Divergent intron arrangement in theMB1/LMP7 proteasome gene pair

We sequenced the humanMB1 gene from a cosmid clone mapping to chromosome 14q11.2–12. The gene spans about 6 kilobases and contains three exons and two introns. There was no evidence of an alternative leader exon, which is a characteristic of the major histocompatibility complex (MHC)-encodedLMP7 gene, the closet relative ofMB1, with which it shares 67% amino acid identity. Conceptual translation of the 5′ end of the gene class for a cleaved leader sequence of 59 amino acids, consistent with western blot data. None of theMB1 gene's three exons were coincident with any of the six exons inLMP7. In contrast, in the delta-encoding gene and its counterpart, the MHC-encodedLMP2 gene (59% amino acid identity), all six exons are arranged at equivalent positions in respect to the coding frame. The unique structure ofMB1 implies a separate origin or different selection pressures acting at this particular locus. DNA repeat analysis provides information on the minimum time of separation of theMB1/LMP7 pair of genes. The nucleotide sequence data reported in this paper have been submitted to the EMBL nucleotide sequence database and have been assigned the accession number X95586     

Different genomic structure of mouse and human Lmp7 genes: characterization of MHC-encoded proteasome genes

The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers L11045 (human LMP7) and L11145 (mouse Lmp-7).     

Genomic structure of the mouse apurinic/apyrimidinic endonuclease gene

A mammalian apurinic/apyrimidinic endonuclease (AP endonuclease) is known to have two distinct functional domains. One domain is responsible for regulating the activity of Fos/Jun proto-oncogene products to bind to DNA at specific recognition sites. The other domain which is highly conserved from bacteria to mammals, is responsible for repairing DNA damage caused by ionizing radiation, oxidative damage, and alkylating agents. This study reports on the isolation and characterization of the genomic structure of the mouse AP endonuclease gene (Apex). The genomic sequence of the Apex gene was 2.14 kb in length and contained four exons. Exon 1 contained a 0.24-kb untranslated 5 region upstream of the initiation codon. Consensus sequences for two CAAT boxes and a GC box were found upstream of the end of exon 1. A polymorphism was noted in the untranslated region of exon 1 in a comparison of a number of mouse strains. These data indicate that the 5 end of the mouse gene (Apex) differs from the previously isolated human gene (Ape), which has five exons and an untranslated region between exons 1 and 2. Data are also presented that suggest the presence of two pseudogenes in the mouse.The nucleotide sequence data reported in this paper has been submitted to the GeneBank data library, and the accession number is U12273.     

Genomic structure and chromosomal location of the mouse pre-T-cell receptor alpha gene

The mouse pre-T-cell receptor alpha (pT) chain is a 33 000 M _r glycoprotein expressed on the surface of immature thymocytes as a disulfide-linked heterodimer with the T-cell receptor beta (TCR) chain, and in association with proteins of the CD3 complex. The cDNA for pT, isolated previously, encodes a type I transmembrane protein that is a member of the immunoglobulin (Ig) superfamily. Here we report the complete nucleotide sequence, the exon/intron structure, and the chromosomal location of the pTa gene. The gene spans about 8.4 kilobases (kb) and consists of four exons. Exon 1 encodes the 5 untranslated region, the leader peptide, and the first three amino acids of the mature protein. This exon is followed by a relatively long intron of 4.9 kb that contains many short interspersed repeats (SINEs) of the B1 and B2 family. The second exon encodes the extracellular Ig-like domain and exon 3 with just 45 base pairs the connecting peptide (CP), including the cysteine required for heterodimer formation. A similar exon/intron structure encoding corresponding parts of the mature polypeptide is found both in the Tcra and Tcrd constant region genes. The last exon encodes the transmembrane portion, the cytoplasmic tail, and about 540 nucleotides of 3 untranslated sequence, including a B2 repetitive element. In situ hybridization maps the pTa gene to the D/E1 region of mouse chromosome 17.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession number U27268     

Characterization and mapping of the gene encoding mouse proteasome subunit DELTA (Lmp19)

The proteasome subunit DELTA is unusually closely related to the major histocompatibility complex (MHC)-linked proteasome subunit, LMP2. The sequence of a mouse cDNA for DELTA confirms that this 22 100 M _r proteasome subunit is highly conserved across species. Sequence analysis of the mouse gene encoding DELTA, designated Lmp19, indicates that it consists of six exons and five introns, similar to the Lmp2 gene. The 5 upstream region lacks a TATA regulatory sequence, which is also absent from proteasome genes isolated from Drosophila. BXD recombinant inbred (RI) mice were used to map the potential chromosomal location of Lmp19, and revealed that the DELTA subunit has related sequences present on two different mouse chromosomes, chromosomes 1 and 11. Typing of 89 progeny from a C57BL/6J X Mus spretus DNA backcross panel (BSS) confirmed the chromosome 1 assignment. Southern hybridization with a polymerase chain reaction-generated Lmp19 intron 2-specific probe indicates that the Lmp19 genomic clone corresponds to the sequence on chromosome 11, and further suggests that the chromosome 1 copy represents a processed pseudogene (Lmp19-ps1).     

The nucleotide sequence and evolution of ovine MHC class II B genes: DQB and DRB

The nucleotide sequences of one Ovar-DQB gene, excluding exon 1 and parts of the introns, and one Ovar-DRB pseudogene are presented. The structure of the Ovar-DQB gene is typical of a major histocompatibility complex (MHC) class II B gene and demonstrats considerable sequence similarity with that of humans including such characteristics as the less common polyadenylation signal, ATTAAA. The ovine sequence has a typical 5' acceptor splice signal for exon 5, thus potentially encoding a full length cytoplasmic tail. The Ovar-DRB gene identified in this study was found to be a pseudogene, lacking a defined exon 2 and containing premature termination codons in both exons 3 and 4. The 3' donor splice site of exon 3 is also atypical. A purine-pyrimidine microsatellite repeat, (dCdA)₁₅, in the 3' region of the pseudogene may be a hotspot for recombination within the ovine DR subregion.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers M33306 and M33307. Address correspondence and offprint requests to: M. R. Brandon.     

Genomic organization of IFI16, an interferon-inducible gene whose expression is associated with human myeloid cell differentiation: correlation of predicted protein domains with exon organization

The human IFI16 gene is a member of an interferon-inducible family of mouse and human genes closely linked on syntenic regions of chromosome 1. Expression of these genes is largely restricted to hemopoietic cells, and is associated with the differentiation of cells of the myeloid lineages. As a prelude to defining the mechanisms governing IFI16 expression, we have deduced its genomic organization using a combination of genomic cloning and polymerase chain reaction amplification of genomic DNA. IFI16 consists of ten exons and nine intervening introns spanning at least 28 kilobases (kb) of DNA. The reiterated domain structure of IFI16 protein is closely reflected in its intron/exon boundaries, and may represent the evolutionary fusion of several independent functional domains. Thus, exon 1 consists of 5' untranslated (UT) sequences and contains sequence motifs that may confer interferon-inducibility, and exon 2 encodes the lysine-rich amino-terminal (K) region, which possesses DNA-binding activity. Exon 3 codes for a domain which is poorly conserved between family members, except for a strongly retained basic motif likely to provide nuclear localization. The first of two 200 amino acid repeat domains that are the hallmark of this family (domain A) is represented jointly on exons 4 and 5, which are reiterated as exons 8 and 9, respectively, to encode the second 200 amino acid domain (B). Two intervening serine-threonine-rich domains (C and C'), unique to IFI16, are each encoded by single exons of identical length (exons 5 and 6). These domains are predicted to encode semi-rigid spacer domains between the 200 amino acid repeats. The reiterated nature of exons 4 to 6 and the insertion of introns into a single reading frame strongly suggest that IFI16 and related genes arose by a series of exon duplications, some of which antedated speciation into mouse and humans. Several alternative mRNA cap sites downstream of a TATA consensus sequence were defined, using primer extension analysis of mRNA. Sequencing of ~1.7 kb of DNA upstream of this region revealed no recognizable consensus elements for induction by interferon- (interferon-/ß-stimulated response elements), but two motifs resembling interferon- activation sites were located. IFNs and both induce IFI16 mRNA expression in myeloid cells. Interferon- inducibility of IFI16 may be regulated by an interferon-/ß-stimulated response consensus element in the 5' UT exon, as a similar motif is conserved in the corresponding position in the related myeloid cell nuclear differentiation antigen gene. An interferon--activation site consensus was also located in this region of IFI16.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession number M63838     

Natural Selection During Functional Divergence to LMP7 and Proteasome Subunit X (PSMB5) Following Gene Duplication

The LMP7 and PSMB5 genes were created through an ancient gene duplication event of their ancestral locus. These proteins contain an active site of proteolysis, and LMP7 replaces PSMB5 as a component of the 20S proteasome after stimulation of cells by interferon-. Replacement of PSMB5 by LMP7 changes the profile of the products of 20S proteasome processing, predisposing digested peptides for transport to and display by the immune system. The purpose of this study is to investigate evolutionary forces influencing functional divergence between LMP7 and PSMB5 following duplication. Levels of synonymous and nonsynonymous substitution rates are estimated to infer differences in levels of natural selection. Estimates of substitution rates indicate that natural selection elevated rates of nonsynonymous substitution in LMP7 following gene duplication, whereas PSMB5 experienced an increase in substitution rate that was not likely due to diversifying natural selection following duplication. Following initial divergence, nearly neutral mutations have dominated gene evolution in both lineages. The LMP7 gene locus provides a rare example of a protein with specialized function arising from duplication and divergence of a housekeeping protein by way of natural selection.Reviewing Editor: Dr. Rasmus Nielsen     

A new repetitive sequence uniquely present in the decay-accelerating factor genes

 The decay-accelerating factor (DAF, CD55) protects cells from autologous complement attack on self cell membranes. We have previously reported that the seventh exon encoding the serine/threonine-rich(S/T)-abc region of the guinea pig DAF gene is composed of five homologous repeats of about 51 base pairs, and that differential usage of these repeats produces the various lengths observed in the S/T region of guinea pig DAF. In this study, we found that the seventh intron of the guinea pig DAF gene was wholly composed of 18 tandem repeats homologous to the repeating unit of the S/T-abc exon. This type of repetitive structure, although the number of repeats was variable, was also found in the corresponding exons and introns of all DAF genes of other species so far tested including human and seven other primates and mouse, in which alternative splicing in this region has not been found. This suggested that generation of the repetitive sequences spanning the exon and intron regions had occurred before the diversification of these species. In addition, all the intron sequences of the tested DAF genes had no stop codon when they were presumably translated in the same reading frame as the seventh and eighth exons, except for that of one of two duplicated mouse DAF genes. These findings and significant interspecies identities of the intron sequence suggest that the intron sequence conceivably could be translated in some tissues and/or in some stages of development although to date we have not yet succeeded in detecting mRNA for this region. Received: 7 July 1997 / Revised: 11 August 1997     

Identification and characterization of the mouse MutS homolog 5: Msh5

We have identified and characterized the complete cDNA and gene for the mouse MutS homolog 5 (Msh5), as a step toward understanding the molecular genetic mechanisms involved in the biological function of this new MutS homologous protein in mammals. The Msh5 cDNA contains a 2502-bp open reading frame (ORF) that encodes an 833-amino acid protein with a predicted molecular weight of 92.6 kDa, which shares 89.8% amino acid sequence identity with the human hMSH5 protein. Northern blot analysis demonstrated the presence of a Msh5 mRNA approximately 2.9-kb in length, most abundantly expressed in mouse testis. Yeast two-hybrid analysis indicated that the mouse Msh5 protein positively interacted with the human hMSH4 protein—suggesting that Msh5 shares common functional properties with its human counterpart. Sequence and structural analyses show that the mouse gene Msh5 spans approximately 18 kb and contains 24 exons that range in length from 36 bp for exon 7 to 392 bp for exon 1. Structural comparison with the human hMSH5 gene revealed that all of the Msh5 internal exons, but not introns, are conserved in length with the human hMSH5. The Msh5 gene is located on mouse Chromosome (Chr) 17 in a location that is syntenic to the region of human Chr 6 harboring the hMSH5 gene. The identification and characterization of Msh5 will facilitate studies of the potential functional roles of this new member of the MutS family. Received: 11 May 1999 / Accepted: 16 July 1999     

Genomic organization of the flt-1 gene encoding for Vascular Endothelial Growth Factor (VEGF) Receptor-1 suggests an intimate evolutionary relationship between the 7-Ig and the 5-Ig tyrosine kinase receptors

The flt-1 tyrosine kinase gene encodes a high affinity receptor for Vascular Endothelial Growth Factor, and belongs to the so-called `7-Ig' or flt gene family which has characteristics of 7-Immunoglobulin (Ig)-like domains in the extracellular region. This is structurally distantly related to 5-Ig domain-containing receptors such as Fms/Kit/PDGF-R. However, the whole genomic organization for any 7-Ig receptor gene has not been determined yet. To examine the genomic structure of flt-1 and the evolutionary relationship between genes of the 7-Ig and 5-Ig receptor families, we isolated the mouse genomic DNAs carrying all exons of the flt-1 gene. The mouse flt-1 gene consisted of 30 exons, whose exon–intron boundaries were highly related to those in the 5-Ig receptor genes, except for the amino terminal region. The sequences corresponding to the first and second Ig-domains in the flt-1 gene were encoded by four exons, whereas this region was encoded by only two exons in the 5-Ig receptor genes. These results raise the interesting possibility that deletion or insertion mutations of introns in one of these receptor genes took place in the evolutionary generation of the other receptor genes.     

DNA Sequence, Chromosomal Localization, and Tissue Expression of the Mouse Proteasome SubunitLmp10(Psmb10) Gene

Proteasomes are nonlysosomal multicatalytic proteases involved in antigen processing. Three of the 10 mammalian proteasome β subunits (LMP2, LMP7, and LMP10) are induced by IFN-γ. Two of these (LMP2 and LMP7) are encoded in the major histocompatibility complex of both human (chromosome 6) and mouse (chromosome 17). However, the human homologue ofLmp10, MECL1,is found on chromosome 16. Here we show that in mice,Lmp10is a single-copy gene localized to chromosome 8, in a region of conserved synteny with human chromosome 16. Sequencing of a 129/SvJ strain genomic clone revealed that the gene has eight exons spanning 2.3 kb. Characterization of a full-length mouse cDNA clone indicates thatLmp10encodes a protein of 273 amino acids with a calculated molecular weight of 29 kDa and an isoelectric point of 6.86. Northern analysis ofLmp2, Lmp7,andLmp10showed expression in heart, liver, thymus, lung, and spleen, but not in brain, kidney, skeletal muscle, or testis.     

Characterization of the horse (<Emphasis Type="Italic">Equus caballus</Emphasis>)<Emphasis Type="Italic"> IGHA</Emphasis> gene

Nucleotide sequences of the immunoglobulin constant heavy chain genes of the horse have been described for IGHM, IGHG and IGHE genes, but not for IGHA. Here, we provide the nucleotide sequence of the genomic IGHA gene of the horse (Equus caballus), including its secretion region and the transmembrane exon. The equine IGHA gene shows the typical structure of a mammalian IGHA gene, with only three exons, separated by two introns of similar size. The hinge exon is located at the 5 end of the CH2 exon and encodes a hinge region of 11 amino acids, which contains five proline residues. The coding nucleotide sequence of the secreted form of the equine IGHA gene shares around 72% identity with the human IGHA1 and IGHA2 genes, as well as the bovine, ovine, porcine and canine IGHA genes, without distinct preference for any of these species. The same species also cluster together in a phylogenetic tree of the IGHA coding regions of various mammals, whereas rodent, rabbit, marsupial and monotreme IGHA genes each build a separate cluster.The nucleotide sequences reported in this paper have been assigned the EMBL/GenBank accession numbers AY247966 and AY351982     

Introns: Mighty Elements from the RNA World

The discovery of RNA-based enzymatic activity by Thomas Cechs and Sidney Altmans laboratories was a momentous event that led Walter Gilbert to the concept of an RNA world—a primitive ancient stage of life that existed before the appearance of DNA and protein molecules. A year later, Gilbert formulated the exon theory of genes, which hypothesized that introns are very ancient genetic elements present at the earliest stages of life in the RNA world. This theory has been fiercely debated and still has vigorous supporters and opponents. In this communication, we explore peculiarities in the RNA-protein world and their effect on intron–exon structures. We demonstrate that these peculiarities, which exist in the absence of DNA, could shed light on introns original functions as well as the important role they might have played in the origin of life. For ancient DNA-lacking cells, a crucial problem existed in distinguishing two distinct subsets of RNAs: those messenger molecules coding for proteins and those heritable genetic molecules complementary to messenger RNAs that propagate the genetic information through generations. We propose that ancient introns could act as markers of RNA subsets, directing them to different functions.Reviewing Editor: Dr. Manyuan Long     

Characterization of the mouse neutrophil elastase gene and localization to Chromosome 10

Neutrophil elastase (NE), a serine proteinase, is considered to play a role in normal tissue turnover and host defense. NE may also cause tissue damage in acute and chronic inflammatory diseases. We have isolated and characterized the gene for mouse NE and determined its chromosomal location. The mouse NE gene has been localized by interspecific backcross analysis to Chromosome (Chr) 10. The gene for mouse NE is composed of 5 exons and 4 introns, similar to the human NE. Mouse NE shares the highly conserved exon size and intron-exon borders with human NE. The coding exons of the mouse NE gene predict a translation product in a pre-pro form, similar to human NE. Knowledge of the genomic organization and chromosomal location of mouse NE may allow us to further define mechanisms responsible for cell and tissue-specific expression of mouse NE. Received: 16 July 1996 / Accepted: 1 September 1996     

The chloroplastchIL gene of the green algaChlorella vulgaris C-27 contains a self-splicing group I intron

ThechiL gene product is involved in the light-independent synthesis of chlorophyll in photosynthetic bacteria, green algae and non-flowering plants. The chloroplast genome ofChlorella vulgaris strain C-27 contains the first example of a splitchiL gene, which is interrupted by a 951 bp group I intron in the coding region. In vitro synthesized pre-mRNA containing the entire intron and parts of the flanking exon sequences is able to efficiently self-splice in vitro in the presence of a divalent and a monovalent cation and GTP, to yield the ligated exons and other splicing intermediates characteristic of self-splicing group I introns. The 5 and 3 splice sites were confirmed by cDNA sequencing and the products of the splicing reaction were characterized by primer extension analysis. The absence of a significant ORF in the long P9 region (522 nt), separating the catalytic core from the 3 splice site, makes this intron different from the other known examples of group I introns. Guanosine-mediated attack at the 3 splice site and the presence of G-exchange reaction sites internal to the intron are some other properties demonstrated for the first time by an intron of a protein-coding plastid gene.