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.     

Cloning and characterization of the C. elegans histidyl-tRNA synthetase gene.

In this paper, we report the cloning and sequencing of the C. elegans histidyl-tRNA synthetase gene. The complete genomic sequence, and most of the cDNA sequence, of this gene is now determined. The gene size including flanking and coding regions is 2230 nucleotides long. Three small introns (45-50 bp long) are found to interrupt the open reading frame. The open reading frame translates to 523 amino acids. This putative protein sequence shows extensive homology with the human and yeast histidyl-tRNA the histidyl-tRNA synthetase gene is a single copy gene. Hence, it is very likely that it encodes both the cytoplasmic and the mitochondrial histidyl-tRNA synthetases. It is likely to be trans-spliced since it contains a trans-splice site in its 5' untranslated region.     

Neuron navigator: a human gene family with homology to unc-53, a cell guidance gene from Caenorhabditis elegans

We have cloned the gene neuron navigator-1 (NAV1), a human homolog of unc-53, a gene involved in axon guidance in Caenorhabditis elegans. Duplications during evolution gave rise to three human homologs located on chromosomes 1q32.1, 11p15.1, and 12q21.1. NAV1 and NAV2 are expressed in the developing brain. NAV1, NAV2, and NAV3 expression is detected in adult heart, kidney, and brain, respectively. NAV1 encodes a protein lacking, in the aminoterminal part, a CH domain present in the other NAV genes. The first exon of NAV1 arose through an ancient internal duplication of sequences that also gave rise to exon 8 of NAV3 and exon 7 of NAV2. A detailed study of the NAV environment on the different chromosomes reveals incomplete micro-syntheny between the three regions. Through analysis of the phylogenetic relationships for three different gene families in the NAV environment, we reconstructed part of the events that formed these regions.     

Identification of a novel family of human endogenous retroviruses and characterization of one family member, HERV-K(C4), located in the complement C4 gene cluster.

We have identified a novel family of about 10-50 human endogenous retrovirus elements (HERVs) and have characterized one family member (HERV-KC4). This retrovirus element is integrated within intron 9 of and complement C4A genes and also in some C4B genes, and is a principal contribution to interlocus and interallelic length heterogeneity of C4 genes. The HERV-K(C4) sequence has a typical retrovirus structure with elements of gag, pol and env domains, flanked by two long terminal repeats (LTRs) and is similar to type A, B and D retroviruses. Multiple termination codons preclude the existence of long open reading frames, suggesting that the HERV-K(C4) sequence is no longer functional. Zoo blot hybridization reveals that New World monkeys appear to lack sequences similar to HERV-K(C4), suggesting that integration has occurred after the divergence of Old and New World monkeys. Retrotransposition of prototype viruses is presumed to have led to the amplification and integration of the members of the family in different loci, which in humans, appear to be dispersed over several chromosomes. The absence of the HERV-K(C4) element in some C4B genes in both humans and orangutangs indicate that the retrovirus inserted into the C4A gene after the duplication of the cluster. Subsequent spread of the HERV-K(C4) sequence to C4B genes presumably occurred by interlocus sequence exchange mechanisms, such as unequal crossover and gene conversion-like mechanisms.     

Cloning and localization of C2orf2(ropp120), a previously unknown WD repeat protein

Ropp 120 (restrictedly overexpressed proliferation-associated protein) is a cytoplasmic protein of 120 kDa that is significantly overexpressed in mitotic cells. Protein sequencing of the immunoaffinity purified 120-kDa protein showed it to be an as yet unknown protein. DNA sequencing revealed a cDNA sequence of 3419 bases, which includes the complete coding region of ropp120 of 2943 bases (981 amino acids). Analysis of the deduced amino acid sequence showed that ropp 120 contains four WD repeats and a well-conserved consensus sequence of serine proteases. The gene encoding ropp120 (HGMW-approved gene symbol C2orf2) was assigned to chromosome 2p21-p22 by means of radiation hybrid and fluorescence in situ hybridization mapping.     

Cloning and characterization of a novel member of human β-1,4-galactosyltransferase gene family

By using the EST strategy for identifying novel members belonging to homologous gene families, a novel fulklength cDNA encoding a protein significantly homologous to UDP-Gal: N-acetylglucosamine β-1, 4-galactosyltransferase (GalT) was isolated from a human testis cDNA library. A nucleotide sequence of 2 173 bp long was determined to contain an open reading frame of 1 032 nucleotides (344 amino acids). In view of the homology to memben of the galactosyltransferase gene family and especially the closest relationship toGallus gallus GalT type I (CK I), the predicted product of the novel cDNA was designated as human β-1,4-galactosyltransferase homolog I (HumGT-H1). Its mRNA is present in different degrees in 16 tissues examined. Southern analysis of human genomic DNA revealed its locus on chromosome 3. Poject supported by the 863 High-technology Program, the National Outstanding Young Scientist Foundation and the National Natural Science Foundation of China (Grant No. 39680019).     

Cloning and characterization of a novel human TEKTIN1 gene

Tektins comprise a family of filament-forming proteins that are known to be coassembled with tubulins to form ciliary and flagellar microtubules. A new member of the tektin gene family was cloned from the human fetal brain cDNA library. We hence named it the human TEKTIN1 gene. TEKTIN1 cDNA consists of 1375 bp and has a putative open reading frame encoding 418 amino acids. The predicted protein is 48.3 kDa in size, and its amino acid sequence is 82% identical to that of the mouse, rat, and dog. One conserved peptide RPNVELCRD was observed at position number 323–331 of the amino acid sequence, which is a prominent feature of tektins and is likely to represent a functionally important protein domain. TEKTIN1 gene was mapped to the human chromosome 17 by BLAST search, and at least eight exons were found. Northern blot analysis indicated that TEKTIN1 was predominantly expressed in testis. By in-situ hybridization analysis, TEKTIN1 mRNA was localized to spermatocytes and round spermatids in the seminiferous tubules of the mouse testis, indicating that it may play a role in spermatogenesis.     

Cloning and characterization of two mouse genes with homology to the yeast Sir2 gene

The yeast Sir2 gene encodes a protein (Sir2p) that plays an essential role in silencing regulation at mating-type loci, rDNA, and telomeres. Recent studies have also shown that the protein participates in cell cycle regulation, DNA double-strand break repair, meiotic checkpoint control, and histone deacetylation. Overexpression of wildtype Sir2p in yeast resulted in an extended life span but mutant Sir2p shortened the life span, suggesting its function in aging processes. Sir2p is evolutionarily conserved from prokaryotes to higher eukaryotes. However, its function(s) in mammals remains unknown. To investigate Sir2p function(s) in mice, we cloned and characterized two mouse Sir2-like genes. Our results revealed that the two mouse Sir2-like proteins (mSIR2L2 and mSIR2L3) are most similar to the human Sir2-like proteins SIR2L2 and SIR2L3, respectively. Sir2 core domains are highly conserved in the two proteins and yeast Sir2p; however, the intracellular localizations of both mSIR2L2 and mSIR2L3 differ from that of yeast Sir2p and from one another. The two mouse genes have completely different genomic structures but were mapped on the same chromosome. It seems that the two mouse proteins, though they have Sir2 conserved domains, may function differently than yeast Sir2p.     

Cloning of a novel pilin-like gene from Bordetella pertussis: homology to the fim2 gene

A search for pilin genes in a Bordetella pertussis (Bp) genomic library has led to the identification of several clones which hybridize to synthetic oligonucleotides with sequences derived from amino acid sequences of Bp fimbrial subunits. One of these clones (corresponding to a gene we have named fimX) contains an open reading frame encoding a protein with a molecular weight of about 20 kD and a sequence similar but not identical to the fimbrial subunit fim2 and to other fimbrial protein sequences. In this communication we present the cloning and nucleotide sequence of the fimX gene and its homology to the fim2 gene. A genomic analysis on the positional relationship between the two genes is also presented.     

Cloning and characterization of human CAGLP gene encoding a novel EF-hand protein.

The EF-hand proteins, containing conserved Ca2+ binding motifs, play important roles in many biological processes. Through data mining, a novel human gene, CAGLP (calglandulin-like protein) was predicted and subsequently isolated from human skeleton muscle. The open reading frame of CAGLP is 543 bp in length, coding a putative Ca2+ binding protein with four EF-hand motifs. The deduced amino acid sequence of CAGLP displays high similarity with Bothrops insularis snake protein calglandulin (80%). The results of PCR amplification using cDNA from 17 human tissues indicated that human CAGLP is expressed in prostate, thymus, heart, skeleton muscle, bone marrow and ovary. Functional CAGLP::EGFP (enhanced green fluorescent protein) fusion protein revealed that CAGLP accumulated through-out Hela cells. Western blot using anti-EGFP antibodies indicated that the CAGLP protein has a molecular weight of about 19 kD. A phylogenetic tree showed that CAGLP and calglandulin may be orthologous proteins representing a distinct group in the EF-hand proteins.     

Cloning, expression and characterization of a novel human REPS1 gene.

Ral is a member of the small GTPase-binding protein (G protein) family, and plays an important role in the Ras-RalGDS signal transduction pathway. A series of recent findings reveal several important downstream target proteins of Ral, such as RalBP1, Reps1, and others. Here we report another binding partner for RalBP1, which we have isolated from the human fetal brain library. The human REPS1 protein shares 83% amino acid identity with the mouse Reps1 protein. Northern blot analysis shows that the REPS1 is expressed in a variety of tissues, with the strongest expression in the heart and testis.     

Cloning and characterization of a novel human Aurora C splicing variant

In the last 10 years, Aurora kinases have emerged as the key proteins regulating many events during cell mitosis. Despite the wealth of studies on human Aurora A and B, little is known about human Aurora C. Here we report a novel splicing variant of Aurora C, named as Aurora C-SV (Aurora C splicing variant), which encodes a 290-amino-acid protein. By RT-PCR analysis in various tissues, Aurora C-SV, like Aurora C, was found to be expressed at the highest level in human testis. The in vitro kinase assay showed that this Aurora C-SV phosphorylated MBP, and its T179A mutant lost the kinase activity. During cell mitosis, Aurora C-SV-EGFP associated with chromosomes in prophase and metaphase, and then transferred to the central spindle midzone and the cortex where the contract ring formed during the transition from anaphase to telophase. It then remained in the midbody during cytokinesis. Therefore, we speculated that Aurora C-SV might also contribute to the regulation of chromosome segregation and cytokinesis.     

The C1orf9 gene encodes a putative transmembrane member of a novel protein family

Here we report the characterization of a human mRNA encoding a novel protein denoted C1orf9 (chromosome 1 open reading frame 9). The cDNA sequence, derived from a testis cDNA library, contains 5700 bp which encodes an open reading frame of 1254 amino acids. The deduced protein contains a putative N-terminal signal peptide and one putative transmembrane region, indicating membrane localization. No significant homology was found with known characterized proteins. However, a 150 amino acid region has significant homology to deduced protein sequences from other organisms, including Caenorhabditis elegans (43% identity), Saccharomyces cerevisiae (47% identity), Schizosaccharomyces pombe (48% identity), and two proteins from Arabidopsis thaliana (42% and 40% identity), suggesting a novel family of conserved domains. The C1orf9 gene was assigned to chromosome 1q24. The gene spans approximately 78.7 kb and is organized into at least 24 exons. Expression analysis revealed a single C1orf9 mRNA species of approximately 6.0 kb with a predominant expression in pancreas and testis, and only low levels of expression in other tissues examined.     

Cloning,expression, and initial characterization of a novel cytokine-like gene family

We report the identification and characterization of a novel cytokine-like gene family using structure-based methods to search for novel four-helix-bundle cytokines in genomics databases. There are four genes in this family, FAM3A, FAM3B, FAM3C, and FAM3D, each encoding a protein (224-235 amino acids) with a hydrophobic leader sequence. Northern analysis indicates that FAM3B is highly expressed in pancreas, FAM3D in placenta, and FAM3A and FAM3C in almost all tissues. Immunohistochemistry showed that FAM3A is expressed prominently in the vascular endothelium, particularly capillaries. We found that FAM3A and FAM3B protein were both localized to the islets of Langerhans of the endocrine pancreas. Recombinant FAM3B protein has delayed effects on beta-cell function, inhibiting basal insulin secretion from a beta-cell line in a dose-dependent manner.