Shirabe Komei, Kimura Yoshishige, Matsuo Noritaka, Fukushima Mikiko, Yoshioka Hidekatsu, Tanaka Hideaki
Department of Anatomy, Biology and Medicine, Oita University Faculty of Medicine, Hasama-machi, Oita 879-5593, Japan.
Biochem Biophys Res Commun. 2005 Aug 19;334(1):108-16. doi: 10.1016/j.bbrc.2005.06.080.
To isolate cDNAs that are involved in limb-motoneuron development, we compared mRNAs of lumbar and thoracic motoneurons purified from spinal cord of E4 chick embryo by differential display. In situ hybridization demonstrated that one of cDNAs is expressed exclusively in lateral motor column in spinal cord from E4 to E10. We identified two mRNA variants for the cDNA by library screening. The long form (788 amino acids) was identical to chick MN-cadherin. The short variant (543 amino acids) lacks the first two of five extracellular domains of MN-cadherin, which commonly exist in classical cadherins. The amino acid sequence of the short form is identical to that of the carboxyl terminal MN-cadherin, except for the distinct signal sequence. The ratio of mRNA of short form to long form was 1-20. cDNA transfection study revealed that the long form but not the short form MN-cadherin had cell adhesion activity.
为了分离参与肢体运动神经元发育的cDNA,我们通过差异显示比较了从E4鸡胚脊髓中纯化的腰段和胸段运动神经元的mRNA。原位杂交表明,其中一个cDNA仅在E4至E10脊髓的外侧运动柱中表达。我们通过文库筛选鉴定出该cDNA的两种mRNA变体。长形式(788个氨基酸)与鸡MN-钙黏着蛋白相同。短变体(543个氨基酸)缺少MN-钙黏着蛋白五个细胞外结构域中的前两个,这在经典钙黏着蛋白中普遍存在。除了不同的信号序列外,短形式的氨基酸序列与羧基末端MN-钙黏着蛋白的序列相同。短形式与长形式mRNA的比例为1-20。cDNA转染研究表明,长形式而非短形式的MN-钙黏着蛋白具有细胞黏附活性。