Molecular screens for inner ear genes

Identification of the genes that encode proteins that are important for proper function of specific inner ear cell types is central to our understanding of the molecular basis of hearing and balance. Whereas the combination of electrophysiology and biophysics has resulted in an exquisite understanding of inner ear function, little is known about the proteins that confer these properties at the cellular level. Furthermore, the genes that control inner ear development, susceptibility to wear and tear, regeneration from damage, and age-related degeneration, are largely unknown. This review discusses tools that have been developed during the past few years to address this imbalance between a thorough physiologic characterization of inner ear function and a detailed understanding at a molecular level of the proteins involved in these functions. Creation of inner ear cDNA libraries has laid the foundation for the discovery of genes that are specifically expressed by cell types of the inner ear and that encode proteins that are important for molecular processes in these cells. In conjunction with expressed sequence tag database analysis, cDNA subtraction, and DNA arrays, functionally important genes, whose specific expression patterns are usually verified by gene expression analysis, can be identified. Discussion of these techniques takes into account the specific characteristics of the inner ear in relation to its study using molecular biological approaches.     

一类新的编码PRPs基因的分离及其在棉花纤维等组织细胞中的表达

富含脯氨酸的细胞壁蛋白(proline-rich proteins,PRPs)在植物中广泛分布,它们在建造围绕特定细胞类型的细胞壁结构上起着很重要的作用.从棉花的cDNA文库中分离了5个编码富含脯氨酸的细胞壁蛋白质基因,这5个基因推断的氨基酸序列最普遍的特点就是脯氨酸含量非常高.根据氨基酸组成、富含脯氨酸的重复单元和结构域组织的特点,将这5个蛋白质分成2个亚类:一类(包括GhPRP3-6)与典型的PRPs结构相似,由N端疏水区(或信号肽)与不同富含脯氨酸的重复序列组成;另一类(GhPRPL)与典型的PRPs结构不同,这个蛋白质的N端为亲水序列,GhPRPL在靠近C端有8个5肽(类似PPKKE)的重复基序,与典型PRPs所含有的重复序列PPVYK非常相似.实时RT-PCR(Real-time RT-PCR)分析表明,GhPRP3和GhPRP5在10dpa纤维中特异表达,而GhPRPL在子叶中优势表达.GhPRP4和GhPRP6在所分析的组织中都有表达,GhPRP4mRNA在下胚轴中最丰富,在花药中次之,而GhPRP6在10dpa纤维中表达最强,在10dpa胚珠中次之.此外,GhPRP3,GhPRP5基因表达受纤维发育调节,表明它们可能在棉纤维发育中起重要作用.