The Mouse Region Syntenic for Human Spinal Muscular Atrophy Lies within theLgn1Critical Interval and Contains Multiple Copies ofNaipExon 5

Spinal muscular atrophy (SMA) is a relatively common, autosomal recessively inherited neurodegenerative disorder that maps to human chromosome 5q13. This region of the human genome has an intricate genomic structure that has complicated the evaluation of SMA candidate genes. We have chosen to study the mouse region syntenic for human SMA in the hope that the homologous mouse interval would contain the same genes as human 5q13 on a simpler genomic background. Here, we report the mapping of such a region to mouse chromosome 13 and to the critical interval forLgn1,a mouse locus responsible for modulating the intracellular replication and pathogenicity of the bacteriumLegionella pneumophila.We have generated a mouse YAC contig across theLgn1/Smainterval and have mapped the two flanking gene markers for the human SMA locus, MAP1B and CCNB1, onto this contig. In addition, we have localized the two SMA candidate genes, SMN and NAIP, to theLgn1critical region, making these two genes candidates for theLgn1phenotype. Upon subcloning of the YAC contig into P1s and BACs, we have detected a large, low copy number repeat that contains at least one copy ofNaipexon 5. Identification of theLgn1gene will either provide a novel function for SMN or NAIP or reveal the existence of another, yet uncharacterized gene in the SMA critical region. Mutations in such a gene might help to explain some of the phenotypic variability among the human SMAs.     

Construction of a BAC Contig for a 3 cM Biologically Significant Region of Mouse Chromosome 1

One QTL and genes and phenotypes have been localized in the region between 92 cM and 95cM of mouse chromosome 1. The QTL locus contributes to approximately 40% of the variation of the peak bone density between C57BL/6J (B6) and CAST/EiJ (CAST) strains. Other loci located in this chromosomal region include a neural tube defect mutant loop-tail (Lp), a lymphocyte-stimulating determinant (Lsd), and the Transgelin 2 (Tagln 2). The human chromosome region homologous to this region is 1q21-23, which also contains a QTL locus for high bone mineral density (BMD). Furthermore, it has been reported that this region may have duplicated several times in the mouse genome. Therefore, genomic sequencing of this region will provide important information for mouse genome structure, for positional cloning of mouse genes, and for the study of human homologous genes. In order to provide a suitable template for genomic sequencing by the NIH-sponsored genomic centers, we have constructed a BAC contig of this region using the RPCI-23 library. We have also identified the currently available mouse genomic sequences localized in our BAC contig. Further analysis of these sequences and BAC clones indicated a high frequency of repetitive sequences within this chromosomal area. This region also contains L1 retrotransposon sequences, providing a potential mechanism for the repetitive sequences described in the literature.     

Analysis of the barley chromosome 2 region containing the six-rowed spike gene <Emphasis Type="Italic">vrs1</Emphasis> reveals a breakdown of rice–barley micro collinearity by a transposition

In cultivated barley (Hordeum vulgare ssp. vulgare), six-rowed spikes produce three times as many seeds per spike as do two-rowed spikes. The determinant of this trait is the Mendelian gene vrs1, located on chromosome 2H, which is syntenous with rice (Oryza sativa) chromosomes 4 and 7. We exploited barley–rice micro-synteny to increase marker density in the vrs1 region as a prelude to its map-based cloning. The rice genomic sequence, covering a 980 kb contig, identified barley ESTs linked to vrs1. A high level of conservation of gene sequence was obtained between barley chromosome 2H and rice chromosome 4. A total of 22 EST-based STS markers were placed within the target region, and the linear order of these markers in barley and rice was identical. The genetic window containing vrs1 was narrowed from 0.5 to 0.06 cM, which facilitated covering the vrs1 region by a 518 kb barley BAC contig. An analysis of the contig sequence revealed that a rice Vrs1 orthologue is present on chromosome 7, suggesting a transposition of the chromosomal segment containing Vrs1 within barley chromosome 2H. The breakdown of micro-collinearity illustrates the limitations of synteny cloning, and stresses the importance of implementing genomic studies directly in the target species. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Genomic organization and mapping of the human and mouse neuronal β2-nicotinic acetylcholine receptor genes

As a first step in determining whether there are polymorphisms in the nicotinic acetylcholine receptor (nAChR) genes that are associated with nicotine addiction, we isolated genomic clones of the β2-nAChR genes from human and mouse BAC libraries. Although cDNA sequences were available for the human gene, only the promoter sequence had been reported for the mouse gene. We determined the genomic structures by sequencing 12 kb of the human gene and over 7 kb of the mouse gene. While the sizes of exons in the mouse and human genes are the same, the introns differ in size. Both promoters have a high GC content (60–80%) proximal to the AUG and share a neural-restrictive silencer element (NRSE), but overall sequence identity is only 72%. Using a 6-Mb YAC contig of Chr 1, we mapped the human β2-nAChR gene, CHRNB2, to 1q21.3 with the order of markers cen, FLG, IVL, LOR, CHRNB2, tel. The mouse gene, Acrb2, had previously been mapped to Chr 3 in a region orthologous to human Chr 1. We refined mapping of the mouse gene and other markers on a radiation hybrid panel of Chr 3 and found the order cen, Acrb2, Lor, Iv1, Flg, tel. Our results indicate that this cluster of markers on human Chr 1 is inverted with respect to its orientation on the chromosome compared with markers in the orthologous region of mouse Chr 3. Received: 26 January 1999 / Accepted: 10 May 1999     

Organization of DNA sequences near the centromere of the Drosophila melanogaster Y chromosome

The structural analysis of a yeast artificial chromosome clone from Drosophila melanogaster enriched in dodecasatellite sequences has led us to find a new retrotransposon that we have called Circe. Moreover, this retrotransposon has allowed the isolation of a contig encompassing ∼200 kb near the centromere of the Y chromosome, providing an entry point into a region from which very little sequence information has been obtained to date. The molecular characterization of the contig has shown the presence of HeT-A telomeric retrotransposons close to the centromere of the Y chromosome, suggesting a telocentric origin for this submetacentric chromosome. Received: 19 November 1996 / Accepted: 30 May 1997     

Isolation and characterization of a cosmid contig for the GCPS gene region

The zinc finger gene GLI3 has been shown to be involved in the embryonal development of the limbs and skull. Mutations in GLI3 lead to the development of the human Greig cephalopolysyndactyly syndrome (GCPS) and the mouse mutations extra toes (Xt) and anterior digit deformity (add). The GCPS locus on human chromosome 7p13 has recently been isolated in a yeast artifical chromosome (YAC) contig. Here, we describe the establishment of a cosmid contig that was derived from two of the YAC clones, that spans 550 kb of human DNA, and that includes the GLI3 gene. In this contig, three GCPS translocation breakpoints have been mapped to distinct EcoRI fragments in the 3 half of the gene. In addition, exon-carrying fragments have been identified and the size of the GLI3 gene could be determined as at least 280 kb. The gene is flanked by a CpG island that lies on the 5 side and that is in close proximity to the first exon detected by the cloned GLI3 cDNA. Further upstream, five segments were found that have been conserved between man and mouse. In the mouse, this region has been characterized as the transgene integration site resulting in the add phenotype. Both the CpG island and the conserved regions are probable candidates for a search for GLI3 promoter and control elements.     

The murine homolog of the human breast and ovarian cancer susceptibility geneBrca1 maps to mouse chromosome 11D

The recently cloned human breast and ovarian cancer suseptibility gene,BRCA1, is located on human chromosome 17q21. We have isolated murine genomic clones containingBrca1 as a first step in generating a mouse model for the loss ofBRCA1 function. A mouse genomic library was screened using probes corresponding to exon 11 of the humanBRCA1 gene. Two overlapping mouse clones were identified that hybridized to humanBRCA1 exons 9–12. Sequence analysis of 1.4 kb of the region of these clones corresponding to part of human exon 11 revealed 72% nucleic acid identity but only 50% amino acid identity with the human gene. The longest of the mouseBrca1 genomic clones maps to chromosome 11D, as determined by two-color fluorescence in situ hybridization. The synteny to human chromosome 17 was confirmed by cohybridization with the mouse probe for the NF1-gene. This comparative study confirms that the relative location of theBRCA1 gene has been conserved between mice and humans.     

Human homolog of a mouse sequence from the dystonia musculorum locus is on Chromosome 6p12

Dystonia musculorum is a hereditary neurodegenerative disease in mice that affects sensory neurons. In an effort to clone the gene responsible for this disorder, we have assembled a genomic contig spanning 75 kb of the dystonia musculorum (dt) locus. Within this genomic contig, we have identified a small restriction fragment that shows evolutionary conservation to rat, hamster, rabbit, and human genomic DNA. Using this mouse sequence, we have cloned the conserved human genomic fragment. Sequence analysis of the mouse and human genomic fragments revealed that they share a sequence similarity of 82% over 175 bp. A panel of human/rodent somatic cell hybrids was used to map the human genomic sequence to Chromosome (chr) 6, and high-resolution in situ hybridization (FISH) allowed it to be sublocalized to 6p12. The human homolog of the mouse Bpag1 gene, a gene tightly linked to the mouse dt gene, also maps to Chr 6. Thus this comparative mapping reveals a new region of conserved synteny between the chromosomes of mouse and human. Mapping the human homolog of the mouse dt gene enables us to initiate linkage studies to identify neurodegenerative disorders that may be caused by mutations in this gene.     

Autistic Disorder and Chromosome 15q11–q13: Construction and Analysis of a BAC/PAC Contig

Autistic disorder (AD) is a neurodevelopmental disorder that affects approximately 2–10/10,000 individuals. Chromosome 15q11–q13 has been implicated in the genetic etiology of AD based on (1) cytogenetic abnormalities; (2) increased recombination frequency in this region in AD versus non-AD families; (3) suggested linkage with markers D15S156, D15S219, and D15S217; and (4) evidence for significant association with polymorphisms in the γ-aminobutyric acid receptor subunit B3 gene (GABRB3). To isolate the putative 15q11–q13 candidate AD gene, a genomic contig and physical map of the approximately 1.2-Mb region from the GABA receptor gene cluster to the OCA2 locus was generated. Twenty-one bacterial artificial chromosome (BAC) clones, 32 P1-derived artificial chromosome (PAC) clones, and 2 P1 clones have been isolated using the markers D15S540, GABRB3, GABRA5, GABRG3, D15S822, and D15S217, as well as 34 novel markers developed from the end sequences of BAC/PAC clones. In contrast to previous findings, the markers D15S822 and D15S975 have been localized within the GABRG3 gene, which we have shown to be approximately 250 kb in size. NotI and numerous EagI restriction enzyme cut sites were identified in this region. The BAC/PAC genomic contig can be utilized for the study of genomic structure and the identification and characterization of genes and their methylation status in this autism candidate gene region on human chromosome 15q11–q13.     

Sequence-ready physical map of the mouse Chromosome 16 region with conserved synteny to the human Velocardiofacial syndrome region on 22q11.2

Proximal mouse Chromosome (Chr) 16 shows conserved synteny with human Chrs 16, 8, 22, and 3. The mouse Chr 16/human Chr 22 conserved synteny region includes the DiGeorge/Velocardiofacial syndrome region of human Chr 22q11.2. A physical map of the entire mouse Chr 16/human Chr 22 region of conserved synteny has been constructed to provide a substrate for gene discovery, genomic sequencing, and animal model development. A YAC contig was constructed that extends ca. 5.4 Mb from a region of conserved synteny with human Chr 8 at Prkdc through the region conserved with human Chr 3 at DVL3. Sixty-one markers including 37 genes are mapped with average marker spacing of 90 kb. Physical distance was determined across the 2.6-Mb region from D16Mit74 to Hira with YAC fragmentation. The central region from D16Jhu28 to Igl-C1 was converted into BAC and PAC clones, further refining the physical map and providing sequence-ready template. The gene content and borders of three blocks of conserved linkage between human Chr 22q11.2 mouse Chr 16 are refined. Received: 4 November 1998 / Accepted: 21 December 1998     

Cloning of the integration and attachment regions of bacteriophage P4

Summary The integration and attachment regions of bacteriophage P4 have been cloned into a multicopy plasmid. This plasmid can integrate into the E. coli chromosome at the same location as the parent phage. Integration increases the stability of the plasmid and allows it to be retained even under conditions in which a non-integrated plasmid would be lost. None of the genes needed for P4 lytic growth is required for integration. The P4 integration and attachment regions have been cloned on separate plasmids. A plasmid that carries the attachment site can integrate into the chromosome only if another plasmid that carries the P4 integration functions is present. A plasmid that carries only this trans-acting integration function cannot integrate. Using deletion mutants of the plasmid, the maximum size of the region needed for integration has been determined to be 1.6 kb, of which no more than 1.2 kb codes for the integrase protein. A nonsense mutant defective in integration has been isolated by using a rapid screening procedure that identifies unstable plasmids.     

Comparative feline genomics: a BAC/PAC contig map of the major histocompatibility complex class II region

The genome organization of the human major histocompatibility complex (MHC) will be best understood in a comparative evolutionary context. We describe here the construction of a physical map for the feline MHC. A large-insert domestic cat genomic DNA library was developed using a P1 artificial chromosome (PAC) with a genomic representation of 2.5x and an average insert size of 80 kb. A sequence-ready 660-kb bacterial artificial chromosome/PAC contig map of the domestic cat MHC class II region was constructed with a gene order similar to, but distinct from, that of human and mice: DPB/DPA, Ring3, DMB, TAP1, DOB, DRB2, DRA3, DRB1, DRA2, and DRA1. Fluorescence in situ hybridization analyses of selected class II PAC clones confirmed that the class II region lies in the pericentromeric region of cat chromosome B2. However, apparently unlike the human and mouse MHCs, the domestic cat DRA and DRB genes have undergone multiple duplications and the DQ region has been deleted.     

Partial contig map of the smallest chromosome inCoprinus cinereus

We have constructed a chromosome-specific cosmid library from electrophoretically separated chromosomes of the basidiomyceteCoprinus cinereus and performed contig mapping and analysis of chromosome length polymorphisms (CLPs) for the smallest chromosome of the 5302 strain. A contig map of about 300 kb indicated that the novel size chromosomes in the F₁ progeny were apparently recombinants containing physical markers derived from both ends and central regions in this map. This may be the first case in which the formation of CLPs in the F₁ generation has been explained using the contig map. The results obtained were consistent with the hypothesis that novel CLPs were produced by meiotic recombination between the parental homologous chromosomes of unequal sizes.     

Fine mapping of the human pentraxin gene region on chromosome 1q23

 The 1q21 to 25 region of human chromosome 1 contains genes which encode proteins with immune- and inflammation-associated functions. These include the pentraxin genes, for C-reactive protein (CRP), serum amyloid P (SAP) protein (APCS), and a CRP pseudogene (CRPP1). The region of chromosome 1 containing this cluster is syntenic with distal mouse chromosome 1. We constructed an approximately 1.4 megabase yeast artificial chromosome (YAC) contig with the pentraxin genes at its core. This four-YAC contig includes other genes with immune functions including the FCER1A gene, which encodes the α-subunit of the IgE high-affinity Fc receptor and the IFI-16 gene, an interferon-γ-induced gene. In addition, it contains the histone H3F2 and H4F2 genes and the gene for erythroid α-spectrin (SPTA1). The gene order is cen.-SPTA1-H4F2-H3F2-IFI-16-CRP-CRPP1-APCS-FCER1A- tel. The contig thus consists of a cluster of genes whose products either have immunological importance, bind DNA, or both. Received: 13 December 1995 / 6 February 1996     

Generation of a high-quality P1 library of Arabidopsis suitable for chromosome walking

Using improved techniques, a representative P1 library of Arabidopsis was constructed and characterized. Megabase genomic DNA was prepared from nuclei and partially digested with Sau3AI. DNA fragments of 75–100 kb were selected by size fractionation in low melting agarose, concentrated by a spot-evaporation/dialysis method, and cloned in the pAd10sacBII P1 vector. The library contains 10 080 clones individually stored in microtiter plates. With an average insert size of about 80 kb, the library represents about eight haploid genomic equivalents of this plant. This library can be screened rapidly by dot hybridization of plate and well position pools. Characterization of the library by restriction analysis, screening with RFLP probes, RFLP mapping of insert end sequences, and chromosome walking shows that the library is of high quality with respect to insert site, completeness, and absence of chimeric artifacts. With this library a contig of about 600 kb has been constructed in the cer9 locus region. This P1 library is expected to be useful for genome mapping and gene cloning in Arabidopsis research programs.     

Molecular markers from a BAC contig spanning the Rdr1 locus: a tool for marker-assisted selection in roses

We constructed a BAC contig of about 300 kb spanning the Rdr1 locus for black spot resistance in Rosa multiflora hybrids, using a new BIBAC library from DNA of this species. From this contig, we developed broadly applicable simple sequence repeat (SSR) markers tightly linked to Rdr1, which are suitable for genetic analyses and marker-assisted selection in roses. As a source for the high molecular weight DNA, we chose the homozygous resistant R. multiflora hybrid 88/124-46. For the assembly of the BAC contig, we made use of molecular markers derived from a previously established R. rugosa contig. In order to increase the resolution for fine mapping, the size of the population was increased to 974 plants. The genomic region spanning Rdr1 is now genetically restricted to 0.2 cM, corresponding to a physical distance of about 300 kb. One single-stranded conformational polymorphism (SSCP) and one SSR marker cosegregate with the Rdr1-mediated black spot resistance, while one SSR and several cleaved amplified polymorphic sequence or SSCP markers are very tightly linked with one to three recombinants among the 974 plants. The benefits of the molecular markers developed from the R. multiflora contig for the genetic analysis of roses and the integration of rose genetic maps are discussed.     

YAC Contigs of theRab1andwobbler(wr) Spinal Muscular Atrophy Gene Region on Proximal Mouse Chromosome 11 and of the Homologous Region on Human Chromosome 2p

Despite rapid progress in the physical characterization of murine and human genomes, little molecular information is available on certain regions, e.g., proximal mouse chromosome 11 (Chr 11) and human chromosome 2p (Chr 2p). We have localized thewobblerspinal atrophy genewrto proximal mouse Chr 11, tightly linked toRab1,a gene coding for a small GTP-binding protein, andGlns-ps1,an intronless pseudogene of the glutamine synthetase gene. We have now used these markers to construct a 1.3-Mb yeast artificial chromosome (YAC) contig of theRab1region on mouse Chr 11. Four YAC clones isolated from two independent YAC libraries were characterized by rare-cutting analysis, fluorescencein situhybridization (FISH), and sequence-tagged site (STS) isolation and mapping.Rab1andGlns-ps1were found to be only 200 kb apart. A potential CpG island near a methylatedNarI site and a trapped exon,ETG1.1,were found between these loci, and a new STS,AHY1.1,was found over 250 kb fromRab1.Two overlapping YACs were identified that contained a 150-kb region of human Chr 2p, comprising theRAB1locus,AHY1.1,and the human homologue ofETG1.1,indicating a high degree of conservation of this region in the two species. We mappedAHY1.1and thus humanRAB1on Chr 2p13.4–p14 using somatic cell hybrids and a radiation hybrid panel, thus extending a known region of conserved synteny between mouse Chr 11 and human Chr 2p. Recently, the geneLMGMD2Bfor a human recessive neuromuscular disease, limb girdle muscular dystrophy type 2B, has been mapped to 2p13–p16. The conservation between the mouseRab1and humanRAB1regions will be helpful in identifying candidate genes for thewobblerspinal muscular atrophy and in clarifying a possible relationship betweenwrandLMGMD2B.