株分离菌的形态特征和理化特性与从中国其它鱼类分离的海豚链球菌一致。采用16S rDNA序列构建的进化树与海豚链球菌聚为一支,与海豚链球菌的同源性在99.1%以上。HRS12718K分离株对杂交鲟的半致死量LD50为4.42×105CFU/mL,试验感染鱼出现与自然发病鱼相似临床症状。分离株对诺氟沙星、嗯诺沙星、硫酸新霉素、盐酸多西环素和盐酸四环素敏感,尤其对嗯诺沙星敏感。【结论】最终确认引起该养殖场杂交鲟发病的病原为海豚链球菌,建议使用嗯诺沙星进行治疗。     

半滑舌鳎病原菌轮虫弧菌(Vibrio rotiferianus)的分离与鉴定

从患有严重皮肤溃疡病的半滑舌鳎(Cynoglossus semilaevisGünther)病灶处分离出4株优势菌,经人工感染证实其中一株菌株BV1为养殖半滑舌鳎皮肤溃疡病的病原菌。通过Biolog系统、细菌常规形态特征和生理生化反应指标测定以及16S rRNA和gyrB序列分析对菌株BV1进行了综合鉴定,结果表明该致病菌为轮虫弧菌(Vibrio rotiferianus),其半致死量LD50为6.7×103CFU/mL。进一步的药敏试验表明其对链霉素、四环素等敏感,而对其他用于试验的抗生素敏感度低或具有一定的抗性。     

线纹海马源溶藻弧菌的分离、鉴定及药敏分析

为明确深圳某海马养殖基地线纹海马(Hippocampus erectus)突发性死亡病因,本研究从患病死亡线纹海马病灶组织分离到一株优势菌SZVA20190621,随后对分离菌的形态特征、生理生化特性、回归感染、16S rRNA基因进化及药物敏感性进行研究.结果显示,该菌葡萄糖产气、甘露醇、覃糖、蔗糖、氧化酶活性和MR等生理生化鉴定为阳性;与NCBI上溶藻弧菌(Vibrio alginolyticus)KT986151具有98.16％的同源性;回归感染实验表明菌株SZVA20190621对线纹海马具有强致病性,LD50为3.73×105CFU/mL.综上结果,鉴定该菌为致病性溶藻弧菌.药敏结果显示,该菌株对头孢唑林、头孢噻吩、哌拉西林、大观霉素、阿米卡星、克拉霉素、克林霉素及呋喃妥因耐药;对氨曲南、头孢西丁、头孢呋辛、头孢曲松、卡那霉素、红霉素中度敏感;对头孢他啶、头孢噻肟、头孢哌酮、头孢吡肟、链霉素、妥布霉素、庆大霉素、复方新诺明、氯霉素等17种抗生素高度敏感.本研究为线纹海马养殖中溶藻弧菌病的防控提供一定的参考依据.     

斑点叉尾鮰源普通变形杆菌的分离、鉴定及药敏特性

【目的】对患病斑点叉尾鮰进行病原菌分离、鉴定及药敏实验,为斑点叉尾鮰肠道坏死病的防控提供参考。【方法】从患病斑点叉尾鮰病灶、肝、脾和肾分离纯化病原菌,经理化特性测定及16S rRNA基因序列分析对其进行鉴定,开展人工感染试验,并利用纸片扩散法进行药敏特性分析。【结果】分离菌株k1为本次引发斑点叉尾鮰病害的致病菌,其对斑点叉尾鮰的LD50为2.82×10~5 CFU/g。菌株k1理化特性与普通变形杆菌Proteus vulgaris基本一致,16S rRNA基因序列与普通变形杆菌相似性最高,综合判定分离菌株为普通变形杆菌。分离菌株k1对环丙沙星、头孢唑林及头孢拉定等12种抗生素高度敏感,对苯唑西林、阿莫西林及痢特灵等7种抗生素耐药。【结论】分离菌株k1是斑点叉尾鮰病原菌,养殖时可选用庆大霉素及氟苯尼考等药物进行防控。     

鳜源致病性舒伯特气单胞菌的分离鉴定及药敏试验

【背景】舒伯特气单胞菌(Aeromonas schubertii)广泛分布于淡、海水水体和底泥中,致病株已在我国养殖鳢科鱼类中流行,也感染其他经济鱼类,导致暴发性死亡。【目的】对病鳜(Siniperca chuatsi)的病原进行鉴定,确定分离菌的致病性及药物敏感性,为该病临床治疗提供参考。【方法】采集病鳜脾肾组织进行PCR或RT-PCR扩增其常见病毒,采集病鳜肝脏和腹水分离培养细菌,PCR扩增代表菌株的gyrB、16S rRNA和毒力基因,鉴定其生理生化特征,并进行药物敏感性试验和人工感染试验。【结果】病鳜的传染性脾肾坏死病毒、鳜蛙病毒、鳜弹状病毒检测结果为阴性,肝脏和腹水均存在大量细菌;代表菌株Gui210820被鉴定为舒伯特气单胞菌,携带溶血素、气溶素、弹性蛋白酶和磷脂酶毒力基因,腹腔注射感染鳜的半数致死浓度(LD50)为3.16×105 CFU/mL;菌株Gui210820对四环素、卡那霉素、复方新诺明等6种抗菌药物耐药,对强力霉素中介,对恩诺沙星、新霉素、氟苯尼考等11种抗菌药物敏感。【结论】本试验从病鳜组织分离到致病性舒伯特气单胞菌,水产准许用药物恩诺沙星、新霉素、氟苯尼考...     

一株牛蛙源金黄杆菌的分离鉴定及其致病特性

【背景】美国牛蛙养殖过程中病害问题非常突出,尤其是细菌性病害,其病原种类多、病原菌复杂多样、蔓延速度快、发病死亡率高,一直是牛蛙养殖过程中防控的难点。【目的】确定从患病牛蛙体内分离到的一株细菌NW1203的分类地位和致病性。【方法】无菌操作从牛蛙体内取样划线分离细菌,通过形态观察、生理生化试验、16S rRNA基因序列比对进行种属鉴定,通过人工感染、溶血性试验和病理切片观察分析其致病特性。【结果】经形态和生理生化鉴定及16S rRNA基因序列比对,菌株NW1203为金黄杆菌属细菌,与Chryseobacterium sp. F30的相似性达100%,进化树也显示该菌与金黄杆菌属细菌聚类;溶血性试验表明,菌株NW1203对绵羊、小鼠和牛蛙的血细胞都呈完全溶血;人工感染试验及感染病蛙的组织切片观察显示,菌株NW1203对牛蛙具有较强致病性,可引起牛蛙肝、肾、脾等主要组织严重病变,LD50为4.753×103 CFU/g。【结论】明确了菌株NW1203为牛蛙新病原,为牛蛙疾病的防控提供了理论依据。     

Determination of 16S ribosomal RNA gene copy number in Streptococcus uberis, S. agalactiae, S. dysgalactiae and S. parauberis

Abstract Species-specific oligonucleotide probes and a universal oligonucleotide probe derived from sequences of 16S rRNA were hybridised to chromosomal DNA from Streptococcus agalactiae, S. dysgalactiae, S. parauberis and S. uberis following digestion with Eco RI. Due to the presence of a unique Eco RI site in each 16S rRNA gene, the number of hybridised fragments was indicative of the number of 16S rRNA genes. Southern hybridisation indicated six 16S rRNA genes in ten isolates of S. agalactiae , five genes in ten isolates of S. uberis , five genes in six isolates and six in another isolate of S. dysgalactiae , and six genes in four isolates of S. parauberis . For a fifth isolate of S. parauberis , six 16S rRNA genes were indicated by the universal probe but only five when hybridised to the species-specific probe, indicating sequence variation (microheterogeneity) within the probe target region.     

Development of specific and rapid detection of bacterial pathogens in dairy products by PCR

A simple and specific method for direct detection of bovine mastitis pathogens (Streptococcus agalactiae (GBS), Staphylococcus aureus and Escherichia coli) in milk products, bacterial samples from milk and isolated bacterial DNA was developed. The method is based on polymerase chain reaction (PCR) using sequence-specific primers only for GBS and species-specific primers derived from 16S and 23S rRNA for all chosen species. The presence of the gene of surface immunogenic protein (Sip) in bovine GBS isolates, described previously only in human GBS isolates was confirmed. The GBS detection was performed with the sequence coding for surface immunogenic protein from GBS human isolates designated as Sip specific sequence (SSS); this sequence was selected for specific primer design. The sequence is unique for GBS and was designed from a consensus of all known sip genes. The specific identification was shown on a collection of 75 GBS bovine isolates from different localities in Slovakia. All isolates were positive to SSS, 16S and 23S rRNA sequence. The 16S and 23S rRNA PCR detection was also performed with S. aureus and E. coli isolates and specific PCR products were also detected. The detection limit of this assay for milk products was 6 CFU/microL (i.e. 6000 CFU/mL) for GBS and E. coli, and 16 CFU/microL for S. aureus. This rapid, sensitive and specific diagnostic method can be performed within hours and represents an innovative diagnostic tool for the detection of milk pathogens in dairy products.     

Identification of Escherichia coli through analysis of 16S rRNA and 16S-23S rRNA internal transcribed spacer region sequences

A bacterial strain, designated BzDS03 was isolated from water sample, collected from Dal Lake Srinagar. The strain was characterized by using 16S ribosomal RNA gene and 16S-23S rRNA internal transcribed spacer region sequences. Phylogenetic analysis showed that 16S rRNA sequence of the isolate formed a monophyletic clade with genera Escherichia. The closest phylogenetic relative was Escherichia coli with 99% 16S rRNA gene sequence similarity. The result of Ribosomal database project's classifier tool revealed that the strain BzDS03 belongs to genera Escherichia.16S rRNA sequence of isolate was deposited in GenBank with accession number FJ961336. Further analysis of 16S-23S rRNA sequence of isolate confirms that the identified strain BzDS03 be assigned as the type strain of Escherichia coli with 98% 16S-23S rRNA sequence similarity. The GenBank accession number allotted for 16S-23S rRNA intergenic spacer sequence of isolate is FJ961337.     

Asaia sp., an unusual spoilage organism of fruit-flavored bottled water

A gram-negative bacillus was isolated from a batch of fruit-flavored bottled water, which had spoiled as a result of bacterial overgrowth (>10(6) CFU/ml). The spoilage organism was extremely difficult to identify phenotypically and was poorly identified as Pasturella sp. (78.7% identification profile) employing the API 20NE identification scheme, which gave the profile 5040000. Molecular identification through PCR amplification of a partial region of the 16S rRNA gene followed by direct automated sequencing of the PCR amplicon allowed identification of the organism. Due to the sequence identity (100%) between the spoilage organism and a reference strain in GenBank, the spoilage isolate was considered to be an Asaia sp., a recently described genus and member of the acetic acid bacteria. This is the first report of Asaia sp. causing spoilage of a foodstuff and highlights the benefits of molecular identification techniques based on 16S rRNA gene sequences in the identification of unusual spoilage organisms.     

A combined cultivation and cultivation-independent approach shows high bacterial diversity in water-miscible metalworking fluids

Ten metalworking fluids (MWF) and seven water preparation basis samples (WPB) were taken from five industrial plants in Germany. Total cells (TCC) and colony forming units (CFU) were counted, strains were isolated and their 16S rRNA gene was sequenced. Additionally, DNA was extracted directly from the samples, and clone libraries of 16S rRNA genes were built and gene sequenced. TCC ranged from 7.6×10(4) TCC/mL MWF to 1.6×10(8) TCC/mL MWF, and from 4.6×10(2) TCC/mL WPB to 7.8×10(7) TCC/mL WPB. The CFU showed similar but often lower results. A total of 70 isolates and 732 clones were 16S rRNA gene sequenced and all isolates, as well as 183 of the nearly full length 16S rRNA of these clones, were gene sequenced. A total of 98 different genera were detected in all 17 samples. The number of genera within each sample varied highly, with 1-22 genera per sample. The dominant genera in MWF were Leucobacter, Desemzia, Sphingomonas and Wautersiella. From these, only Sphingomonas was detected in WPB as well. This study showed that MWF can harbour a high bacterial diversity, which differs significantly from the bacterial flora of the corresponding WPB.     

Antibacterial activity of a disaccharide isolated from Streptomyces sp. strain JJ45 against Xanthomonas sp.

Of the 316 actinomycetes strains isolated from various habitats, Streptomyces sp. strain JJ45 showed the strongest antibiotic activity against the plant pathogenic bacteria Xanthomonas campestris pv. campestris and was thus chosen for further study. The 16S rRNA gene sequence (1500 bp) and rpoB gene partial sequence (306 bp) of Streptomyces strains JJ45A and JJ45B were determined. The respective strain JJ45B sequences exhibited 96.8% identity with the Streptococcus gelaticus 16S rRNA gene sequence and 98.4% identity with the Streptococcus vinaceus ATCC 27478 rpoB partial sequence. The fermentation broth of the JJ45B strain was extracted to find an inhibitor of bacterial growth. The distilled water extract showed the highest activity against pathogenic bacteria. The active molecule was isolated by column chromatography on polyacrylamide or silica gel, thin-layer chromatography, and HPLC. It showed growth inhibition activity only toward phytopathogenic Xanthomonas sp. The structure of the compound was identified as α- l -sorbofuranose (3→2)-β- d -altrofuranose based on the interpretation of the nuclear magnetic resonance spectra.     

中华鳖源致病性产吲哚金黄杆菌分离、鉴定及药敏特性分析

对患病中华鳖(Pelodiscus sinensis)进行病原分离、鉴定及药敏实验, 从患病中华鳖皮肤、肝肾脾重要器官分离纯化病原菌, 经理化特性测定及16S rRNA序列分析对其进行鉴定及人工感染试验, 并利用K-B及二倍稀释法进行药敏特性分析。结果表明分离株J22是为中华鳖腐皮病病原, 其对中华鳖的LD₅₀为3.30×104 CFU/g。J22株理化特性与产吲哚金黄杆菌(Chryseobacterium indologenes)一致, 16S rRNA序列与产吲哚金黄杆菌同源性为99%, 综合判定J22株是产吲哚金黄杆菌。分离株对新霉素、庆大霉素及阿莫西林等12种抗生素高度敏感, 对氟苯尼考及多西环素等抗生素耐药; 二氧化氯、漂白粉及高铁酸钾对分离株消毒效果较好。分离菌株J22是中华鳖病原菌, 养殖时可选用庆大霉素、新霉素或者阿莫西林内服, 配合使用二氧化氯、漂白粉及高铁酸钾等外用进行防控。     

Inflammatory responses of Nile tilapia Oreochromis niloticus to Streptococcus agalactiae: effects of vaccination and yeast diet supplement

This study evaluated the effects of dietary supplementation with 0.3% Saccharomyces cerevisiae yeast cell wall and of vaccination against Streptococcus agalactiae on the cellular component of acute inflammation induced in the coelomic cavity of Nile tilapia Oreochromis niloticus and on survival of the fish after challenge. A total of 84 tilapia of mean (±SD) weight 125.0 ± 1.5 g were distributed among twelve 310 l fiberglass tanks according to a 2 × 2 × 3 factorial design in the following manner: with and without supplementation; 2 stimulations (oily solution without S. agalactiae vaccine and vaccination); 15 d later all fish were intracoelomically challenged with 108 CFU ml-1 of a homologous strain of S. agalactiae, and evaluated after 6, 24 and 48 h, with 7 replicates. The fish received the non-supplemented or supplemented diet for a total of 77 d. The vaccination was performed on the 60th day, intracoelomically, as a single injection of 0.5 ml of the vaccine containing 108 CFU ml-1. Fifteen days later, all the fish were challenged with S. agalactiae by means of an intracoelomic inoculation of 108 CFU ml-1. No mortality was observed among the supplemented fish. The fish that were fed the non-supplemented diet and immunized with the bacterium presented a mortality rate of 28.5%. Among the non-supplemented and non-immunized fish, the mortality rate was 38.09%. Supplementation, in both vaccinated and non-vaccinated fish, induced larger accumulations of thrombocytes, lymphocytes and macrophages at the inflammatory focus. The results suggest that supplementation with 0.3% yeast cell wall, in both vaccinated and non-vaccinated fish, improved the inflammatory response of the fish and protected against the challenge. Vaccination increased the defense response, but the effect was stronger when associated with supplementation with S. cerevisiae.     

The phylogeny of Mycoplasma bovis as determined by sequence analysis of the 16S rRNA gene

Abstract The nucleotide sequence of the 16S rRNA gene of Mycoplasma bovis has been determined. Comparisons with other 16S rRNA sequences of mycoplasmas showed that Mycoplasma agalactiae is phylogenetically the closet relative. In total, only eight nucleotides differed between the M. bovis and M. agalactiae 16S rRNA sequences. The phylogenetic position of M. bovis with respect to other mycoplasmas was determined by sequence comparisons and from features in the secondary structure of 16S rRNA.