上呼吸道分离鲍曼不动杆菌1 型整合子的分离与鉴定

【目的】研究I型整合子的结构特征,探讨其与细菌多重耐药之间的相关性。【方法】收集2008年至2009年广州呼吸疾病研究所上呼吸道分离的187株鲍曼不动杆菌,应用K-B纸片扩散法检测耐药性,采用聚合酶链式反应进行I型整合子整合酶基因的检测;扩增整合子的可变区,应用DNA测序技术分析I型整合子基因结构。【结果】I型整合子的阳性率达53.4%。共七种1型整合子基因盒被鉴定,其中首次发现报道一种新的整合子(GenBank:HQ322622)。可变区主要编码氨基糖苷类药物的耐药基因。20种抗菌素耐药的结果均表明携带Ⅰ型整合子的鲍曼不动杆菌耐药率较不携带I型整合子的鲍曼不动杆菌的耐药率明显增高。整合子与鲍曼不动杆菌的多重耐药表型具有密切相关性。【结论】I类整合子相关耐药基因在本院临床分离鲍曼不动杆菌中分布较广泛。整合子在鲍曼不动杆菌耐药性的形成和播散中具有重要作用。     

大肠埃希菌耐药性水平传播实验研究

目的研究重症监护病房（ICU）患者标本中分离的大肠埃希菌的耐药情况以及耐药性水平传播的实验研究。方法采取双纸片法（K-B）检测细菌的耐药性;产超广谱β-内酰胺酶（ESBLs）大肠埃希菌为供体菌,耐利福平大肠埃希菌（对其他抗生素敏感）作为受体菌进行接合实验;采用聚合酶链反应（PCR）技术扩增整合子和耐药基因。结果30株大肠埃希菌中产ESBLs菌株检出率为46．7％;接合培养后,接合菌携带23kb和25kb大质粒,而无供体菌中一系列小质粒;供体菌和接合菌均携带I型整合子。结论大肠埃希菌耐药性严重,且呈多重耐药性;产ESBLs菌株可通过质粒和整合子将耐药基因转移给敏感菌,导致耐药性传播。     

ESBLs大肠埃希菌和肺炎克雷伯杆菌整合子分布及其与ESBLs基因关系研究

目的研究整合子在院内感染ESBLs大肠埃希菌和肺炎克雷伯杆菌中的分布及其与细菌耐药的相关性,探讨Ⅰ类整合子在ESBLs基因水平转移中的作用及其与ESBLs基因型的关系。方法运用K-B法,纸片扩散法,PCR,接合传递试验、套式PCR、质粒谱分析及DNA测序研究携带耐药基因的Ⅰ类整合子与耐药播散的关系。结果产ESBLs和非产ESBLs菌株中Ⅰ类整合酶扩增阳性例数分别是70例（占66.7%）和22例（占22.4%）,2组整合子阳性率差异有统计学意义（P〈0.01）。整合子阳性组中ESBLs、多重耐药菌均明显高于阴性组。产ESBLs菌株中blaSHV、blaCTX和blaTEM基因与整合子经质粒共同转移的频率分别是79.3%、58.5%和45.1%。结论整合子在产ESBLs大肠埃希菌和肺炎克雷伯杆菌中的分布明显高于非产ESBLs菌株,主要为Ⅰ类整合子,并参与产ESBLs菌株多重耐药性的形成,其中blaSHV基因型与整合子经质粒共同转移的频率高于其他两类基因,提示SHV型酶在浙南地区具有更强的扩散优势。     

产超广谱β-内酰胺酶大肠埃希菌Ⅰ类整合子检测与耐药性关系

目的了解I类整合子在产ESBLs和非产ESBLs大肠埃希菌中分布状况,分析I类整合子在细菌多重耐药中的作用。方法用PCR方法扩增I类整合酶基因,经电泳后检测扩增产物。用2χ检验进行统计学分析,P<0.05为差异有显著性。结果105株大肠埃希菌检出I类整合子46株,检出率为43.8%。I类整合子在产ESBLs菌的检出率为53.4%,明显高于非产ESBLs菌(31.9%),2χ检验,P<0.01。I类整合子阳性菌株多重耐药率为68.8%(33/48),明显高于阴性菌株(33.3%),P<0.05。I类整合子阳性菌株和产ESBLs菌均对青霉素类、喹诺酮类、磺胺类抗生素表现出较高的耐药率。所有菌株均对亚胺培南敏感。结论I类整合子携带与产ESBLs菌株耐药有关,I类整合子阳性菌株对多种抗生素的耐药率大于整合子阴性菌株。     

产ESBLs大肠埃希菌整合子及其相关基因盒的研究

目的检测产超广谱β-内酰胺酶（ESBLs）大肠埃希菌中整合子的整合酶及插入的相关基因盒情况,分析整合子对细菌耐药性的影响。方法采用K-B琼脂扩散法对45株临床分离的产ESBLs大肠埃希菌进行药敏试验;应用PCR法检测45株产ESBLs大肠埃希菌Ⅰ类、Ⅱ类和Ⅲ类整合子;对Ⅰ类整合子阳性菌进行整合子相关基因盒检测。结果45株菌中有27株（60．0％）含有Ⅰ类整合子,没有检测到Ⅱ类和Ⅲ类整合子阳性菌。在Ⅰ类整合子阳性菌中,有23株携带Ⅰ类整合子相关基因盒（85．2％）,5种不同的基因盒图谱,片段大小在600～2322bp,分离自同一科室的部分菌株携带大小相同的基因盒;Ⅰ类整合子阳性菌株的耐药率高于整合子阴性的菌株。结论Ⅰ类整合子及整合子相关基因盒在产ESBLs大肠埃希菌株中分布广泛,整合子在细菌耐药中发挥作用。     

污水厂产超广谱β内酰胺酶大肠杆菌通过接合水平传递耐药性

【目的】研究废水中产超广谱β-内酰胺酶大肠杆菌中可移动质粒在耐药基因水平传播机制中的作用。【方法】对污水厂分离所得的50株产ESBLs大肠杆菌进行接合试验,并对所得的接合子采用纸片扩散法测定其对15种常见药物的耐药表型,针对质粒介导的产ESBLs菌株的耐药基因设计7对特异性引物对接合子进行PCR扩增。【结果】研究结果显示,80份水样分离得50株产ESBLs大肠杆菌,共接合成功35株细菌,接合成功率高达70%。接合子与供体菌相比,均发生耐药谱型的改变,且存在丢失一种或几种药物耐药性且产生另一种或几种药物耐药性的现象。PCR扩增结果显示,接合子与供体菌相比,耐药基因型有所减少或不变,bla_(TEM)、bla_(CTX-M)基因全部接合成功,bla_(SHV)基因仅1株未接合成功,耐氟喹诺酮类基因未发生转移。【结论】本研究表明,不同的耐药基因可能位于不同的可移动质粒上,可移动质粒在大肠杆菌耐药性水平传播的过程中起到了十分重要的作用。     

江苏部分地区食源性和人源沙门氏菌的多重耐药性研究

从江苏省部分地区收集了117个沙门氏菌分离株,其中食物源和人源菌株分别有81株和36株。16种抗生素敏感性试验表明,有111个分离株对2种或2种以上的抗生素有耐药性,人源沙门氏菌分离株的抗生素耐药率比食物源的高,单一抗生素以链霉素耐药率(92.3%,108/117)最高。对5种或5种以上抗生素耐药的分离株有59株(50.4%),其中对特定六种抗生素:氨苄青霉素、氯霉素、链霉素、磺胺、四环素和卡那霉素耐药(ACSSuTK,R型)的菌株有12株。设计18对耐药基因和I类整合子保守区的引物,对36株有不同来源和耐药特征的多重耐药菌株进行耐药基因和I类整合子的检测,PCR扩增结果与抗生素敏感性表型一致。有30株细菌携带有I类整合子,大小为0.3、0.6、1.0、1.2和1.6kb,其中1.6kb(aadA5-dfr17)大小的整合子在25株细菌中分布(24/36)。接合试验表明,氨苄青霉素、氯霉素、链霉素、甲氧苄氨嘧啶和四环素的耐药特性是由接合性质粒携带。结果显示,耐药基因多数由I类整合子和质粒携带,可以通过接合试验发生转移,可移动的DNA成分可能在耐药特性的转移和分布中起到重要作用。     

整合子与多重耐药大肠埃希菌相关性研究

目的探讨整合子在多重耐药大肠埃希菌耐药性中的作用。方法对临床分离的93株多重耐药大肠埃希菌的I、Ⅱ型整合酶基因进行检测,并分析药敏结果。结果多重耐药临床分离株中Ⅰ型整合子阳性率为60.2%。所检出整合子共有3种长度即1000、1600和2000 bp;主要携带aadA和dfrA类基因盒;未检出Ⅱ型整合子。结论整合子形成是细菌产生多重耐药的重要原因。     

I类整合子与产ESBLs肺炎克雷伯菌多重耐药关系的研究

目的了解产ESBLs肺炎克雷伯菌的整合子存在状况。方法用PCR方法扩增Ⅰ类整合酶基因,经电泳后检测扩增产物。结果72株产ESBLs肺炎克雷伯菌中检测出Ⅰ类整合子67株,检出率为93．0％,Ⅰ类整合子阳性菌对氨基糖苷类、喹诺酮类及头孢菌素类药物表现出较高的耐药,其多重耐药率明显高于Ⅰ类整合子阴性菌株（P〈0．05）。结论Ⅰ类整合子广泛地存在产ESBLs肺炎克雷伯菌中,Ⅰ类整合子对细菌多重耐药性的产生和传播起着重要作用。     

禽源多重耐药金黄色葡萄球菌耐药基因检测及分子分型

【背景】金黄色葡萄球菌是革兰氏阳性菌,在动物和人身上能引起一系列疾病。【目的】了解安徽省不同地区禽源多重耐药金黄色葡萄球菌耐药性的情况及基因分型特征。【方法】以安徽不同地区的病禽肝脏作为标本,分离鉴定得到103株多重耐药金黄色葡萄球菌,并进行耐药基因型检测和ERIC-PCR分子分型。【结果】耐药菌株从三重到八重耐药均有分布,主要集中在五重(43/103)、四重(21/103)和六重耐药(22/103)。药敏结果显示,β-内酰胺类的耐药率最高(79.6%),氨基糖苷类次之(71.8%)。耐药基因检出率由高到低分别为mec A(92.2%)、aac(6′)/aph(2″)(76.7%)、ermC(37.9%)、ermA(13.6%)和fem A(3.9%)。ERIC-PCR分子分型获得6种不同类群,优势流行菌群为类群Ⅱ(38/103)。【结论】安徽地区金黄色葡萄球菌存在较严重的耐药性,氨基糖苷类、β-内酰胺类和大环内酯类抗生素的耐药基因携带率较高。分型结果表明安徽部分区域耐药金黄色葡萄球菌具有遗传多样性,但耐药谱与ERIC-PCR分子分型无明显关联。     

Genetics of antagonistic action and drug resistance inLactobacillus acidophilus

Lactobacillus acidophilus has been recommended as a dietary adjunct because of its antagonistic action toward intestinal pathogens and anti-carcinogenic and hypocholesterolemic activities. ManyL. acidophilus strains harbour plasmids and such strains generally produce bacteriocin(s). Resistance to antibiotics has also been shown to be linked with plasmids. Gene transfer and cloning systems are being developed forL. acidophilus which should permit the rapid genetic characterization of desired species and their modification to obtain predetermined traits. Drug resistance determinants and production of antibiotic-like substances may serve as suitable markers for the study and development of these genetic systems. Recent developments in gene transfer systems have been reviewed here.     

Characterization of induced resistance in tomato plants

We have characterized, using several types of bioassays, the resistance induced in young tomato plants by feeding of the corn earworm, Helicoverpa zea. Beet armyworm larvae, Spodoptera exigua, and leafminers, Liriomyza trifolii, were used to assay the induced resistance. In whole-plant experiments, damage localized to a single leaflet of fourleaf tomato plants induced a systemic increase in resistance such that beet armyworm larvae confined to previously damaged (induced) plants grew at a rate about half that of larvae raised on control plants and consumed less leaf tissue from induced plants than from control plants. In experiments using excised leaves, beet armyworm larvae suffered increased mortality when reared on leaves from induced plants. The strength of this induced resistance varied spatially relative to the damaged position; moreover, the spatial distribution of induced resistance changed over a three-week period following damage. Other experiments demonstrated that the mechanisms of induced resistance in tomato foliage involves both a decrease in larval preference for and a decrease in the nutritional value of induced foliage. Induction also retarded the oviposition and/or early development of leafminers. Thus, induced resistance has relatively severe effects on the biology of subsequent herbivores. These data should allow us to begin to elucidate cause-effect relationships between induced resistance and induced chemistry in tomato plants.     

Identification of an arsenic resistance mechanism in rhizobial strains

Arsenic (As) is a very toxic metalloid to a great number of organisms. It is one of the most important global environmental pollutants. To resist the arsenate invasion, some microorganisms have developed or acquired genes that permit the cell to neutralize the toxic effects of arsenic through the exclusion of arsenic from the cells. In this work, two arsenic resistance genes, arsA and arsC, were identified in three strains of Rhizobium isolated from nodules of legumes that grew in contaminated soils with effluents from the chemical and fertilizer industry containing heavy-metals, in the industrial area of Estarreja, Portugal. The arsC gene was identified in strains of Sinorhizobium loti [DQ398936], Rhizobium leguminosarum [DQ398938] and Mesorhizobium loti [DQ398939]. This is the first time that arsenic resistance genes, namely arsC, have been identified in Rhizobium leguminosarum strains. The search for the arsA gene revealed that not all the strains with the arsenate reductase gene had a positive result for ArsA, the ATPase for the arsenite-translocating system. Only in Mesorhizobium loti was the arsA gene amplified [DQ398940]. The presence of an arsenate reductase in these strains and the identification of the arsA gene in Mesorhizobium loti, confirm the presence of an ars operon and consequently arsenate resistance.     

A detailed linkage map around an apple scab resistance gene demonstrates that two disease resistance classes both carry the V f gene

A detailed genetic map has been constructed in apple (Malus x domestica Borkh.) in the region of the v _f gene. This gene confers resistance to the apple scab fungus Venturia inaequalis (Cooke) Wint. Linkage data on four RAPD (random amplified polymorphic DNA) markers and the isoenzyme marker PGM-1, previously reported to be linked to the v _f gene, are integrated using two populations segregating for resistance to apple scab. Two new RAPD markers linked to v _f (identified by bulked segregant analysis) and a third marker previously reported as being present in several cultivars containing v _f are also placed on the map. The map around v _f now contains eight genetic markers spread over approximately 28 cM, with markers on both sides of the resistance gene. The study indicates that RAPD markers in the region of crab apple DNA introgressed with resistance are often transportable between apple clones carrying resistance from the same source. Analysis of co-segregation of the resistance classes 3A (weakly resistant) and 3B (weakly susceptible) with the linked set of genetic markers demonstrates that progeny of both classes carry the resistance gene.This work was supported in part by grants from the New Zealand Foundation for Research Science and Technology (FoRST) Programme 94-HRT-07-366 and ENZA New Zealand (International)     

Mechanism of natural rifampin resistance of Streptomyces spp

In a previous phylogenetic study of the genus Streptomyces using the rpoB gene, N531, which stands for an aspargine residue in position 531 of RpoB instead of serine (S531), known to be associated with natural rifampin resistance in several organisms, was also observed in the RpoB of several Streptomyces species. To determine whether N531 is associated with the rifampin resistance of Streptomyces strains, we analyzed the rifampin minimum inhibitory concentrations (MICs) of 11 strains of the N531 RpoB type (putative rifampin resistant strains) and of 12 strains of the S531 RpoB type. (putative rifampin susceptible strains). In general, the N531 RpoB types showed higher MIC levels (16-128 microg/ml) than the S531 RpoB types (0-8 microg/ml). To determine the isolation frequencies of N531 RpoB types versus rifampin concentration, we applied screening methods involving different rifampin concentrations (0, 20 and 100 microg/ml) to Korean soils. Higher isolation frequencies of the N531 RpoB types were observed at the higher rifampin concentrations. In addition, during the course of this study we developed an allele specific PCR method to detect rifampin resistant Streptomyces strains. Our results strongly suggested that N531 might be involved in a major mechanism of natural rifampin resistance in strains of the genus Streptomyces.     

Chromosome-encoded inducible copper resistance inPseudomonas strains

NinePseudomonas strains were selected by their high copper tolerance from a population of bacteria isolated from heavy-metal polluted zones. Copper resistance (Cu ^r ) was inducible by previous exposure of cultures to subinhibitory amounts of copper sulfate. All nine strains possessed large plasmids, but transformation and curing results suggest that Cu ^r is conferred by chromosomal genes. Plasmid-lessPseudomonas aeruginosa PAO-derived strains showed the same level of Cu ^r as environmental isolates and their resistance to copper was also inducible. Total DNA from the environmentalPseudomonas, as well as fromP. aeruginosa PAO strains, showed homology to a Cu ^r P. syringae cop probe at low-stringency conditions but failed to hybridize at high-stringency conditions.     

Water balance and resistance to desiccation in rock-dwelling snails

We have examined the resistance to desiccation among rock-dwelling land snails of various phylogenetic groups:Cristataria genezarethana (Clausiliidae),Rupestrella rhodia (Chondrinidae) andLevantina caesareana (Helicidae), all from the same location in Israel.L. caesareana was the most resistant andR. rhodia the least resistant to desiccation andC. genezarethana was of intermediate resistance. Differences in the rates of water loss during desiccation were determined mainly by rate of water loss during the first 2 days of desiccation. The high rates of water loss in rock-dwelling species exceed those of other snails in the Mediterranean habitat of Israel. However, snails collected in the field at the end of aestivation were in only a mild state of dehydration, suggesting that the rocky habitat protects its occupants against desiccation. We also suggest that among the rock-dwelling species, the protective role of the rock is more important in the more evolutionarily primitive genera (the chondrinidRupestrella and the clausiliidCristataria) and that physiological capacities are more effective in the more highly evolved helicidLevantina.     

Engineering 2,4-D resistance into cotton

Summary To reduce damage by drift-levels of the herbicide 2,4-dichlorophenoxyacetic acid, we have engineered the 2,4-D resistance trait into cotton (Gossypium hirsutum L.). The 2,4-D monooxygenase gene tfdA from Alcaligenes eutrophus plasmid pJP5 was isolated, modified and expressed in transgenic tobacco and cotton plants. Analyses of the transgenic progeny showed stable transmission of the chimeric tfdA gene and production of active 2,4-D monooxygenase. Cotton plants obtained were tolerant to 3 times the field level of 2,4-D used for wheat, corn, sorghum and pasture crops.     

Inheritance of resistance to bacterial blight in common bean

Summary Inheritance of resistance to common bacterial blight in the trifoliate leaf, plant canopy, and pods was controlled by a single major gene. Additive followed by dominance effects were more important than epistatic interactions. Narrow-sense heritability values ranged from 0.18 to 0.87 for trifoliate leaf, from 0.26 to 0.76 for canopy, and from 0.11 to 0.36 for pods. Observed gains from selection for resistance were higher than expected gains. Implications of these results in breeding for resistance are discussed.