Reiss J, Cohen N, Dorche C, Mandel H, Mendel R R, Stallmeyer B, Zabot M T, Dierks T
Institut für Humangenetik, Göttingen, Germany.
Nat Genet. 1998 Sep;20(1):51-3. doi: 10.1038/1706.
All molybdoenzymes other than nitrogenase require molybdopterin as a metal-binding cofactor. Several genes necessary for the synthesis of the molybdenum cofactor (MoCo) have been characterized in bacteria and plants. The proteins encoded by the Escherichia coli genes moaA and moaC catalyse the first steps in MoCo synthesis. The human homologues of these genes are therefore candidate genes for molybdenum cofactor deficiency, a rare and fatal disease. Using oligonucleotides complementary to a conserved region in the moaA gene, we have isolated a human cDNA derived from liver mRNA. This transcript contains an open reading frame (ORF) encoding the human moaA homologue and a second ORF encoding a human moaC homologue. Mutations can be found in the majority of MoCo-deficient patients that confirm the functional role of both ORFs in the corresponding gene MOCS1 (for 'molybdenum cofactor synthesis-step 1'). Northern-blot analysis detected only full-length transcripts containing both consecutive ORFs in various human tissues. The mRNA structure suggests a translation reinitiation mechanism for the second ORF. These data indicate the existence of a eukaryotic mRNA, which as a single and uniform transcript guides the synthesis of two different enzymatic polypeptides with disease-causing potential.
除固氮酶外,所有钼酶都需要钼蝶呤作为金属结合辅因子。细菌和植物中已鉴定出几种合成钼辅因子(MoCo)所必需的基因。大肠杆菌基因moaA和moaC编码的蛋白质催化MoCo合成的第一步。因此,这些基因的人类同源物是钼辅因子缺乏症(一种罕见的致命疾病)的候选基因。利用与moaA基因保守区域互补的寡核苷酸,我们从肝脏mRNA中分离出了一条人类cDNA。该转录本包含一个编码人类moaA同源物的开放阅读框(ORF)和另一个编码人类moaC同源物的ORF。在大多数钼辅因子缺乏症患者中可发现突变,这证实了两个ORF在相应基因MOCS1(“钼辅因子合成第一步”)中的功能作用。Northern印迹分析仅在各种人类组织中检测到包含两个连续ORF的全长转录本。mRNA结构表明第二个ORF存在翻译重新起始机制。这些数据表明存在一种真核mRNA,它作为单一且统一的转录本指导合成两种具有致病潜力的不同酶多肽。
