华中科技大学学报(医学版)
華中科技大學學報(醫學版)
화중과기대학학보(의학판)
ACTA UNIVERSITATIS MEDICINAE TONGJI
2009年
6期
729-733
,共5页
吴会玲%田德英%陈安群%宋世会%谢琳卡
吳會玲%田德英%陳安群%宋世會%謝琳卡
오회령%전덕영%진안군%송세회%사림잡
铜绿假单胞菌%生物被膜%mucA基因%突变%细菌黏附
銅綠假單胞菌%生物被膜%mucA基因%突變%細菌黏附
동록가단포균%생물피막%mucA기인%돌변%세균점부
Pseudomonas aeruginosa%biofilms%mucA%mutation%adhesion
目的 比较3株铜绿假单胞菌即含新的mucA基因突变的黏液型PA17、mucA基因经典突变的黏液型PD0300、含野生型mucA基因的非黏液型PA01生物被膜早期形成和成熟形态,探讨铜绿假单胞菌纤毛介导的蹭行运动和胞外基质藻酸盐在黏液型及非黏液型铜绿假单胞菌生物被膜形成中的作用.方法 用PAl7、PAO1、PD0300的单菌落穿刺接种1%琼脂糖平板,肉眼观察细菌纤毛介导的蹭行运动,测定细菌运动环评估3株细菌的蹭行运动能力;在生物被膜形成早期采用结晶紫对膜内黏附细菌染色,测定其吸光度(A)值,建立24 h内3株细菌的黏附曲线;建立未饱和铜绿假单胞菌生物被膜模型,检测早期和成熟期的胞外藻酸盐分泌;将含绿色荧光蛋白的pUCP/UV质粒转化3株铜绿假单胞菌,在激光共聚焦显微镜下观察静态生物被膜不同时期的形态和结构.结果 黏液型PA17、非黏液型PAO1菌株蹭行运动的直径小于黏液型PDO300(P<0.05),PA17、PAO1的运动能力弱于PDO300菌株;黏液型PDO300在早期生物被膜形成中黏附能力最强,非黏液型PAO1次之,黏液型PA17最弱;在未饱和生物被膜早期和成熟期黏液型菌株PA17、PDO300藻酸盐合成均明显高于非黏液型菌株PAO1(P<0.05),而PA17和PDO300在生物被膜相同时期的藻酸盐合成无明显差异(P>0.05);激光共聚焦显微镜下PA17菌株在生物被膜形成中,不可逆黏附形成明显迟于非黏液型PAO1和黏液型PDO300,PA17成熟生物被膜形态呈薄膜状,与非黏液型PAO1成熟生物被膜类似;而PDO300不可逆黏附形成早,成熟生物被膜形态呈蘑菇状.结论 纤毛介导的蹭行运动是早期生物被膜形成中黏附的重要方式,可能影响成熟生物被膜的形态;而藻酸盐不是早期黏附的主要决定因素,与成熟生物被膜形态无关.
目的 比較3株銅綠假單胞菌即含新的mucA基因突變的黏液型PA17、mucA基因經典突變的黏液型PD0300、含野生型mucA基因的非黏液型PA01生物被膜早期形成和成熟形態,探討銅綠假單胞菌纖毛介導的蹭行運動和胞外基質藻痠鹽在黏液型及非黏液型銅綠假單胞菌生物被膜形成中的作用.方法 用PAl7、PAO1、PD0300的單菌落穿刺接種1%瓊脂糖平闆,肉眼觀察細菌纖毛介導的蹭行運動,測定細菌運動環評估3株細菌的蹭行運動能力;在生物被膜形成早期採用結晶紫對膜內黏附細菌染色,測定其吸光度(A)值,建立24 h內3株細菌的黏附麯線;建立未飽和銅綠假單胞菌生物被膜模型,檢測早期和成熟期的胞外藻痠鹽分泌;將含綠色熒光蛋白的pUCP/UV質粒轉化3株銅綠假單胞菌,在激光共聚焦顯微鏡下觀察靜態生物被膜不同時期的形態和結構.結果 黏液型PA17、非黏液型PAO1菌株蹭行運動的直徑小于黏液型PDO300(P<0.05),PA17、PAO1的運動能力弱于PDO300菌株;黏液型PDO300在早期生物被膜形成中黏附能力最彊,非黏液型PAO1次之,黏液型PA17最弱;在未飽和生物被膜早期和成熟期黏液型菌株PA17、PDO300藻痠鹽閤成均明顯高于非黏液型菌株PAO1(P<0.05),而PA17和PDO300在生物被膜相同時期的藻痠鹽閤成無明顯差異(P>0.05);激光共聚焦顯微鏡下PA17菌株在生物被膜形成中,不可逆黏附形成明顯遲于非黏液型PAO1和黏液型PDO300,PA17成熟生物被膜形態呈薄膜狀,與非黏液型PAO1成熟生物被膜類似;而PDO300不可逆黏附形成早,成熟生物被膜形態呈蘑菇狀.結論 纖毛介導的蹭行運動是早期生物被膜形成中黏附的重要方式,可能影響成熟生物被膜的形態;而藻痠鹽不是早期黏附的主要決定因素,與成熟生物被膜形態無關.
목적 비교3주동록가단포균즉함신적mucA기인돌변적점액형PA17、mucA기인경전돌변적점액형PD0300、함야생형mucA기인적비점액형PA01생물피막조기형성화성숙형태,탐토동록가단포균섬모개도적층행운동화포외기질조산염재점액형급비점액형동록가단포균생물피막형성중적작용.방법 용PAl7、PAO1、PD0300적단균락천자접충1%경지당평판,육안관찰세균섬모개도적층행운동,측정세균운동배평고3주세균적층행운동능력;재생물피막형성조기채용결정자대막내점부세균염색,측정기흡광도(A)치,건립24 h내3주세균적점부곡선;건립미포화동록가단포균생물피막모형,검측조기화성숙기적포외조산염분비;장함록색형광단백적pUCP/UV질립전화3주동록가단포균,재격광공취초현미경하관찰정태생물피막불동시기적형태화결구.결과 점액형PA17、비점액형PAO1균주층행운동적직경소우점액형PDO300(P<0.05),PA17、PAO1적운동능력약우PDO300균주;점액형PDO300재조기생물피막형성중점부능력최강,비점액형PAO1차지,점액형PA17최약;재미포화생물피막조기화성숙기점액형균주PA17、PDO300조산염합성균명현고우비점액형균주PAO1(P<0.05),이PA17화PDO300재생물피막상동시기적조산염합성무명현차이(P>0.05);격광공취초현미경하PA17균주재생물피막형성중,불가역점부형성명현지우비점액형PAO1화점액형PDO300,PA17성숙생물피막형태정박막상,여비점액형PAO1성숙생물피막유사;이PDO300불가역점부형성조,성숙생물피막형태정마고상.결론 섬모개도적층행운동시조기생물피막형성중점부적중요방식,가능영향성숙생물피막적형태;이조산염불시조기점부적주요결정인소,여성숙생물피막형태무관.
Objective To compare the development and feature of three strains of Pseudomonas aeruginosa containing mucus-type PA17 with the new mucA gene mutation,mutinous PDO300 with the classic mucA gene mutation and non-mucoid PAO1 with wild-type mucA gene,and explore the role of twitching motility mediated by pili and extracellular alginate in Pseudomonas aeruginosa biofilms development.Methods Single colony of PA17,PAO1,PDO300 was inoculated separately in 1% agarose plates,twitch motility mediated by bacterial pili was observed under the naked eye,and the zone of twitch motility was measured to assess the movement of bacteria.The adhesion of bacterium in initial biofilms was detected by crystal violet staining and expressed as absorbance(A) value,and the adhesion curve within 24 h was set up.The alginate was determined in unsaturated biofilms model.pUCP/UV plasmid containing green fluorescent protein was transfected into Pseudomonas aeruginosa,and at the same time confocal laser scanning microscopy was used to observe biofilms formation in static state.The results were statistically analyzed by SPSS12.0.Results The diameters of the zone in mucin-type PA17 and non-mucoid strain PAO1 were less than those of mutinous type PDO300(P<0.05),suggesting the ability to twitch motility by strains PA17 and PAO1 was less than PDO300.PDO300 irreversibly adhered to the abotic surface at first,PAO1 secondly,and PA17 at last.The alginate product of mucoid PA17,PDO300 in unsaturated biofilms was significantly increased as compared with that of nonmucoid PAO1(P<0.05),but there was no significant difference between mucoid PA17 and PDO300(P<0.05).Under the confocal laser scanning microscopy,the formation of irreversible adhesion by mucus-type PA17 was significantly later than non-mucinous.type PAO1 and mucoid PDO300. PA17 slowly shaped into the flat-film features in the mature biofilms,which was similar to PAO1, while mucus-type PDO300 shaped irreversible adhesion at first, and the features of PDO300 biofilms were like as the mushroom. Conclusion Twitching motility plays an important role in early adhesion of biofilms formation and possibly impacts on mature biofilms architecture. The alginate is not a key factor in early adhesion and not related with biofilms feature.
