Structure and genomic organization of porcine RACK1 gene

The cDNA encoding porcine RACK1 protein was isolated from porcine spleen cDNA library. The deduced protein sequence of porcine RACK1 cDNA shows that it contains 317 amino acid residues, and shares nearly 100% identity with its vertebrate counterparts. Noticeably, the RACK1 protein was differentially expressed in various porcine tissues. High expression of RACK1 protein was observed in the tissues including thymus, pituitary, spleen and liver, whereas there was no detectable expression in muscle. The genomic DNA of porcine RACK1 with approximate 7.5 kb was constructed by both polymerase chain reaction amplification and genomic library screening. It consists of eight exons intervened by seven introns, and most of the intron/exon splice sites conform to the GT/AG rule. The promoter region contains functional serum response element, YY1-like binding site and AP1 site, which is supported by the finding that the expression of RACK1 gene in cultured porcine ST cells has a serum response as well as a TPA response.     

Chromosome structure and eukaryotic gene organization

The DNA in the eukaryotic nucleus is highly compacted but well organized into distinct regional units. Chromosomal bands are characterized by their structure and distinctive replication time. They are subdivided into chromatin loops which serve as functional domains that have discrete boundary elements and can be regulated during development.     

Canine COL4A3 and COL4A4: sequencing, mapping and genomic organization.

Canine alpha3 and alpha4 chains of collagen type IV genes (COL4A3 and COL4A4) are expressed in the renal glomerular basement membrane, where they provide a critical structural and functional matrix for other basement membrane components. These genes are candidates for hereditary nephritis (Alport syndrome) in several dog breeds (e.g. English Cocker Spaniel and Bull Terrier). Using RACE and PCR, the cDNA of both genes was cloned and sequenced. Both COL4A3 and COL4A4, as well as canine NPPC (Natriuretic Peptide Precursor C), were mapped to CFA25 using an RH panel. Conservation of the tight linkage of COL4A3 and COL4A4 as seen in human and mouse was verified in the dog. Intron-exon boundaries in both genes were determined by BLAST analysis of the Canis Familiaris Trace Archive. The elucidation of the cDNA sequences, genomic organization and the open reading frames of canine COL4A3 and COL4A4 provide the groundwork for screening these genes for mutations in hereditary nephritis in dogs.     

Analysis of the genomic structure of the porcine CD1 gene cluster

CD1 is an MHC class I-like protein that presents lipid antigens to T cell receptors. We determined 470,187 bp of the genomic sequence encompassing the region encoding porcine CD1 genes. We identified 16 genes in this region and newly identified CD1A2, CD1B, CD1C, CD1D, and CD1E. Porcine CD1 genes were located in clusters between KIRREL and olfactory receptor (OR) genes, as observed in humans, although they were divided into two regions by a region encoding OR genes. Comparison of the genomic sequences of CD1 gene loci in pigs with other mammals showed that separation of the CD1 gene cluster by ORs was observed only in pigs. CD1A duplication in the porcine genome was estimated to have occurred after the divergence of the human and porcine. This analysis of the genomic sequence of the porcine CD1 family will contribute to our understanding of the evolution of mammalian CD1 genes.     

cDNA cloning, genomic structure and polymorphism of the porcine FHL3 gene

LIM domain proteins are important regulators of the growth, determination and differentiation of cells. Four-and-a-half LIM-only protein 3 (FHL3) is a type of LIM-only protein that contains four tandemly repeated LIM motifs with an N-terminal single zinc finger (half LIM motif). In this study, we have determined the complete coding sequence of pig FHL3 which encodes a 280 amino acid protein. The coding region of the pig FHL3 gene is organized in five exons and spans an approximately 2.1-kb genomic region. Comparative sequencing of six pig breeds revealed three single nucleotide polymorphisms (SNPs) within exon 2 of which an A-->G substitution at position 313 changes a codon for arginine into a codon for glycine. The substitution was situated within a PstI recognition site and developed as a PCR-RFLP marker for further use in population variation investigations and association analysis. The A/G polymorphism was segregating only in Landrace pigs. Association studies of the FHL3 polymorphism with carcass traits provided preliminary evidence that the PstI PCR-restriction fragment length polymorphism (RFLP) genotype may be associated with variation in several carcass traits of interest for pig breeding. Further investigations in more Landrace pigs are needed to confirm this.     

Complete primary structure and genomic organization of the mouse Col14a1 gene.

The entire mouse cDNA sequence for type XIV collagen was determined using overlapping PCR products. The 6456 nucleotide (nt) cDNA sequence contains a 5391-nt open reading frame encoding 1797 amino acid residues. The amino terminus has a 28-residue signal peptide that is followed by the mature polypeptide of 1769 amino acid residues with a calculated molecular mass of 193.2 kDa. The mouse alpha1(XIV) collagen chain is predicted to contain all the structural domains described for the polypeptide in chicken and human. These include fibronectin type III repeats, von Willebrand factor A domains, thrombospondin-N-terminal-like domains and two triple-helical domains similar to those of other collagen family members. The amino acid residue sequence of human alpha1(XIV) collagen showed an overall identity of 74% to the chicken sequence and 88% to the human sequence. The entire mouse genomic structure has been determined and is made up of 48 exons. Alternatively spliced forms of mouse type XIV, collagen were not identified corresponding to the findings for the human form.     

Complete primary structure and genomic organization of the mouse Col14a1 gene.

The entire mouse cDNA sequence for type XIV collagen was determined using overlapping PCR products. The 6456 nucleotide (nt) cDNA sequence contains a 5391-nt open reading frame encoding 1797 amino acid residues. The amino terminus has a 28-residue signal peptide that is followed by the mature polypeptide of 1769 amino acid residues with a calculated molecular mass of 193.2 kDa. The mouse alpha1(XIV) collagen chain is predicted to contain all the structural domains described for the polypeptide in chicken and human. These include fibronectin type III repeats, von Willebrand factor A domains, thrombospondin-N-terminal-like domains and two triple-helical domains similar to those of other collagen family members. The amino acid residue sequence of human alpha1(XIV) collagen showed an overall identity of 74% to the chicken sequence and 88% to the human sequence. The entire mouse genomic structure has been determined and is made up of 48 exons. Alternatively spliced forms of mouse type XIV, collagen were not identified corresponding to the findings for the human form.     

A novel porcine gene,alpha-1-antichymotrypsin 2 (SERPINA3-2): sequence,genomic organization,polymorphism and mapping

A novel porcine gene, alpha-1-antichymotrypsin 2 (SERPINA3-2), a member of the serpin superfamily, was isolated from a porcine genomic library and sequenced. The genomic organization of the approximately 9.0 kb gene was determined on the basis of the porcine liver cDNA of SERPINA3-1 and SERPINA3-2, and comprises five exons and four introns. The coding sequence of SERPINA3-2 shares 86% identity with the paralogue, SERPINA3-1. Porcine SERPINA3-2 was found to be an orthologue of human SERPINA3 (71% identity of the coding sequences) and both genes have a similar genomic organization. Polymorphisms were found in intron 4 of the porcine gene using polymerase chain reaction-restriction fragment length polymorphism. The gene was mapped by linkage analysis and radiation hybrid mapping to the distal end of chromosome 7q, to the gene cluster of the protease inhibitors including PI1 (SERPINA1), PI2, PI3, PI4 (apparently paralogues of SERPINA3), and PO1A and PO1B. SERPINA3-2 is the first porcine serpin gene whose genomic organization has been determined.     

Characterization of the porcine FSCN3 gene: cDNA cloning, genomic structure, mapping and polymorphisms

Fascin 3 (FSCN3)is a testis-specific actin-bundling protein involved in spermatid development. Here we describe the molecular characterisation of the porcine FSCN3 gene. The 1,800-bp cDNA sequence contains a 1,497-bp open reading frame encoding a protein of 498 amino acids with a calculated molecular mass of 56.2 kDa and an isoelectric point of 6.82. The porcine FSCN3 protein shares high identity with other mammalian FSCN3. The FSCN3 gene contains seven exons, spans approximately 9 kb, and maps to pig chromosome 18. We also identified 24 DNA polymorphisms.     

Germline genomic structure of the B10.A mouseTcra-V2 gene subfamily

 The number of mouse Tcra-V gene segments varies from one individual to another and is estimated to be about 100. Southern blot analysis revealed that most of the Tcra-V are organized in clusters composed of copies of Tcra-V belonging to different subfamilies. We analyzed in detail a Tcra-V subfamily and looked for new Tcra-V in order to improve the knowledge of the mouse Tcra locus organization. A series of genomic clones derived from the B10.A mouse strain enclosing these clusters was used to determined the structure of all the Tcra-V2. We were able to identify ten Tcra-V2. This study showed that the Tcra-V2 can be organized into three structural subgroups. The distribution of the genes along the Tcra locus, plus their structural organization, indicates that successive duplications occurred during the processes of expansion and contraction of the Tcra-V gene subfamilies. Several Tcra-V2 are also identical, indicating recent duplications. The most divergent Tcra-V2 differ by 7.4% nucleotides, leading to 5.2% differences in amino acid contents. Received: 8 August 1995 / Revised: 24 April 1996     

Genomic organization and characterization of the human type XXI collagen (COL21A1) gene

We cloned a 4.1-kb full-length cDNA based on a reported human genomic clone containing a partial open reading frame (ORF) coding for a novel collagen-like protein. Sequence analysis indicated that the ORF codes for the alpha(1)-chain of type XXI collagen. Assembly of the genomic data reveals a complete sequence of the human gene COL21A1. COL21A1 is localized to chromosome 6p11.2-12.3, spanning 337 kb in size. The gene contains 31 exons, in which the 5'-untranslated exons 1 and 1a are alternatively spliced. The exon/domain organization of COL21A1 resembles that of the reported FACIT collagen genes, including COL9A1, COL9A2, COL9A3, and COL19A1, suggesting that these genes may have derived from the same ancestor FACIT gene by duplication. The expression of COL21A1 in human tissues is developmentally regulated, with a higher level at fetal stages. Type XXI collagen is an extracellular matrix component of the blood vessel walls, secreted by smooth-muscle cells. Platelet-derived growth factor (PDGF) has a pronounced effect on the stimulation of COL21A1 expression in cultured aortic smooth-muscle cells, suggesting that alpha1(XXI) collagen may contribute to the extracellular matrix assembly of the vascular network during blood vessel formation.     

The genomic structure, chromosome location, and analysis of the human DKK1 head inducer gene as a candidate for holoprosencephaly

Holoprosencephaly (HPE) is the most common developmental defect of the brain and face in humans. Here we report the analysis of the human ortholog of dkk-1 as a candidate gene for HPE. We determined the genomic structure of the human gene DKK1 and mapped it to chromosome 10q11.2. Functional analysis of four missense mutations identified in HPE patients revealed preserved activity in head induction assays in frogs suggesting a limited role for this gene in HPE pathogenesis.