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Urothelial cell cultures generated from urinary bladders from a series of N-butyl-N-(4-hydroxybutyl)nitrosamine (BBN)- or N-[4-(5-nitro-2-furanyl)-2-thiazolyl]formamide (FANFT)-treated Fischer 344 rats were examined for activating missense mutations in Ha-ras-1 genes. Our overall objective was to identify oncogene-activating mutations in this system and to determine what altered biological properties correlate with such genetic changes. The urinary bladders from the treated animals showed a spectrum of histopathologies, from simple hyperplasia to transitional cell carcinoma (TCC). Using restriction analysis, oligonucleotide hybridization, and DNA sequencing, we found that approximately 20% (3/14) of the bladder cell cultures had acquired oncogenic single-base substitutions in codon 61 of Ha-ras-1 genes (CAA----AAA or CGA). The donor bladder lesions for these three cultures, which also harbored the same ras-activating mutations, were all classified as stage A or B TCCs. However, four other TCCs also arising in this series were found to have normal Ha-ras genes. Whereas approximately half of the bladder cultures derived from the carcinogen-treated rats were nontumorigenic in athymic mice, the three cultures containing ras oncogenes were all highly tumorigenic (forming tumors within 5 wk of injection into athymic mice). These cultures also displayed a high degree of anchorage-independent growth and NIH 3T3-transforming activity in gene transfer assays. The nontumorigenic cultures were derived from bladder lesions that included three hyperplasias and three stage A TCCs. We conclude that ras-activating missense mutations were present in a malignant subset of bladder lesions induced by BBN or FANFT, but most of the lesions in this system appeared to involve genetic alterations elsewhere. Thus other oncogenes besides activated Ha-ras may apparently be associated with the same bladder histopathologies and transformation markers.
Mol Carcinog 1990
PMID:Activating missense mutations in Ha-ras-1 genes in a malignant subset of bladder lesions induced by N-butyl-N-(4-hydroxybutyl)nitrosamine or N-[4-(5-nitro-2-furanyl)-2-thiazolyl]formamide. 227 34

A conformational transition of a single deoxyribose was analyzed in B-form trimers dA3:dT3 and dG3:dC3, both in the purine and pyrimidine chains. The main results were obtained for the duplexes with frozen ends, which could be extended by regular double helixes. The geometry of the central sugar ring in the duplexes may strongly deviate from the regular conformation. When deoxyribose changed its conformation in the central pyrimidine, the energy increase was proved to be less significant in comparison with that for purine. In the case of Thy, a decrease in pseudorotation angle P from 140 to 80 degrees causes the energy increase of 0.5 kcal/mol only, the barrier being 1.2 kcal/mol. The energy profile for Cyt has several local minima. The results of calculations were compared with numerous experimental data, they help to explain some NMR data. A perturbation of the duplex AAA:TTT structure caused by the thymine sugar ring transition, produces 5 degrees bend of the DNA axis directed toward adenines. We also investigated the influence of such conformational disturbance on the neighbouring base pairs, in particular the transition in the trimers with unfrozen ends.
Mol Biol (Mosk)
PMID:[S-N transition of the saccharide ring in B-form DNA]. 229 Apr 24

The occurrence of nucleotides of the 3' side of codons has been determined in highly and weakly expressed genes from Escherichia coli. It was found that the usage of some amino acid codons in highly expressed genes was site specific, depending on the base 3' to the codon. The role of the 3' nucleotide as a modulator of codon translation effectiveness is discussed. The rules of synonymous codon usage in relation to the 3' flanking nucleotide have been established for highly expressed genes. For example, if a triplet next to the lysine codon starts with guanosine, lysine is preferably encoded by AAA and not by AAG (P less than 10(-8), while of cytidine is 3' to the lysine codon, AAG is preferred over AAA (P less than 0.001). These rules are observed in highly and absent in weakly expressed mRNAs and can be used in the chemical synthesis of genes designed for expression in E. coli.
Mol Biol (Mosk)
PMID:[Analysis of the primary structure of mRNA from Escherichia coli: occurrence of nucleotides on the 3'-side of the codon]. 241 6

The sequence selectivity of [125I]Hoechst 33258 in six 340 base-pair DNA sequences has been investigated. [125I]Hoechst 33258, which is a bis-benzimidazole and binds to the minor groove of B-DNA, preferentially binds to A + T-rich regions of DNA. Six out of nine strong binding sites contained four or more consecutive A.T base-pairs, while the other three strong binding sites were AAGGATT, TATAGAAA (the peak of damage was in the run of 3 A residues) and AAA. One of the six weak binding sites had five consecutive A.T base-pairs, two of the weak binding sites had three, and three did not have any. In addition to genomic 340 base-pair alpha RI-DNA (which is a tandem repeat in human cells), five 340 base-pair alpha RI-DNA clones were generated that differed from the genomic "consensus" sequence by a number of random base alterations. The effect of these base changes on the sequence specificity of [125I]Hoechst 33258 damage indicated that of the base changes that interrupted 14 binding sites, six decreased and eight did not change the extent of damage, while two sites changed position. Of the base alterations that augmented 17 binding sites, five increased, two decreased and ten did not alter the degree of cleavage, while ten sites changed position. It was concluded from the data that, while runs of consecutive A.T base-pairs was the most important parameter that determines [125I]Hoechst 33258 binding, other factors including position in the DNA sequence, nearest neighbour and long-range interactions were also important.
J Mol Biol 1988 Sep 05
PMID:Sequence specificity of 125I-labelled Hoechst 33258 damage in six closely related DNA sequences. 246 Jun 32

The complete DNA sequence of the Micrococcus luteus spectinomycin (spc) operon and its adjacent regions has been determined. The sequence has revealed the presence of genes that are homologous to those of the Escherichia coli ribosomal and related proteins, L14, L24, L5, S8, L6, L18, S5, L30, L15, and secretion protein Y (sec Y), and the gene for adenylate kinase (adk). The gene arrangement in the spc operon is essentially the same as that of E. coli except for the absence in the M. luteus spc operon of the genes for S14 and X protein that exist in the E. coli spc operon. SecY and adk seem to be composed of another operon (adk operon) with at least an open reading frame. The deduced amino acid sequences for these ribosomal proteins are well conserved among the two species (40-65% identity). Reflecting the high genomic guanine and cytosine (GC) content of M. luteus (74%), the codon usage of the genes is extremely biased toward use of G and C, about 94% of the codon third positions being G or C. Seven codons, AUA, AAA, AGA, UUA, GUA, CUA, and CAA, all of which have A at the codon third positions, are completely absent in the M. luteus genes examined. Out of 11 genes in the M. luteus spc and adk operons, 5 (10) use GUG (UGA) and 6 (1) use AUG (UAA) as an initiation (termination) codon.
J Mol Evol 1989 Nov
PMID:Spectinomycin operon of Micrococcus luteus: evolutionary implications of organization and novel codon usage. 253 72

In enteric bacteria, the expression of many genes encoding various anaerobic electron transfer functions is controlled by FNR, the product of the autoregulated fnr gene. FNR is structurally and functionally homologous to CAP, the catabolite gene activator protein, and increased FNR production strongly stimulates transcription of its target genes. By analysis of RNA produced in vivo the promoters of four FNR-dependent genes were localized and shown to display a common arrangement. A 22bp dyad symmetry was found about 30 nucleotides upstream of the transcriptional startpoints and a similar sequence was shown to overlap the site of transcription initiation in the negatively controlled fnr gene. The consensus sequence for the half site recognized by FNR (AAA-TTGAT) is only slightly different from that of CAP (AA-TGTGA). Studies with two mutant frd promoters from Escherichia coli, displaying altered regulation and FNR response, provided additional evidence for recognition of this sequence by FNR.
Mol Microbiol 1989 Jul
PMID:Molecular genetic analysis of FNR-dependent promoters. 267 2

The simian virus 40 origin of replication contains a 20-base-pair adenine-thymine-rich segment with the sequence 5'-TGCATAAATAAAAAAAATTA-3'. The continuous tract of eight adenines is highly conserved among polyomaviruses. We used single-base substitutions to map structural and functional features of this DNA. Mutations in the AAA and AAAAAAAATT sequences significantly reduce DNA replication and thus identify two sequence-specific functional domains or a single domain with two parts. The AAAAAAAATT sequence also determines a DNA conformation that is characteristic of DNA bending. Single-base mutations in this domain change the degree of net bending, presumably by altering the length and location of the bending sequence. Thus, DNA bending in the correct conformation and location may be a structural signal for replication in polyomavirus origins and perhaps in other origins of replication with consecutive runs of adenines. The first five base pairs (TGCAT) of the 20-base-pair segment and the T between the AAA and AAAAAAAATT domains serve a sequence-independent function that may establish proper spacing within the core origin.
Mol Cell Biol 1986 Dec
PMID:The adenine-thymine domain of the simian virus 40 core origin directs DNA bending and coordinately regulates DNA replication. 302 62

Centromeres most likely consist of DNA (CEN DNA) interacting with specific proteins. In Saccharomyces cerevisiae a clear picture has emerged of a 120 bp sequence that is characteristic of CEN DNA. We have investigated the 25 bp centromere DNA element (CDEIII) that represents the right part of a CEN DNA. We showed using a series of mutants generated in vitro that the right most triple A of the consensus sequence TGT.T.TG.. TTCCGAA.....AAA participates in the assembly of a functional centromere and that no further sequences to the right are needed. Distance changes between the centre dyad TTCCGAA and the triple A have two effects: Addition of one base pair leads to a reduction, and addition of two or four base pairs to a loss of centromere function implying a participation of the centre dyad and the triple A region in protein binding. Indeed, a synthetic oligonucleotide of 39 bp containing CDEIII shows specific protein binding.
Mol Gen Genet 1986 Nov
PMID:Mutations in the right boundary of Saccharomyces cerevisiae centromere 6 lead to nonfunctional or partially functional centromeres. 302 7

The 15,650 base-pair mitochondrial genome of the sea urchin Strongylocentrotus purpuratus has been cloned and sequenced. It exhibits a novel organization that suggests the primacy of post-transcriptional gene regulation. The same 13 polypeptides, two rRNAs and 22 tRNAs are encoded as in other animal mitochondrial DNAs, but are organized with extreme economy; non-coding information between genes is almost completely absent, some stop codons are generated post-transcriptionally and tRNA sequences are interspersed between only a minority of other structural genes. The genome uses a variant genetic code, in which AAA specifies asparagine, ATA isoleucine, TGA tryptophan and AGN serine, and has an unusual pattern of codon bias. The order of genes shows several differences from that of vertebrates. The genes for the large (16 S) ribosomal RNA and for NADH dehydrogenase subunit 4L (ND4L) are in different positions, located respectively between those encoding ND2 and cytochrome oxidase subunit I (COI) and between COI and COII. This organization is conserved amongst at least four regular echinoids diverging by some 225 million years. Most tRNA genes are also in different positions. The only long unassigned sequence in the genome (121 base-pairs) is located within a cluster of 15 tRNA genes. It contains elements resembling some of those found in the displacement (D) loop of vertebrate mtDNAs, notably polypurine/polypyrimidine tracts that may play a role in regulating transcription and the initiation of replication. The separation of the ribosomal RNA genes from each other and from the putative control region imposes special demands on the transcription of the genome.
J Mol Biol 1988 Jul 20
PMID:Nucleotide sequence and gene organization of sea urchin mitochondrial DNA. 317 15

The study reported here describes nuclease S1 mapping of the in-vivo transcription start sites of transcription units I and III of the hook gene cluster of Caulobacter crescentus. We show that transcription units I and II of this flagellar (fla) gene cluster, which have divergent promoters with transcription start sites separated by 218 nucleotides, are under positive transcriptional control by genes in transcription unit III. The promoters of transcription units I, II, and III were compared with flagellin gene promoters P25, P27 and P29 recently identified in C. crescentus. Promoters PII, P25, and P27, which are under positive regulation by transcription units III to V have strongly conserved sequence elements at -13 and -24 with the consensus sequence (C/T)TGGC(C/G)C-N5-TTGC. The -13, -24 sequence elements are not well conserved in promoter PI, but the promoter does contain a copy of the -13 and -24 consensus sequence 23 base-pairs upstream (PI). The C. crescentus fla gene promoters are not homologous to the canonical Escherichia coli -10, -35 promoter sequence, but they are very similar to the -12, -24 nif gene promoter sequence reported for Klebsiella pneumoniae and Rhizobium sp. The four positively regulated fla gene promoters examined here also share a third conserved element designated II-1, with the consensus sequence C-C-CGGC--AAA--GC-G, located at approximately -100. We speculate that the conserved sequence elements mapping at -13, -24 and -100 are cis-acting regulatory elements required for the transcription and periodic regulation of these fla genes in the C. crescentus cell cycle.
J Mol Biol 1987 Jun 20
PMID:A set of positively regulated flagellar gene promoters in Caulobacter crescentus with sequence homology to the nif gene promoters of Klebsiella pneumoniae. 330 46

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