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Ochre suppressor mutations induced by UV in the Escherichia coli glnU tRNA gene are CG to TA transitions at the first letter of the anticodon-encoding triplet, CAA. Premutational UV photoproducts at this site have long been known to exhibit an excision repair anomaly ("mutation frequency decline" or MFD), whereby postirradiation inhibition of protein synthesis enhances their excision and reduces suppressor mutation yields ten-fold. We sought to clarify the basis of this unique repair response by determining the spectrum of UV photoproducts on both strands of a 36 bp region of glnU which includes the anticodon-encoding triplet. We found that four different photolesions are produced within the 3 bp sequence corresponding to the tRNA anticodon: (i) on the transcribed strand, TC (6-4) photoproducts and TC cyclobutane dimers are formed in equal numbers at the site of the C to T transition, indicating that this site is a hotspot for the usually less frequent (6-4) photoproduct; (ii) on the nontranscribed strand, TT dimers are found opposite the second and third letters of the anticodon-encoding triplet, adjacent to the mutation site; and (iii) on the nontranscribed strand, an alkali-sensitive lesion other than a (6-4) photoproduct is formed, apparently at the G in the mutation site. We suggest that mutation frequency decline may reflect excision repair activity at closely spaced UV lesions on opposite strands, resulting in double-strand breaks and the death of potential mutants.
Mol Gen Genet 1989 Nov
PMID:Ultraviolet photoproducts at the ochre suppressor mutation site in the glnU gene of Escherichia coli: relevance to "mutation frequency decline". 269 24

The nucleotide sequence (56,410 base-pairs) of the large single-copy region of chloroplast DNA from the liverwort Marchantia polymorpha has been determined. The sequence starts from one end (JLA) of the large single-copy region and encompasses genes for 21 tRNAs, six ATPase subunits (atpA, atpB, atpE, atpF, atpH and atpI), two photosystem I polypeptides (psaA and psaB), four photosystem II polypeptides (psbA, psbC, psbD and psbG), five ribosomal proteins (rps2, rps4, rps7, rps'12 and rps14), and three RNA polymerase subunits (rpoB, rpoC1 and rpoC2). In addition, we detected 18 open reading frames ranging from 29 to 2136 amino acid residues long, four of which share significant amino acid sequence homology to those of an Escherichia coli malK protein (designated mbpX), human mitochondrial ND2 (ndh2) and ND3 (ndh3) of a respiratory chain NADH dehydrogenase, or a bacterial antenna protein of a light-harvesting complex (lhcA). Sequence analysis suggests that four tRNA genes and six protein genes might be split by introns; they are trnG(UCC), trnK(UUU), trnL(UAA), trnV(UAC), atpF, ndh2, rpoC1, rps'12, ORF135 and ORF167. In the large single-copy region described here, the gene organization deduced is highly conserved with respect to that of higher plants, but an inversion of some 30,000 base-pairs flanked by trnL(CAA) and trnD(GUC) was seen between the liverwort and tobacco chloroplast genomes.
J Mol Biol 1988 Sep 20
PMID:Structure and organization of Marchantia polymorpha chloroplast genome. II. Gene organization of the large single copy region from rps'12 to atpB. 297 85

We screened a yeast genomic library for recombinant DNA plasmids that complemented the ultraviolet (u.v.) sensitivity of a strain of Saccharomyces cerevisiae designated rad4-3 that is defective in excision repair of DNA. A multicopy plasmid (pNF4000) with a 9.4 X 10(3) base-pair yeast DNA insert partially complemented the u.v. sensitivity of rad4-3, but not of two other rad4 allelic mutants (rad4-2 and rad4-4), or of other u.v.-sensitive rad mutants. The yeast insert was analyzed by restriction mapping, DNA-DNA hybridization, DNA-tRNA hybridization and DNA sequencing. This analysis revealed the presence of a normal tRNAGln gene, a yeast sigma element situated 5' to the transfer RNA gene, a Ty element and a solo delta element. Deletion analysis of pNF4000 showed that the tRNAGln gene is required for partial complementation of the u.v. sensitivity of rad4-3. Furthermore, a multicopy plasmid containing a tRNAGln gene derived from a different region of the yeast genome also partially complemented the u.v. sensitivity of rad4-3. The rad4-3 mutation is suppressed following transformation with a plasmid containing the known ochre suppressor SUP11-o, indicating that it is an ochre mutation. We therefore conclude that when expressed in sufficient quantity, normal tRNAGln (which usually decodes the sense codon CAA) can weakly suppress the nonsense ochre codon UAA, and suggest that this represents an example of wobble occurring at the first rather than at the third position of the codon.
J Mol Biol 1985 May 05
PMID:Partial suppression of an ochre mutation in Saccharomyces cerevisiae by multicopy plasmids containing a normal yeast tRNAGln gene. 298 39

The gene-sized macronuclear DNA of the hypotrichous ciliate Stylonychia lemnae contains one size class of DNA molecules of 1.85 kb (1 kb = 10(3) base-pairs) coding for beta-tubulin. These DNA molecules consist of two different beta-tubulin genes, beta 1 and beta 2, which are amplified to about 150,000 (beta 1) and 30,000 (beta 2) copies per macronucleus. Both genes were cloned and sequenced entirely. The coding sequences of the two molecules (1329 base-pairs including TGA) predict identical amino acid sequences for the proteins and show a nucleotide homology of 97.2%. The nucleotide as well as the encoded amino acid sequences are highly conserved, when compared to beta-tubulin genes from vertebrates. The ciliate-specific codon TAA specifying glutamine is present only in the beta 2-tubulin gene, whereas glutamine is encoded soley by CAA in the beta 1-tubulin gene. The 5' and 3'-non-coding regions of both beta-tubulin genes are similar in length, but differ extremely in nucleotide sequence. Both beta-tubulin genes are transcriptionally active in S. lemnae, although not all putative transcription-regulatory sequences known from higher eukaryotes can be detected within the non-coding regions. The two transcription products localized by S1-mapping experiments show a similar length of about 1.40 kb and transcription seems to be regulated differently for beta 1 and beta 2.
J Mol Biol 1987 Dec 20
PMID:Nucleotide sequence and expression of two beta-tubulin genes in Stylonychia lemnae. 312 2

DNA isolated from cell line Mel Swift, a human melanoma cell line, transforms NIH3T3 cells. Southern blot analysis of DNA from secondary foci revealed conserved 8.8- and 7.8-kilobase EcoRI fragments which hybridized with a human repetitive sequence clone, blur 8. The activated transforming gene was identified as N-ras, and the 8.8-kilobase EcoRI fragment from a secondary transformant was cloned. Synthetic 17-mer oligonucleotides which spanned either the normal codon 61 (CAA) or a mutant codon 61 (AAA) were used for hybridization. Cloned N-ras from melanoma cell line Mel Swift hybridized to the mutant (AAA) oligonucleotide. From this we predicted a glutamine-to-lysine substitution in amino acid 61, a change confirmed by conventional sequencing of the first and second exons of N-ras from cell line Mel Swift. Transfection experiments showed that only those recombinant clones with the mutation in position 61 were biologically active.
Mol Cell Biol 1985 Mar
PMID:Activation of N-ras in a human melanoma cell line. 388 33

The elongation rate of RNAs synthesized from AI promoters of T7 phage DNA and its deletion mutant delta DIII T7 DNA by E. coli RNA polymerase was analyzed. The distribution of incorporation rates of any definite nucleotides at any definite position along the two RNA chains was studied. The minimal structure which reproducibly forms pauses seems to be trinucleotide. Two main groups of trinucleotides could be distinguished: 1) those mostly associated with pauses and; 2) those usually found in pause free regions. The first group consists of AUG, AUA, AUC, AAU, GUG, GUA, CGU, CGC, UUA, UUU; the second one comprises AAA, CAA, CCC, UCC, CUA, CUG, CUC, GGG, ACU, GAG, GAA, GGA. A model accounting for intermittent elongation has been developed. It is based on the hypothesis that the kinetic constants of each nucleotide incorporation to and pyrophosphorolysis from the 3'-end of the growing RNA chain depend on the nature of the incoming nucleotide as well as on the nature of a nucleotide residue situated at the 3'-end of the growing RNA. A general equation describing the pause distribution along the RNA of a known nucleotide sequence is proposed.
Mol Biol (Mosk)
PMID:[Effect of the primary structure of RNA on the pulse character of RNA elongation in vitro by Escherichia coli RNA polymerase: a model]. 616 4

An Escherichia coli DNA fragment containing an Su+6 amber suppressor gene (supP) was cloned into a lambda gt lambda Ch vector by the shotgun method, selecting a Su+6 transducing phage lambda pSu+6. Through prophage integration followed by induction occurring at the transducing region of the lambda pSu+6 in Su- E. coli, a counterpart transducing phage carrying the wild-type allele (Su degrees 6) was isolated (lambda pSu degrees 6). The fingerprint of a tRNA encoded by lambda pSu degrees 6 was identical to that of an unidentified tRNAE previously reported (Ikemura & Ozeki, 1977). The cloverleaf structure of this tRNA was determined by combining the results of tRNA analysis and DNA sequencing of the gene. Judging from the anticodon of 5'-CAA-3', Su degrees 6 tRNA was identified as a new type of leucine isoacceptor in E. coli. Unlike other suppressors analyzed, Su+6 tRNA differed by two nucleotides from Su degrees 6 tRNA; one at the anticodon (CAA to CUA) and the other at the junction of D- and anticodon-stem (A27 to G27). DNA sequence analysis revealed that a single stretch of tRNA is flanked by the putative sequences of promoter and terminator. Thus a single copy of the Su degrees 6 tRNA gene constitutes a solitary tRNA transcription unit. Southern blotting showed only one copy of Su degrees 6 tRNA gene per haploid genome of E. coli. Since this single gene can mutate to the Su+6 suppressor, the Su degrees 6 leucine tRNA may be accounted as a dispensable species among the leucine isoacceptor tRNAs. Two possible open reading frames are found immediately following the Su degrees 6 tRNA gene.
J Mol Biol 1984 Aug 25
PMID:Identification of transfer RNA suppressors in Escherichia coli. IV. Amber suppressor Su+6 a double mutant of a new species of leucine tRNA. 620 2

Amber suppressors previously isolated from the yeast Saccharomyces cerevisiae and belonging to the same phenotypic class (Liebman et al., 1976) were assigned to nine different linkage groups named SUP52 through SUP60. One of these suppressors, SUP52, had been shown to cause the insertion of leucine and had been genetically mapped (Liebman et al., 1977). The following additional amber suppressors were mapped: SUP53 maps near the centromere of chromosome III closely linked to leu2; SUP54 maps on chromosome VII, 6 cM distal to trp5; SUP56 maps on chromosome I, 5.4 cM distal to ade1; SUP57 maps on chromosome VI, closely linked to met10; and SUP58 maps on the left arm of chromosome XI, loosely linked to met14. We show by protein analysis that like SUP52, the suppressors SUP53 through SUP56 are leucine-inserters. Furthermore, by hybridization with a cloned tRNA3Leu probe we demonstrate that at least SUP53, SUP54, SUP55 and SUP56 contain mutations in redundant tRNA3Leu genes because they each generate a new XbaI site in a DNA fragment encompassing a tRNA3Leu gene. These new XbaI sites are predicted by the known sequences of tRNA3Leu genes if the CAA anticodon mutates to the amber suppressing anticodon CTA. It is likely that each of the nine suppressors in this phenotypic class contain similar mutations in different tRNA3Leu genes since we find that there are approximately nine unlinked redundant copies of tRNA3Leu genes in haploid strains.
J Mol Biol 1984 Sep 15
PMID:Yeast amber suppressors corresponding to tRNA3Leu genes. 638 50

Genetic analysis of histidine independent (His+) revertants induced by ultraviolet light in the his-4 E. coli strain AB1157 was carried out: 93% carried ochre (UAA) suppressor mutations and 17% carried back mutations to his+ or (intragenic?) suppressors not detectably separable from his-4. Using the specialized transducing lambda psu 2int- phage, which carries supE-supB, it was determined that 87% of the ochre suppressors mapped in the supE-supB region. We were able to deduce that 56% of these affected tRNA1Gln by a CAA leads to TAA change in the tRNA gene while 31% affected tRNA2Gln by TAG- leads to TAA change. Although we were unable to deduce the base substitution of the remaining 13%, the results indicate that most of the suppressor mutations are caused by G:C to A:T transition. These results suggest that the high incidence of supE-supB region suppressor mutation in E. coli by UV would be a reflection of the general feature of UV mutagenesis; i.e. preferential induction of G:C to A:T transition in repairing nonpairing DNA lesions. AI 05371
Mol Gen Genet 1980
PMID:Analysis of ultraviolet light-induced suppressor mutations in the strain of Escherichia coli K-12 AB1157: an implication for molecular mechanisms of UV mutagenesis. 645 Aug 70

Plasmids containing derivatives of the Saccharomyces cerevisiae leucyl-tRNA (tRNA(3Leu)) gene that vary in anticodon sequence were constructed and transformed into the pathogen Candida albicans and S. cerevisiae. C. albicans could readily be transformed with plasmids encoding leucyl-tRNA genes with the anticodons CAA and UAA (recognizing the codons UUG and UUA) and expression of the heterologous tRNALeu could be demonstrated by Northern RNA blotting. In contrast, no transformants were obtained if the anticodons were UAG (codons recognized CUN, UUR) and CAG (codon CUG), indicating that the insertion of leucine at CUG codons is toxic for C. albicans. All tRNALeu-encoding plasmids transformed S. cerevisiae with equally high efficiencies. These results provide in vivo evidence that non-standard decoding of CUG codons is essential for the viability of C. albicans.
Mol Gen Genet 1994 Oct 28
PMID:Toxicity of a heterologous leucyl-tRNA (anticodon CAG) in the pathogen Candida albicans: in vivo evidence for non-standard decoding of CUG codons. 781 29

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