中华实验外科杂志
中華實驗外科雜誌
중화실험외과잡지
CHINESE JOURNAL OF EXPERIMENTAL SURGERY
2010年
4期
452-454
,共3页
邵叶波%许雪峰%戎叶飞%靳大勇
邵葉波%許雪峰%戎葉飛%靳大勇
소협파%허설봉%융협비%근대용
成纤维活化蛋白%真核表达载体
成纖維活化蛋白%真覈錶達載體
성섬유활화단백%진핵표체재체
Fibroblast activation protein%Eukaryotic expression vector
目的 构建小鼠成纤维活化蛋白(FAP)基因的真核表达载体,并检测其在人胚肾细胞及小鼠体内的表达.方法 根据Gene Bank中mFAP基因(NM_007986)全序列设计聚合酶链反应(PCR)引物,获得其开放式阅读框(ORF).将目的基因片段克隆至真核表达载体pcDNA6/myc-His-B,转化并筛选.将重组质粒注射入小鼠尾静脉,在注射后1、3、5、7 d抽提小鼠腓肠肌组织的总RNA,检测FAP表达.结果 经过酶切鉴定、测序比对,确定所筛选的阳性克隆为pcDNA6-mFAP重组子,其可在真核细胞及小鼠体内正常表达,并产生相应蛋白质产物.在小鼠体内注射后第5天,重组子的基因(0.841±0.040)和蛋白表达量(85.380±4.425)%最高,和空白对照组比较差异有统计学意义(P<0.01).结论 成功构建FAP真核表达载体,为研究该基因产物的功能和进行疫苗抗肿瘤实验提供基础.
目的 構建小鼠成纖維活化蛋白(FAP)基因的真覈錶達載體,併檢測其在人胚腎細胞及小鼠體內的錶達.方法 根據Gene Bank中mFAP基因(NM_007986)全序列設計聚閤酶鏈反應(PCR)引物,穫得其開放式閱讀框(ORF).將目的基因片段剋隆至真覈錶達載體pcDNA6/myc-His-B,轉化併篩選.將重組質粒註射入小鼠尾靜脈,在註射後1、3、5、7 d抽提小鼠腓腸肌組織的總RNA,檢測FAP錶達.結果 經過酶切鑒定、測序比對,確定所篩選的暘性剋隆為pcDNA6-mFAP重組子,其可在真覈細胞及小鼠體內正常錶達,併產生相應蛋白質產物.在小鼠體內註射後第5天,重組子的基因(0.841±0.040)和蛋白錶達量(85.380±4.425)%最高,和空白對照組比較差異有統計學意義(P<0.01).結論 成功構建FAP真覈錶達載體,為研究該基因產物的功能和進行疫苗抗腫瘤實驗提供基礎.
목적 구건소서성섬유활화단백(FAP)기인적진핵표체재체,병검측기재인배신세포급소서체내적표체.방법 근거Gene Bank중mFAP기인(NM_007986)전서렬설계취합매련반응(PCR)인물,획득기개방식열독광(ORF).장목적기인편단극륭지진핵표체재체pcDNA6/myc-His-B,전화병사선.장중조질립주사입소서미정맥,재주사후1、3、5、7 d추제소서비장기조직적총RNA,검측FAP표체.결과 경과매절감정、측서비대,학정소사선적양성극륭위pcDNA6-mFAP중조자,기가재진핵세포급소서체내정상표체,병산생상응단백질산물.재소서체내주사후제5천,중조자적기인(0.841±0.040)화단백표체량(85.380±4.425)%최고,화공백대조조비교차이유통계학의의(P<0.01).결론 성공구건FAP진핵표체재체,위연구해기인산물적공능화진행역묘항종류실험제공기출.
Objective To construct a eukaryotic expression system of fibroblast activation protein (FAP) gene and detect its expression. Methods The polymerase chain reaction (PCR) primer was de-signed based on the full sequence of mFAP in GenBank (NM_007986). The mFAP gene was inserted into the eukaryotic expression vector pcDNA6/myc-His-B. The total RNA was extracted and re-transdueted into cDNA from the gastrocnemius on the 1st, 3rd, 5th and 7th day after the vector was inoculated into the tail vein of BALB/C mice. Results The results showed that the positive cloning of mFAP recombinant could express the FAP protein accurately and stably in the eukaryotes, and the biggest amount of FAP gene (0.841±0.040) and protein (85.380 ±4.425)% expression in BALB/C mice appeared on the 5th day, which was significant differ-ence from blank control group (P < 0. 01 ). Conclusion The recombinant eukaryotic expression system has been constructed successfully and accurately.
