Functional studies on the IBD susceptibility gene IL23R implicate reduced receptor function in the protective genetic variant R381Q

Genome-wide association studies (GWAS) in several populations have demonstrated significant association of the IL23R gene with IBD (Crohn's disease (CD) and ulcerative colitis (UC)) and psoriasis, suggesting that perturbation of the IL-23 signaling pathway is relevant to the pathophysiology of these diseases. One particular variant, R381Q (rs11209026), confers strong protection against development of CD. We investigated the effects of this variant in primary T cells from healthy donors carrying IL23R(R381) and IL23R(Q381) haplotypes. Using a proprietary anti-IL23R antibody, ELISA, flow cytometry, phosphoflow and real-time RT-PCR methods, we examined IL23R expression and STAT3 phosphorylation and activation in response to IL-23. IL23R(Q381) was associated with reduced STAT3 phosphorylation upon stimulation with IL-23 and decreased number of IL-23 responsive T-cells. We also observed slightly reduced levels of proinflammatory cytokine secretion in IL23R(Q381) positive donors. Our study shows conclusively that IL23R(Q381) is a loss-of-function allele, further strengthening the implication from GWAS results that the IL-23 pathway is pathogenic in human disease. This data provides an explanation for the protective role of R381Q in CD and may lead to the development of improved therapeutics for autoimmune disorders like CD.

Genome-wide association study for Crohn's disease in the Quebec Founder Population identifies multiple validated disease loci

Genome-wide association (GWA) studies offer a powerful unbiased method for the identification of multiple susceptibility genes for complex diseases. Here we report the results of a GWA study for Crohn's disease (CD) using family trios from the Quebec Founder Population (QFP). Haplotype-based association analyses identified multiple regions associated with the disease that met the criteria for genome-wide significance, with many containing a gene whose function appears relevant to CD. A proportion of these were replicated in two independent German Caucasian samples, including the established CD loci NOD2 and IBD5. The recently described IL23R locus was also identified and replicated. For this region, multiple individuals with all major haplotypes in the QFP were sequenced and extensive fine mapping performed to identify risk and protective alleles. Several additional loci, including a region on 3p21 containing several plausible candidate genes, a region near JAKMIP1 on 4p16.1, and two larger regions on chromosome 17 were replicated. Together with previously published loci, the spectrum of CD genes identified to date involves biochemical networks that affect epithelial defense mechanisms, innate and adaptive immune response, and the repair or remodeling of tissue.

Systematic association mapping identifies NELL1 as a novel IBD disease gene

Crohn disease (CD), a sub-entity of inflammatory bowel disease (IBD), is a complex polygenic disorder. Although recent studies have successfully identified CD-associated genetic variants, these susceptibility loci explain only a fraction of the heritability of the disease. Here, we report on a multi-stage genome-wide scan of 393 German CD cases and 399 controls. Among the 116,161 single-nucleotide polymorphisms tested, an association with the known CD susceptibility gene NOD2, the 5q31 haplotype, and the recently reported CD locus at 5p13.1 was confirmed. In addition, SNP rs1793004 in the gene encoding nel-like 1 precursor (NELL1, chromosome 11p15.1) showed a consistent disease-association in independent German population- and family-based samples (942 cases, 1082 controls, 375 trios). Subsequent fine mapping and replication in an independent sample of 454 French/Canadian CD trios supported the authenticity of the NELL1 association. Further confirmation in a large German ulcerative colitis (UC) sample indicated that NELL1 is a ubiquitous IBD susceptibility locus (combined p<10⁻⁶; OR = 1.66, 95% CI: 1.30–2.11). The novel 5p13.1 locus was also replicated in the French/Canadian sample and in an independent UK CD patient panel (453 cases, 521 controls, combined p<10⁻⁶ for SNP rs1992660). Several associations were replicated in at least one independent sample, point to an involvement of ITGB6 (upstream), GRM8 (downstream), OR5V1 (downstream), PPP3R2 (downstream), NM_152575 (upstream) and HNF4G (intron).

Mechanistic role of a disease-associated genetic variant within the ADAM33 asthma susceptibility gene

BACKGROUND

ADAM33 has been identified as an asthma-associated gene in an out-bred population. Genetic studies suggested that the functional role of this metalloprotease was in airway remodeling. However, the mechanistic roles of the disease-associated SNPs have yet to be elucidated especially in the context of the pathophysiology of asthma. One disease-associated SNP, BC+1, which resides in intron BC toward the 5' end of ADAM33, is highly associated with the disease.

METHODS

The region surrounding this genetic variant was cloned into a model system to determine if there is a regulatory element within this intron that influences transcription.

RESULTS

The BC+1 protective allele did not impose any affect on the transcription of the reporter gene. However, the at-risk allele enforced such a repressive affect on the promoter that no protein product from the reporter gene was detected. These results indicated that there exists within intron BC a regulatory element that acts as a repressor for gene expression. Moreover, since SNP BC+1 is a common genetic variant, this region may interact with other undefined regulatory elements within ADAM33 to provide a rheostat effect, which modulates pre-mRNA processing. Thus, SNP BC+1 may have an important role in the modulation of ADAM33 gene expression.

CONCLUSION

These data provide for the first time a functional role for a disease-associated SNP in ADAM33 and begin to shed light on the deregulation of this gene in the pathophysiology of asthma.

Association of the ADAM33 gene with asthma and bronchial hyperresponsiveness

Asthma is a common respiratory disorder characterized by recurrent episodes of coughing, wheezing and breathlessness. Although environmental factors such as allergen exposure are risk factors in the development of asthma, both twin and family studies point to a strong genetic component. To date, linkage studies have identified more than a dozen genomic regions linked to asthma. In this study, we performed a genome-wide scan on 460 Caucasian families and identified a locus on chromosome 20p13 that was linked to asthma (log(10) of the likelihood ratio (LOD), 2.94) and bronchial hyperresponsiveness (LOD, 3.93). A survey of 135 polymorphisms in 23 genes identified the ADAM33 gene as being significantly associated with asthma using case-control, transmission disequilibrium and haplotype analyses (P = 0.04 0.000003). ADAM proteins are membrane-anchored metalloproteases with diverse functions, which include the shedding of cell-surface proteins such as cytokines and cytokine receptors. The identification and characterization of ADAM33, a putative asthma susceptibility gene identified by positional cloning in an outbred population, should provide insights into the pathogenesis and natural history of this common disease.

A mutation in the LDL receptor-related protein 5 gene results in the autosomal dominant high-bone-mass trait

Osteoporosis is a complex disease that affects >10 million people in the United States and results in 1.5 million fractures annually. In addition, the high prevalence of osteopenia (low bone mass) in the general population places a large number of people at risk for developing the disease. In an effort to identify genetic factors influencing bone density, we characterized a family that includes individuals who possess exceptionally dense bones but are otherwise phenotypically normal. This high-bone-mass trait (HBM) was originally localized by linkage analysis to chromosome 11q12-13. We refined the interval by extending the pedigree and genotyping additional markers. A systematic search for mutations that segregated with the HBM phenotype uncovered an amino acid change, in a predicted beta-propeller module of the low-density lipoprotein receptor-related protein 5 (LRP5), that results in the HBM phenotype. During analysis of >1,000 individuals, this mutation was observed only in affected individuals from the HBM kindred. By use of in situ hybridization to rat tibia, expression of LRP5 was detected in areas of bone involved in remodeling. Our findings suggest that the HBM mutation confers a unique osteogenic activity in bone remodeling, and this understanding may facilitate the development of novel therapies for the treatment of osteoporosis.

On the regiospecificity of vanadium bromoperoxidase

Vanadium haloperoxidase enzymes catalyze the oxidation of halide ions by hydrogen peroxide, producing an oxidized intermediate, which can halogenate an organic substrate or react with a second equivalent of hydrogen peroxide to produce dioxygen. Haloperoxidases are thought to be involved in the biogenesis of halogenated natural products isolated from marine organisms, including indoles and terpenes, of which many are selectively oxidized or halogenated. Little has been shown concerning the ability of the marine haloperoxidases to catalyze regioselective reactions. Here we report the regiospecific bromoperoxidative oxidation of 1,3-di-tert-butylindole by V-BrPO from the marine algae Ascophyllum nodosum and Corallina officinalis. Both enzymes catalyze the regiospecific oxidation of 1,3-di-tert-butylindole in a reaction requiring both H(2)O(2) and Br(-) as substrates, but which produce the unbrominated 1,3-di-tert-butyl-2-indolinone product exclusively, in near quantitative yield (i.e. one H(2)O(2) consumed per product). By contrast, reactions with the controlled addition of aqueous bromine solution (HOBr = Br(2) = Br(3)(-)) produce three monobromo and one dibromo-2-indolinone products, all of which differ from the V-BrPO-catalyzed product. Further, reactivities of 1,3-di-tert-butyl-2-indolinone with both aqueous bromine and V-BrPO differ significantly and shed light onto the possible nature of the oxidizing intermediate. This is the first example of a regiospecific bromination by a vanadium haloperoxidase and further extends their usefulness as catalysts.

Inter- and intramolecular reductive coupling reactions: an approach to the phorbol skeleton

[reaction: see text] An expeditious convergent route to the ABC-tricyclic core of the phorbol esters is described. The chemistry capitalizes upon both inter- and intramolecular reductive coupling processes promoted electrochemically and via the use of samarium diiodide.

Atom transfer reactions of TMM diyls directed toward the synthesis of rudmollin

Intramolecular hydrogen atom transfer to a trimethylenemethane (TMM) diradical has been explored as a route to the antileukemial agent, rudmollin (1).

Evidence that a single replication fork proceeds from early to late replicating domains in the IgH locus in a non-B cell line

In non-B cell lines, like the murine erythroleukemia cell line (MEL), the most distal IgH constant region gene, C alpha, replicates early in S; other heavy chain constant region genes, joining and diversity segments, and the most proximal Vh gene replicate successively later in S in a 3' to 5' direction proportional to their distance from C alpha. In MEL, replication forks detected in the IgH locus also proceed in the same 3' to 5' direction for approximately 400 kb, beginning downstream of the IgH 3' regulatory region and continuing to the D region, as well as within the Vh81X gene. Downstream of the initiation region is an early replicating domain, and upstream of Vh81X is a late replicating domain. Hence, the gradual transition between early and late replicated domains can be achieved by a single replication fork.

Radiation down-regulates replication origin activity throughout the S phase in mammalian cells

An asynchronous culture of mammalian cells responds acutely to ionizing radiation by inhibiting the overall rate of DNA replication by approximately 50% for a period of several hours, presumably to allow time to repair DNA damage. At low and moderate doses, this S phase damage-sensing (SDS) pathway appears to function primarily at the level of individual origins of replication, with only a modest inhibition of chain elongation per se. We have shown previously that the majority of the inhibition observed in an asynchronous culture can be accounted for by late G1cells that were within 2-3 h of entering the S period at the time of irradiation and which then fail to do so. A much smaller effect was observed on the overall rate of replication in cells that had already entered the S phase. This raised the question whether origins of replication that are activated within S phase per se are inhibited in response to ionizing radiation. Here we have used a two-dimensional gel replicon mapping strategy to show that cells with an intact SDS pathway completely down-regulate initiation in both early- and late-firing rDNA origins in human cells. We also show that initiation in mid- or late-firing rDNA origins is not inhibited in cells from patients with ataxia telangiectasia, confirming the suggestion that these individuals lack the SDS pathway.

Dyad symmetry within the mouse 3' IgH regulatory region includes two virtually identical enhancers (C alpha3'E and hs3)

The transcription of the murine Ig heavy chain locus is regulated not only by the intronic enhancer, E mu, but also by a 3' regulatory region located downstream of the C alpha membrane exon. Several DNase I-hypersensitive sites (hs1-4) and enhancer elements (e.g., C alpha3'E) have been identified in this 3' regulatory region, and some of these were suggested to comprise a locus control region. However, little is known about the coordinate regulation or function of these individual elements. Here we provide evidence that C alpha3'E and hs3 are virtually mirror images of each other and demarcate the edges of an approximately 25-kb region of quasi-dyad symmetry with 3'alphaE(hs1,2) at its center. Flanking 3'alphaE(hs1,2) are inverted repeats and families of repetitive sequences uniquely located in this region. We have observed that, like 3'alphaE(hs1,2) and hs3, C alpha3'E is DNase I hypersensitive in plasma cell lines, but not in a pre-B cell line. Additionally, we found that C alpha3'E and hs3 show significant transcriptional synergy in transfection assays only in a plasma cell line. The DNA topology of the 3' regulatory region coupled with new and existing data on the activity of its individual enhancers during B cell differentiation lead us to propose a biphasic model for the activity of this region. According to our model, one unit, consisting of the 3'-most enhancer, hs4, is active early and throughout B cell development. The second unit, which comprises C alpha3'E, 3'alphaE(hs1,2), and hs3, becomes active later in development, when it contributes to such processes as class switching and increased levels of Ig heavy chain gene transcription in plasma cells.

Dyad symmetry within the mouse 3' IgH regulatory region includes two virtually identical enhancers (C alpha3'E and hs3)

The transcription of the murine Ig heavy chain locus is regulated not only by the intronic enhancer, E mu, but also by a 3' regulatory region located downstream of the C alpha membrane exon. Several DNase I-hypersensitive sites (hs1-4) and enhancer elements (e.g., C alpha3'E) have been identified in this 3' regulatory region, and some of these were suggested to comprise a locus control region. However, little is known about the coordinate regulation or function of these individual elements. Here we provide evidence that C alpha3'E and hs3 are virtually mirror images of each other and demarcate the edges of an approximately 25-kb region of quasi-dyad symmetry with 3'alphaE(hs1,2) at its center. Flanking 3'alphaE(hs1,2) are inverted repeats and families of repetitive sequences uniquely located in this region. We have observed that, like 3'alphaE(hs1,2) and hs3, C alpha3'E is DNase I hypersensitive in plasma cell lines, but not in a pre-B cell line. Additionally, we found that C alpha3'E and hs3 show significant transcriptional synergy in transfection assays only in a plasma cell line. The DNA topology of the 3' regulatory region coupled with new and existing data on the activity of its individual enhancers during B cell differentiation lead us to propose a biphasic model for the activity of this region. According to our model, one unit, consisting of the 3'-most enhancer, hs4, is active early and throughout B cell development. The second unit, which comprises C alpha3'E, 3'alphaE(hs1,2), and hs3, becomes active later in development, when it contributes to such processes as class switching and increased levels of Ig heavy chain gene transcription in plasma cells.

Yeast and mammalian replication intermediates migrate similarly in two-dimensional gels

In the budding yeast, Saccharomyces cerevisiae, DNA replication initiates at specific, discrete chromosomal locations. At each initiation site, a single small replication bubble is generated, which subsequently expands at Y-like replication forks. We wanted to know whether other eukaryotic organisms utilize similar initiation mechanisms. For this purpose, replication intermediates (RIs) from three different organisms (Schizosaccharomyces pombe, Chinese hamster and human) were mixed individually with RIs from S. cerevisiae and then subjected to two-dimensional (2D) gel electrophoresis under conditions known to resolve molecules having different structures. All of the RIs detected by the hybridization probes we used for each organism migrated nearly identically to specific RIs of similar size from S. cerevisiae, implying that the detected RIs from all the studied organisms have very similar structures and may therefore employ the same basic initiation mechanism.

The binding modes of a rationally designed photoactivated DNA nuclease determined by NMR

The complex between the rationally designed synthetic DNA cleaving agent netropsin-diazene and the double-stranded DNA oligomer 5'-CGCAAAGGC-3'.5'-GCCTTTTGCG-3' was characterized by two-dimensional NMR spectroscopy in solution. Photolysis of netropsin-diazene bound to DNA generates a trimethylenemethane diradical intermediate that induces single-strand breaks in the DNA. The pi-diyl trimethylenemethane based compounds are a new class of DNA nucleases. We tested the following design criteria: (i) binding of the diazene and subsequent reactive diyl to the DNA, (ii) sequence selectivity in the ligand binding and (iii) prevention of diyl dimerization. Sixteen NOE derived ligand-DNA distance restraints were used to obtain the energy minimized model of the complex. The ligand is bound to the minor groove of the oligomer with the diazene at the 5' end of the A-tract in the predominant conformation of the complex. This form of the complex exchanges with a minor conformation in which the ligand is in the opposite orientation. The DNA maintains a B-form structure. Netropsin-diazene has fulfilled all of the design criteria, binding to the DNA duplex studied in the minor groove of the central AAAA tract in a 1:1 mode, preventing diyl dimerization and other side reactions from occurring.

Initiation of latent DNA replication in the Epstein-Barr virus genome can occur at sites other than the genetically defined origin

Our laboratory has previously shown that replication of a small plasmid, p174, containing the genetically defined Epstein-Barr virus (EBV) latent origin of replication, oriP, initiates within oriP at or near a dyad symmetry (DS) element and terminates specifically at a family of repeated sequences (FR), also located within oriP. We describe here an analysis of the replication of intact approximately 170-kb EBV genomes in four latently infected cell lines that uses two-dimensional gel replicon mapping. Initiation was detected at oriP in all EBV genomes examined; however, some replication forks appear to originate from alternative initiation sites. In addition, pausing of replication forks was observed at the two clusters of EBV nuclear antigen 1 binding sites within oriP and at or near two highly expressed viral genes 0.5 to 1 kb upstream of oriP, the EBV-encoded RNA (EBER) genes. In the Raji EBV genome, the relative abundance of these stalled forks and the direction in which they are stalled indicate that most replication forks originate upstream of oriP. We thus searched for additional initiation sites in the Raji EBV and found that the majority of initiation events were distributed over a broad region to the left of oriP. This delocalized pattern of initiation resembles initiation of replication in several well-characterized mammalian chromosomal loci and is the first described for any viral genome. EBV thus provides a unique model system with which to investigate factors influencing the selection of replication initiation and termination sites in mammalian cells.

Replicative intermediates of human papillomavirus type 11 in laryngeal papillomas: site of replication initiation and direction of replication

We have examined the structures of replication intermediates from the human papillomavirus type 11 genome in DNA extracted from papilloma lesions (laryngeal papillomas). The sites of replication initiation and termination utilized in vivo were mapped by using neutral/neutral and neutral/alkaline two-dimensional agarose gel electrophoresis methods. Initiation of replication was detected in or very close to the upstream regulatory region (URR; the noncoding, regulatory sequences upstream of the open reading frames in the papillomavirus genome). We also show that replication forks proceed bidirectionally from the origin and converge 180 degrees opposite the URR. These results demonstrate the feasibility of analysis of replication of viral genomes directly from infected tissue.

Initiation and termination of DNA replication in human rRNA genes

We have used the multicopy human rRNA genes as a model system to study replication initiation and termination in mammalian chromosomes. Enrichment for replicating molecules was achieved by isolating S-phase enriched populations of cells by centrifugal elutriation, purification of DNA associated with the nuclear matrix, and a chromatographic procedure that enriches for molecules containing single-stranded regions, a characteristic of replication forks. Two-dimensional agarose gel electrophoresis techniques were used to demonstrate that replication appears to initiate at multiple sites throughout most of the 31-kb nontranscribed spacer (NTS) of human ribosomal DNA but not within the 13-kb transcription unit or adjacent regulatory elements. Although initiation events were detected throughout the majority of the NTS, some regions may initiate more frequently than others. Termination of replication, the convergence of opposing replication forks, was found throughout the ribosomal DNA repeat units, and, in some repeats, specifically at the junction of the 3' end of the transcription unit and the NTS. This site-specific termination of replication is the result of pausing of replication forks near the sites of transcription termination. The naturally occurring multicopy rRNA gene family offers a unique system to study mammalian DNA replication without the use of chemical synchronization agents.

Isochores and CpG islands in YAC contigs in human Xq26.1-qter

GC levels were assessed at 37 loci across 30 Mb of Xq26.1-qter, a region physically mapped in overlapping yeast artificial chromosome clones. In 8 Mb of R band Xq26, GC is relatively high (up to 44%) in the proximal 4 Mb and relatively low (40-41%) in the distal 4 Mb. Consistently low GC values (38-41%) are observed in G band Xq27. In contrast, further toward the telomere in Xq28, the GC level rises progressively to reach 52% at 2 to 4 Mb from the end of the chromosome; this region is delimited by low GC loci. Across these regions of Xq, the content of rare-cutter restriction enzyme sites containing CpG, including "CpG islands" in the most completely mapped Xq26-27.1 region, is correlated with GC level. Isochore mapping can thus provide one index of putative gene content across mapped regions.

1.5-Mb YAC contig in Xq28 formatted with sequence-tagged sites and including a region unstable in the clones

A contig of 20 yeast artificial clones (YACs) has been assembled across 1.5 Mb of Xq28 and formatted with nine previously reported probes and nine STSs developed from the sequence of probes and end fragments of YACs. YAC end fragments were obtained by subcloning, Alu-vector PCR, or primer-ligation PCR methods. Eighteen of the YACs were recovered from a library specific for Xq24-q28; two that fill a gap were obtained from a second library made from total human DNA. One region, containing probes pX78c and 2A1.1, was unstable in YACs, but it was possible to generate a self-consistent map of DNA over the entire contig. Overlaps were confirmed by Southern blot analyses of YAC DNAs, and pulsed-field gel electrophoresis confirmed the extent of the contig and identified at least four CpG islands in the region.

Yeast artificial chromosomes spanning 8 megabases and 10-15 centimorgans of human cytogenetic band Xq26

A successful test is reported to generate long-range contiguous coverage of DNA from a human cytogenetic band in overlapping yeast artificial chromosomes (YACs). Seed YACs in band Xq26 were recovered from a targeted library of clones from Xq24-q28 with 14 probes, including probes for the hypoxanthine guanine phosphoribosyltransferase- and coagulation factor IX-encoding genes and nine probes used in linkage mapping. Neighboring YACs were then identified by 25 "walking" steps with end-clones, and the content of 71 probes in cognate YACs was verified by further hybridization analyses. The resultant contig extends across 8 million base pairs, including most of band Xq26, with an order of markers consistent with linkage data. YAC-based mapping, thus, permits steps toward a fully integrated physical and genetic map and is probably adequate to sustain most of the human genome project.

Yeast artificial chromosome-based genome mapping: some lessons from Xq24-q28

Yeast artificial chromosomes (YACs) have recently provided a potential route to long-range coverage of complex genomes in contiguous cloned DNA. In a pilot project for 50 Mb (1.5% of the human genome), a variety of techniques have been applied to assemble Xq24-q28 YAC contigs up to 8 Mb in length and assess their quality. The results indicate the relative strength of several approaches and support the adequacy of YAC-based methods for mapping the human genome.

Isolation of a human DNA sequence which spans the fragile X

To identify the sequences involved in the expression of the fragile X and to characterize the molecular basis of the genetic lesion, we have constructed yeast artificial chromosomes (YACs) containing human DNA and have screened them with cloned DNA probes which map close to the fragile site at Xq27.3. We have isolated and partly characterized a YAC containing approximately 270 kb of human DNA from an X chromosome which expresses the fragile X. This sequence in a yeast artificial ring chromosome, XTY26, hybridizes to the two closest DNA markers, VK16 and Do33, which flank the fragile site. The human DNA sequence in XTY26 also spans the fragile site on chromosome in situ hybridization. When a restriction map of XTY26, derived by using infrequently cutting restriction enzymes, is compared with similar YAC maps derived from non-fragile-X patients, no large-scale differences are observed. This YAC, XTY26, may enable (a) the fragile site to be fully characterized at the molecular level and (b) the pathogenetic basis of the fragile-X syndrome to be determined.

Yeast artificial chromosomes containing human Xq24-Xq28 DNA: library construction and representation of probe sequences

A library of yeast artificial chromosomes (YACs) with human DNA inserts has been assembled from a human/hamster somatic cell hybrid containing Xq24-Xqter human DNA. Screening of the agar-embedded transformants for human DNA used a manifold of 3000 stainless-steel pins to transfer colonies onto the surface of media. This facilitated the recovery of the 1 in 300 clones that contained a human DNA insert (the remainder had hamster DNA and were discarded). The library described here consists of about two genomic equivalents (102 Mb) of human DNA in 467 clones: 167 were generated by EcoRI partial digestion and contain 25.5 Mb of human DNA; 252 used partial digestion with TaqI and cover 64.2 Mb; and 48 were from sheared DNA inserts and cover 11.7 Mb. Clones were screened by hybridization with 70 probes previously assigned to Xq24-Xq28. Eleven probes did not hybridize to any YACs in the library, and 16 probes hybridized to one YAC each, 23 to two, 13 to three, and 7 to four. Also, individual YACs large enough to detect features like the clustering of polymorphic sequences in subregions of Xq24-Xqter have been obtained. For example, XY58 contained five probe sequences previously independently isolated. The overall yield of YACs containing probe sequences was indistinguishable from Poisson statistical expectations for random cloning (P = 0.9). Thus, YAC libraries such as the one described here can include most, if not all, of the sequences in the source DNA from which the library is derived. These results support the possibility that YACs may provide a reliable bridge between linkage studies and conventional recombinant DNA analyses in mapping of the human genome.

Human Xq24-Xq28: approaches to mapping with yeast artificial chromosomes

One hundred twenty-seven yeast strains with artificial chromosomes containing Xq24-Xqter human DNA were obtained starting from a human/hamster somatic cell hybrid. The clones were characterized with respect to their insert size, stability, and representation of a set of Xq24-Xqter DNA probes. The inserts of the clones add up to 19.3 megabase (Mb) content, or about 0.4 genomic equivalents of that portion of the X chromosome, with a range of 40-650 kb in individual YACs. Eleven clones contained more than one YAC, the additional ones usually having hamster DNA inserts; the individual YACs could be separated by extracting the total DNA from such strains and using it to retransform yeast cells. One of the YACs, containing the probe for the DXS49 locus, was grossly unstable, throwing off smaller versions of an initial 300-kb YAC during subculture; the other YACs appeared to breed true on subculture. Of 52 probes tested, 12 found cognate YACs; the YACs included one with the glucose-6-phosphate dehydrogense gene and another containing four anonymous probe sequences (DX13, St14, cpx67, and cpx6). Xq location of YACs is being verified by in situ hybridization to metaphase chromosomes, and fingerprinting and hybridization methods are being used to detect YACs that overlap.

Isolation of single-copy human genes from a library of yeast artificial chromosome clones

A recently developed cloning system based on the propagation of large DNA molecules as linear, artificial chromosomes in the yeast Saccharomyces cerevisiae provides a potential method of cloning the entire human genome in segments of several hundred kilobase pairs. Most application of this system will require the ability to recover specific sequences from libraries of yeast artificial chromosome clones and to propagate these sequences in yeast without alterations. Two single-copy genes have now been cloned from a library of yeast artificial chromosome clones that was prepared from total human DNA. Multiple, independent isolates were obtained of the genes encoding factor IX and plasminogen activator inhibitor type 2. The clones, which ranged in size from 60 to 650 kilobases, were stable on prolonged propagation in yeast and appear to contain faithful replicas of human DNA.

Transcription and processing of RNA from mouse ribosomal DNA transfected into hamster cells

Transcription of mouse genes coding for rRNA in CHO cells was promoter dependent at levels 3 to 10% of that of endogenous rRNA synthesis. Northern (RNA) and S1 nuclease mapping analyses demonstrated that transcription proceeds through the entire gene segment coding for rRNA in transfected constructs and continues, at least in some cases, into the adjoining plasmid sequences. S1 nuclease mapping also detected some processing cleavages in the transcripts, including those at the 3' terminus of 18S rRNA, those at the rapidly cleaved site at +650 in the external transcribed spacer, and those at a previously uncharacterized, rapidly cleaved site in the internal transcribed spacer. Deletion of sequences upstream or downstream from the promoter generally had no measurable effect on the level of transcription, but deletion of a 300-base-pair XhoI-XhoI fragment starting 1,287 base pairs from the transcription start site sharply increased the steady-state level of rRNA. Effects on processing were harder to test, because many intermediates are too unstable to detect even by S1 nuclease mapping; however, the data suggest that RNAs with deletions in the external transcribed spacer are processed poorly at distal sites. Processing at some sites may thus depend on interactions involving distant segments of rRNA.

Genomic organization of human 5 S rDNA and sequence of one tandem repeat

An organization of human 5 S rDNA repeats is inferred from Southern analyses of restriction digests of genomic DNA fractionated by pulsed-field and conventional gel electrophoreses. A single unit of 2.2 kb is repeated approximately 90 times within a 200-kb fragment (defined by enzymes that do not cleave within individual units, i.e., EcoR1, BglII, HindIII, and PvuII); a comparable number of 5 S sequences are scattered elsewhere in the genome. A lambda clone containing six complete 5 S repeats was obtained from a human placental DNA library. One repeat contains 2231 bp and includes poly(dG-dT).(dC-dA), tracts of polypyrimidine, and an Alu sequence in the spacer region. Also, 5-S-hybridizing clones, containing DNA inserts with an average size of 250 kb, have been obtained as yeast artificial chromosomes. Thus far, four clones have been partially characterized and shown to be 5 S sequences from loci separate from the tandem repeat units.

Yeast artificial chromosomes with 200- to 800-kilobase inserts of human DNA containing HLA, V kappa, 5S, and Xq24-Xq28 sequences

Sequences hybridizing to several human gene probes have been recovered as cloned inserts in yeast artificial chromosomes (YACs). Among 2300 YACs made from human leukocyte DNA (totaling about 0.1 genomic equivalent of human DNA) we have found two, 200 and 780 kilobases (kb), containing sequences of V kappa I immunoglobulin (V = variable); one, 240 kb, with class I HLA; and 11, 200-800 kb, with 5S rRNA-encoding DNA (rDNA). Fifty human YACs from a hamster-human cell hybrid with only the Xq24-Xq28 portion of the X chromosome include one that contains two anonymous probe sequences, DX13 and St14, previously inferred by indirect means to lie within about 70 kb of one another in Xq28. The YACs specific for human DNA arise at a frequency equivalent to the fraction of cellular DNA that is human-specific. Furthermore, the human YACs, formed in a 280-fold excess of hamster DNA, do not hybridize to a hamster DNA probe, indicating that individual YACs do not contain a combination of human and hamster DNA. To confirm that sequences are not scrambled, the YACs containing V kappa I or DX13 and St14 sequences were shown to produce restriction fragments identical in mobility to fragments detected by the same probes in total human DNA digested with the same enzymes. YACs may therefore provide large clones to bridge gene mapping at the chromosome level to molecular analyses of small fragments of genomic DNA.

Locations and contexts of sequences that hybridize to poly(dG-dT).(dC-dA) in mammalian ribosomal DNAs and two X-linked genes

Sequences located several kilobases both 5' and 3' of the stably transcribed portion of several genes hybridize to radio-labeled pure fragments of the alternating sequence poly (dG-dT) (dC-dA) ["poly(GT)"]. The genes include the ribosomal DNA of mouse, rat, and human, and also human glucose-6-phosphate dehydrogenase (G6PD) and mouse hypoxanthine-guanine phosphoribosyl transferase (HPRT). HPRT has additional hybridizing sequences in introns. Fragments that include the hybridizing sequences and up to 300 bp of adjoining DNA show perfect runs of poly(GT) (greater than 30bp) in all but the human 5' region of rDNA, which shows a somewhat different alternating purine:pyrimidine sequence, poly(GTAT) (36bp). Within 150 bp of these sequences in various instances are found a number of other sequences reported to affect DNA conformation in model systems. Most marked is an enhancement of sequences matching at least 67% to the consensus binding sequence for topoisomerase II. Two to ten-fold less of such sequences were found in other sequenced portions of the nontranscribed spacer or in the transcribed portion of rDNA. The conservation of the locations of tracts of alternating purine:pyrimidine between evolutionarily diverse species is consistent with a possible functional role for these sequences.