激光生物学报
激光生物學報
격광생물학보
ACTA LASER BIOLOGY SINICA
2009年
6期
771-776
,共6页
张贝贝%徐琴%黄恩启%刘爱民%郝家胜%朱国萍
張貝貝%徐琴%黃恩啟%劉愛民%郝傢勝%硃國萍
장패패%서금%황은계%류애민%학가성%주국평
变铅青链霉菌%异柠檬酸脱氢酶%活性%辅酶特异性%单体%同源二聚体
變鉛青鏈黴菌%異檸檬痠脫氫酶%活性%輔酶特異性%單體%同源二聚體
변연청련매균%이저몽산탈경매%활성%보매특이성%단체%동원이취체
Streptomyces lividans%isocitrate dehydrogenase%activity%coenzyme specificity%monomer%homodimer
通过同源性引物成功扩增和克隆了变铅青链霉菌(Streptomyces lividans)TK54的异柠檬酸脱氢酶(isocitrate dehydrogenase, IDH) (简称SlIDH)基因icd (GenBank登录号为EU661252).icd的起始密码子为GTG,GC含量为69.55 %,显示了链霉菌基因的高GC含量特征,实现了SlIDH在E.coli中的异源高效表达.0.5 mmol/L的IPTG为最佳诱导条件.SlIDH的分子量约为80 kD.在Mn~(2+)或Mg~(2+)条件下,SlIDH以NADP~+为辅酶时的活性分别为7.94 U/mg及4.00 U/mg,以NAD~+为辅酶时的活性分别为0.58 U/mg及0.27 U/mg,SlIDH更偏爱以NADP~+为辅酶.与不同种属单体IDH的氨基酸序列比对显示,SlIDH与单体IDH的序列一致性均在60 %以上.因此本工作首次以实验性证据初步鉴定了SlIDH为NADP-依赖型单体IDH.本工作为进一步探索单体IDH的结构与功能以及单体IDH与同源二聚体IDH的进化关系奠定了基础.
通過同源性引物成功擴增和剋隆瞭變鉛青鏈黴菌(Streptomyces lividans)TK54的異檸檬痠脫氫酶(isocitrate dehydrogenase, IDH) (簡稱SlIDH)基因icd (GenBank登錄號為EU661252).icd的起始密碼子為GTG,GC含量為69.55 %,顯示瞭鏈黴菌基因的高GC含量特徵,實現瞭SlIDH在E.coli中的異源高效錶達.0.5 mmol/L的IPTG為最佳誘導條件.SlIDH的分子量約為80 kD.在Mn~(2+)或Mg~(2+)條件下,SlIDH以NADP~+為輔酶時的活性分彆為7.94 U/mg及4.00 U/mg,以NAD~+為輔酶時的活性分彆為0.58 U/mg及0.27 U/mg,SlIDH更偏愛以NADP~+為輔酶.與不同種屬單體IDH的氨基痠序列比對顯示,SlIDH與單體IDH的序列一緻性均在60 %以上.因此本工作首次以實驗性證據初步鑒定瞭SlIDH為NADP-依賴型單體IDH.本工作為進一步探索單體IDH的結構與功能以及單體IDH與同源二聚體IDH的進化關繫奠定瞭基礎.
통과동원성인물성공확증화극륭료변연청련매균(Streptomyces lividans)TK54적이저몽산탈경매(isocitrate dehydrogenase, IDH) (간칭SlIDH)기인icd (GenBank등록호위EU661252).icd적기시밀마자위GTG,GC함량위69.55 %,현시료련매균기인적고GC함량특정,실현료SlIDH재E.coli중적이원고효표체.0.5 mmol/L적IPTG위최가유도조건.SlIDH적분자량약위80 kD.재Mn~(2+)혹Mg~(2+)조건하,SlIDH이NADP~+위보매시적활성분별위7.94 U/mg급4.00 U/mg,이NAD~+위보매시적활성분별위0.58 U/mg급0.27 U/mg,SlIDH경편애이NADP~+위보매.여불동충속단체IDH적안기산서렬비대현시,SlIDH여단체IDH적서렬일치성균재60 %이상.인차본공작수차이실험성증거초보감정료SlIDH위NADP-의뢰형단체IDH.본공작위진일보탐색단체IDH적결구여공능이급단체IDH여동원이취체IDH적진화관계전정료기출.
The icd gene (GenBank accession No. EU623595) encoding isocitrate dehydrogenase (IDH) from Streptomyces lividans TK54 (SlIDH) was amplified and cloned using homologous primers. The icd gene start codon is GTG and its GC content is 69.55 % which is consistent with the high-GC characteristics in genes from Streptomyces. SlIDH was overexpressed heterologously in Escherichia coli. The best condition for induction was 0.5 mmol/L IPTG. The molecular weight of SlIDH was about 80 kD. In the presence of Mn~(2+) or Mg~(2+), the SlIDH activity was 7.94 U/mg and 4.00 U/mg using NADP~+ as a coenzyme, respectively. When using NAD~+ as a coenzyme, the SlIDH activity was 0.58 U/mg and 0.27 U/mg, respectively. It indicated that SlIDH much prefers utilizing NADP~+ as its cofactor. The sequence identities between SlIDH and monomeric IDH homologs from various species were all above 60 % based on the comparison of their amino acid sequences. Therefore, these results provide the first experimental evidence that SlIDH is a NADP-dependent monomeric IDH. This work will be a fundament for further investigating the relationships between the structure and function of monomeric IDH and the evolutionary relationships between monomeric IDH and homodimeric IDH.
