生物技术通讯
生物技術通訊
생물기술통신
LETTERS IN BIOTECHNOLOGY
2013年
2期
173-177
,共5页
郑芸芸%周艳荣%吴晓洁%林艳丽%熊福银%李力%陈红星
鄭蕓蕓%週豔榮%吳曉潔%林豔麗%熊福銀%李力%陳紅星
정예예%주염영%오효길%림염려%웅복은%리력%진홍성
牛αS1 酪蛋白%人溶菌酶%杂合基因座%缺口修复技术
牛αS1 酪蛋白%人溶菌酶%雜閤基因座%缺口脩複技術
우αS1 락단백%인용균매%잡합기인좌%결구수복기술
bovine αS1-casein%human lysozyme%hybrid locus%gap repair method
目的:构建一个牛αS1酪蛋白调控序列指导人溶菌酶(hLYZ)基组序列的杂合基座.方法:采用本实验室发明的连续3步缺口修复技术.将6个无痕连接的同臂插入以 pBR322为载体的骨架中,构成能进行3次连续基抓捕的载体,利用 Red 同重组系统介导的缺口修复技术,分别抓捕牛αS1酪蛋白3'端调控序列(9 kb)、hLYZ 基座序列(5 kb)、牛αS1酪蛋白5'端调控序列(20 kb),使这3个基片段自动无痕地连接在基抓捕载体上,形成牛αS1酪蛋白-hLYZ 杂合基座.结果:实验经过 PCR 扩增、限制性内切酶酶切验证和序列测定,验证了 hLYZ 的基组序列对牛αS1酪蛋白编码基组序列的精确置换.结论:这种修复技术为乳腺生物反应器高效表达大载体的制备提供了可行的思路及方法.
目的:構建一箇牛αS1酪蛋白調控序列指導人溶菌酶(hLYZ)基組序列的雜閤基座.方法:採用本實驗室髮明的連續3步缺口脩複技術.將6箇無痕連接的同臂插入以 pBR322為載體的骨架中,構成能進行3次連續基抓捕的載體,利用 Red 同重組繫統介導的缺口脩複技術,分彆抓捕牛αS1酪蛋白3'耑調控序列(9 kb)、hLYZ 基座序列(5 kb)、牛αS1酪蛋白5'耑調控序列(20 kb),使這3箇基片段自動無痕地連接在基抓捕載體上,形成牛αS1酪蛋白-hLYZ 雜閤基座.結果:實驗經過 PCR 擴增、限製性內切酶酶切驗證和序列測定,驗證瞭 hLYZ 的基組序列對牛αS1酪蛋白編碼基組序列的精確置換.結論:這種脩複技術為乳腺生物反應器高效錶達大載體的製備提供瞭可行的思路及方法.
목적:구건일개우αS1락단백조공서렬지도인용균매(hLYZ)기조서렬적잡합기좌.방법:채용본실험실발명적련속3보결구수복기술.장6개무흔련접적동비삽입이 pBR322위재체적골가중,구성능진행3차련속기조포적재체,이용 Red 동중조계통개도적결구수복기술,분별조포우αS1락단백3'단조공서렬(9 kb)、hLYZ 기좌서렬(5 kb)、우αS1락단백5'단조공서렬(20 kb),사저3개기편단자동무흔지련접재기조포재체상,형성우αS1락단백-hLYZ 잡합기좌.결과:실험경과 PCR 확증、한제성내절매매절험증화서렬측정,험증료 hLYZ 적기조서렬대우αS1락단백편마기조서렬적정학치환.결론:저충수복기술위유선생물반응기고효표체대재체적제비제공료가행적사로급방법.
Objective: To generate a hybrid locus that the transcription of human lysozyme(hLYZ) genomic se?quence is directed by the bovine αS1-casein gene locus. Methods: We described here a successive three-step gap repair method of our laboratory invented. The six homologous arms were inserted into pBR322 to construct pBR322-gaprepair vector. The gap repair method mediated by Red recombination system was applied to arrest the 9 kb 3′flanking region of the bovine αS1-casein gene, the 5 kb hLYZ genomic sequence and the 20 kb 5′flank?ing region of the bovine αS1-casein gene. These three DNA fragments were automatically combined together with?out any gap in the gap-repair vector, and a bovine αS1-casein-hLYZ hybrid locus was constructed. Results:Pre?cise replacement of the coding sequence of the bovine αS1-casein with the hLYZ genomic coding sequence. The result was successfully verified by PCR, restriction enzyme digestion and sequencing. Conclusion: This gap repair method provides a purposes of ideas and ways for the construction of large mammary-gland expression vector.
