Thomasset M, Desplan C, Warembourg M, Perret C
Biochimie. 1986 Jul-Aug;68(7-8):935-40. doi: 10.1016/s0300-9084(86)81056-2.
Cholecalciferol (calcitriol) the active hormonal form of vitamin D induces the synthesis of at least two intracellular calcium-binding proteins (Ka = 10(6) M-1), the cholecalcins (CaBP) in mammals. We used the synthesis of these proteins to study the genomic steroid-like action of vitamin D. The 9 kDa CaBP is mainly concentrated in the duodenum while 28 kDa CaBP is located in the kidney and cerebellum. Complementary DNA copies of rat intestinal 9 kDa CaBP mRNA were cloned in E. coli. The deduced amino acid sequence for 9 kDa CaBP contains two 'EF hand' domains corresponding to calcium-binding sites I and II. The homology observed suggests, after comparison with the structures of other intracellular CaBPs, that rat 9 kDa CaBP mRNA contains the remains of an untranslated calcium-binding site III-like structure seen in 28 kDa CaBP from kidney and cerebellum of rat. Northern blots showed that the cDNA sequence hybridizes to a homogeneous 500-600 nucleotide mRNA species from rat duodenum. Larger mRNA species encoding 28 kDa CaBP were undetectable in rat kidney and cerebellum even under low stringency conditions. These findings demonstrate that there is no cross-hybridization between 9 kDa and 28 kDa CaBP mRNAs, and Southern analysis indicates that there are distinct genes coding for each rat cholecalcin. The cDNA probe was used to analyze the specific 9 kDa CaBP gene expression along the intestine of growing rats and during gestation and fetal development.(ABSTRACT TRUNCATED AT 250 WORDS)
胆钙化醇(骨化三醇)是维生素D的活性激素形式,可诱导哺乳动物体内至少两种细胞内钙结合蛋白(解离常数Ka = 10⁶ M⁻¹)即胆钙化蛋白(CaBP)的合成。我们利用这些蛋白的合成来研究维生素D的基因组类固醇样作用。9 kDa的CaBP主要集中在十二指肠,而28 kDa的CaBP位于肾脏和小脑。大鼠肠道9 kDa CaBP mRNA的互补DNA拷贝被克隆到大肠杆菌中。推导得到的9 kDa CaBP氨基酸序列包含两个对应于钙结合位点I和II的“EF手型”结构域。通过与其他细胞内CaBP的结构比较观察到的同源性表明,大鼠9 kDa CaBP mRNA含有在大鼠肾脏和小脑的28 kDa CaBP中可见的未翻译的类似钙结合位点III结构的残余部分。Northern印迹显示,该cDNA序列与来自大鼠十二指肠的500 - 600个核苷酸的均一mRNA物种杂交。即使在低严谨条件下,在大鼠肾脏和小脑中也检测不到编码28 kDa CaBP的更大mRNA物种。这些发现表明9 kDa和28 kDa CaBP mRNA之间没有交叉杂交,Southern分析表明存在分别编码每种大鼠胆钙化蛋白的不同基因。该cDNA探针用于分析生长中大鼠肠道以及妊娠和胎儿发育期间特定的9 kDa CaBP基因表达。(摘要截断于250字)
