Cloning and characterization of a novel gene（C17orf25）from the deletion region on chromosome 17p13.3 in hepatocelular carcinoma

INTRODUCTIONLoss of heterozygosity (LOH) at chromosoma1loci associated with tumor suppressor genes has beenimplicated in the genesis of many types of humanmalignancies. On the basis of frequent LOH in tu-mors, coupled with linkage analysis in some heredi-tary cancer syndromes, a number of tumor suppres-sor genes, such as RB[l], DCC[2], NF2[3], VHLI4],MTh1[5], DML/OM1[6], and PrsN/rmC1[7l have been successively isolated.It has beell reported that LOH occurred at l7p invarious ty…     

Mapping of the KHSRP gene to a region of conserved synteny on human chromosome 19p13.3 and mouse chromosome 17

The K homology-type splicing regulatory protein, KSRP, activates splicing through intronic splicing enhancer sequences. It is highly expressed in neural cells and is required for the neural-specific splicing of the c-src N1 exon. In this study, we mapped the gene (gene symbols KHSRP and Khsrp) to human chromosome 19 by using radiation hybrid panels and to mouse chromosome 17 by studying an interspecific backcross panel. Human KHSRP is a positional candidate gene for familial febrile convulsion and Cayman type cerebellar ataxia. Comparative analysis of the human and mouse genomes indicates that the KHSRP gene is located in regions of conserved synteny between the two species.     

人类恶性肿瘤中染色体17p13.3区带的杂合性丢失

人类恶性肿瘤中经常发生染色体染合性丢失,从而丢失抑癌基因的某一个等基因。人类１７号染色本特别是该色体的１７ｐ１３．３区带,在多种肿瘤中都存在着染色的体杂支失。     

C18orf2, a novel, highly conserved intronless gene within intron 5 of the GNAL gene on chromosome 18p11

We have characterized a novel intronless human gene (C18orf2) which is embedded in intron 5 of the G-protein gene (GNAL) on chromosome 18p11. This gene codes for a 199 amino acid polypeptide with a predicted molecular weight of 22.1 kDa. It is highly homologous to a number of predicted developmental proteins in organisms ranging from yeasts to Drosophila. C18orf2 mRNA was found to be expressed in various tissues.     

Resonance assignments of human C35 (C17orf37) protein, a novel tumor biomarker

A new tumor-specific target, termed C35 (C17orf37), has been identified by representational difference analysis of tumor and normal human mammary cell lines. C35 protein is considered to be an important target for cancer therapy, since the over expression of C35 functionally enhances migration and invasion of tumor cells. Here we report the NMR resonance assignments of C35 protein for further structural determination and functional studies.     

Identification and characterization of C6orf37, a novel candidate human retinal disease gene on chromosome 6q14

We have identified a novel human gene, chromosome 6 open reading frame 37 (C6orf37), that is expressed in the retina and maps to human chromosome 6q14, a genomic region that harbors multiple retinal disease loci. The cDNA sequence contains an open reading frame of 1314 bp that encodes a 437-amino acid protein with a predicted molecular mass of 49.2 kDa. Northern blot analysis indicates that this gene is widely expressed, with preferential expression observed in the retina compared to other ocular tissues. The C6orf37 protein shares homology with putative proteins in R. norvegicus, M. musculus, D. melanogaster, and C. elegans, suggesting evolutionary conservation of function. Additional sequence analysis predicts that the C6orf37 gene product is a soluble, globular cytoplasmic protein containing several conserved phosphorylation sites. Furthermore, we have defined the genomic structure of this gene, which will enable its analysis as a candidate gene for chromosome 6q-associated inherited retinal disorders.     

Cloning and expression of a novel human C5orf12 gene,a member of the TMS_TDE family

We report here cloning and characterization of a novel human gene, termed C5orf12, which is a putative membrane protein belonging to the TMS_TDE family. The cDNA encodes 42 animo acid with a putative molecular weight of about 47 KDa. Secondary structure prediction showed that C5orf12 contained 10 putative transmembrane helices, which has high identity with other family members. We performed RT-PCR to examine its expression pattern. The result showed that C5orf12 was highly expressed in placenta, skeletal muscle, spleen, thymus, testis and peripheral leukocyte while expressed weakly in heart and liver. C5orf12 has high identity with the rat TPO1, so we speculate that C5orf12 may also have a role in the brain development.     

The novel genetic disorder microhydranencephaly maps to chromosome 16p13.3-12.1

We studied a large consanguineous Anatolian family with children who exhibited hydranencephaly associated with microcephaly. The children were severely affected. This novel genetic disorder is autosomal recessive. We used autozygosity mapping to identify a locus at chromosome 16p13.3-12.1; it has a LOD score of 4.11. The gene locus is within a maximal 11-cM interval between markers D16S497 and D16S672 and within a minimal critical region of 8 cM between markers D16S748 and D16S490.     

PALML, a novel paralemmin-related gene mapping on human chromosome 1p21.

We describe PALML, a novel gene encoding a 551 amino acid protein with similarity to paralemmin and the paralemmin-like amino terminal domain of AKAP2, a protein kinase A anchor protein. PALML mRNA is expressed in many tissues and is most abundant in cardiac and skeletal muscle, while absent from brain and blood. Exogenously expressed PALML fusion protein has a widespread cytoplasmic localization, and it is excluded from the nucleus. Human PALML maps on human chromosome 1p21 (between D1S2767 and D1S223). SSCP-HD analysis of exonic sequences in patients with VUR (familial non-syndromic vesicoureteral reflux syndrome) excluded mutations in the PALML gene from causing this disease. PALML, paralemmin and AKAP2 share the presence of a conserved coiled coil region that may mediate protein interactions with shared partners. Based on its resemblance to paralemmin and AKAP2, PALML is hypothesized to be involved in regulating intracellular signaling and membrane-cytoskeletal interactions.     

Localization of the human UbB polyubiquitin gene to chromosome band 17p11.1-17p12.

The chromosomal location of the human ubiquitin genes has been evaluated by in situ hybridization. Because of the conservation of the ubiquitin sequence, coding-region probes cannot distinguish between specific ubiquitin genes and reveal ubiquitin sequences in a number of different chromosomal regions. The major sites of hybridization with a coding-region probe include 17p11.1-p12, 12p24.2-q24.32, and 2q21-q24, with weaker hybridization over 1p3, 1q4, 2q3, and 13q. Hybridization with a probe isolated from the UbB gene intron indicated that this gene is located within the region 17p11.1-17p12. This region showed the strongest hybridization with the coding-region probe and is presumably also the location of the duplicated UbB pseudogene.