Showing papers in "Nucleic Acids Research in 1987"

An analysis of 5'-noncoding sequences from 699 vertebrate messenger RNAs

Abstract: 5'-Noncoding sequences have been compiled from 699 vertebrate mRNAs. (GCC) GCCA/GCCATGG emerges as the consensus sequence for initiation of translation in vertebrates. The most highly conserved position in that motif is the purine in position -3 (three nucleotides upstream from the ATG codon); 97% of vertebrate mRNAs have a purine, most often A, in that position. The periodical occurrence of G (in positions -3, -6, -9) is discussed. Upstream ATG codons occur in fewer than 10% of vertebrate mRNAs-at-large; a notable exception are oncogene transcripts, two-thirds of which have ATG codons preceding the start of the major open reading frame. The leader sequences of most vertebrate mRNAs fall in the size range of 20 to 100 nucleotides. The significance of shorter and longer 5'-noncoding sequences is discussed.

The codon Adaptation Index--a measure of directional synonymous codon usage bias, and its potential applications.

Abstract: A simple, effective measure of synonymous codon usage bias, the Codon Adaptation Index, is detailed. The index uses a reference set of highly expressed genes from a species to assess the relative merits of each codon, and a score for a gene is calculated from the frequency of use of all codons in that gene. The index assesses the extent to which selection has been effective in moulding the pattern of codon usage. In that respect it is useful for predicting the level of expression of a gene, for assessing the adaptation of viral genes to their hosts, and for making comparisons of codon usage in different organisms. The index may also give an approximate indication of the likely success of heterologous gene expression.

RNA splice junctions of different classes of eukaryotes: sequence statistics and functional implications in gene expression.

Abstract: A systematic analysis of the RNA splice junction sequences of eukaryotic protein coding genes was carried out using the GENBANK databank. Nucleotide frequencies obtained for the highly conserved regions around the splice sites for different categories of organisms closely agree with each other. A striking similarity among the rare splice junctions which do not contain AG at the 3' splice site or GT at the 5' splice site indicates the existence of special mechanisms to recognize them, and that these unique signals may be involved in crucial gene-regulation events and in differentiation. A method was developed to predict potential exons in a bare sequence, using a scoring and ranking scheme based on nucleotide weight tables. This method was used to find a majority of the exons in selected known genes, and also predicted potential new exons which may be used in alternative splicing situations.

Oligoribonucleotide synthesis using T7 RNA polymerase and synthetic DNA templates

Abstract: A method is described to synthesize small RNAs of defined length and sequence using T7 RNA polymerase and templates of synthetic DNA which contain the T7 promoter. Partially single stranded templates which are base paired only in the -17 to +1 promoter region are just as active in transcription as linear plasmid DNA. Runoff transcripts initiate at a unique, predictable position, but may have one nucleotide more or less on the 3' terminus. In addition to the full length products, the reactions also yield a large amount of smaller oligoribonucleotides in the range from 2 to 6 nucleotides which appear to be the result of abortive initiation events. Variants in the +1 to +6 region of the promoter are transcribed with reduced efficiency but increase the variety of RNAs which can be made. Transcription reaction conditions have been optimized to allow the synthesis of milligram amounts of virtually any RNA from 12 to 35 nucleotides in length.

Compilation of tRNA sequences and sequences of tRNA genes

Abstract: Maintained at the Universitat Bayreuth, Bayreuth, Germany, the Compilation of tRNA Sequences and Sequences of tRNA Genes is accessible at the URL http://www.tRNA.uni-bayreuth.de with mirror site located at the Institute of Protein Research, Pushchino, Russia (http://alpha.protres.ru/trnadbase). The compilation is a searchable, periodically updated database of currently available tRNA sequences. The present version of the database contains a new Genomic tRNA Compilation including the sequences of tRNA genes from genomic sequences published up to July 2003. It consists of about 5800 tRNA gene sequences from 111 organisms covering archaea, bacteria, higher and lower eukarya. The former Compilation of tRNA Genes (up to the end of 1998) and the updated Compilation tRNA Sequences (561 entries) are also supported by the new software. The database can be explored by using multiple search criteria and sequence templates. The database provides a service that allows to obtain statistical information on the occurrences of certain bases at given positions of the tRNA sequences. This allows phylogenic studies and search for identity elements in respect to interactions of tRNAs with various enzymes.

CAT constructions with multiple unique restriction sites for the functional analysis of eukaryotic promoters and regulatory elements

Abstract: The coding region of the bacterial chloramphenicol acetyltransferase (CAT) gene is wide1y used as an indicator gene in gene transfer experiments dealing with regulation of transcription in eukaryotes. Chimaeric CAT fusion genes are especially useful because no endogenous CAT activity is present in eukaryotic ce11s and because CAT enzyme activity can be monitored by a rapid and sensitive assay (1). In order to simplify the construction of hybrid CAT genes, we have constructed the plasmids pBLCA T2 and pBLCAT3. The coding region of the CA T gene as well as the small t intron and polyadenylation signals from SV40 were inserted into the polylinker region of the high copy number plasmid pUC18 (2). Unique BglII and XhoI restrietion sites were introduced upstream of the CAT coding region by insertion of synthetic linkers. A BamHI site at the 3' end of the transcription unit was converted into adam methylation sensitive ClaI site by partial digestion with BamHI, filling in and re -ligation. In the promoterless construction pBLCAT3 eight unique restriction sites are suitable for insertion of different eukaryotic promoters at the 5' end of the CAT gene. Four additional unique restriction sites rnake the insertion of regulatory signals 3' of the CAT gene possible and enable the excision of the intact fusion gene from the prokaryotic vector. The presence of the Herpes simplex virus tk promoter in pBLCAT2 permits the analysis of the effects of putative regulatory elements on a heterologous eukaryotic promoter. A BamHIIBgllI fragment from the HSV tk linker scanning mutant LS 115/ 105 (3) spanning the promoter from 105 to + 51 was inserted into the corresponding restriction sites of pBLCAT3 thereby generating pBLCAT2. The modified polylinker regions at the 5' and the 3' ends have been sequenced and compiled sequences for both plasmids are available on request.

Analysis of E. coli promoter sequences.

Abstract: We have compiled and analyzed 263 promoters with known transcriptional start points for E. coli genes. Promoter elements (-35 hexamer, -10 hexamer, and spacing between these regions) were aligned by a program which selects the arrangement consistent with the start point and statistically most homologous to a reference list of promoters. The initial reference list was that of Hawley and McClure (Nucl. Acids Res. 11, 2237-2255, 1983). Alignment of the complete list was used for reference until successive analyses did not alter the structure of the list. In the final compilation, all bases in the -35 (TTGACA) and -10 (TATAAT) hexamers were highly conserved, 92% of promoters had inter-region spacing of 17 +/- 1 bp, and 75% of the uniquely defined start points initiated 7 +/- 1 bases downstream of the -10 region. The consensus sequence of promoters with inter-region spacing of 16, 17 or 18 bp did not differ. This compilation and analysis should be useful for studies of promoter structure and function and for programs which identify potential promoter sequences.

Comparison of the consensus sequence flanking translational start sites in Drosophila and vertebrates

Abstract: The previously presented consensus sequence for eukaryotic translation initiation sites by Kozak was derived substantially from vertebrate mRNA sequences. Drosophila nuclear genes exhibit a significantly different translation start consensus sequence. These differences probably do not represent mechanistic differences in translation initiation inasmuch as both taxa exhibit identical preferences and restrictions at the crucial -3 position. Using more conservative criteria for the assignment of consensus the following consensus sequences were derived: vertebrate--CANCAUG and Drosophila--CAAAACAUG.

Electroporation for the efficient transfection of mammalian cells with DNA.

Abstract: A simple and reproducible procedure for the introduction of DNA into mammalian cells by electroporation is described. The parameters involving the cells, the DNA, and the electric field are investigated. The procedure has been applied to a broad range of animal cells. It is capable of transforming more than 1% of the viable cells to the stable expression of a selectable marker.

An inspection of the domain between putative TATA box and translation start site in 79 plant genes

Abstract: Over 75 published genomic DNA sequences from several higher plants have been collected and flanking regions of the leader sequences have been analysed. In a majority of the plants, the first AUG codon on processed mRNA acted as a translation initiation site. The consensus sequence for the context was TAAACAATGGCT (on plus strand of DNA). This differed from the earlier suggestion for eukaryotic mRNAs based mainly on data from animals. Leader sequences were generally 40-80 nucleotides in length and were A+T rich. Adenine was present in a majority of the cases at the transcription start site which was flanked by pyrimidine bases. The putative TATA box was present 32 +/- 7 nucleotides upstream from the transcription initiation site. The consensus sequence for TATA box and surrounding region was TCACTATATATAG.

Probing the structure of RNAs in solution

Abstract: During these last years, a powerful methodology has been developed to study the secondary and tertiary structure of RNA molecules either free or engaged in complex with proteins. This method allows to test the reactivity of every nucleotide towards chemical or enzymatic probes. The detection of the modified nucleotides and RNase cleavages can be conducted by two different paths which are oriented both by the length of the studied RNA and by the nature of the probes used. The first one uses end-labeled RNA molecule and allows to detect only scissions in the RNA chain. The second approach is based on primer extension by reverse transcriptase and detects stops of transcription at modified or cleaved nucleotides. The synthesized cDNA fragments are then sized by electrophoresis on polyacrylamide:urea gels. In this paper, the various structure probes used so far are described, and their utilization is discussed.

Synthesis and hybridization studies on two complementary nona(2'-O-methyl)ribonucleotides.

Abstract: 2'-O-Methyl derivatives of the common ribonucleosides except for guanosine were synthesized via the 2'-O-methylation of appropriately-protected nucleosides with CH3I in the presence of Ag2O. The 2'-O-methylguanosine derivative was prepared by the monomethylation of a 2',3'-cis-diol system with diazomethane. These derivatives were converted to protected 2'-O-methylribonucleoside 3'-phosphates and used for oligonucleotide synthesis on polymer supports. Thus, oligo(2'-O-methyl-ribonucleotides) having the sequence identical to the consensus sequence of the 5'-splice junction CAGGUAAGU and its complement were synthesized in a stepwise manner using the phosphotriester method. Thermal stabilities (Tm's) of the duplex of these 2'-O-methyl ribo-oligomers and eight related duplexes containing ribo- or deoxyribo-oligomers were examined. It was found that the 2'-O-methyl oligoribonucleotides can be utilized as an alternative to an oligoribonucleotide probe in RNA hybridizations as the hybrid formed has a high, or a higher Tm, the probe is much easier to synthesize and it is less likely to be enzymatically degraded.

Molecular cloning and charcterization of rat estrogen receptor cDNA

Abstract: A cDNA clone of rat uterus estrogen receptor (ER) has been isolated and sequenced. This clone contains a complete open reading frame encoding 600 amino acid residues which is 5 and 11 amino acids larger than the corresponding molecules of human and chicken, respectively. The molecular weight of this protein is calculated to be 67,029. When this clone was ligated to the pSV2 vector and transfected into COS7 cells, a protein was produced that had the same affinity to estrogen as rat uterus ER. This sequence shows 88% homology with human ER; 528 amino acids are identical and 14 amino acids are conservative substitutions. The comparison of rat, human and chicken ER sequences indicate the presence of three highly conserved regions suggesting that these regions play important roles in ER function. The putative DNA-binding domain is completely identical in rat, human and chicken. The C-terminal half region which is thought to be the estrogen binding domain is also highly conserved and is rich in hydrophobic amino acid residues. Southern blot analysis of genomic DNA with ER cDNA as a probe has shown that related sequences are present in the genome.

Putative polyadenylation signals in nuclear genes of higher plants: a compilation and analysis

Abstract: In animal and viral pre-mRNAS, the process of polyadenylation is mediated through several cis-acting poly (A) signals present upstream and downstream from poly (A) sites. The situation regarding polyadenylation of higher plant pre-mRNAS, however, has remained obscure so far. In this paper, a search for putative poly (A) signals is made by considering the published data from 46 plant genomic DNA sequences. Certain domains in the 3' untranslated regions from nuclear genes of higher plants were compiled and occurrence of sequence motifs such as AATAAA, CAYTG, YGTGTTYY and YAYTG was scored in relation to poly (A) sites. Moreover, consensus sequences for important regions in the 3' untranslated sequences and poly (A) signals were also deduced from the data. It was inferred that sequence motifs similar to poly (A) signals exist around poly (A) sites but some of them are in entirely different spatial relationship than observed in other eukaryotes. This indicates their probable non-involvement in the process of polyadenylation in higher plants necessitating a functional analysis approach to define the plant specific poly (A) signals.

Sequence-specific recognition, photocrosslinking and cleavage of the DNA double helix by an oligo-(α]-thymidylate covalently linked to an azidoproflavine derivative

Abstract: A 3-azidoproflavine derivative was covalently linked to the 5'-end of an octathymidylate synthesized with the [alpha]-anomers of the nucleoside. Two target nucleic acids were used for this substituted oligo-[alpha]-thymidylate: a 27-mer single-stranded DNA fragment containing an octadeoxyadenylate sequence and a 27-mer duplex containing eight contiguous A.T base pairs with all adenines on the same strand. Upon visible light irradiation the octa-[alpha]-thymidylate was photocrosslinked to the single-stranded 27-mer. Chain breaks were induced at the crosslinked sites upon piperidine treatment. From the location of the cleavage sites on the 27-mer sequence it was concluded that a triple helix was formed by the azidoproflavine-substituted oligo-[alpha]-thymidylate with its complementary oligodeoxyadenylate sequence. When the 27-mer duplex was used as a substrate cleavage sites were observed on both strands after piperidine treatment of the irradiated sample. They were located at well defined positions which indicated that the octathymidylate was bound to the (dA)8.(dT)8 sequence in parallel orientation with respect to the (dA)8-containing strand. Specific binding of the [alpha]-octathymidylate involved local triple strand formation with the duplex (dA)8.(dT)8 sequence. This result shows that it is possible to synthesize sequence-specific molecules which specifically bind oligopurine-oligopyrimidine sequences in double-stranded DNA via recognition of the major groove hydrogen bonding sites of the purines.

The 5'-leader sequence of tobacco mosaic virus RNA enhances the expression of foreign gene transcripts in vitro and in vivo

Abstract: A 67-nucleotide portion of the non-coding, 5'-leader sequence of tobacco mosaic virus RNA [defined as omega' (Gr omega prime)] has been shown to enhance the translation of contiguous foreign gene transcripts both in vitro and in vivo Chemically-synthesized omega', containing convenient linker sequences, was inserted into derivatives of an in vitro transcription plasmid (pSP64) between the bacteriophage-SP6 promoter and sequences coding for either chloramphenicol acetyltransferase (CAT) or neomycin phosphotransferase (NPTII) Run-off in vitro transcripts, with or without a 5'-cap structure (G(5')ppp(5')G) and/or the omega' sequence, were tested in mRNA-dependent cell-free translation systems derived from rabbit reticulocyte lysate, wheat germ extract or Escherichia coli (MRE 600) In all cases, the presence of omega' increased the translational expression of both reporter genes, typically between 2- to 10-fold Electroporation of isolated mesophyll protoplasts from Nicotiana tabacum cv Xanthi, or microinjection of oocytes from Xenopus laevis, with SP6-transcripts containing the CAT-coding region confirmed and extended the value of omega' as a potential translational enhancer of gene expression in vivo

Expression of the lacZ gene from two methanol-regulated promoters in Pichia pastoris

Abstract: Two DNA fragments containing putative control regions regulating the expression of the alcohol oxidase (AOX) and dihydroxy-acetone synthase (DAS) genes from the methylotrophic yeast Pichia pastoris were used in the construction of vectors for the expression of the Escherichia coli lacZ gene. These vectors were transformed into P. pastoris host cells and employed in experiments to measure the control mechanisms employed by each promoter in the production of beta-galactosidase fusion products. Results in P. pastoris suggest that the processes used to regulate the expression of these gene fusions involve both repression/derepression and induction mechanisms. Expression of the AOX-lacZ and DAS-lacZ fusions was examined in Saccharomyces cerevisiae as well. Interestingly, beta-galactosidase was expressed in a regulated manner in the heterologous host.

High frequencies of short frameshifts in poly-CA/TG tandem repeats borne by bacteriophage M13 in Escherichia coli K-12

Abstract: Slipped-strand mispairing (SSM) may play an major role in repetitive DNA sequence evolution by generating large numbers of short frameshift mutations within simple tandem repeats. Here we examine the frequency and size spectrum of frameshifts generated within poly-CA/TG sequences inserted into bacteriophage M13 in Escherichia coli hosts. The frequency of detectable frameshifts within a 40 bp tract of poly-CA/TG is greater than one percent and increases more than linearly with length, being lower by a factor of four in a 22 bp target sequence. The frequency increases more than 13-fold in mutL and mutS host cells, suggesting that a high proportion of frameshift events are normally repaired by methyl-directed mismatch repair. Of the 87 sequenced frameshifts in this study, 96% result from deletion or insertion of only or two 2 bp repeat units. The most frequent events are 2 bp deletions, 2 bp insertions, and 4 bp deletions, the relative frequencies of these events being about 18:6:1.

Evidence for a locus activation region: the formation of developmentally stable hypersensitive sites in globin-expressing hybrids

Abstract: We have analyzed the chromatin structure of the human beta-globin locus in somatic cell hybrids resulting from the fusion of human non-erythroid cells and mouse erythroleukemia (MEL) cells. In these hybrids, the human adult beta-globin gene, but neither the embryonic nor fetal globin genes, is activated transcriptionally. In addition, the DNase I-resistant beta-like globin locus characteristic of the parental non-erythroid human cells (1,2) is reorganized over an approximately 80 kb region, including the formation of the developmentally stable hypersensitive sites 50 kb 5' and 20 kg 3' of the activated adult beta-globin gene (2,3). These results are consistent with the hypothesis that events occurring at the 5' and/or 3' developmentally stable hypersensitive sites are important, if not necessary, for the activation of the beta-globin locus.

Length mutations in human mitochondrial DNA: direct sequencing of enzymatically amplified DNA

Abstract: A specific segment of mitochondrial DNA from 18 people was examined by two methods of direct DNA sequencing. This segment includes a small noncoding region (V) shown before by restriction analysis to exhibit length polymorphism. All 11 of the human mtDNAs previously reported to have a deletion in this region proved to lack one of the two adjacent copies of a 9-base-pair sequence normally present in human mtDNAs. Phylogenetic analysis suggests that this deletion occurred only once during the evolution of modern types of human mtDNA and that it will be a valuable anthropological marker for peoples of East Asian origin. The one human mtDNA reported to have an addition in region V differs from the wild type by two mutations in the first copy of the 9-base-pair sequence: one transition and an addition of four cytosines, thereby producing a run of 11 cytosines. One of the direct DNA sequencing methods uses a single oligonucleotide primer to facilitate dideoxy sequencing from purified mtDNA templates. The second, more successful, method first amplifies this mtDNA segment enzymatically with two flanking primers (the "polymerase chain reaction") and then uses a third primer for DNA sequencing. This latter method, which works on the DNA extracted from small amounts of blood as well as on purified mtDNA, is shown to be a rapid means of defining sequence variants without purifying and cloning the same DNA segment from many individuals.

The white gene as a marker in a new P-element vector for gene transfer in Drosophila

Abstract: We describe new vectors suitable for P-element mediated germ line transformation of Drosophila melanogaster using passenger genes whose expression does not result in a readily detectable phenotypic change of the transformed flies. The P-element vectors contain the white gene fused to the heat shock protein 70 (hsp70) gene promoter. Expression of the white gene rescues the white phenotype of recipient flies partly or completely even without heat treatment. Transformed descendents of most founder animals (GO) fall into two classes which are distinguishable by their orange and red eye colours. The different levels of white expression are presumably due to position effects associated with different chromosomal sites of insertion. Doubling of the gene dose in orange eyed fly stocks results in an easily visible darkening of the eye colour. Consequently, the generation of homozygous transformants is easily possible by simple inbreeding due to the phenotypic distinction of homo- and heterozygous transformants. Cloning into these P-element vectors is facilitated by the presence of polylinkers with 8 and 12 unique restriction sites.

A rapid method for the purification of DNA from blood

Abstract: A simple method for DNA purification from various cell types has recently been published (1). In this protocol, cells are just dispersed in guanidine hydrochloride and DNA ethanol precipitated. Unfortunately, in my hands, the DNA was extremely difficult to resuspend when blood was used as a source. Proteinase K has been used in nucleic acid isolation for more than 15 years (2,3) and is known to be activated by chaotropic agents such as SDS or urea. This 12 3 4 5 M proteinase works efficiently in guanidium hydrochloride solutions and does not need to be removed from the DNA solution since proteinase K shows a marked autolytic activity at high temperature and vanishes in one hour in a 1% sarkosyl/6 M guanidine hydrochloride solution. 55 k After ethanol precipitation, DNA dissolves quickly, disclosing a causal effect of protein in difficulties in resuspension. 3 4 29k Figure 1: pattern of protein distribution in a SDS-polvacrrlamide gel stained with Coomassie blue lane 1: blood cell lysate before proteinase K; lane 2: 5 min after addition of the protease (Mw A 414 k 29 50 °) ; lane 3: 1 hour after the addition of 1 proteinase K; lane 4: DNA sample after ethanol ^ precipitation (this protocol); lane 5: DNA sample without proteinase K; the quantity of copurified proteins varies from sample to sample. The following protocol is now routinely used in our laboratory for preparing DNA to be used for Southern blotting (more than 100 samples have been succesfully prepared, and up to 8 restriction enzymes tested with each): 10 ml of frozen anticoagulated human blood are quickly thawed at 37°C and washed twice in 10 mM NaCl + 10 mM EDTA; the pellet (mostly cells debris and nuclei) should be almost white. This pellet is homogenized in 14 ml of filtered guanidium hydrochloride and 1 ml of 7.5 M ammonium acetate. 1 ml of 20% sodium sarkosyl and 150 pi of proteinase K (lOmg/ml) are added and the mixture heated to 60°C for one hour. 35 ml of ethanol are added at room temperature; the DNA threads are spooled and washed twice in 70* ethanol. Excess ethanol is gently wiped off and DNA is resuspended without any drying in 1.5 ml of TE (10 mM Tris-HCl pH 7 + 1 mM EDTA). The mean yield is 20 ug of DNA per ml of blood.

Automated DNA sequencing: ultrasensitive detection of fluorescent bands during electrophoresis.

Abstract: A simple system has been designed enabling ultrasensitive on-line detection of fluorescently labelled macromolecules, e.g. nucleic acids, proteins and peptides during electrophoretic separations in gels. An important application is the automated DNA sequence determination without radioactivity. Drying of gels, film exposure and handling are not necessary. A sulphydryl containing M13 sequencing primer has been synthesised and end-labelled in a reaction with fluorescein iodoacetamide. This is then used in the dideoxy reactions. In particular no moving parts or complicated software are required for data collection and analysis. Compared to our first automated device detection sensitivity has been improved by a factor of thirty to about 3 X 10(-18) mol per band. The resolution has increased to about 400 bases in 5 hours, with the possibility to read up to about 500 bases when they are properly labelled. Gels shorter than 20 cm may be used for resolution of about 300 bases. The single gel system may be upgraded for simultaneous running and reading of six or ten sequencing samples.

Compilation and comparison of the sequence context around the AUG startcodons in Saccharomyces cerevisiae mRNAs

Abstract: The nucleotide sequence of the translation initiation regions of 96 Saccharomyces cerevisiae mRNAs was compiled and compared. The entire 5' untranslated sequence of most mRNAs is very rich in A-residues. G-residues are underrepresented in the untranslated region. The AUG startcodon context appeared to be distinctly different from that of animal mRNAs, although an A-residue at -3 also occurs very frequently (81 percent) in yeast mRNAs. The prevailing codon 3' adjacent to the AUG is the UCU serine codon. All these features are more extreme in the highly expressed genes. Fifty percent of all highly expressed genes use the UCU serine codon as second triplet. In this group G-residues are completely absent in the 7 bases preceding the startcodon and an A-residue occurs at position -1 and -3 at a frequency of 89 percent and 100 percent, respectively. The abundance of A-residues throughout the leader suggests that unstructured mRNA is required for efficient translation initiation in yeast. The consensus sequence for the AUG context in highly expressed genes can be summarized as follows: (Sequence: see text).

Characterization of xenobiotic responsive elements upstream from the drug-metabolizing cytochrome P-450c gene: a similarity to glucocorticoid regulatory elements

Abstract: The DNA element governing the inducible expression of drug-metabolizing P-450c gene by xenobiotic treatments was investigated by gene transfer methods. A variety of dissected fragments from -844 to -1140bp region which was essential for the inducibility of P-450c gene were placed on the heterologous SV40 promoter for testing the inducibility. Mapping studies in combination with gel retardation assay defined the presence of the two xenobiotic responsive elements (XRE, XRE1, -1007 - -1021bp; XRE2, -1088 - -1092bp) composed of about 15 nucleotides which expressed the enhancer activity in response to xenobiotic inducers. The two XREs share 10 nucleotides in common out of 15 as expressed in the sequence CG/CTG/CC/TTG/CTCACGCT/AA and are arranged in the inverse orientation. They are different from DREs (drug responsive element) proposed previously (Sogawa, K. et al. Proc. Natl. Acad. Sci. 83, 8044-8048 (1986] and expressed a strong enhancer activity in response to 3-methylcholanthrene. The XRE shows a significant homology with glucocorticoid regulatory elements and apparently needs normal functions of a putative xenobiotic receptor for the inducible enhancer activity.

The twist gene: isolation of a Drosophila zygotic gene necessary for the establishment of dorsoventral pattern.

Abstract: The twist zygotic gene appears to be involved in the establishment of the dorso-ventral pattern in Drosophila embryos. Homozygous twist embryos are partially dorsalized, their gastrulation is abnormal, and they fail to differentiate mesoderm. We determined the temperature-sensitive period of twist around the gastrulation time, and we isolated the gene. A 300 kb chromosomic walk allowed the detection of the 70 kb deletion that delimits the twist region in Df(2R)twiS60. Southern blot analyses of 21 EMS induced twist allele DNAs and systematic Northern blot analyses all over this 70 kb region lead to the localization of the twist gene: within about 10 kb at the left border of the deletion, 2 twist alleles show each a small deletion that uncover a transcription unit whose expression occurs about at the time of gastrulation.

Restriction endonucleases for pulsed field mapping of bacterial genomes

Abstract: Fundamental to many bacterial genome mapping strategies currently under development is the need to cleave the genome into a few large DNA fragments that can be resolved by pulsed field gel electrophoresis. Identification of endonucleases that infrequently cut a genome is of key importance in this process. We show that the tetranucleotide CTAG is extremely rare in most bacterial genomes with G+C contents above 45%. As a consequence, most of the sixteen bacterial genomes we have tested are cleaved less than once every 100,000 base pairs by one or more endonucleases that have CTAG in their recognition sequences: Xba I (TCTAGA), Spe I (ACTAGT), Avr II (CCTAGG) and Nhe I (GCTAGC). Similarly, CCG and CGG are the rarest trinucleotides in many genomes with G+C content of less than 45%. Thus, Sma I (CCCGGG), Rsr II (CGGWCCG), Nae I (GCCGGC) and Sac II (CCGCGG) are often suitable endonucleases for producing fragments that average over 100,000 base pairs from such genomes. Pulsed field gel electrophoresis of the fragments that result from cleavage with endonucleases that cleave only a few times per genome should assist in the physical mapping of many prokaryotic genomes.

Synonymous codon usage in Bacillus subtilis reflects both translational selection and mutational biases.

Abstract: Codon usage data for 56 Bacillus subtilis genes show that synonymous codon usage in B. subtilis is less biased than in Escherichia coli, or in Saccharomyces cerevisiae. Nevertheless, certain genes with a high codon bias can be identified by correspondence analysis, and also by various indices of codon bias. These genes are very highly expressed, and a general trend (a decrease) in codon bias across genes seems to correspond to decreasing expression level. This, then, may be a general phenomenon in unicellular organisms. The unusually small effect of translational selection on the pattern of codon usage in lowly expressed genes in B. subtilis yields similar dinucleotide frequencies among different codon positions, and on complementary strands. These patterns could arise through selection on DNA structure, but more probably are largely determined by mutation. This prevalence of mutational bias could lead to difficulties in assessing whether open reading frames encode proteins.

Resolution of DNA molecules greater than 5 megabases by contour-clamped homogeneous electric fields.

Abstract: Excellent resolution of chromosomal DNA molecules from Saccharomyces cerevisiae, Candida albicans and Schizosaccharomyces pombe has been obtained using alternating contour-clamped homogeneous electric field (CHEF) gel electrophoresis. The largest of these molecules is greater than 5 Mb in size and is resolved after 130 hours in a 0.6% agarose gel at a field strength of 1.3 V/cm and a switching interval of 1 hour. Separation of concatamers of phage lambda DNA reveals four regions of resolution in alternating CHEF gel electrophoresis. There are two regions of good resolution in which mobility approximates a linear function of molecular weight. These are separated by a region of lower resolution and bounded at high molecular weights by a region of little or no resolution. The four regions are of practical and possibly theoretical importance.