Isolation of mouse x-chromosome specific DNA from an x-enriched lambda phage library derived from flow sorted chromosomes

ABRUPT CLINE FOR SEX CHROMOSOMES IN A HYBRID ZONE BETWEEN TWO SPECIES OF MICE

We compared the patterns of movement of sex chromosomal and autosomal loci along a 160 km transect across a zone of hybridization between M. domesticus and M. musculus in southern Germany and western Austria using seven genetic markers. These included one Y-specific DNA sequence (YB10), two X-specific loci (DXWas68 and DXWas31), and four autosomal isozyme loci (Es-10, Es-1, Mpi-1, and Np-1). Random effects logistic regression analysis enabled us to examine the relationship between M. domesticus allele frequency and geographic distance from the western edge of the hybrid zone and allowed statistical evaluation of differences in cline midpoint and width among loci. More limited movement was observed for all three sex chromosomal markers across the zone compared with three of the four autosomal markers. If differential movement reflects fitness differences of specific alleles (or alleles at closely linked loci) on a hybrid background, then alleles that move to a limited extent across a hybrid zone may contribute to hybrid breakdown between two species. The limited flow of both X- and Y-specific alleles suggest that sex chromosomes have played an important role in Mus speciation.

Historical development of analysing large-scale changes in the human genome

A widely held belief today is that genomics really only started with the DNA sequence information emanating from the genome programs for various organisms, with the human genome playing the leading role. In fact there is a discernable trail stretching for more than a 100 years from the observations of Boveri on tissue instability involving polyploidy in sea urchin embryos and human tumours to the present day. This historical review follows that trail and shows that many theoretical and technical advantages taken for granted in today's genomics era rely heavily on earlier cytogenetic and gene mapping discoveries. Three specific examples of technical developmental paths involving in situ hybridisation, flow-sorting and DNA reassociation kinetics will be explored. In the mid-1980s the two former approaches merged to give rise to several applications of which chromosome painting and chromosome CGH are arguably the most important. The latter developed into array CGH which has now become the pre-eminent method for detecting micro-imbalances in a large number of targets. A competing emerging technology is that of genome-wide SNP typing, which itself is a product of the much earlier RFLP approach linked to DNA sequence information. Do such approaches spell the final demise of the microscope? Perhaps for narrowly defined activities this may occur, but for addressing general questions, microscopic examination will remain pre-eminent.

Tissue-specific expression of a BAC transgene targeted to the Hprt locus in mouse embryonic stem cells

The hypoxanthine phosphoribosyltransferase (Hprt) locus has been shown to have minimal influence on transgene expression when used as a surrogate site in the mouse genome. We have developed a method to transfer bacterial artificial chromosomes (BACs) as a single copy into the partially deleted Hprt locus of embryonic stem cells. BACs were modified by Cre/loxP recombination to contain the sequences necessary for homologous recombination into and complementation of the partially deleted Hprt locus. Modified BACs were shown to undergo homologous recombination into the genome intact, to be stably transmitted through the germ line of transgenic mice, and to be expressed in the proper tissue-specific manner. This technology will facilitate many studies in which correct interpretation of data depends on developmentally appropriate transgene expression in the absence of rearrangements or deletions of endogenous DNA.

Phylogenetic relationships among laboratory and wild-origin Mus musculus strains on the basis of genomic DNA RFLPs

Genetic distance measures between the laboratory mouse strains C57BL/6J and RF/J and the wild-origin Mus musculus mouse strains CAST/Ei, MOLF/Ei, POSCH I, and CZECH II were estimated by allelic patterns revealed by RFLP analysis. These results suggest phylogenetic relationships indicating that the mouse strains related to the subspecies M.m. domesticus (RF/J, POSCH I and C57BL/6J) are more closely related to the CAST/Ei strain (derived from M.m. castaneus) than to the strains CZECH II (M.m. musculus) and MOLF/Ei (M.m. molossinus). Furthermore, the hybrid strain C57BL/6J is more closely related to POSCH I (M.m. poschiavinus) than to RF/J as calculated by the method distance measures of Cavalli-Sforza and Edwards (Evolution 21,550, 1967), Nei's minimum (Am. Natural. 106,283, 1972) and unbiased minimum (Genetics 89,583, 1978), Edwards (Biometrics 27,873, 1971; Genetic Distance, p. 41, 1974) and Rogers modified (1986).

PCR cloning of a repeated DNA fragment from Chinese hamster ovary (CHO) cell X chromosomes and mapping by fluorescence in situ hybridization

Hamster chromosome-specific DNA sequences were amplified by primer directed DNA amplification using mixed base oligonucleotides in an arbitrarily primed polymerase chain reaction (AP-PCR) protocol. The template DNA was comprised of approximately 3000 chinese hamster ovary cell (CHO) chromosomes enriched by flow sorting from a human x hamster hybrid cell line. Labeling of the PCR product pool and fluorescence in situ hybridization (FISH) demonstrated preferential binding to the distal long arm of the CHO X chromosome. The PCR products were cloned, labeled by PCR and hybridized to metaphase spreads. Clones containing highly reiterated DNA were identified by FISH and sequenced. Here, we present the sequence and chromosomal location of one of the repeat clones that maps close to the secondary constriction on the long arm of the CHO X chromosome, pCAT2066-24.

Adaptation of the interspersed repetitive sequence polymerase chain reaction to the isolation of mouse DNA probes from somatic cell hybrids on a hamster background

A strategy for the rapid isolation of DNA probes from radiation-fusion Chinese hamster cell hybrids containing overlapping portions of the murine X chromosome based on the interspersed repetitive sequence polymerase chain reaction (IRS-PCR) previously used with human somatic cell hybrids has been developed. This specific amplification of mouse DNA on a hamster background depends on the use of primers directed to the B2 short interspersed repeat element family and the R repeat, from the long interspersed repeat element family, L1. Two sets of amplification conditions, which gave specific amplification of mouse DNA from either a mouse X-monochromosomal hybrid or irradiation-fusion hybrids having reduced X content, were defined. The mouse X-only chromosome hybrid yielded approximately 20 discrete reproducible bands, while the irradiation-fusion hybrids yielded between 1 and 10 discrete products. Comparison of different irradiation-fusion hybrids has allowed the definition of both specific and shared products corresponding to different regions within the overlapping X-chromosome fragments present within these hybrids. Use of such hybrids and the IRS-PCR technique has allowed the isolation of probes corresponding to the central region of the mouse X chromosome that contains the X-inactivation center. The method should be widely applicable to the isolation of mouse DNA sequences from mouse hybrid cell lines on either human or Chinese hamster backgrounds.

Linkage of the erythroid transcription factor gene (Gf-1) to the proximal region of the X chromosome of mice

We have used a cDNA probe for mouse Gf-1 gene that encodes the erythroid cell transcription factor to identify genetic variation in genomic DNA between Mus species. The segregation of Gf-1 DNA variation was analyzed in Mus species crosses that have been previously typed for the segregation of more than 30 genes spanning 80 cM of the mouse X chromosome from the centromere to the border of the X-Y pairing region. We identified a single X chromosome locus in the mouse, Gf-1, and an analysis of recombinants from 203 backcross progeny mapped Gf-1 to the proximal portion of the chromosome, coincident with the Cybb locus and proximal to Otc gene locus. A gene order of centromere, DXWas70, Cybb/Gf-1, Otc, Timp was established for the mouse X chromosome, which is in agreement with the map position observed on the human X chromosome.

Characterization of the central region containing the X-inactivation center and terminal region of the mouse X chromosome using irradiation and fusion gene transfer hybrids

The irradiation and fusion gene transfer (IFGT) procedure provides a means of isolating subchromosomal fragments for use in the mapping of loci and for cloning probes from a particular area of a chromosome. Using this procedure, two large panels of somatic cell hybrids that contain mouse X Chromosome (Chr) fragments have been generated. These hybrid panels were generated by irradiating the monochromosomal mouse-hamster hybrid HYBX, which retains the mouse X Chr, with either 10 K or 50 K rads of X-irradiation followed by fusion with a recipient Chinese hamster cell line. IFGT hybrids retaining mouse material were generated at high frequency. These hybrids were used to orient loci in the X-inactivation center region that had not been resolvable in our interspecies backcross panel and also to map, within the terminal region of the X Chr, repeat elements detected by the probe p15-4. These hybrids not only complement existing interspecies meiotic mapping panels for the detailed analysis of specific regions of particular chromosomes, but also provide a potential source of material for chromosome-specific probe isolation.

Construction of gene libraries for each human chromosome

We describe the construction of two complete sets of small insert, complete digest DNA libraries for each of the 24 human chromosomal types by the National Laboratory Gene Library Project. Flow sorting was used to purify the chromosomes which provided the DNA for cloning. One set of libraries was cloned into the HindIII site of the lambda vector Charon 21A, and the other set was cloned into the EcoRI site of the same vector. Characterization information from both in-house experiments and user feedback is presented. These chromosome-specific libraries are available to the general scientific community from a repository at the American Type Culture Collection, Rockville, MD. The second phase of the project, the construction of large insert, partial digest libraries in both lambda and cosmid vectors, is underway.

Localization of a mouse centromeric DNA repeat in interphase nuclei

The position of a mouse DNA repeat located near the centromere of mouse chromosomes X, 11, 13, and 17 was examined in interphase nuclei of bone marrow and fibroblast cells by in situ hybridization of 3H- or biotin-labeled DNA probe 70-38. In most laboratory mouse strains this probe recognizes a single repeat cluster (DXWas70) close to the centromere of the mouse X chromosome. In a few mouse strains, a second locus (D11Was70, D13Was70, or D17Was70, depending on the mouse strain) is located near the centromere of an autosome. In interphase nuclei from mouse strains with the X-linked locus only, two distinct sites of hybridization were found in female mice and one in male mice. These two sites remained separated during the different phases of the cell cycle (G1, early S, late S, and G2) as demonstrated by in situ hybridization of the probe to flow-sorted nuclei. In interphase nuclei from mouse strains with both the X-linked locus and an autosomal locus, four distinct sites of hybridization were found in female mice and three in male mice. Further analysis of loci DXWas70 and D17Was70 showed that these loci were often located in the outer region of nuclei from bone marrow and fibroblast cells.

Characterization of a panel of somatic cell hybrids for regional mapping of the mouse X chromosome

A panel of five hybrid cell lines containing mouse X chromosomes with various deletions has been obtained by fusing splenocytes from male mice carrying one of a series of reciprocal X-autosome translocations with the azaguanine-resistant Chinese hamster cell line CH3g. These hybrids have been extensively characterized by using the allozymes hypoxanthine/guanine phosphoribosyltransferase (encoded by the Hprt locus) and alpha-galactosidase (Ags) and a series of 11 X-chromosome-specific DNA probes whose localization had been previously established by linkage studies. Such studies have established the genetic breakpoints of the T(X;12)13Rl and T(X;2)14Rl X-autosome translocations on the X chromosome and provided additional information as to the X-chromosome genetic breakpoints of the T(X;16)16H, T(X;4)7Rl, and T(X;7)6Rl translocations. The data establish clearly that both the T(X;4)7Rl and T(X;12)13Rl X-chromosome breakpoints are proximal to Hprt, the breakpoint of the former being more centromeric, lying as it does in the 9-centimorgan interval between the ornithine transcarbamoylase (Otc) and DXPas7 (M2C) loci. Similarly, it is now clear that the T(X;16)16H X-autosome translocation breakpoint lies distal to the DXPas8 (St14-1) locus, narrowing the X-chromosome breakpoint down to a region flanked proximally by this marker and representing, as expected from previous data, the distal quarter of the Hprt-Ta subchromosomal span. These five hybrid cell lines provide, with the previously characterized EBS4 hybrid cell line, a nested series of seven mapping intervals distributed along the length of the mouse X chromosome. Their characterization not only allows further correlation of the genetic and cytological X-chromosome maps but also should permit the rapid identification of DNA probes specific for particular regions of the mouse X chromosome.

Translocation and amplification of an X-chromosome DNA repeat in inbred strains of mice

A 9-kb repetitive DNA fragment (70-38) located near the centromere of the mouse X chromosome is amplified and translocated to an autosome in different inbred strains of mice. In situ hybridization and hybrid cell studies showed that probe 70-38 is located only on the X chromosome in mouse strains A/J, AKR/J, BALB/cJ, CBA/J, C3H/HeJ, C57BL/6J, DBA/2J and SWR/J. However, in four other mouse strains the DNA sequence is found near the centromere of an autosome in addition to the X chromosome. This autosome differs among the mouse strains (chromosome 11 in C57BL/10J or ScSn, chromosome 13 in NZB/B1NJ and chromosome 17 in SJL/J and PO). In those strains where the repeated sequence is located on an autosome, it has been amplified to about 100 copies. Restriction enzyme digestion patterns suggest a common structure for 70-38 sequences in the different strains. The changes in copy number, restriction enzyme digestion patterns, and chromosomal location of 70-38 reflect a rapid genomic evolution inbred mouse strains.

Correlation between cytogenetic and molecular findings in human chronic myelogenous leukemia lines EM-2 and EM-3

Few established cell lines derived from patients with chronic myelogenous leukemia have been reported. Cytogenetic examinations of two independently derived Philadelphia chromosome (Ph)-positive cell lines from a patient with chronic myelogenous leukemia were performed serially from their initiation in 1982 to the present. Subcultures of each of these lines maintained separately in two laboratories for over 2 years were compared for degree of divergence. The modal chromosome number declined substantially within the first few months and slowly thereafter. Despite hyperploidy, these lines have remained remarkably stable cytogenetically. For each line, the modal chromosome number is hypotetraploid, multiple copies of Ph are present and no normal chromosome #9 remains. Only a few marker chromosomes have arisen. Despite the multiple copies of Ph, a single bcr restriction pattern was seen, suggesting duplication of a single Ph, rather than independent translocation events. These lines should be very useful for in vitro studies of chronic myelogenous leukemia.

Detecting abnormal human chromosome constitutions by dual laser flow cytogenetics

Our custom dual laser chromosome sorter has been used to characterize and isolate metaphase human chromosomes rapidly for gene mapping purposes. Herein, we tested how well this system could detect unknown abnormal human chromosome constitutions. These results were compared to those of conventional cytogenetic analyses by banding and photomicrography. The sorter was used to analyze each cell line stained with two different stain pairs: DIPI-chromomycin and Hoechst-chromomycin. In 20 min, two histograms representing 2 X 10(5) chromosomes each were collected for each stain pair. A blind study of 11 samples by flow analysis demonstrated excellent concordance between the abnormal chromosomes detected and the diagnoses of Giemsa-banded karyotypes. Aneuploidy was identified by changes in the number of chromosomes in each histogram peak, while rearrangements such as deletions and translocations caused shifts in the histogram peak positions. The direction and distance of histogram peak shifts are directly related to alterations in chromosome size and banding pattern. We conclude that dual-laser flow analysis may provide a rapid approach to the screening and diagnosis of chromosome abnormalities.

Construction and analysis of an EMBL-3 phage library containing partially digested human chromosome 21-specific DNA inserts (15-20 kb)

In the mouse-human hybrid cell line SCC 16-5, chromosome 21 is the only human chromosome present. Fractions highly enriched for this chromosome were obtained by applying the chromosome velocity sedimentation technique to this cell line. DNA prepared from these chromosomal fractions was partially digested with Mbo I, size fractionated on an NaCl gradient, and cloned in the EMBL-3 phage vector. The phage library thus prepared was highly enriched for human chromosome 21-specific recombinant DNA sequences 15-20 kb long. Of the approximately 21,000 phage clones obtained, at least 99% were recombinant. Following phage plaque filter hybridization and Southern blotting, it was found that half of the recombinants were positive for human repetitive DNA. Almost all phages harbored highly or middle repetitive human or mouse DNA sequences owing to the large size of the recombinant inserts. In this library, the human chromosome 21 is represented approximately four times. All human recombinants studied thus far contained DNA inserts originating from chromosome 21 only. The employed cloning strategy is discussed with regard to utility, purity, quality, and completeness of chromosome-specific recombinant DNA libraries.

Cytogenetic analysis using quantitative, high-sensitivity, fluorescence hybridization

This report describes the use of fluorescence in situ hybridization for chromosome classification and detection of chromosome aberrations. Biotin-labeled DNA was hybridized to target chromosomes and subsequently rendered fluorescent by successive treatments with fluorescein-labeled avidin and biotinylated anti-avidin antibody. Human chromosomes in human-hamster hybrid cell lines were intensely and uniformly stained in metaphase spreads and interphase nuclei when human genomic DNA was used as a probe. Interspecies translocations were detected easily at metaphase. The human-specific fluorescence intensity from cell nuclei and chromosomes was proportional to the amount of target human DNA. Human Y chromosomes were fluorescently stained in metaphase and interphase nuclei by using a 0.8-kilobase DNA probe specific for the Y chromosome. Cells from males were 40 times brighter than those from females. Both Y chromosomal domains were visible in most interphase nuclei of XYY amniocytes. Human 28S ribosomal RNA genes on metaphase chromosomes were distinctly stained by using a 1.5-kilobase DNA probe.

Cloning of DNA libraries from mouse Y chromosomes purified by flow cytometry

To purify mouse Y chromosomes by flow cytometry, a male cell line containing the Robertsonian translocation Rb(9.19)163H has been established by SV40 transformation. Flow karyotypes obtained from these cells exhibit a well-isolated peak of fluorescence corresponding to the single Y chromosome, clearly distinct from that of chromosome 19. From this peak, 650,000 chromosomes were sorted, and two restriction fragment libraries were constructed from the DNA of the sorted chromosomes. The characterization of several Y-specific fragments has shown that the Y DNA was enriched at least 36-fold. Furthermore, given that there are likely homologies between the X and Y chromosomes, we can assume that this calculated value of the purification factor is an underestimation and that the Y DNA was more highly purified by flow sorting.

Spot-blot analysis of sorted chromosomes assigns a fructose intolerance disease locus to chromosome 9

The aldolase B gene was mapped to chromosome 9 using a rapid gene mapping system. This system uses a dual-laser sorter to identify and separate metaphase human chromosomes stained with either DIPI-chromomycin or Hoechst-chromomycin. Chromosome panels were constructed from a normal cell line by sorting 22 chromosome fractions directly onto nitrocellulose filters. Twelve labeled gene probes hybridized to the sorted chromosomal DNA fractions predicted by previous chromosome assignments. Eighteen newly cloned genes have been mapped using the same protocol.

Metaphase synchronization and chromosome preparation from the OK opossum cell line having a potentially isolatable X chromosome

As part of a study on X chromosomes, metaphase cell synchrony and chromosome isolation methods were developed for the opossum (Didelphis virginiana) kidney epithelial cell line (OK). The cell synchrony yielded large amounts of metaphase cells using a relatively simple method in which a key feature was a calcium- and magnesium-free balanced salt wash. A neutral pH chromosome isolation method was developed for the kidney epithelial cells, because they were somewhat difficult to disrupt fully by other methods. FACS IV flow microfluorometric analysis of OK chromosomes confirms a clear difference between the sizes of opossum X chromosomes and autosomes.

Chromosomes for molecular hybridization. Assignment of repetitive and single copy genes using a rapid filter-fixation method

Specific recombinant DNA sequences (5S rRNA, B1, albumin) were assigned to flow sorted chromosomes of the Chinese hamster cell line CHV79. For this purpose, a rapid protocol was developed using filterbound chromosomal DNA and probing with various nucleic acids, that allows sequence identification in chromosomes. A flow histogram and a flow karyogram of the CHV79 cell line were established by flow analysis in order to calculate the amount of DNA per CHV79 cell and their chromosomes. Subsequently, metaphase chromosomes or chromosomal groups were fractionated by electronic sorting and a defined number of chromosomes was directly bound to nitrocellulose filters for sequence homology analysis by a dot blot hybridization procedure. This procedure not only allows the assigning of specific DNA sequences to particular chromosomes, it is also applicable to studies of changes in karyotypes, for example translocations of given sequences.

Construction and analysis of DNA sequence libraries from flow-sorted chromosomes: practical and theoretical considerations

We describe the construction and analysis of recombinant DNA libraries representative of chromosomes 1 and 2 of Chinese hamster (Cricetulus griseus). Propidium-iodide stained chromosomes were purified by flow cytometric analysis and sorting, and EcoRI digests of purified DNA were cloned into the bacteriophage vector Charon 4A. These libraries contain DNA complementary to 63% and 69% of nick-translated DNA derived from flow-purified chromosomes 1 and 2, respectively. However, sequences complementary to only 24% and 35% of a total Chinese hamster genomic DNA tracer were hybridized in parallel renaturation experiments. The chromosome 2 library contained DNA sequences encoding dihydrofolate reductase (dhfr), a gene previously mapped to Chinese hamster chromosome 2. No sequences complementary to dhfr were found in the library constructed from chromosome 1 DNA. These analyses are discussed with regard to the current limitations and future strategies for the construction of chromosome-specific DNA sequence libraries of high purity and completeness.

Flow cytometry isolation and improved visualization of sorted mouse chromosomes. Purification of chromosomes X and ISO-1 from cell lines with Robertsonian translocations

While analysis and sorting of human chromosomes by flow cytometry has been widely used, isolation of a pure mouse chromosome remains very difficult, since most murine chromosomes are quite similar in size. To overcome this problem, we have analysed mouse cell lines having either Robertsonian translocations or isochromosomes. The resulting metacentric chromosomes are very different in size and in morphology from normal mouse acrocentric chromosomes. These characteristics have been analysed by computer-monitored flow cytometry, facilitated by improvements in the chromosome extraction procedure. Signals characteristic of the iso-lq chromosome in cell line PCC4 azaR1, and of the normal X chromosome in the mouse strain 22CD have thus been obtained. These chromosomes have been sorted and can be easily recognized by fluorescence microscopy when collected onto serum-albumin-coated microscope slides. The technical modifications made, coupled with the existence of a great diversity of metacentric chromosomes resulting from Robertsonian translocations, should allow the purification of a number of different mouse chromosomes.

Localization of cloned mouse chromosome 7-specific DNA to lethal albino deletions

Mouse chromosome X- and 7-specific DNA fragments have been isolated from a recombinant DNA library enriched for X(7) chromosome sequences. The library was enriched by flow sorting the X(7) chromosome, a derivation of the Cattanach translocation, prior to library construction. A DNA fragment was found to be located in a region deleted in newborn mice doubly heterozygous for the two albino deletions c3H and c6H in chromosome 7. These chromosome-specific DNA fragments will be useful for studying X inactivation spreading in the X-autosome translocation (T(X;7) 1 Ct) and for investigating the developmental effects of the lethal albino deletions.

Developmental aspects of X chromosome inactivation in eutherian and metatherian mammals

The single active X principle has served for two decades as a focal point for research on the cyclic activation and inactivation of gene loci. Differences in X chromosome inactivation patterns of eutherian and marsupial mammals provide probes for investigating the mechanisms of the X inactivation process. In eutherian mammals, the X chromosome is inactivated early in meiotic prophase in males and remains inactive throughout the rest of spermatogenesis. During meiosis in females, the inactive X chromosome is activated so that both X chromosomes are active in oocytes. During the early cleavage divisions of female embryos, the paternally derived X is activated. It and the maternally derived X remain active until differentiation begins in early embryogenesis. At that time, the paternally derived X is inactivated in cells that give rise to extraembryonic membranes, whereas a random process determines which X chromosome is inactivated in cells that give rise to the embryo itself. Although less is known about developmental aspects of X inactivation in female marsupials, it is clear that the paternal X is preferentially inactive in postembryonic somatic cells. Furthermore, the paternal X is partially active at some loci in some cell types, indicating that it is not regulated as a single unit. The successful adaptation of a small (80-150 g), fecund marsupial to simple laboratory conditions now enables extensive experimentation on the large number of marsupials at various developmental stages. This capability, coupled with the application of newly developed cellular and molecular techniques to questions about X chromosome inactivation, shows great promise for advancing our understanding of the mechanisms that control the cyclic behavior of X chromosome activity.

Retrieval of human DNA from rodent-human genomic libraries by a recombination process

Human Alu repeat ("BLUR") sequences have been cloned into the mini-plasmid vector piVX. The resulting piBLUR clones have been used to rescue selectively, by recombination, bacteriophage carrying human DNA sequences from genomic libraries constructed using DNA from rodent-human somatic cell hybrids. piBLUR clones are able to retrieve human clones from such libraries because at least one Alu family repeat is present on most 15 to 20 kb fragments of human DNA and because of the relative species-specificity of the sequences comprising the Alu family. The rapid, selective plaque purification achieved results in the construction of a collection of recombinant phage carrying diverse human DNA inserts from a specific subset of the human karyotype. Subfragments of two recombinants rescued from a mouse-human somatic cell hybrid containing human chromosomes X, 10, 13, and 22 were mapped to human chromosomes X and 13, respectively, demonstrating the utility of this protocol for the isolation of human chromosome-specific DNA sequences from appropriate somatic cell hybrids.

Isolation and characterization of a major tandem repeat family from the human X chromosome

We report the identification and characterization of a family of repeated restriction fragments whose molecular organization is apparently specific to the human X chromosome. This fragment, identified as an ethidium bromide-staining 2.0 kilobase (kb) band in BamHI-digested DNA from a Chinese hamster-human somatic cell hybrid containing a human X chromosome, has been cloned into pBR325 and characterized. The 2.0 kb repeated family has been assigned to the Xp11 leads to Xq12 region on the X by Southern blot analysis of somatic cell hybrids and is predominantly arranged in tandem clusters of up to seven 2.0 kb monomers. Homologous DNA sequences, not organized as 2.0 kb BamHI fragments, are found elsewhere on the X chromosome and on at least some autosomes, but are not found on the Y chromosome. From a dosing experiment using various amounts of the cloned repeat, we estimate that there are 5,000-7,500 copies of the 2.0 kb BamHI repeat per haploid genome. Since the vast majority, if not all, of these are confined to the X chromosome, this repeated DNA family must account for 5-10% of all X chromosome DNA and must constitute the major sequence component of the pericentromeric region of the X.

Chromosome sorting and DNA sequence localization

This article focuses on current techniques and possible future developments in chromosome isolation and sorting, and DNA analysis of sorted chromosomes. The strategy of subchromosomal gene mapping by chromosome sorting is outlined and a list of cell lines containing translocated chromosomes is provided which may be used to map genes to a single chromosome with a standard fluorescence activated cell sorter. The usefulness of this and other gene mapping methods for localizing unique DNA sequences and characterizing recombinant DNA libraries constructed from sorted chromosomal DNA is also discussed.

Design and operation of a dual laser chromosome sorter

We describe the design and operation of a dual laser fluorescence activated chromosome sorter that can analyze and sort chromosome suspensions stained with two complementary DNA stains. We used two 18-watt argon-ion lasers to provide maximal excitation of the DNA-specific stains Hoechst 33258 and chromomycin A3. The lasers are focused onto the sample stream by independent optics permitting optimal focusing of any pair of laser wavelengths. We incorporated beam expanders to decrease the energy density on the optics and improve the focal spot uniformity. Adjustable focusing lens holders are used to set the optimal focal spot size. The redesigned sorter separates suspensions of normal human fibroblast chromosomes into 21 fractions and can reliably sort more pure chromosome fractions than was previously possible.

Flow cytometric characterization of a Chinese hamster X man hybrid cell line retaining the human Y chromosome

A Chinese hamster X man hybrid cell line (CH-Y-VII) was established which retains a free human Y chromosome. Exponentially growing CH-Y-VII cells were arrested with colcemid; metaphase chromosomes were isolated and stained with 33258 Hoechst (HO) plus Chromomycin A3 (CA3), or with ethidium bromide (EB). The HO/CA3-stained chromosomes were measured in a dual beam flow cytometer, and bivariate HO/CA3 flow karyotypes and univariate HO and CA3 flow karyotypes were established. EB-stained chromosomes were analyzed in a modified Becton Dickinson FACS-Sorter. For all three stains used, the human Y chromosome forms a separate peak in univariate flow karyotypes; the optimum resolution was obtained for the HO distribution. In the bivariate HO/CA3 flow karyotype, the peak for the human Y chromosome is completely separated from the Chinese hamster chromosomes.