scholarly journals A NEW TYPE OF BACTERIAL PILUS GENETICALLY CONTROLLED BY THE FERTILITY FACTOR OF E. COLI K 12 AND ITS ROLE IN CHROMOSOME TRANSFER

1964 ◽  
Vol 52 (3) ◽  
pp. 776-783 ◽  
Author(s):  
C. C. Brinton ◽  
P. Gemski ◽  
J. Carnahan
Keyword(s):  
Chromosome Transfer ◽  
E Coli ◽  
Fertility Factor ◽  
New Type ◽  
K 12

scholarly journals Interaction of a colicinogenic factor with a resistance factor and with the fertility factor F inEscherichia coliK-12

1971 ◽  
Vol 17 (2) ◽  
pp. 151-159 ◽  
Author(s):  
Pearl Cooper
Keyword(s):  
Resistance Genes ◽  
Recombinant Plasmid ◽  
Resistance Factor ◽  
E Coli ◽  
Fertility Factor ◽  
Plasmid Incompatibility ◽  
R Factor ◽  
Transmissible Plasmid ◽  
K 12 ◽  
R Factors

SUMMARYThe resistance (R)-factor R538–1drdof three F-like R-factors tested can cause the transfer of the non-transmissible ColV determinant fromE. coliV. The col factor, once transferred toE. coliK-12 strains, was shown to be related to the fertility factor, F, on the basis of entry exclusion and plasmid incompatibility. The col factor was found to recombine with R538–1drd, yielding a transmissible plasmid comprised of the col determinant and the sex factor of the R-factor, but not the resistance genes. The recombinant plasmid was found to be incompatible with both R538–1drdand F, and excluded the entry of R538–1drdbut not F.

scholarly journals A quick and efficient method for interruption of bacterial conjugation

1965 ◽  
Vol 6 (2) ◽  
pp. 300-303 ◽  
Author(s):  
Brooks Low ◽  
T. H. Wood
Keyword(s):  
Efficient Method ◽  
Bacterial Conjugation ◽  
High Shear ◽  
Shear Forces ◽  
Entire Sample ◽  
Chromosome Transfer ◽  
E Coli ◽  
Sample Chamber ◽  
K 12 ◽  
Type Mixer

Jacob & Wollman (1961) produced interruption of chromosome transfer during conjugation in E. coli K-12 by exposing conjugating pairs to high shear forces created by a propeller-type mixer (a Waring blendor). In our laboratory, efforts to use this method were not completely successful because of the relatively long times required to ‘blend’ each sample and the large variations from sample to sample in the efficiency of separating mating couples (‘blending efficiency’). The variations in blending efficiency were thought to be due to lack of homogeneity of mixing in the blendor chamber. We have obtained much more satisfactory results by using a vibratory mixer which shakes the entire sample chamber and thoroughly agitates all the cells. Furthermore this vibratory blendor is much easier to use and permits taking at least twice as many samples per unit time, as compared to the usual blendor method.

Spontaneous zygogenesis in Escherichia coli, a form of true sexuality in prokaryotes

Microbiology ◽  
2003 ◽  
Vol 149 (9) ◽  
pp. 2571-2584 ◽  
Author(s):  
Jean-Pierre Gratia ◽  
Marc Thiry
Keyword(s):  
Electron Microscopy ◽  
Escherichia Coli ◽  
Clinical Isolate ◽  
Cell Contact ◽  
Double Labelling ◽  
Exogenous Factor ◽  
E Coli ◽  
Parental Phenotype ◽  
New Type ◽  
K 12

A new type of mating, differing from classic conjugation and previously observed in a certain strain of Escherichia coli K-12, has also been found in strains derived from ordinary F− cells of E. coli K-12 exposed to an exogenous factor originating in an E. coli clinical isolate. Immunofluorescence and electron microscopy after single and double labelling of DNA were used to produce evidence in favour of a novel mating mechanism by cell contact at the poles of the bacterial rod. These findings are supported by genetic analyses indicating complete genetic mixing. Unstable complementing diploids were formed, which throw off phenotypically haploid cells, of which some showed a parental phenotype and some were true genetic recombinants. Recombination was observed even when one parent was a UV-inactivated F− RecA− strain. The name ‘spontaneous zygogenesis' (Z-mating, for short) is proposed for this kind of mating.

scholarly journals Tailoring a Global Iron Regulon to a Uropathogen

mBio ◽  
2020 ◽  
Vol 11 (2) ◽  
Author(s):  
Rajdeep Banerjee ◽  
Erin Weisenhorn ◽  
Kevin J. Schwartz ◽  
Kevin S. Myers ◽  
Jeremy D. Glasner ◽  
...  
Keyword(s):  
Amino Acids ◽  
Urinary Tract ◽  
Amino Acid ◽  
Regulatory Network ◽  
Iron Homeostasis ◽  
Iron Limitation ◽  
Content Type ◽  
E Coli ◽  
General Stress ◽  
K 12

ABSTRACT Pathogenicity islands and plasmids bear genes for pathogenesis of various Escherichia coli pathotypes. Although there is a basic understanding of the contribution of these virulence factors to disease, less is known about variation in regulatory networks in determining disease phenotypes. Here, we dissected a regulatory network directed by the conserved iron homeostasis regulator, ferric uptake regulator (Fur), in uropathogenic E. coli (UPEC) strain CFT073. Comparing anaerobic genome-scale Fur DNA binding with Fur-dependent transcript expression and protein levels of the uropathogen to that of commensal E. coli K-12 strain MG1655 showed that the Fur regulon of the core genome is conserved but also includes genes within the pathogenicity/genetic islands. Unexpectedly, regulons indicative of amino acid limitation and the general stress response were also indirectly activated in the uropathogen fur mutant, suggesting that induction of the Fur regulon increases amino acid demand. Using RpoS levels as a proxy, addition of amino acids mitigated the stress. In addition, iron chelation increased RpoS to the same levels as in the fur mutant. The increased amino acid demand of the fur mutant or iron chelated cells was exacerbated by aerobic conditions, which could be partly explained by the O2-dependent synthesis of the siderophore aerobactin, encoded by an operon within a pathogenicity island. Taken together, these data suggest that in the iron-poor environment of the urinary tract, amino acid availability could play a role in the proliferation of this uropathogen, particularly if there is sufficient O2 to produce aerobactin. IMPORTANCE Host iron restriction is a common mechanism for limiting the growth of pathogens. We compared the regulatory network controlled by Fur in uropathogenic E. coli (UPEC) to that of nonpathogenic E. coli K-12 to uncover strategies that pathogenic bacteria use to overcome iron limitation. Although iron homeostasis functions were regulated by Fur in the uropathogen as expected, a surprising finding was the activation of the stringent and general stress responses in the uropathogen fur mutant, which was rescued by amino acid addition. This coordinated global response could be important in controlling growth and survival under nutrient-limiting conditions and during transitions from the nutrient-rich environment of the lower gastrointestinal (GI) tract to the more restrictive environment of the urinary tract. The coupling of the response of iron limitation to increased demand for amino acids could be a critical attribute that sets UPEC apart from other E. coli pathotypes.

scholarly journals Knowledge extraction for assisted curation of summaries of bacterial transcription factor properties

Database ◽  
2020 ◽  
Vol 2020 ◽  
Author(s):  
Carlos-Francisco Méndez-Cruz ◽  
Antonio Blanchet ◽  
Alan Godínez ◽  
Ignacio Arroyo-Fernández ◽  
Socorro Gama-Castro ◽  
...  
Keyword(s):  
Transcriptional Regulation ◽  
Knowledge Extraction ◽  
Biomedical Literature ◽  
Main Role ◽  
E Coli ◽  
Bacterial Transcription ◽  
Manual Curation ◽  
New Knowledge ◽  
Serovar Typhimurium ◽  
K 12

Abstract Transcription factors (TFs) play a main role in transcriptional regulation of bacteria, as they regulate transcription of the genetic information encoded in DNA. Thus, the curation of the properties of these regulatory proteins is essential for a better understanding of transcriptional regulation. However, traditional manual curation of article collections to compile descriptions of TF properties takes significant time and effort due to the overwhelming amount of biomedical literature, which increases every day. The development of automatic approaches for knowledge extraction to assist curation is therefore critical. Here, we show an effective approach for knowledge extraction to assist curation of summaries describing bacterial TF properties based on an automatic text summarization strategy. We were able to recover automatically a median 77% of the knowledge contained in manual summaries describing properties of 177 TFs of Escherichia coli K-12 by processing 5961 scientific articles. For 71% of the TFs, our approach extracted new knowledge that can be used to expand manual descriptions. Furthermore, as we trained our predictive model with manual summaries of E. coli, we also generated summaries for 185 TFs of Salmonella enterica serovar Typhimurium from 3498 articles. According to the manual curation of 10 of these Salmonella typhimurium summaries, 96% of their sentences contained relevant knowledge. Our results demonstrate the feasibility to assist manual curation to expand manual summaries with new knowledge automatically extracted and to create new summaries of bacteria for which these curation efforts do not exist. Database URL: The automatic summaries of the TFs of E. coli and Salmonella and the automatic summarizer are available in GitHub (https://github.com/laigen-unam/tf-properties-summarizer.git).

scholarly journals A New Type of Fusion Analysis Applicable to Many Organisms: Protein Fusions to the URA3 Gene of Yeast

Genetics ◽  
1987 ◽  
Vol 117 (1) ◽  
pp. 5-12
Author(s):  
Eric Alani ◽  
Nancy Kleckner
Keyword(s):  
Gene Fusion ◽  
Enzyme Assay ◽  
Decarboxylase Activity ◽  
Lacz Gene ◽  
Coding Region ◽  
Ura3 Gene ◽  
Promoter Sequences ◽  
E Coli ◽  
New Type ◽  
Fusion Analysis

ABSTRACT We have made constructs that join the promoter sequences and a portion of the coding region of the Saccharomyces cerevisiae HIS4 and GAL1 genes and the E. coli lacZ gene to the sixth codon of the S. cerevisiae URA3 gene (encodes orotidine-5′-phosphate (OMP) decarboxylase) to form three in frame protein fusions. In each case the fusion protein has OMP decarboxylase activity as assayed by complementation tests and this activity is properly regulated. A convenient cassette consisting of the URA3 segment plus some immediately proximal amino acids of HIS4C is available for making URA3 fusions to other proteins of interest. URA3 fusions offer several advantages over other systems for gene fusion analysis: the URA3 specified protein is small and cytosolic; genetic selections exist to identify mutants with either increased or decreased URA3 function in both yeast (S. cerevisiae and Schizosaccharomyces pombe) and bacteria (Escherichia coli and Salmonella typhimurium); and a sensitive OMP decarboxylase enzyme assay is available. Also, OMP decarboxylase activity is present in mammals, Drosophila and plants, so URA3 fusions may eventually be applicable in these other organisms as well.

scholarly journals Structural genes for nitrate-inducible formate dehydrogenase in Escherichia coli K-12.

Genetics ◽  
1990 ◽  
Vol 125 (4) ◽  
pp. 691-702 ◽  
Author(s):  
B L Berg ◽  
V Stewart
Keyword(s):  
Escherichia Coli ◽  
Nitrate Reductase ◽  
Formate Dehydrogenase ◽  
Recombinant Dna ◽  
Structural Genes ◽  
Respiratory Pathway ◽  
E Coli ◽  
Formate Oxidation ◽  
Operon Expression ◽  
K 12

Abstract Formate oxidation coupled to nitrate reduction constitutes a major anaerobic respiratory pathway in Escherichia coli. This respiratory chain consists of formate dehydrogenase-N, quinone, and nitrate reductase. We have isolated a recombinant DNA clone that likely contains the structural genes, fdnGHI, for the three subunits of formate dehydrogenase-N. The fdnGHI clone produced proteins of 110, 32 and 20 kDa which correspond to the subunit sizes of purified formate dehydrogenase-N. Our analysis indicates that fdnGHI is organized as an operon. We mapped the fdn operon to 32 min on the E. coli genetic map, close to the genes for cryptic nitrate reductase (encoded by the narZ operon). Expression of phi(fdnG-lacZ) operon fusions was induced by anaerobiosis and nitrate. This induction required fnr+ and narL+, two regulatory genes whose products are also required for the anaerobic, nitrate-inducible activation of the nitrate reductase structural gene operon, narGHJI. We conclude that regulation of fdnGHI and narGHJI expression is mediated through common pathways.

Microbial computational genomics of gene regulation

2002 ◽  
Vol 74 (6) ◽  
pp. 899-905 ◽  
Author(s):  
Julio Collado-Vides ◽  
Gabriel Moreno-Hagelsieb ◽  
Arturo Medrano-Soto
Keyword(s):  
Transcription Initiation ◽  
Transcription Unit ◽  
Microbial Genomes ◽  
E Coli ◽  
Regulatory Interactions ◽  
Living Bacterium ◽  
Complete Set ◽  
Operon Organization ◽  
Unit Organization ◽  
K 12

Escherichia coli is a free-living bacterium that condensates a large legacy of knowledge as a result of years of experimental work in molecular biology. It represents a point of departure for analyses and comparisons with the ever-increasing number of finished microbial genomes. For years, we have been gathering knowledge from the literature on transcriptional regulation and operon organization in E. coli K-12, and organizing it in a relational database, RegulonDB. RegulonDB contains information of 20­25 % of the expected total sets of regulatory interactions at the level of transcription initiation. We have used this knowledge to generate computational methods to predict the missing sets in the genome of E. coli, focusing on prediction of promoters, regulatory sites, regulatory proteins, operons, and transcription units. These predictions constitute separate pieces of a single puzzle. By putting them all together, we shall be able to predict the complete set of regulatory interactions and transcription unit organization of E. coli. Orthologous genes in other genomes of known co-regulated sets of genes in E. coli, along with their corresponding predicted operons, and their predicted transcriptional regulators, shall permit the extension of the previous goal to many more microbial genomes.

scholarly journals INACTIVATION OF PHAGE C21 BY VARIOUS PREPARATIONS FROM LIPOPOLYSACCHARIDE OF E. COLI K-12

1966 ◽  
Vol 56 (6) ◽  
pp. 1852-1858 ◽  
Author(s):  
H. M. Kalckar ◽  
P. Laursen ◽  
A. M. C. Rapin
Keyword(s):  
E Coli ◽  
K 12
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