Wdr12, a mouse gene encoding a novel WD-Repeat Protein with a notchless-like amino-terminal domain

The WD-repeat protein family consists of a large group of structurally related yet functionally diverse proteins found predominantly in eukaryotic cells. These factors contain several (4-16) copies of a recognizable amino-acid sequence motif (the WD unit) thought to be organized into a "propeller-like" structure involved in protein-protein regulatory interactions. Here, we report the cloning of a mouse cDNA, referred to as Wdr12, which encodes a novel WD-repeat protein of 423 amino acids. The WDR12 protein was predicted to contain seven WD units and a nuclear localization signal located within a protruding peptide between the third and fourth WD domains. The amino-terminal region shows similarity to that of the Notchless WD repeat protein. Sequence comparisons revealed WDR12 orthologs in various eukaryotic species. Wdr12 seems to correspond to a single-copy gene in the mouse genome, located within the C1-C2 bands of chromosome 1. These data, together with the results of Wdr12 gene expression studies and evidence of in vitro binding of WDR12 to the cytoplasmic domain of Notch1, led us to postulate a function for the WDR12 protein in the modulation of Notch signaling activity.     

A Novel Human Gene (WDR25) Encoding a 7-WD40-Containing Protein Maps on 14q32

Members of the large family of WD-repeat proteins are involved in diverse functions such as RNA-procession, signal transduction, vesicular trafficking, cytoskeletal assembly, and cell cycle control. By large-scale-sequencing analysis of a human fetal brain cDNA library, we isolated a novel human cDNA encoding a 7-WD40-repeat protein. This cDNA is 2004 bp in length and it codes for a 544-amino-acid protein. We term it human WD40-repeat-containing gene 25 (WDR25) and this gene shows significant similarity with human pre-mRNA splicing factor 17. The WDR25 gene is mapped to chromosome 14q32 and contains seven exons. RT-PCR analysis shows that the WDR25 gene is widely expressed in human tissues and the expression levers in heart, muscle, testis, ovary, uterus, and prostate are relatively high.     

人类新基因WDR24的研究初报

WD40家族是一类结构保守、功能复杂的蛋白.目前很多研究显示该家族成员通过参与MAPK信号途径调控细胞内信号转导而影响细胞的基本生命活动.为了鉴定参与细胞生命活动的新基因,运用同源基因克隆法,通过PCR技术扩增获得一个新的人类基因WDR24, 其cDNA全长3 302 bp,2 373 bp长的开放阅读框编码由790个氨基酸残基组成的蛋白质.生物信息学分析表明,WDR24蛋白在进化上高度保守,与其他脊椎动物中的同源蛋白组成了一个功能未知的亚家族.蛋白序列分析显示其中有6个WD40重复序列和1个ERK的停泊位点D-domain.RT-PCR分析表明,该基因在所有被检测的人类胚胎组织中表达.     

Isolation, characterization, and mapping of the mouse and human WDR8 genes, members of a novel WD-repeat gene family

The Trp-Asp (WD) motif has been shown to exist in a number of proteins. Genes containing repeats of the WD motif compose a large gene family associated with a variety of cellular functions and can be divided into a number of functional subfamilies. By means of the differential display method using ttw, a mouse model for the early stage of ectopic ossification, we have identified a novel mouse gene, Wdr8 (WD repeat domain 8), which contains two WD repeats, together with its human orthologue. The human and mouse WDR8 genes encode 460 and 462 amino acids, respectively, with 89% identity, and are expressed in almost all tissues, including bone and cartilage, and in bone-forming cells, including osteoblasts and chondrocytes. Wdr8 expression in cartilage was differentially displayed by stimuli for ectopic ossification in ttw and was observed strongly only at a transition period from hypertrophic to mineralizing stages in ATDC5, a chondrogenic cell line that exhibits endochondral ossification, suggesting a potential role for Wdr8 in the process of ossification. The WDR8 protein is highly conserved among a variety of species, but is distinctly different from other WD-repeat proteins, indicating that it represents a novel subfamily of the WD-repeat gene family.     

人和大鼠自噬相关新基因WIPI- 3 的电子克隆和序列分析

目的：人和大鼠WIPI-3基因的电子克隆和序列分析。方法：综合运用基因电子拼接和比较基因组分析等生物信息学手段进行新基因的电子克隆和注释。通过拼接CR593190、NM 019613和BC00097 cDNA序列获得人WIPI-3 cDNA全长序列,通过拼接EST序列CB727439、CB737031、BF557312、BG663387和预测的CDS获得大鼠WIPI3基因的cDNA序列。结果：成功克隆了人和大鼠自噬相关新基因WIPI-3的cDNA,上述两个新基因序列均得到了人类基因组序列和EST序列的双重支持,另外经RT-PCR验证电子克隆的基因序列也是正确的,而且序列均已被GenBank收录,其编号分别为：AM182326和NM-001039587。其中,人WIPI-3基因修正了目前基因库中注释的WIPI-3序列,而大鼠基因则是国际上首次克隆,井被确定为参考序列。结论：基因电子拼接结合种属同源基因比较分析,可大大提高电子克隆的精确性,这种方法可有效用于新基因的克隆和注释。     

cDNA cloning, characterization and chromosome mapping of the gene encoding human cartilage associated protein (CRTAP)

We have recently isolated and characterized cDNA clones coding for a novel developmentally regulated avian and mouse embryo protein, CASP for Cartilage Associated Protein. Here we describe the isolation and characterization of the gene coding for the human CASP. The comparison of the putative human and mouse protein sequences with the chick sequence revealed an overall high identity (89% and 51%, respectively). Homology search with known DNA and protein sequences showed that CASPs are related to two mammalian nuclear proteins. Here we demonstrate definitively that CASPs are distinct from these nuclear proteins. However, sequence comparison analyses suggest that all of these proteins belong to a new family. In all human tissues examined two CASP mRNA species were detected, whereas a single mRNA and three mRNAs were found in chick and mouse, respectively. The human CASP gene (CRTAP) was assigned to chromosome 3p22 by fluorescence in situ hybridization.     

Identification of a novel secretory leukocyte protease inhibitor-binding protein involved in membrane phospholipid movement

Previous studies have suggested that human salivary secretory leukocyte protease inhibitor (SLPI) inhibits HIV-1 by binding to a host cell surface protein of unknown identity. Using the yeast two-hybrid assay, we identified a gene sequence encoding a novel SLPI-binding protein (SLPI-BP). The 1.5-kb cDNA encodes a 318-amino acid protein with a predicted transmembrane segment near the C-terminus. Sequence analysis revealed that SLPI-BP is the human scramblase protein that is involved in the movement of membrane phospholipids. Co-expression of SLPI and SLPI-BP followed by an S-protein pulldown assay confirmed the specific interaction between these two proteins. Our data represent the first report for the identity of SLPI-BP.     

人类新基因WDR70的克隆及初步研究

运用基于基因组数据库的特定基因同源新基因的克隆策略得到一个人类新基因WDR70 ,该基因编码一个包含 12个WD4 0结构域的蛋白。WDR70的cDNA序列长 2 2 6 6bp ,预测编码蛋白含 6 30个氨基酸 ,理论分子量为 70× 10 3 u ,染色体定位为 17p13.1。以小鼠胚胎为模型进行整体原位杂交 ,结果显示WDR70基因在 8.5d小鼠胚胎中没有表达 ,而在 9.5d和 10 .5d的小鼠胚胎的脑部有特异表达。由此推断该基因对胚胎期脑部的发育有重要的影响。     

Isolation and characterization of a novel gene containing WD40 repeats from the region deleted in velo-cardio-facial/DiGeorge syndrome on chromosome 22q11

Three congenital disorders, cat-eye syndrome (CES), der(22) syndrome, and velo-cardio-facial syndrome/DiGeorge syndrome (VCFS/DGS), result from tetrasomy, trisomy, and monosomy, respectively, of part of 22q11. They share a 1.5-Mb region of overlap, which contains 24 known genes. Although the region has been sequenced and extensively analyzed, it is expected to contain additional genes, which have thus far escaped identification. To understand completely the molecular etiology of VCFS/DGS, der(22) syndrome, and CES, it is essential to isolate all genes in the interval. We have identified and characterized a novel human gene, located within the 1.5-Mb region deleted in VCFS/DGS, trisomic in der(22) syndrome and tetrasomic in CES. The deduced amino acid sequence of the human gene and its mouse homologue contain several WD40 repeats, but lack homology to known proteins. We termed this gene WDR14 (WD40 repeat-containing gene deleted in VCFS). It is expressed in a variety of human and mouse adult and fetal tissues with substantial expression levels in the adult thymus, an organ hypoplastic in VCFS/DGS.