Epigenetics: application of virtual image restriction landmark genomic scanning (Vi-RLGS)

Restriction landmark genomic scanning (RLGS) is a powerful method for the systematic detection of genetic mutations in DNA length and epigenetic alteration due to DNA methylation. However, the identification of polymorphic spots is difficult because the resulting RLGS spots contain very little target DNA and many non-labeled DNA fragments. To overcome this, we developed a virtual image restriction landmark genomic scanning (Vi-RLGS) system to compare actual RLGS patterns with computer-simulated RLGS patterns (virtual RLGS patterns). Here, we demonstrate in detail the contents of the simulation program (rlgssim), based on the linear relationship between the reciprocal of mobility plotted against DNA fragment length and Vi-RLGS profiling of Arabidopsis thaliana.     

Epigenetics: the study of embryonic stem cells by restriction landmark genomic scanning

During mammalian development, it is essential that the proper epigenetic state is established across the entire genome in each differentiated cell. To date, little is known about the mechanism for establishing epigenetic modifications of individual genes during the course of cellular differentiation. Genome-wide DNA methylation analysis of embryonic stem cells by restriction landmark genomic scanning provides information about cell type- and tissue-specific DNA methylation profiles at tissue-specific methylated regions associated with developmental processes. It also sheds light on DNA methylation alterations following fetal exposure to chemical agents. In addition, analysis of embryonic stem cells deficient in epigenetic regulators will contribute to revealing the mechanism for establishing DNA methylation profiles and the interplay between DNA methylation and other epigenetic modifications.     

In silico restriction landmark genome scanning analysis of Xanthomonas oryzae pathovar oryzae MAFF 311018

We have developed a restriction landmark genome scanning (RLGS) system in silico, involving two-dimensional electrophoretic analysis of DNA by computer simulation that is based on the availability of whole-genome sequences for specific organisms. We applied the technique to the analysis of the Xanthomonas oryzae pathovar oryzae (Xoo) MAFF 311018, which causes bacterial blight in rice. The coverage that was found to be achievable using RLGS in silico, as a percentage of the genomic regions that could be detected, ranged from 44.5% to 72.7% per image. However, this reached a value of 96.7% using four images that were obtained with different combinations of landmark restriction enzymes. Interestingly, the signal intensity of some of the specific spots obtained was significantly lower than that of other surrounding spots when MboI, which cleaves unmethylated 5'-GATC-3' sites, was used. DNA gel blot analysis with both DNA adenine methylase (Dam)-sensitive and -insensitive isoschizomers (MboI and Sau3AI) revealed that Dam-mediated DNA adenine methylation had indeed occurred at these particular sites. These results suggest that a significant portion of the 5'-GATC-3' sites within the Xoo genome is stably methylated by Dam.     

Global methylation screening in the Arabidopsis thaliana and Mus musculus genome: applications of virtual image restriction landmark genomic scanning (Vi-RLGS)

Understanding the role of ‘epigenetic’ changes such as DNA methylation and chromatin remodeling has now become critical in understanding many biological processes. In order to delineate the global methylation pattern in a given genomic DNA, computer software has been developed to create a virtual image of restriction landmark genomic scanning (Vi-RLGS). When using a methylation- sensitive enzyme such as NotI as the restriction landmark, the comparison between real and in silico RLGS profiles of the genome provides a methylation map of genomic NotI sites. A methylation map of the Arabidopsis genome was created that could be confirmed by a methylation-sensitive PCR assay. The method has also been applied to the mouse genome. Although a complete methylation map has not been completed, a region of methylation difference between two tissues has been tested and confirmed by bisulfite sequencing. Vi-RLGS in conjunction with real RLGS will make it possible to develop a more complete map of genomic sites that are methylated or demethylated as a consequence of normal or abnormal development.     

Analysis of CpG islands of trophoblast giant cells by restriction landmark genomic scanning

Rat trophoblast giant cells each contain at least 100 times more genomic DNA per nucleus than diploid cells. This unusual phenomenon appears to be of interest in relation to the molecular mechanism of cell differentiation and gene expression in the placenta. In the present study, we analyzed the CpG islands of trophoblast giant cells by restriction landmark genomic scanning (RLGS) using the methylation-sensitive landmark enzymes, Not I and Bss HII. More than 1,000 and 1,900 spots were detected by RLGS using Not I and Bss HII, respectively, in the placental junctional zone, where more than 90% of genomic DNA is present in the cells with higher DNA content. Of these, 97% (1,009 spots) and 99% (1,911 spots) of the spots found in the junctional zone showed an identical pattern and identical intensity with those of diploid cell controls, for which genomic DNA was extracted from the labyrinth zone and maternal kidney. Therefore, the giant cells are basically polyploid. More importantly, 24 tissue-specific spots were detected by RLGS using Not I. Subsequent cloning and sequencing of four typical spots of the genomic DNA confirmed that these DNA fragments contained abundant CpG dinucleotides and showed characteristics of CpG islands. Of these 24 spots, there were ten spots specific for the placenta, and three of them were specific for the junctional zone, indicating that methylation status of CpG islands in the placental tissue differed between the junctional zone and labyrinth zone. These results suggest that multiple rounds of endoreduplication and modification of CpG islands by cytosine methylation occur during the differentiation process of giant cells. Dev. Genet. 22:132–140, 1998. © 1998 Wiley-Liss, Inc.     

Linkage map of Syrian hamster with restriction landmark genomic scanning

We have constructed the linkage map with precise genetic analysis of the Syrian hamster, Mesocricetus auratus, according to the restriction landmark genomic scanning (RLGS) spot mapping method. Although only 3.2–6.6% of the total RLGS spots between the two strains, ACN and BIO 14.6, showed genetic variance, 572 loci were found to be polymorphic. Out of 569 RLGS loci and 3 other loci, 531 were mapped with the backcross (ACN × BIO 14.6) F₁× BIO 14.6. The cumulative map was 1111.6 cM, indicating that the spots/loci are located throughout the genome at 1.94 cM intervals on average. Thus, RLGS provides us with a rapid tool to construct the genetic map of any species, even if it has less genetic variation. Received: 15 July 1996 / Accepted: 25 September 1996     

Comparison of DNA methylation patterns among mouse cell lines by restriction landmark genomic scanning.

Restriction landmark genomic scanning (RLGS) is a novel method which enables us to simultaneously visualize a large number of loci as two-dimensional gel spots. By this method, the status of DNA methylation can efficiently be determined by monitoring the appearance or disappearance of spots by using a methylation-sensitive restriction enzyme. In the present study, using RLGS with NotI, we examined, in comparison with a brain RLGS profile, the status of DNA methylation of more than 900 loci among three types of mouse cell lines: the embryonal carcinoma cell line P19, the stable mesenchymal cell line 10T1/2, and our established neuroepithelial (EM) cell lines. We found that the relative numbers of RLGS spots which appeared were less than 3.3% of those surveyed in all cell lines examined. However, 5 to 14% of spots disappeared, the numbers increasing with an increase in the length of the culture period, and many spots were commonly lost in 10T1/2 and in three EM cell lines. Thus, for these cell lines, many more spots disappeared than appeared. However, the numbers of spots disappearing and appearing were well balanced, and the ratio in P19 cells was almost equal to that in liver cells in vivo. These RLGS experimental observations suggested that permanent cell lines such as 10T1/2 are hypermethylated and that our newly established EM cell lines are also becoming heavily methylated at common loci. On the other hand, methylation and demethylation seem to be balanced in P19 cells in a manner similar to that in in vivo liver tissue.     

In silico analysis of the restriction fragments length distribution in the human genome.]

The Restriction On Computer (ROC) program (freely available at http://www.mcb.harvard.edu/gilbert/ROC) was developed and used to analyze the restriction fragment length distribution in the human genome. In contrast to other programs searching for restriction sites, ROC simultaneously analyzes several long nucleotide sequences, such as the entire genomes, and in essence simulates electrophoretic analysis of DNA restriction fragments. In addition, this program extracts and analyzes DNA repeats that account for peaks in the restriction fragment length distribution. The ROC analysis data are consistent with the experimental data obtained via in vitro restriction enzyme analysis (taxonomic printing). A difference between the in vitro and in silico results is explained by underrepresentation of tandem DNA repeats in genomic databases. The ROC analysis of individual genome fragments elucidated the nature of several DNA markers, which were earlier revealed by taxonomic printing, and showed that L1 and Alu repeats are nonrandomly distributed in various chromosomes. Another advantage is that the ROC procedure makes it possible to analyze the nonrandom character of a genomic distribution of short DNA sequences. The ROC analysis showed that a low poly(G) frequency is characteristic of the entire human genome, rather than of only coding sequences. The method was proposed for a more complex in silico analysis of the genome. For instance, it is possible to simulate DNA restriction together with blot hybridization and then to analyze the nature of markers revealed.     

Application of the restriction landmark genomic scanning (RLGS) method to rice cultivars as a new fingerprinting technique

The restriction landmark genomic scanning (RLGS) method was applied to rice, using two Japanese cultivars, Nipponbare and Koshihikari, and a Chinese landrace, LiuZhou'Bao'Ya'Zao'. More than 3000 landmarks were detected as spots on the individual autoradiograms of each cultivar. Nipponbare and LiuZhou' Bao'Ya'Zao' showed apparently different RLGS profiles, from which the genetic similarity (GS) between them was estimated as 0.344. Although the two Japanese cultivars, Nipponbare and Koshihikari showed quite similar RLGS profiles, they were easily distinguished on the basis of the presence or absence of specific spots; the GS value between them was calculated as 0.980. The RLGS method is shown to be a powerful fingerprinting technique, especially for the classification and identification of cultivars in rice and probably in other crops as well.     

Analysis of the Vicia faba genome by use of restriction endonucleases.

DNA of the broad bean, Vicia faba, was cleaved by the restriction endonucleases endoR . EcoRI, endoR . HindIII, endoR . HincII, endoR . BamI, and endoR . BspRI. Separation in agarose gels of the resulting fragments revealed, in addition to the bulk DNA, an enzyme-specific pattern of bands composed of restriction fragments of 300 to more than 30,000 base pairs in length. Bulk DNA was characterized by an unusual size distribution which significantly deviated from that expected according to the random fragmentation theory. It is argued that the observed distribution is due to the high proportion of repetitive DNA within this species (approximately equal to 75%). In all digests, a class of high-molecular-weight restriction fragments of more than 30,000 base pairs in length was observed which comprised 5-8% of the genome. It showed hybridization with highly repetitive DNA (c0t less than or equal to 2 x 10(-2) M . s) and included a fraction (2-3% of the genome) highly resistant to the activity of all the enzymes tested. The buoyant density in CsCl of this resistant DNA was not different from that of the total DNA (36% dG + dC). In endoR . EcoRI digests, the high-molecular-weight fragment class contained, in addition to the resistant DNA, a fraction of relatively high buoyant density (calculated dG + dC content: 61%) containing cleavage sites for the other enzymes used.     

Genetic profile of the SMXA recombinant inbred mouse strains revealed with restriction landmark genomic scanning

We have applied the restriction landmark genomic scanning (RLGS) method to the SMXA recombinant inbred (RI) mouse strain set to reveal its detailed genetic profile. A total of 663 polymorphic RLGS spot loci were identified, 576 of which were assigned to chromosomes. Strain distribution patterns (SDPs) at 55 microsatellite marker loci were also obtained. As a result, the total number of loci with distinct SDPs on chromosomes increased to 400. These loci were dispersed on all chromosomes, except for the Chromosome (Chr) Y, and effectively covered the genome with an average spacing of 4 cM. The SMXA RI strain set, hereby, would be of value for genetic study. Received: 20 February 1998 / Accepted: 19 May 1998     

Analysis of Mycoplasma hyorhinis genome by use of restriction endonucleases and by electron microscopy.

The chromosome of Mycoplasma hyorhinis was analyzed by using different restriction endonucleases and electron microscopy. It was found that restriction enzymes BstEII, XhoI, and SacI are the enzymes of choice for analysis and characterization of M. hyorhinis. The bands resulting from digestion of M. hyorhinis DNA with BstEII had apparent molecular weights ranging from 1.2 X 10(6) to 75 X 10(6). The apparent total molecular weight of DNA was calculated from the molecular weights of the individual bands and found to be 251 X 10(6). Electron microscopic contour length measurements of the largest DNA fragments verified the molecular weight values calculated from gel analysis. Electron microscopic contour length measurements of intact DNA of M. hyorhinis revealed a molecular weight of 5.4 +/- 5 X 10(8). The discrepancy between the values of molecular weight of M. hyorhinis DNA as determined by restriction enzyme analysis and contour length measurement is based on the fact that some of the DNA fragments which migrate as an apparent single band in the agarose gel really are double or multiple DNA fragments.     

A genetic linkage map of the MSM Japanese wild mouse strain with restriction landmark genomic scanning (RLGS)

A high-resolution genetic map of the Mus musculus molossinus (MSM) Japanese wild mouse strain was constructed with restriction landmark genomic scanning (RLGS) and compared with that of the laboratory strain C3H. MSM is phylogenetically 1 million years apart from common laboratory mouse strains and is distinctly resistant to chemical carcinogenesis. Since it exhibits frequent genetic polymorphisms with laboratory mice but can still be easily crossed with laboratory strains, hybrids between MSM and carcinogen-sensitive laboratory mouse strains provide excellent materials for analysis of modifier genes and genetic changes during carcinogenesis. We have generated MSM backcross progeny with the C3H strain, which is extremely sensitive to hepatocarcinogenesis, to construct the present map. RLGS profiles with two combinations of restriction enzymes (NotI–PvuII–PstI, NotI–PstI–PvuII) yielded more than 2000 spots each. The polymorphism rate was about 39.2%, and of a total of 1732 polymorphic spot loci identified, 1371 could be assigned to specific chromosomes by comparison with 79 microsatellite marker loci. Thus, 1450 loci, on all chromosomes except for Y, effectively mapped 90% of the genome (1431.7 cM length). Although some spots might be derived from the same NotI site, each NotI site potentially generating two fragments, the presence of at least 515 loci groups with different progeny distribution patterns dispersed through the genome with an average spacing of 3 cM, means that this genetic map should be useful for analysis of various biological phenomena, including carcinogenesis and ontogenesis, at the gene level. Received: 25 August 1999 / Accepted: 20 December 1999     

A new imprinted gene cloned by a methylation-sensitive genome scanning method.

We cloned a new imprinted gene by searching for parental-origin-specific CpG methylations using methylation-sensitive two-dimensional genome scanning method. This gene encodes a putative 51 kDa protein with significant similarity to U2 small nuclear ribonucleoprotein auxiliary factor small subunits, an essential mammalian splicing factor, and is located on mouse chromosome 11, of which maternal duplication/paternal deficiency results in a small body.     

Dissection of the Salmonella typhimurium genome by use of a Tn5 derivative carrying rare restriction sites.

A polylinker with rare restriction sites was introduced into a mini-Tn5 derivative. These sites include M.XbaI-DpnI (TCTAGATCTAGA), which is rare in most bacterial genomes, SwaI (ATTTAAAT) and PacI (TTAATTAA), which are rare in G+C-rich genomes, NotI (GCGGCCGC) and SfiI (GGCCN5GGCC), which are rare in A+T-rich genomes, and BlnI (CCTAGG), SpeI (ACTAGT), and XbaI (TCTAGA), which are rare in the genomes of many gram-negative bacteria. This Tn5(pfm) (pulsed-field mapping) transposon carries resistance to chloramphenicol and kanamycin to allow selection in a wide variety of background genomes. This Tn5(pfm) was integrated randomly into the Salmonella typhimurium and Serratia marcescens genomes. Integration of the new rare SwaI, PacI, BlnI, SpeI, and XbaI sites was assayed by restriction digestion and pulsed-field gel electrophoresis. Tn5(pfm) constructs could be valuable tools for pulsed-field mapping of gram-negative bacterial genomes by assisting in the production of physical maps and restriction fragment catalogs. For the first applications of a Tn5(pfm), we bisected five of the six largest BlnI fragments in the S. typhimurium genome, bisected the linearized 90-kb pSLT plasmid, and used Tn5(pfm) and Tn10 to trisect the largest BlnI fragment.     

The Euglena gracilis chloroplast genome: analysis by restriction enzymes.

1. Chloroplast DNA was isolated from autotrophically and mixotrophically grown Euglena gracilis cells. 2. Aliquots of chloroplast DNA were mechanically degraded to an average molecular weight of 4-7 X 10(6) and G+C-rich DNA fragments (density 1.701 g/cm3) were separated from the bulk DNA (density 1.685 g/cm3) using preparative CsCl density gradients. 3. Total chloroplast DNA and its DNA subfractions, which first were characterized with respect to average G+C content and hybridization capacity for chloroplast rRNA, were hydrolysed with restriction endonucleases (endo R-EcoRI, end R-HindII, endoR-HindIII, endo R-HindII+III, endoR-Hpal, endo R-HpaII and endoR-HaeIII). The fragments were separated on gels under a variety of electrophoretic conditions. 4. With each enzyme tested, a rather large number of bands was obtained. In all cases, different banding patterns were obtained for total DNA, and the DNA subfractions. 5. Chloroplast DNA from autotrophically and mixotrophically grown cells gave identical banding patterns. 6. Digestion of total DNA with the endoR-HaeIII yielded 51-52 fragments separated in the gels in a total of 36 bands of which 11-12 bands were composed of 2-3 fragments as estimated by densitometry. The molecular weights of all fragments combined was 87 X 10(6) or 95% of the genome (92 X 10(6)). 7. Chloroplast RNA hybridized to 5.1% with total chloroplast DNA, equal to three RNA cistrons per genome (Mr92 X 10(6)). These cistrons are located on seven different types of endo R-HaeIII fragments. The hybridising fragments are preferentially found in the G+C-rich subfraction and in bands which are composed of 2-3 fragments.     

In silico pattern-based analysis of the human cytomegalovirus genome

More than 200 open reading frames (ORFs) from the human cytomegalovirus genome have been reported as potentially coding for proteins. We have used two pattern-based in silico approaches to analyze this set of putative viral genes. With the help of an objective annotation method that is based on the Bio-Dictionary, a comprehensive collection of amino acid patterns that describes the currently known natural sequence space of proteins, we have reannotated all of the previously reported putative genes of the human cytomegalovirus. Also, with the help of MUSCA, a pattern-based multiple sequence alignment algorithm, we have reexamined the original human cytomegalovirus gene family definitions. Our analysis of the genome shows that many of the coded proteins comprise amino acid combinations that are unique to either the human cytomegalovirus or the larger group of herpesviruses. We have confirmed that a surprisingly large portion of the analyzed ORFs encode membrane proteins, and we have discovered a significant number of previously uncharacterized proteins that are predicted to be G-protein-coupled receptor homologues. The analysis also indicates that many of the encoded proteins undergo posttranslational modifications such as hydroxylation, phosphorylation, and glycosylation. ORFs encoding proteins with similar functional behavior appear in neighboring regions of the human cytomegalovirus genome. All of the results of the present study can be found and interactively explored online (http://cbcsrv.watson.ibm.com/virus/).     

Gender differences in landmark learning for virtual navigation: the role of distance to a goal

We used a new virtual program in two experiments to prepare subjects to perform the Morris water task (www.nesplora.com). The subjects were Psychology students; they were trained to locate a safe platform amidst the presence of four pinpoint landmarks spaced around the edge of the pool (i.e., two landmarks relatively near the platform and two landmarks relatively distant away from it). At the end of the training phase, we administered one test trial without the platform and recorded the amount of time that the students had spent in the platform quadrant. In Experiment 1, we conducted the test trial in the presence of one or two of the distant landmarks. When only one landmark was present during testing, performance fell to chance. However, the men outperformed the women when the two distant landmarks were both present. Experiment 2 replicated the previous results and extended it by showing that no sex differences exist when the searching process is based on the near landmarks. Both the men and the women had similarly good performances when the landmarks were present both individually and together. When present together, an addition effect was found. Far landmark tests favor configural learning processes, whereas near landmark tests favor elemental learning. Our findings suggest that other factors in addition to the use of directional cues can underlie the sex differences in the spatial learning process. Thus, we expand upon previous research in the field.