Physical map of Aspergillus nidulans mitochondrial genes coding for ribosomal RNA: an intervening sequence in the large rRNA cistron

Summary A detailed map of the 32 kb mitochondrial genome of Aspergillus nidulans has been obtained by locating the cleavage sites for restriction endonucleases Pst I, Bam H I, Hha I, Pvu II, Hpa II and Hae III relative to the previously determined sites for Eco R I, Hind II and Hind III. The genes for the small and large ribosomal subunit RNAs were mapped by gel transfer hybridization of in vitro labelled rRNA to restriction fragments of mitochondrial DNA and its cloned Eco R I fragment E3, and by electron microscopy of RNA/DNA hybrids.The gene for the large rRNA (2.9 kb) is interrupted by a 1.8 kb insert, and the main segment of this gene (2.4 kb) is separated from the small rRNA gene (1.4 kb) by a spacer sequence of 2.8 kb length.This rRNA gene organization is very similar to that of the two-times larger mitochondrial genome of Neurospora crassa, except that in A. nidulans the spacer and intervening sequences are considerably shorter.     

Human Mucin Genes Assigned to 11p15.5: Identification and Organization of a Cluster of Genes

Four distinct genes that encode mucins have previously been mapped to chromosome 11p15.5. Three of these genes (MUC2, MUC5AC,andMUC6) show a high level of genetically determined polymorphism and were analyzed in the CEPH families. Linkage analysis placed all three genes on the genetic map in a cluster betweenHRASandINS,and more detailed analysis of recombinant breakpoints revealed thatMUC6is telomeric toMUC2.Using these recombinantsD11S150was mapped close toMUC2.Ten of the 11 recombinant chromosomes studied in detail were paternal, and the recombinant events were distributed throughout the 11p15 region, suggesting that the high level of recombination observed in 11p15.5 is not due to a particular recombinational hot spot. Pulsed-field gel electrophoresis was used to make a detailed physical map of theMUCcluster and to integrate the physical and genetical maps. The gene order was determined to beHRAS–MUC6–MUC2–MUC5AC–MUC5B–IGF2.TheMUCgenes span a region of some 400 kb and the map extends 770 kb and contains 15 putative CpG islands. The order of theMUCgenes on the map corresponds to the relative order of their expression along the anterior–posterior axis of the body, suggesting a possible functional significance to the gene order.     

The glutamate dehydrogenase structural gene of Escherichin coli

Summary The glutamate dehydrogenase structural gene, gdhA, was mapped at 38.6 min on the genetic map and at 1860 kb on the physical map. A detailed map of this region is presented.     

Molecular cloning in streptococci: Physical mapping of the vehicle plasmid pSM10 and demonstration of intergroup DNA transfer

Summary The streptococcal resistance plasmid pSM10 (8.3 kb), a deletion derivative of pSM10419 (22.9 kb) determining constitutive erythromycin and lincomycin resistance, was physically mapped with the restriction endonucleases AvaI, AvaII, EcoRI, HpaI, KpnI, PvuII (one site each), HindIII, HaeII (three sites each), HincII (four sites), and HhaI (five sites). Using the cryptic plasmid pVA318 as cloning vehicle, the largest HindIII fragment of pSM10 (3.3 kb) was shown to contain the erythromycin/lincomycin resistance gene(s) of the plasmid. The AvaII site of pSM10 proved to be suitable as a site for cloning AvaII-generated chromosomal DNA fragments from a group C streptococcal strain in the Challis strain of Streptococcus sanguis (group) H. A detailed physical map of the chimeric plasmid pSM10221 (12.8 kb), a fusion product of pSM10 and the staphylococcal chloramphenicol resistance plasmid pC221 (4.5 kb), is also presented. The plasmid chimera has properties making it potentially useful in development of a doubly selective streptococcal cloning vehicle by searching for insertional inactivation.     

Construction of a 2.6-Mb contig in yeast artificial chromosomes spanning the human dystrophin gene using an STS-based approach.

A sequence tagged site (STS)-based approach has been used to construct a 2.6-Mb contig in yeast artificial chromosomes (YACs) spanning the human dystrophin gene. Twenty-seven STSs were used to identify and overlap 34 YAC clones. A DNA fingerprint of each clone produced by direct Alu-PCR amplification of YAC colonies and the isolation of YAC insert ends by vectorette PCR were used to detect overlaps in intron 1 (280 kb) where no DNA sequence data were available, thereby achieving closure of the map. This study has evaluated methods for mapping large regions of the X chromosome and provides a valuable resource of the dystrophin gene in cloned form for detailed analysis of gene structure and function in the future.     

Von Hippel-Lindau disease: identification of deletion mutations by pulsed-field gel electrophoresis

Von Hippel-Lindau disease (VHL) is an inherited multisystem neoplastic disorder. We prepared a 2.5-megabase (Mb) restriction map of the region surrounding the VHL gene and identified and characterized overlapping deletions in three unrelated patients affected with VHL. The smallest nested deletion (100 kb) was located within a 510-kb NruI fragment detected by 19–63. The rearrangements detected will be useful in isolating and evaluating candidate cDNAs for the VHL gene. The detailed physical map will be useful in studying the organization and structure of genes in the VHL region.     

Inverted repeats in the DNA of Streptomyces plasmids pMG110 and pMG120

Summary Two cryptic plasmids pMG110 (10.5 kb) and pMG120 (14.5 kb) isolated from Streptomyces luteolutescens were cleaved by restriction endonucleases BglII, KpnI, and SalGI. A physical map was constructed for pMG110. After denaturation and intrastrand reannealing, two types of snap-back structures were identified by electron microscopy, differing in the size of the loop (type 1, 1 kb; type 2, 1.6 kb), whereas the stem of both structures was about 190 bp long. Stem-loop structures of similar size were also observed in pMG120. In rare cases, both types of elements were present on the same DNA molecule. The analysis of BglII- and KpnI-generated fragments allowed the localization of the elements at two alternative positions on the physical map of pMG110.     

Isolation,physical map and gene map of mitochondrial DNA from the cryptomonad Pyrenomonas salina

Mitochondrial DNA (mtDNA) from the cryptomonad Pyrenomonas salina was isolated by CsCl-buoyant density centrifugation of whole-cell DNA in the presence of Hoechst dye 33258. mtDNA consists of circular molecules about 47 kb in size as estimated from restriction enzyme analysis. A physical map for six restriction enzymes (Bam HI, Bge I, Eco RI, Pst I, Sac I and Sac I) has been constructed. Genes coding for the small subunit of rRNA, cytochrome oxidase subunits I and II, and apocytochrome b were localized on this map using Southern blot hybridization with heterologous gene probes from Oenothera. Genes for 5S rRNA and NADH dehydrogenase subunit 5 are absent from P. salina mtDNA. The mitochondrial genome, being the first analysed to this extent in chromophytic algae, should be valuable for taxonomic and phylogenetic studies.     

Characterization of the Human Dihydropyrimidine Dehydrogenase Gene

Dihydropyrimidine dehydrogenase (DPD) catabolizes endogenous pyrimidines and pyrimidine-based antimetabolite drugs. A deficiency in human DPD is associated with congenital thymine-uraciluria in pediatric patients and severe 5-fluorouracil toxicity in cancer patients. The dihydropyrimidine dehydrogenase gene (DPYD) was isolated, and its physical map and exon–intron organization were determined by analysis of P1, PAC, BAC, and YAC clones. TheDPYDgene was found to contain 23 exons ranging in size from 69 bp (exon 15) to 961 bp (exon 23). A physical map derived from a YAC clone indicated thatDPYDis at least 950 kb in length with 3 kb of coding sequence and an average intron size of about 43 kb.The previously reported 5′ donor splice site mutation present in pediatric thymine-uraciluria and cancer patients can now be assigned to exon 14. All 23 exons were sequenced from a series of human DNA samples, and three point mutations were identified in three racial groups as G1601A (exon 13, Ser534Asn), A1627G (exon 13, Ile543Val), and G2194A (exon 18, Val732Ile). These studies, which have established that theDPYDgene is unusually large, lay a framework for uncovering new mutations that are responsible for thymine-uraciluria and toxicity to fluoropyrimidine drugs.     

Colinearity of novel genes in the class II regions of the MHC in mouse and human

To examine the degree of conservation of gene organization in and around the class II regions of the major histocompatibility complexes of mouse and human, we have established the positions of sequences homologous to five human non-class II genes (RING1-5) in mouse, and the positions of sequences homologous to three mouse non-class II genes (KE3-5) in human. The resulting comparative map reveals that the organization of genes in the entire proximal region of the MHCs of mouse and human is remarkably conserved, apart from the H-2K gene pair in mouse, which can be accounted for by a 60 kilobase (kb) insertion. The characterization of the novel human gene RING5 is also presented. This gene, which is widely expressed, maps 85 kb proximal to the DPB2 gene. Partial nucleotide sequencing of a RING5 cDNA clone reveals that it is the human homolog of the mouse KE4 gene.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession number M58660.     

Fine Exon–Intron Structure of the Fanconi Anemia Group A (FAA) Gene and Characterization of Two Genomic Deletions

Fanconi anemia (FA) is a genetically heterogeneous disease with at least eight genes on the basis of complementation groups (FAAtoFAH). The analysis of theFAAgene in patients suggested the existence of deletions, none of which have thus far been characterized at the genomic level. A detailed restriction map of theFAAgene with the fine localization of its 43 exons is reported in this paper. We also describe the first two genomic deletions, one of 5.0 kb and another of at least 120 kb. The former was likely the result of a recombination between relatedAlusequences. Since these interspersed repeats could generate deletions and insertions by mispairing, rearrangements of this gene are a possibility in those FA families in whichFAAmutations have not been identified.     

Physical mapping of the human and mouse MOG gene at the distal end of the MHC class Ib region

Myelin/oligodendrocyte glycoprotein (MOG) is expressed specifically in the central nervous system (CNS) by myelinating glial cells, the oligodendrocytes. The external location of MOG on myelin sheaths and its late expression during myelinogenesis argue for a role of MOG in the completion of myelin and maintenance of its integrity. MOG is a target autoantigen in demyelinating diseases, such as experimental autoimmune encephalomyelitis (EAE) in animals and multiple sclerosis (MS) in humans. We previously located the gene encoding MOG to the major histocompatibility complex (MHC), both in human, by cytogenetics, and in mouse, by analysis of recombinants. To refine the position, we have now selected yeast artificial chromosome clones (YAC) which contain the MOG gene. Physical mapping of the human MOG and the mouse Mog genes by characterization of these YAC clones indicated that the gene is located at the distal end of the major histocompatibility complex (MHC) class Ib region in both species. The human MOG gene lies 60 kilobases (kb) telomeric to HLA-F in a head-to-head orientation; the mouse Mog gene lies 25 (kb) telomeric to H2-M5 in a tail-to-head orientation. These orthologous genes provide markers for comparative analysis of the evolution of the MHC in the two species. The physical mapping of MOG should facilitate analysis of its role in hereditary neurological diseases, and the YAC clones identified here will permit the identification of new genes in the region.     

High-resolution mapping by YAC fragmentation of a 2.5-Mb Xp22 region containing the human RS, KFSD and CLS disease genes

The disease loci for X-linked Retinoschisis (RS), Keratosis follicularis spinulosa decalvans (KFSD), and Coffin-Lowry syndrome (CLS) have been localized to the same, small region in Xp22 on the human X Chromosome (Chr). To generate a high-resolution map of the available contig in this area, we have used the YAC fragmentation vectors pBP108/ADE2 and pBP109/ADE2 and generated fragmented YACs from a 2.5-Mb YAC (y939H7) spanning the mentioned disease gene candidate regions. Forty-seven fragmented YACs were generated and analyzed, ranging in size from 170 kb to over 2400 kb. The resulting YAC fragmentation panel was used to construct a detailed restriction map of the region and has been used to bin clones and markers. As a deletion panel, it will present a valuable resource for further mapping. Received: 31 December 1996 / Accepted: 22 February 1997     

The physical map of the chloroplast DNA from Asparagus officinalis L.

The genus Asparagus consists of 100–300 species of both dioecious and hermaphrodite plants. Since there are diploid, tetraploid, and hexaploid plants in this genus, RFLP (restriction fragment length polymorphism) analysis of chloroplast DNA (ctDNA) is suitable for examining the phylogenetic relationships. We have constructed a physical map of the ctDNA of garden asparagus (A. officinalis L. cv Mary Washington 500 W) using five restriction endonucleases, namely, BamHI, PstI, SalI, HindIII, and XhoI. Asparagus ctDNA was digested with restriction enzymes and cloned into plasmid and phage vectors, and a clone bank was constructed that covered 70% of the genome. A physical map was constructed by Southern hybridization of total DNA from asparagus with homologous and heterologous probes. The asparagus ctDNA was about 155 kb long and it contained two inverted repeats (23kb each) separated by a large single-copy region (90kb) and a small single-copy region (19kb). Fifteen genes, encoding photosynthesis-related proteins, rDNAs, and tRNAs, were localized on the physical map of asparagus ctDNA. Comparing the length and the gene order of asparagus ctDNA with that of other plants, we found that asparagus ctDNA was similar to tobacco ctDNA but different from rice ctDNA. The restriction patterns of the ctDNAs from several varieties of A. officinalis and three species of Asparagus were analyzed. The restriction patterns of the varieties of A. officinalis were very similar, but polymorphisms were detected among the three species of Asparagus.     

Physical Mapping of the Bacillus thuringiensis subsp. kurstaki and alesti Chromosomes

Two strains of the well-known insect pathogen and biopesticide, Bacillus thuringiensis (Bt), belonging to subspecies alesti (strain Bt5) and kurstaki (strain Bt213), were chosen for genetic characterization. The two strains belong to different serotypes and are currently classified into different subspecies, although their insecticidal activity is similar. Physical maps were constructed of Bt alesti and Bt kurstaki using Pulsed Field Gel Electrophoreses (PFGE), and the map positions of several genes were determined. The 5.5 Mb combined genetic and physical chromosome maps of the two strains were found to be indistinguishable, and the only differences detected between the strains were of extrachromosomal origin. A cryIA toxin gene probe hybridised to a chromosome fragment and to two extrachromosomal elements in both strains, migrating as 100 kb and 350 kb, respectively. In addition a cry hybridizing extrachromosomal element migrating as 80 kb was present only in Bt alesti. Both strains were also found to contain sequences hybridizing to an enterotoxin (hbla) gene probe. Such sequences were positioned on the 350 kb extrachromosomal element, as well as on the chromosome. Received: 20 April 2001 / Accepted: 29 May 2001     

Long-range restriction map of a region of human chromosome 19 containing the apolipoprotein genes,a CLL-associated translocation breakpoint,and two polymorphic MluI sites

Summary The apolipoprotein gene cluster on human chromosome 19 (APOC1, APOC2, APOE) has been localised by pulsed-field gel electrophoresis to within 200 kb of a chronic lymphocytic leukemia-associated translocation breakpoint. A restriction map covering 1300 kb around these loci has been constructed and contains two polymorphic MluI sites, which appear to show Mendelian inheritance. The orientation of the map on the chromosome has been established as 19cen CLL breakpoint-APOC2-19qter. Pedigree analysis using APOC2, a probe derived from the CLL breakpoint, and other localised markers on 19q suggests that the myotonic dystrophy locus is distal to APOC2 on 19q.     

Genetic and physical mapping of the S<Subscript>H</Subscript>3 region that confers resistance to leaf rust in coffee tree (<Emphasis Type="Italic">Coffea arabica</Emphasis> L.)

Resistance to coffee leaf rust is conferred by S_H3, a major dominant gene that has been introgressed from a wild coffee species Coffea liberica (genome L) into the allotetraploid cultivated species, Coffea arabica (genome C^aE^a). As the first step toward the map-based cloning of the S_H3 gene, using a bacterial artificial chromosome (BAC) library, we describe the construction of a physical map in C. arabica spanning the resistance locus. This physical map consists in two homeologous BAC-contigs of 1,170 and 1,208 kb corresponding to the subgenomes C^a and E^a, respectively. Genetic analysis was performed using a single nucleotide polymorphism detection assay based on Sanger sequencing of amplicons. The C. liberica-derived chromosome segment that carries the S_H3 resistance gene appeared to be introgressed on the sub-genome C^a. The position of the S_H3 locus was delimited within an interval of 550 kb on the physical map. In addition, our results indicated a sixfold reduction in recombination frequency in the introgressed S_H3 region compared to the orthologous region in Coffea canephora.     

Structure of the mouse 3-Methyladenine DNA Glycosylase gene and exact localization upstream of the α-globin gene cluster on Chromosome 11

In this paper we describe the genomic organization of the mouse 3-Methyladenine DNA Glycosylase (MPG) gene and localize three putative regulatory elements around this gene. The MPG gene plays a key role in the excision repair of methylated adenine residues and has been localized upstream of the -globin gene cluster in human and mouse. The human MPG gene has been fully characterized, whereas up to now only the cDNA sequence of the mouse MPG gene had been published. Here, we describe a detailed restriction map, the intron/exon structure, the CpG-rich putative promoter sequence, and the exact localization of the mouse MPG gene with respect to the murine -globin gene cluster. Our analysis reveals a remarkable different exon/intron structure of the mouse MPG gene compared with its human homolog. Two prominent DNase hypersensitive sites (HSS) were found 0.1 and 1.5 kb upstream of the coding sequence. In addition to these elements, an erythroid prominent HSS was mapped at the intron/exon boundary of the last exon. The characterization and localization of the MPG gene in mouse makes it now possible to carry out transgenic and gene targeting experiments and are essential to understand the control of gene expression of the MPG gene in particular and of the whole region in general.The nucleotide sequence data reported in this paper will be submitted to Genbank.