Searching the human genome database for novel relaxin- and insulin-like peptides

Summary In recent times, new members of the insulin/relaxin peptide superfamily have been identified by both differential cloning strategies as well as bioinformatic searching of the EST databases. We have used the public and Celera Genomics databases to search for novel members of this peptide family. No new members of the insulin/relaxin family were identified although the human (H3) and mouse (M3) relaxin 3 genes that we recently discovered in the Celera Genomics database were identified in the public database. We were able to confirm that there are no mouse equivalents of human INSL-4 or human gene 1 relaxin. Hence, as the two human relaxin genes (H1 and H2) are localized together with INSL6 and INSL4 on chromosome 9 it is probable that INSL4 and H1 relaxin are the result of a gene duplication which did not occur in non-primates. The discovery of a full relaxin 3 sequences in a new Zebrafish brain EST library, which retains a high homology in both A and B chain peptide sequence with the H3 peptide, indicate that this novel peptide has important conserved functions.     

Members of a novel gene family, Gsdm, are expressed exclusively in the epithelium of the skin and gastrointestinal tract in a highly tissue-specific manner

Gasdermin (Gsdm) was originally identified as a candidate causative gene for several mouse skin mutants. Several Gsdm-related genes sharing a protein domain with DFNA5, the causative gene of human nonsyndromic hearing loss, have been found in the mouse and human genomes, and this group is referred to as the DFNA5-Gasdermin domain family. However, our current comparative genomic analysis identified several novel motifs distinct from the previously reported domain in the Gsdm-related genes. We also identified three new Gsdm genes clustered on mouse chromosome 15. We named these genes collectively the Gsdm family. Extensive expression analysis revealed exclusive expression of Gsdm family genes in the epithelium of the skin and gastrointestinal tract in a highly tissue-specific manner. Further database searching revealed the presence of other related genes with a similar N-terminal motif. These results suggest that the Gsdm family and related genes have evolved divergent epithelial expression profiles.     

Gene expression profile of human bone marrow stromal cells: high-throughput expressed sequence tag sequencing analysis

Human bone marrow stromal cells (HBMSC) are pluripotent cells with the potential to differentiate into osteoblasts, chondrocytes, myelosupportive stroma, and marrow adipocytes. We used high-throughput DNA sequencing analysis to generate 4258 single-pass sequencing reactions (known as expressed sequence tags, or ESTs) obtained from the 5' (97) and 3' (4161) ends of human cDNA clones from a HBMSC cDNA library. Our goal was to obtain tag sequences from the maximum number of possible genes and to deposit them in the publicly accessible database for ESTs (dbEST of the National Center for Biotechnology Information). Comparisons of our EST sequencing data with nonredundant human mRNA and protein databases showed that the ESTs represent 1860 gene clusters. The EST sequencing data analysis showed 60 novel genes found only in this cDNA library after BLAST analysis against 3.0 million ESTs in NCBI's dbEST database. The BLAST search also showed the identified ESTs that have close homology to known genes, which suggests that these may be newly recognized members of known gene families. The gene expression profile of this cell type is revealed by analyzing both the frequency with which a message is encountered and the functional categorization of expressed sequences. Comparing an EST sequence with the human genomic sequence database enables assignment of an EST to a specific chromosomal region (a process called digital gene localization) and often enables immediate partial determination of intron/exon boundaries within the genomic structure. It is expected that high-throughput EST sequencing and data mining analysis will greatly promote our understanding of gene expression in these cells and of growth and development of the skeleton.     

Localization of retina/pineal-expressed sequences: identification of novel candidate genes for inherited retinal disorders.

More than 100 genes causing inherited retinal diseases have been mapped to chromosomal locations, but less than half of these genes have been cloned. Mutations in many retina/pineal-specific genes are known to cause inherited retinal diseases. Examples include mutations in arrestin, rhodopsin kinase, and the cone-rod homeobox gene, CRX. To identify additional candidate genes for inherited retinal disorders, novel retina/pineal-expressed EST clusters were identified from the TIGR Human Gene Index database and mapped to specific chromosomal sites. After known human gene sequences were excluded, and repeat sequences were masked, 26 novel retina and pineal gland cDNA clusters were identified. The retinal expression of each novel EST cluster was confirmed by PCR assay of a retinal cDNA library, and each cluster was localized in the genome using the GeneBridge 4.0 radiation hybrid panel. In silico expression data from the TIGR database suggest that these EST clusters are retina/pineal-specific or predominantly expressed in these tissues. This combination of database analysis and laboratory investigation has localized several EST clusters that are potential candidates for genes causing inherited retinopathy.     

表达序列标签数据库搜索鉴定小鼠UBAP1基因及其数字化表达分析

UBAP1(ubiquitin associated protein 1)基因是最近克隆的一个定位于人类染色体9p21-22鼻咽癌杂合性丢失高频区的泛肽相关蛋白家族新成员.为了深入研究UBAP1基因的功能,利用计算机对表达序列标签(expressed sequence tag, EST)、UniGene等数据库进行综合搜索分析,结合cDNA克隆测序的方法, 成功地获得了UBAP1基因在小鼠中的同源基因.小鼠UBAP1基因cDNA全长为2 676 bp,编码一个由441个氨基酸组成的蛋白质,在其蛋白质C端只有一个泛肽相关功能域（UBA domain）.与人UBAP1基因相比,两者编码的氨基酸序列有89%相同.基于EST的数字化表达分析显示UBAP1基因在小鼠正常组织中广泛高表达.     

Cloning and Expression Analysis of a Murine Novel Gene, Ayu17-449

We used gene trapping vector PU8 to search some interesting genes which play important roles in mouse development from murine ES cells. One positive ES colony termed Ayu17-449 was trapped. Its partial cDNA was obtained by using 5′ RACE method. It is homologous to a 5523 bp cDNA fragment (GI: 20879412) in EST database. Further analysis of the 5523 bp cDNA sequence in Celera mouse gene database showed that it overlaps two genes. We designed serials of DNA primers according to the mRNAs of these two genes for RT-PCR and Northern blotting analysis, and identified a novel RNA about 9 kb (we named it as Ayu17-449) encoding 1920 aa. This gene is expressed highly in the brain, kidney, heart, lung, muscle and stomach. The expressed protein contains a Granin motif on its N-terminus, showing that this gene may be involved in hormone secretion.     

分析EST寻找小鼠胸腺基质细胞表达基因

网上生物信息量的膨胀导致新基因寻找手段的改变,借助mRNA差异显示技术获得的17个表达序列标签（EST）,通过对美国国家生物技术信息中心（NCBI）的非冗余序列库（NT）和小鼠EST库的BLAST同源检索,发现有4个序列与已知基因高度同源,其中的HDPs和Eps8两个基因是首次在小鼠胸腺基质细胞中发现,它们可能与T细胞在胸腺内的发育分化有关,其它EST则为新基因,本结果也为下一步新基因的克隆及功能研究提供了有益的线索。     

Searching the human genome database for novel relaxin- and insulin-like peptides

In recent times, new members of the insulin/relaxin peptidesuperfamily have been identified by both differential cloningstrategies as well as bioinformatic searching of the ESTdatabases. We have used the public and Celera Genomicsdatabases to search for novel members of this peptide family.No new members of the insulin/relaxin family were identifiedalthough the human (H3) and mouse (M3) relaxin 3 genes that werecently discovered in the Celera Genomics database wereidentified in the public database. We were able to confirmthat there are no mouse equivalents of human INSL4 or humangene 1 relaxin. Hence, as the two human relaxin genes (H1 andH2) are localized together with INSL6 and INSL4 on chromosome9 it is probable that INSL4 and H1 relaxin are the result of agene duplication which did not occur in non-primates. Thediscovery of a full relaxin 3 sequences in a new Zebrafishbrain EST library, which retains a high homology in both A andB chain peptide sequence with the H3 peptide, indicate thatthis novel peptide has important conserved functions.     

Digital cloning: Identification of human cDNAs homologous to novel kinases through expressed sequence tag database searching

Identification of novel kinases based on their sequence conservation within kinase catalytic domain has relied so far on two major approaches, low-stringency hybridization of cDNA libraries, and PCR method using degenerate primers. Both of these approaches at times are technically difficult and time-consuming. We have developed a procedure that can significantly reduce the time and effort involved in searching for novel kinases and increase the sensitivity of the analysis. This procedure exploits the computer analysis of a vast resource of human cDNA sequences represented in the expressed sequence tag (EST) database. Seventeen novel human cDNA clones showing significant homology to serine/threonine kinases, including STE-20, CDK- and YAK-related family kinases, were identified by searching EST database. Further sequence analysis of these novel kinases obtained either directly from EST clones or from PCR-RACE products confirmed their identity as protein kinases. Given the rapid accumulation of the EST database and the advent of powerful computer analysis software, this approach provides a fast, sensitive, and economical way to identify novel kinases as well as other genes from EST database.     

小鼠新基因Ayu17-449的克隆及表达分析

在利用PU8捕获载体从小鼠ES细胞中寻找有关对发育起重要作用基因时,一阳性ES克隆编号为Ayu17-449被捕获,经过Southern blotting法证实捕获载体单一整合在Ayu17-449号ES细胞的基因组中。通过用5＇RACE法得到所捕获基因的一小段cDNA,在EST数据库中比对,得到一5523bp cDNA序列,在Celera数据库中它包含于两个相邻基因,根据这两个基因的mRNA设立了一系列的引物进行RT-PCR和测序,用这两个基因的不同片段分别作探针进行Northern blotting分析,确定这是一个RNA约9kb并编码1920个氨基酸的新基因（定名为Ayu17-449基因,其cDNA序列和编码蛋白序列发表在NCBI数据库,编号为DQ079067）。Northern blotting揭示Ayu17-449基因高度表达在小鼠的脑、肾脏、心脏、肺、肌肉和胃等组织。PU8捕获载体具有X-gal报告基因,能从蛋白表达水平揭示它所捕获的基因的表达模式。X-gal染色结果显示,Ayu17-449蛋白高度表达在小鼠的脑、肾脏、心脏等组织,与Northern blotting法的结果高度一致。X-gal染色切片结果进一步证明Ayu17-449蛋白主要表达在脑的神经细胞和肾脏近曲小管细胞中。Ayu17-449基因的编码蛋白在数据库（Scansite,http：//scansite．mit．edu/）做功能基团分析后,揭示其编码蛋白的N末端含有Granin基团,大量文献证实Granin基团具有参与激素的分泌的功能,显示Ayu17-449基因可能与激素的分泌有关。