# | Rank | Similarity | Title + Abs. | Year | PMID |
|---|---|---|---|---|---|
| 0 | 1 | 2 | 3 | 4 | 5 |
| 9980 | 0 | 1.0000 | A vector for the expression of recombinant monoclonal Fab fragments in bacteria. The availability of genes coding for monoclonal Fab fragments of a desired specificity permits their expression in bacteria and provides a simple method for the generation of good quality reagents. In this paper we describe a new phagemid vector for the production of recombinant Fabs from genes obtained from phage display combinatorial libraries. The phagemid features an antibiotic resistance cassette which, once inserted between the heavy chain fragment and the light chain genes, avoids unwanted recombination and preserves useful restriction sites not affecting the Fab production rate. | 1998 | 9776589 |
| 287 | 1 | 0.9989 | Reversion of mutations in the thymidine kinase gene in herpes simplex viruses resistant to phosphonoacetate. Mutations in the DNA polymerase locus of phage, bacteria, and eukaryotic may change the mutation rates at other loci of the genome. We used resistance to phosphonoacetate to select mutants of herpes simplex virus with mutated DNA polymerase and then determined the reversion frequency of viral thymidine kinase mutation in mutants and recombinants. The results obtained indicate that mutations causing resistance to phosphonoacetate do not affect the mutation rate of the viral genes. This finding is consistent with the existence of two functional regions in the DNA polymerase molecule, one involving the pyrophosphate acceptor site and responsible for resistance to phosphonoacetate and another involved in the editing ability and recognition specificity of the enzyme. | 1984 | 6331620 |
| 388 | 2 | 0.9988 | Improved bacterial hosts for regulated expression of genes from lambda pL plasmid vectors. The construction and use of a set of Escherichia coli strains with defective lambda prophages that facilitate expression of genes cloned in lambda pL-plasmid vectors is described. These bacteria allow high and regulated expression of such genes, whereas a kanamycin-resistance marker (KmR) on the prophage allows easy identification and genetic transfer from strain to strain. Optimal conditions for examining gene expression with the pL-vector systems using these strains are discussed. | 1993 | 8406046 |
| 9316 | 3 | 0.9988 | Molecular basis of metronidazole resistance in pathogenic bacteria and protozoa. The molecular basis of metronidazole resistance has been examined in anaerobic bacteria, such as Bacteroides, Clostridium, and Helicobacter, and anaerobic parasitic protists such as Giardia, Entamoeba, and trichomonads. A variety of enzymatic and cellular alterations have been shown to correlate with metronidazole susceptibility in these pathogens; however, a common theme has been revealed. Resistant cells are typically deficient in drug activation. The frequent correlation between metronidazole resistance and ineffective drug activation suggests that drug resistance is the result of modification of proteins involved in drug activation. Copyright 1999 Harcourt Publishers Ltd. | 1999 | 11504503 |
| 284 | 4 | 0.9987 | Expression of a transposable antibiotic resistance element in Saccharomyces. Some eukaryotic genes can be expressed in bacteria but there are few examples of the expression of prokaryotic genes in eukaryotes. Antibiotic G418 is a 2-deoxystreptamine antibiotic that is structurally related to gentamicin but has inhibitory activity against a much wider variety of pro- and eukaryotic organisms. In bacteria, resistance to G418 can be determined by several plasmid-encoded modifiying enzymes and, in view of the broad spectrum of activity of G418, we considered that this antibiotic might be useful as a selective agent for the introduction of these antibiotic resistance genes into a eukaryotic organism such as Saccharomyces cerevisiae. Additional impetus for these experiments came from the knowledge that certain of the G418-resistance determinants in bacteria are carried on transposable elements; a study of the properties of these elements in eukaryotes would be intriguing. | 1980 | 6253817 |
| 288 | 5 | 0.9987 | A new series of mycobacterial expression vectors for the development of live recombinant vaccines. Recombinant BCG (bacillus Calmette-Guérin) is a promising candidate as a live vaccine delivery system. Thus far, however, only autoreplicative plasmids carrying the heterologous genes to be expressed in BCG, together with antibiotic-resistance genes, have been successfully used. This could potentially lead to the spreading of antibiotic resistance among other bacteria, and might therefore be unsafe for the environment. In this study, we present a series of three Escherichia coli-Mycobacteria shuttle vectors which enable expression and secretion of antigens without the use of antibiotic-resistance markers. All these plasmids confer mercury resistance to the host bacteria as the only selectable marker and contain a unique restriction site to allow for single-step in-frame cloning of open reading frames downstream from the Mycobacterium tuberculosis 85A antigen promoter and export signal. The system was used to express the free beta-subunit of human chorionic gonadotropin (hCG beta), a potential target of an immunotherapeutic vaccine. | 1996 | 8918246 |
| 756 | 6 | 0.9987 | In search of the missing ligands for TetR family regulators. The TetR family of microbial transcription factors directly control the expression of a diverse range of genes in bacteria by sensing specific ligands. In this issue of Chemistry & and Biology, Cuthbertson and colleagues used phylogenomics to guide the identification of TetR-like protein cognate ligands and revealed a novel inducible antibiotic resistance mechanism. | 2013 | 23438741 |
| 9198 | 7 | 0.9986 | Recognition of bacterial avirulence proteins occurs inside the plant cell: a general phenomenon in resistance to bacterial diseases? One of the recent exciting developments in the research area of plant-microbe interactions is a breakthrough in understanding part of the initial signalling between avirulent Gram-negative bacteria and resistant plants. For resistance to occur, both interacting organisms need to express matching genes, the plant resistance gene and the bacterial avirulence gene. The biochemical function of bacterial avirulence genes and the nature of the signal molecules recognized by the plant have been a mystery for a long time. Recently, several laboratories have shown that bacterial avirulence proteins function as elicitors that are perceived within the plant cell. | 1997 | 9263447 |
| 285 | 8 | 0.9986 | Streptothricin resistance as a novel selectable marker for transgenic plant cells.  Streptothricins are known as antimicrobial agents produced by Streptomyces spp. Bacterial resistance to streptothricin is mediated by specific enzymes exhibiting an acetyltransferase activity which renders the drug non-toxic for bacteria. The nucleotide sequence of several streptothricin resistance genes from bacteria have been described. Certain cells of eukaryotic parasites (such as Ustilago maydis or Leishmania spp.) are sensitive to streptothricin and the introduction of the bacterial resistance gene sat2 renders them resistant. We show that numerous species of plants are sensitive to low concentrations of streptothricin. Moreover, introduction of the bacterial resistance gene sat3 under the control of the 35S cauliflower mosaic virus promoter protects these cells from the toxic action of streptothricin. Therefore, sat3-mediated streptothricin resistance appears to be a promising selective marker for genetic manipulation of plant cells. | 2000 | 30754912 |
| 9412 | 9 | 0.9986 | Persistence: a copacetic and parsimonious hypothesis for the existence of non-inherited resistance to antibiotics. We postulate that phenotypic resistance to antibiotics, persistence, is not an evolved (selected-for) character but rather like mutation, an inadvertent product of different kinds of errors and glitches. The rate of generation of these errors is augmented by exposure to these drugs. The genes that have been identified as contributing to the production of persisters are analogous to the so-called mutator genes; they modulate the rate at which these errors occur and/or are corrected. In theory, these phenotypically resistant bacteria can retard the rate of microbiological cure by antibiotic treatment. | 2014 | 25090240 |
| 6312 | 10 | 0.9986 | D-serine deaminase is a stringent selective marker in genetic crosses. The presence of the locus for D-serine deaminase (dsd) renders bacteria resistant to growth inhibition by D-serine and enables them to grow with D-serine as the sole nitrogen source. The two properties permit stringent selection in genetic crosses and make the D-serine deaminase gene an excellent marker, especially in the construction of strains for which the use of antibiotic resistance genes as selective markers is not allowed. | 1995 | 7814336 |
| 9352 | 11 | 0.9986 | Gene transfer mechanisms among members of the genus Rhodopseudomonas. Recent studies on species of the genus Rhodopseudomonas, particularly R, capsulata and R. sphaeroides, have resulted in the development of a range of systems of genetic exchange without peer among the photosynthetic prokaryotes. In R. capsulata, systems of generalized transduction and R-prime formation have provided a detailed map of the arrangement of photosynthesis genes, while systems of conjugation and chromosome transfer in R, sphaeroides have provided a map of the location of genes involved in amino acid biosynthesis, antibiotic resistance and photosynthesis. A recent report of plasmid transformation in R. sphaeroides provides another important avenue for the analysis of genes such as those involved in photosynthesis and photochemical nitrogen fixation, through the application of DNA cloning technology. That plasmid transformation, generalized and specialized transduction, conjugation, chromosome transfer and R-prime formation do occur in Rhodopseudomonas indicates the rapid emergence of genetic and molecular biological techniques applicable to studies of these bacteria. | 1983 | 6314864 |
| 318 | 12 | 0.9986 | Overexpression of an Arabidopsis thaliana ABC transporter confers kanamycin resistance to transgenic plants. Selectable markers of bacterial origin such as the neomycin phosphotransferase type II gene, which can confer kanamycin resistance to transgenic plants, represent an invaluable tool for plant engineering. However, since all currently used antibiotic-resistance genes are of bacterial origin, there have been concerns about horizontal gene transfer from transgenic plants back to bacteria, which may result in antibiotic resistance. Here we characterize a plant gene, Atwbc19, the gene that encodes an Arabidopsis thaliana ATP binding cassette (ABC) transporter and confers antibiotic resistance to transgenic plants. The mechanism of resistance is novel, and the levels of resistance achieved are comparable to those attained through expression of bacterial antibiotic-resistance genes in transgenic tobacco using the CaMV 35S promoter. Because ABC transporters are endogenous to plants, the use of Atwbc19 as a selectable marker in transgenic plants may provide a practical alternative to current bacterial marker genes in terms of the risk for horizontal transfer of resistance genes. | 2005 | 16116418 |
| 387 | 13 | 0.9986 | Expression of tetracycline resistance in pBR322 derivatives reduces the reproductive fitness of plasmid-containing Escherichia coli. Plasmid pBR322 and its numerous derivatives are used extensively for research and in biotechnology. The tetracycline-resistance (TcR) genes in these plasmids are expressed constitutively and cells carrying these plasmids are resistant to tetracycline. We have shown that expression of the TcR gene has an adverse effect on the reproductive fitness of plasmid-containing bacteria in both glucose-limited batch and chemostat cultures. If the TcR genes are inactivated at any one of three different restriction sites, mixed cultures of plasmid-free and plasmid-containing bacteria grow at the same rate. | 1985 | 3005111 |
| 282 | 14 | 0.9986 | Phenotypic conversion of drug-resistant bacteria to drug sensitivity. Plasmids that contain synthetic genes coding for small oligoribonucleotides called external guide sequences (EGSs) have been introduced into strains of Escherichia coli harboring antibiotic resistance genes. The EGSs direct RNase P to cleave the mRNAs transcribed from these genes thereby converting the phenotype of drug-resistant cells to drug sensitivity. Increasing the EGS-to-target mRNA ratio by changing gene copy number or the number of EGSs complementary to different target sites enhances the efficiency of the conversion process. We demonstrate a general method for the efficient phenotypic conversion of drug-resistant bacterial cultures. | 1997 | 9238000 |
| 9315 | 15 | 0.9986 | Abortive transduction of resistance factor by bacteriophage P22 in Salmonella typhimurium. When R factor 222 is transduced by bacteriophage P22 in Salmonella typhimurium, most recipient bacteria which adsorb transducing particles do not give rise to transductant clones (i.e., transduction is abortive); however the transduced drug-resistance genes can be rescued by recombination with the resistance-transfer factor or R factor carried by the recipient. | 1970 | 4911551 |
| 351 | 16 | 0.9986 | Rapid and efficient cloning of proviral flanking fragments by kanamycin resistance gene complementation. We have developed a technique for the rapid cloning of unknown flanking regions of transgenic DNA. We complemented a truncated kanamycin resistance gene of a bacterial plasmid with a neomycin resistance gene fragment from a gene transfer vector. Optimized transformation conditions allowed us to directly select for kanamycin-resistant bacteria. We cloned numerous proviral flanking fragments from growth factor-independent cell mutants that were obtained after infection with a replication incompetent retroviral vector and identified integrations into the cyclin D2 and several unknown genomic sequences. We anticipate that our method could be adapted to various vector systems that are used to tag and identify genes and to map genomes. | 1999 | 9863001 |
| 9339 | 17 | 0.9986 | A functional genomics approach to identify and characterize oxidation resistance genes. In order to develop a more complete understanding of the genes required for resistance to oxidative DNA damage, we devised methods to identify genes that can prevent or repair oxidative DNA damage. These methods use the oxidative mutator phenotype of a repair deficient E. coli strain to measure the antimutator effect resulting from the expression of human cDNAs. The method can be adapted to characterize the function, and to determine the active site domains, of putative antimutator genes. Since bacteria do not contain subcellular compartments, genes that function in mitochondria, the cytoplasm, or the nucleus can be identified. Methods to determine the localization of genes in their normal host organism are also described. | 2008 | 19082958 |
| 4437 | 18 | 0.9986 | The activity of glycopeptide antibiotics against resistant bacteria correlates with their ability to induce the resistance system. Glycopeptide antibiotics containing a hydrophobic substituent display the best activity against vancomycin-resistant enterococci, and they have been assumed to be poor inducers of the resistance system. Using a panel of 26 glycopeptide derivatives and the model resistance system in Streptomyces coelicolor, we confirmed this hypothesis at the level of transcription. Identification of the structural glycopeptide features associated with inducing the expression of resistance genes has important implications in the search for more effective antibiotic structures. | 2014 | 25092694 |
| 9196 | 19 | 0.9986 | Lessons from gene knockouts. The authors describe the technique for the application of homologous recombination in embryonic stem cells, which is now widely used to engineer mice which carry specific knockouts of genes. A summary is given of some of the knowledge of the pathogenesis of and resistance to infections with parasites, bacteria, or viruses which has accumulated during recent years, based on the investigation of knockout mice. Special emphasis is placed on knockout animals which lack components of the cytokine network, lack genes which are critical for the correct presentation of antigens or are deficient in different immune cell subsets. In addition, a brief explanation is offered of the possibilities for inducing targeted deletions or mutations in genes of livestock species (e.g., by nuclear transfer or by mutagenesis using the alkylating agent N-ethyl-N-nitrosourea) which could lead to the breeding of animals which are resistant to infectious diseases in the future. | 1998 | 9638823 |