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Query: UNIPROT:P06889 (Mol)
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The autonomously replicating sequences (ARSs) of pSR1, a cryptic circular DNA plasmid detected in a strain of Zygosaccharomyces rouxii, were delimited by subcloning and deletion analysis and by the isolation of nucleotide substitution mutations. A 30 base-pair (bp) sequence from inverted repeat 1 (IR1) and presumably the same region from IR2 of pSR1 functions as an ARS in the native host, Z. rouxii, and in a heterologous host, Saccharomyces cerevisiae. Thus, pSR1 has two ARSs per molecule, either of which is sufficient for replication of the plasmid molecule in both hosts. These hosts, however, respond differently to nucleotide substitutions in the 30 bp sequence, suggesting that the sequences required for ARS function in the two organisms are not exactly the same. In addition, a 137 bp sequence that overlaps the 30 bp sequence by 11 bp also functions as an ARS in Z. rouxii but not in S. cerevisiae. However, this 137 bp sequence enhances the stability of plasmids carrying the pSR1 ARS in S. cerevisiae. The 30 bp and 137 bp sequences each contain a single copy of the 11 bp ARS consensus sequence, which is essential for ARS function in S. cerevisiae. Small insertions between the 11 bp overlapping region and the 11 bp ARS consensus sequence showed that a proper distance between these two 11 bp sequences is essential for the ARS function of the 30 bp sequence. Point mutations that inactivate ARS function show that the ARS consensus sequence, as well as a short A:T segment in the overlapping sequence, is required for the ARS function of the 30 bp sequence.
J Mol Biol 1989 Jun 20
PMID:An autonomously replicating sequence of pSRI plasmid is effective in two yeast species, Zygosaccharomyces rouxii and Saccharomyces cerevisiae. 266 40

The major protein encoded by the c-myb oncogene in many species has been identified as an unstable, nuclear DNA-binding protein with an apparent molecular mass of 75 to 80 kilodaltons (p75c-myb). Recently, an alternatively spliced form of c-myb-encoded mRNA has been identified in murine cells containing either normal or rearranged c-myb genes. This mRNA includes a new exon, termed E6A, formed through use of cryptic splice sites located in the large intron between c-myb exons vE6 and vE7. E6A is predicted to contribute an internal 121-residue in-frame insertion into a region C terminal of the DNA-binding domain the c-myb-encoded protein. Here we report the identification of an 85-kilodalton (p85c-myb-E6A) protein as the translation product of the alternatively spliced E6A c-myb mRNA. This protein as well as p75c-myb were precipitated with anti-Myb antibodies raised against the conserved DNA-binding region of c-Myb. Proteolytic mapping studies showed that the two proteins are highly related but not identical. However, only the p85 protein reacted with an antiserum prepared against the E6A region expressed in bacteria, demonstrating that p85 but not p75 contains E6A sequences. In addition, the mobilities of both p85 and p75 were increased in myeloid tumor cell lines containing proviral integrations upstream of the 5' coding exons of v-myb, indicating that both proteins are truncated forms of c-Myb expressed from the same disrupted allele. p75c-myb and p85c-myb-E6A were indistinguishable with respect to nuclear localization and protein half-life. Furthermore, both forms of Myb were synthesized continuously throughout the cell cycle in 70Z ore-B cells. The contribution of the E6A domain to c-myb function remains to be elucidated.
Mol Cell Biol 1989 Dec
PMID:A second c-myb protein is translated from an alternatively spliced mRNA expressed from normal and 5'-disrupted myb loci. 268 65

The ilvG gene of Escherichia coli K12 produces a cryptic peptide as a result of a frameshift mutation located approximately halfway through the coding sequence of the gene. This mutation is polar on expression of the downstream genes (ilvEDA) because transcription terminates within the translationally barren region that results from the mutation. Contrary to this, Salmonella typhimurium produces a full-length functional ilvG protein and is therefore unlikely to manifest this polarity event. E. coli K12 strains with mutations either in the ilvG gene (which restores a full-length protein) or in the rho gene, relieve this polarity suggesting that this event couples transcription and translation in a manner analogous to attenuation. This paper describes experiments designed to determine the molecular nature and location of the polarity event. Most significantly, this work establishes the contribution of the internal promoter (ilvEp, located downstream of the polar site) to the expression of the downstream genes in E. coli K12 wild-type and mutant strains (ilvG) and by extension to the role of this promoter in S. typhimurium. This analysis suggests that ilvEp contributes as much as 90% of ilvEDA expression in wild-type E. coli K12 and only 15% in wild-type S. typhimurium when grown under non-repressing conditions.
Mol Microbiol 1989 Aug
PMID:Transcriptional polarity enhances the contribution of the internal promoter, ilvEp, in the expression of the ilvGMEDA operon in wild-type Escherichia coli K12. 269 39

As part of an effort to characterize the spatial and functional relationships among genetic elements within the amplified dihydrofolate reductase (DHFR) domain in Chinese hamster cells, we have used a variation of the differential hybridization approach to identify cDNA clones whose genes are coamplified with DHFR in the methotrexate-resistant cell line, CHOC 400. Our initial screen was successful in isolating both DHFR and non-DHFR cDNAs. One of the non-DHFR cDNA clones, 2BE2121, hybridizes on Northern (RNA) blots to abundant 1,200- and 1,500-nucleotide (nt) transcripts which differ in the lengths of their 3' untranslated regions. The clone 2BE2121 contains a 789-nt open reading frame but does not appear to be related to any members of the protein or nucleic acid sequence databases. A second larger non-DHFR cDNA, II-19-211, was isolated that is transcribed from the same gene as 2BE2121 but contains only a small carboxyl-terminal portion of the open reading frame. II-19-211 may, therefore, represent either a splicing intermediate or an mRNA transcribed from a cryptic intragenic promoter. Hybridization to cosmids from the DHFR domain shows that 2BE2121 is encoded by a gene approximately 34 kilobases (kb) long. The 5'-most genomic fragment is less than 4 kb from an interamplicon junction. The 3' end of the 2BE2121 gene lies approximately 75 kb downstream from the DHFR gene and approximately 25 kb downstream from the proximal replication initiation site, and the transcriptional polarity is opposite to that of the leading strand of replication. Thus, both the DHFR and 2BE2121 genes are exceptions to the theory that transcription proceeds in the same direction as the leading strand of the replication fork.
Mol Cell Biol 1989 Mar
PMID:Identification and characterization of a gene that is coamplified with dihydrofolate reductase in a methotrexate-resistant CHO cell line. 272 90

Group I self-splicing introns have a 5' splice site duplex (P1) that contains a single conserved base pair (U.G). The U is the last nucleotide of the 5' exon, and the G is part of the internal guide sequence within the intron. Using site-specific mutagenesis and analysis of the rate and accuracy of splicing of the Tetrahymena thermophila group I intron, we found that both the U and the G of the U.G pair are important for the first step of self-splicing (attack of GTP at the 5' splice site). Mutation of the U to a purine activated cryptic 5' splice sites in which a U.G pair was restored; this result emphasizes the preference for a U.G at the splice site. Nevertheless, some splicing persisted at the normal site after introduction of a purine, suggesting that position within the P1 helix is another determinant of 5' splice site choice. When the U was changed to a C, the accuracy of splicing was not affected, but the Km for GTP was increased by a factor of 15 and the catalytic rate constant was decreased by a factor of 7. Substitution of U.A, U.U, G.G, or A.G for the conserved U.G decreased the rate of splicing by an even greater amount. In contrast, mutation of the conserved G enhanced the second step of splicing, as evidenced by a trans-splicing assay. Furthermore, a free 5' exon ending in A or C instead of the conserved U underwent efficient ligation. Thus, unlike the remainder of the P1 helix, which functions in both the first and second steps of self-splicing, the conserved U.G appears to be important only for the first step.
Mol Cell Biol 1989 Sep
PMID:The conserved U.G pair in the 5' splice site duplex of a group I intron is required in the first but not the second step of self-splicing. 277 62

Using the bifunctional cloning vehicle pHP13, which carries the replication functions of the cryptic Bacillus subtilis plasmid pTA1060, the effects of BsuM restriction on the efficiency of shotgun cloning of heterologous Escherichia coli DNA were studied. In a restriction-deficient but modification-proficient mutant of B. subtilis, clones were obtained at a high frequency, comparable to frequencies normally obtained in E. coli (10(4) clones per microgram target DNA). Large inserts were relatively abundant (26% of the clones contained inserts in the range of 6 to 15 kb), which resulted in a high average insert length (3.6 kb). In the restriction-proficient B. subtilis strain, the class of large inserts was underrepresented. Transformation of B. subtilis with E. coli-derived individual recombinant plasmids was affected by BsuM restriction in two ways. First, the transforming activities of recombinant plasmids carrying inserts larger than 4 kb, were, in comparison with the vector pHP13, reduced to varying degrees in the restricting host. The levels of the reduction increased with insert length, resulting in a 7800-fold reduction for the largest plasmid used (pC23; insert length 16 kb). Second, more than 80% of the pC23 transformants in the restricting strain contained a deleted plasmid. In the non-restricting strain, the transforming activities of the plasmids were fairly constant as a function of insert length (in the range of 0-16 kb), and no structural instability was observed. It is concluded that for shotgun cloning in B. subtilis, the use of restriction-deficient strains is highly preferable. Evidence is presented that in addition to XhoI other sequences are involved in BsuM restriction. It is postulated that AsuII sites are additional target sites for BsuM restriction.
Mol Gen Genet 1987 Sep
PMID:The effect of restriction on shotgun cloning and plasmid stability in Bacillus subtilis Marburg. 282 77

The cryptic bgl operon in Escherichia coli K-12 strain 1011A contains a 1.4-kilobase-pair fragment of foreign DNA within the bglF structural gene. The active allele found in its descendant strain, MK1, required the precise excision of that insertion for its activation. Molecular and genetic approaches have shown that strain 1011A possessed an active (bglR+) rather than a silent wild-type (bglR0) allele of the regulatory region and that this change was caused by a point mutation. Our model for the retention of cryptic genes (B. G. Hall, S. Yokoyama, and D. H. Calhoun, Mol. Biol. Evol. 1:109-124, 1983) suggested that the insertion might have been selected to silence a disadvantageous bglR+ allele. We examined the genealogy of strain MK1 and found that the insertion of foreign DNA was not selected for that reason, since it preceded the change to bglR+. This means that the change to bglR+ was also not selected, since the presence of the insertion would not allow expression of the operon. We have calculated the probability of isolating a bglR+ mutation by chance alone as less than 10(-8). We suggest that mutation rates estimated under the usual conditions of exponential growth may be irrelevant to the frequencies of these events under natural conditions.
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PMID:Activation of a cryptic gene by excision of a DNA fragment. 282 93

When Escherichia coli cells lysogenic for bacteriophage lambda are induced with ultraviolet light, cells carrying cryptic lambda prophages are occasionally found among the apparently cured survivors. The lambda variant crypticogen (lambda crg) carries an insertion of the transposable element IS2, which increases the frequency of cryptic lysogens to about 50% of cured cells: 43 of these cryptic prophages have been characterized. They all contain substitutions that replace the early segment of the prophage genome (from the IS2 to near the cos site) with a duplicate copy of a large segment of the host chromosome. The right end of the substitution always results from recombination between the nin-QSR-cos region of the prophage and the homologous incomplete lambdoid prophage Qsr' at 12.5 minutes in the E. coli chromosome. The left end of the substitution is usually a crossover that recombines the IS2 element in the prophage with an E. coli IS2 at 8.5 minutes, near the lac gene, or with a second IS2 located counterclockwise from leu at 2 minutes, generating duplications of at least 200,000 bases. Five cryptic lysogens derived from cells lysogenic for a reference strain of lambda (which lacks the IS2 present in lambda crg) have been characterized. They contain substitutions whose right termini are generated by a crossover with the Qsr' prophage. The left termini of these substitutions are formed either by a crossover between the lambda exo gene and a short exo-homologous segment of Qsr' (2/5), or by a crossover between sequences to the left of attL and an unmapped distant region of the host chromosome (3/5). The large duplications carried by these cryptic lysogens are stable, unlike tandem duplications, and so may significantly influence the cell's evolutionary potential.
J Mol Biol 1987 Dec 05
PMID:Structure of cryptic lambda prophages. 282 40

The thermostability of the staphylococcal plasmids pC194 and pUB110 and their antibiotic-resistance determinants was examined upon transfer to Bacillus stearothermophilus CU21. Plasmid pGS13, a pUB110 derivative carrying the chloramphenicol acetyltransferase (CAT) gene of pC194, could be maintained up to the maximum growth temperature (68 degrees C) by selection for chloramphenicol resistance. In the absence of selective pressure, pGS13 was lost at temperatures above 60 degrees C. Segregational instability of pGS13 was accompanied by a progressive loss of negative superhelicity at elevated temperatures. Thermostable mutants of pGS13 were isolated by screening for expression of the antibiotic-resistance determinants after growth under non-selective conditions. These mutants were found to contain an insertion of a 1.7 kb DNA sequence derived from the cryptic B. stearothermophilus plasmid pBS02. Increased thermostability correlated with preservation of plasmid superhelicity at elevated temperatures.
Mol Gen Genet 1987 Oct
PMID:Thermostability and superhelicity of plasmid DNA in Bacillus stearothermophilus. 282 85

We showed previously that the cyt-21+ gene of Neurospora crassa encodes a mitochondrial ribosomal protein homologous to Escherichia coli ribosomal protein S-16 (Kuiper, M. T. R., Akins, R. A., Holtrop, M., de Vries, H., and Lambowitz, A. M. (1988) J. Biol. Chem. 263, 2840-2847). A mutation in this gene, cyt-21-1, results in deficiency of mitochondrial small ribosomal subunits and small rRNA (Collins, R. A., Bertrand, H., LaPolla, R. J., and Lambowitz, A. M. (1979) Mol. Gen. Genet. 177, 73-84). In the present work, cloning and sequencing of the cyt-21-1 mutant allele show that it contains a single dG to dA transition at the 3' splice site AG of the first intron in the protein coding region. This mutation leads to inactivation of the normal 3' splice site and activation of a cryptic 3' splice site, 15 nucleotides downstream. The use of this cryptic splice site results in an in-frame deletion of 5 amino acids from the cyt-21 protein. Comparison of mutant and wild-type mitochondrial small ribosomal subunit proteins showed one protein, S-24, with an altered electrophoretic mobility, consistent with the predicted deletion. The mutant ribosomal protein is still capable of binding to mitochondrial small ribosomal subunits, but results in abnormal mitochondrial ribosome assembly.
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PMID:A 3' splice site mutation in a nuclear gene encoding a mitochondrial ribosomal protein in Neurospora crassa. 283 Feb 67


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