遗传学报
遺傳學報
유전학보
ACTA GENETICA SINICA
2005年
11期
1205-1212
,共8页
张文军%李弘剑%李月琴%何华坤%唐冬生%张欣%周天鸿
張文軍%李弘劍%李月琴%何華坤%唐鼕生%張訢%週天鴻
장문군%리홍검%리월금%하화곤%당동생%장흔%주천홍
核酶P(Rnase P)%M1GS%人巨细胞病毒%UL97
覈酶P(Rnase P)%M1GS%人巨細胞病毒%UL97
핵매P(Rnase P)%M1GS%인거세포병독%UL97
Ribonuclease P (RNase P)%M1GS%HCMV%UL97
HCMV UL97基因编码一种蛋白激酶,该酶参与调控病毒DNA的复制和衣壳的形成,且序列异常保守,可作为抗HCMV治疗的重要靶位.基于HCMV UL97 mRNA T3位点附近的序列,设计一段与该位点互补的引导序列(Guide Sequence,GS),并将其与大肠杆菌核酶P催化亚基(M1 RNA)的3′末端共价连接,构建了一种序列特异性的M1GS(M1-T3).体外实验证实,所构建的M1-T3可与UL97 mRNA的T3位点特异性结合并产生有效的切割作用.进一步研究M1-T3的结构与其对底物片段靶向切割活性的关系,结果发现在M1 RNA与GS之间增加一段88核苷酸桥连序列的M1-T3(即M1-T3*),其靶向切割活性大大增强.此外,去除M1-T3 3′末端的CCA序列,其靶向切割活性将基本丧失.上述结果表明,这段桥连序列和3′末端的CCA序列是M1-T3 重要的结构元件.这不仅有助于阐明M1GS与其底物的相互作用机制,同时也为进一步评价M1-T3在体内对UL97基因表达及病毒复制的抑制活性奠定了基础.
HCMV UL97基因編碼一種蛋白激酶,該酶參與調控病毒DNA的複製和衣殼的形成,且序列異常保守,可作為抗HCMV治療的重要靶位.基于HCMV UL97 mRNA T3位點附近的序列,設計一段與該位點互補的引導序列(Guide Sequence,GS),併將其與大腸桿菌覈酶P催化亞基(M1 RNA)的3′末耑共價連接,構建瞭一種序列特異性的M1GS(M1-T3).體外實驗證實,所構建的M1-T3可與UL97 mRNA的T3位點特異性結閤併產生有效的切割作用.進一步研究M1-T3的結構與其對底物片段靶嚮切割活性的關繫,結果髮現在M1 RNA與GS之間增加一段88覈苷痠橋連序列的M1-T3(即M1-T3*),其靶嚮切割活性大大增彊.此外,去除M1-T3 3′末耑的CCA序列,其靶嚮切割活性將基本喪失.上述結果錶明,這段橋連序列和3′末耑的CCA序列是M1-T3 重要的結構元件.這不僅有助于闡明M1GS與其底物的相互作用機製,同時也為進一步評價M1-T3在體內對UL97基因錶達及病毒複製的抑製活性奠定瞭基礎.
HCMV UL97기인편마일충단백격매,해매삼여조공병독DNA적복제화의각적형성,차서렬이상보수,가작위항HCMV치료적중요파위.기우HCMV UL97 mRNA T3위점부근적서렬,설계일단여해위점호보적인도서렬(Guide Sequence,GS),병장기여대장간균핵매P최화아기(M1 RNA)적3′말단공개련접,구건료일충서렬특이성적M1GS(M1-T3).체외실험증실,소구건적M1-T3가여UL97 mRNA적T3위점특이성결합병산생유효적절할작용.진일보연구M1-T3적결구여기대저물편단파향절할활성적관계,결과발현재M1 RNA여GS지간증가일단88핵감산교련서렬적M1-T3(즉M1-T3*),기파향절할활성대대증강.차외,거제M1-T3 3′말단적CCA서렬,기파향절할활성장기본상실.상술결과표명,저단교련서렬화3′말단적CCA서렬시M1-T3 중요적결구원건.저불부유조우천명M1GS여기저물적상호작용궤제,동시야위진일보평개M1-T3재체내대UL97기인표체급병독복제적억제활성전정료기출.
A sequence-specific M1GS ribozyme (M1-T3) was constructed by covalently linking an oligonucleotide (guide sequence,GS) to the 3′ terminus of M1 RNA ,the catalytic subunit of RNase P from Escherichia coli.The engineered ribozyme is targeted to the mRNA sequence encoding a protein kinase(UL97)of HCMV and could effectively cleave the mRNA segment in vitro.Further studies about the significance of some structural elements in the M1GS (e.g.the 3′ CCA tail sequence and a bridge sequence between the 3′ terminus of M1 RNA and the 5′ terminus of the GS) were carried out.The results showed that the bridge sequence of 88 nucleotides in a mutated M1GS (i.e.M1-T3*) dramatically increased the cleavage activity to the substrate in vitro.Moreover,the 3′CCA tail sequence was confirmed to be a necessary element for the cleavage activity of M1GS ribozyme.These data we got in the study will help in understanding the interaction between the M1GS RNA and its substrate,and will markedly facilitate the research of a general gene targeting agent for anti-HCMV applications.
