Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A collection of about 2500 clones containing hybrid plasmids representative of nearly the entire genome of B. subtilis 168 was established in E. coli SK1592 by using the poly(dA).poly(dT) joining method with randomly sheared DNA fragments and plasmid pHV33, a bifunctional vector which can replicate in both E. coli and B. subtilis. Detection of cloned recombinant DNA molecules was based on the insertional inactivation of the Tc gene occurring at the unique BamHI cleavage site present in the vector plasmid. Thirty individual clones of the collection were shown to hybridize specifically with a B. subtilis rRNA probe. CCC-recombinant plasmids extracted from E. coli were pooled in lots of 100 and used to transform auxotrophic mutants of B. subtilis 168. Complementation of these auxotrophic mutations was observed for several markers such at thr, leuA, hisA, glyB and purB. In several cases, markers carried by the recombinant plasmids were lost from the plasmid and integrated into the chromosomal DNA. Loss of genetic markers from the hybrid plasmids did not occur when a rec- recipient strain of B. subtilis was used.
Mol Gen Genet 1979 Oct 03
PMID:Construction of a colony bank of E. coli containing hybrid plasmids representative of the Bacillus subtilis 168 genome. Expression of functions harbored by the recombinant plasmids in B. subtilis. 11 26

We compared the transducing properties of Mucts62 and Mucts62/mini-Mu lysates, using Mu immune and non immune Recqnd recA recipient strains. The Mu/mini-Mu lysates transduced all bacterial markers tested 10 times more efficiently than the Mucts62 lysates in Rec + recipients. Most of the transductants obtained after infection with the Mu/mini-Mu lysates result from the substitution of the mutated gene of the recipient by the wild type allele from the donor, most probably carried on the gigantic variable end linked to the mini-Mu genome. Moreover the Mu/mini-Mu lysates gave a new type of Rec-independent transduction that we called mini-muduction. Mini-muduction requires the activity of Mu gene A and provides transductants which carry the transduced marker surrounded by two mini-Mu genomes similarly oriented, and inserted at random location in the recipient chromosome. The mini-Mu/transduced DNA/mini-Mu structures are able to transpose spontaneously, for instance into a transmissible plasmid, in the presence of Mu gene A product.
Mol Gen Genet 1979 Oct 03
PMID:Mini-muduction: a new mode of gene transfer mediated by mini-mu. 16 Sep 73

The staphylococcal penicillinase plasmid pI524 and a series of derivatives have been extensively mapped by restriction endonuclease digestion and by heteroduplex analysis. We report here the identification of a 2.2 kb region that undergoes a reversible, rec-independent inversion. This sequence is bounded by a pair of inverted repeats 650 base pairs in length, and has asymmetrically located recognition sites for at least three restriction endonucleases. A series of deleted derivatives and one naturally occurring, closely related plasmid, were studied. Two of these retain the inversion; the remainder are incapable of inverting and were all found to be locked in the same orientation of the inversion. The invertible sequence is adjacent to the region of the plasmid encoding beta-lactamase (bla); this entire region appears to be transposable and the inversion may be involved in the regulation of beta-lactamase expression or in translocation.
Mol Gen Genet 1979 Aug
PMID:Physical mapping of Staphylococcus aureus penicillinase plasmid pI524: characterization of an invertible region. 31 96

Several conditional-lethal mutantions that do not permit the replication of F-factors of Escherichia coli K-12 are located at a site called seg. This gene is located on the E. coli chromosome between ser B and thr. It is unrelated to other known genes involved in DNA replication. Strains carrying seg mutations were unable to replicate F'-lac+, several F'-gal+s, F'-his+ and bacteriophage gamma at 42 degrees. However, neither phage T4, ColE1, nor any of the R factors tested were prevented from replicating at 42 degrees C. When the kinetics of the loss of F-primes is studied in seg strains, it is found that the rate of curing depends on the size of the plasmid, larger F factors curing faster than smaller ones, and that Hfrs are formed at high frequencies. The Hfrs showed both F-genote enlargement and normal transfer of chromosomal markers. The F-genotes are unstable and segregate chromosomal markers at high frequencies. Some orthodox Hfrs were examined, and two that were known to revert to the F+ condition relatively frequently were found to generate enlarged F-genotes on mating, whereas two strains that were very stable with respect to the F+ state did not show F-genote formation. F-genote formation from seg Hfr stains is dependent on a functional recA gene, as F-genote formation was not seen with a seg-2, recA-1 Hfr. This is in contrast to F-genote enlargement shown by both orthodox Hfrs and an Hfr strain constructed by integration of a temperature-sensitive F'-gal+, whose F-genote enlargement is Rec-independent. Thus there may be more than one mechanism for the formation of enlarged F-genotes.
Mol Gen Genet 1977 Jan 18
PMID:Plasmid replication and Hfr formation in strains of Escherichia coli carrying seg mutations. 32 Apr 53

The thymine requirement of the E. coli strain HF 4704 (uvr A-, rec A+) is thermosensitive i.e. these cells require for their growth 2 microng thymine per ml at 37 degrees C but not at 30 degrees C. Such cells when starved for thymine for 3 h at 37 degrees C are capable of sustaining growth of single stranded DNA phage phiX174 without any diminution of burst size under nonpermissive conditions. Thymine starved HF 4704 cells also reactivate UV-irradiated phiX174 by about 3fold. To test if the thymine necessary for phage growth under "thymineless" conditions was supplied by host DNA degradation products, the transfer of 32P label from the host DNA to mature progeny phages was measured by means of sucrose density gradient analysis. It was found that only about 0.7% of 32P of the host DNA was transferred to the progeny phages growing in normal cells whereas the corresponding value was 7.8% in the case of thymine starved cells.
Mol Gen Genet 1977 Mar 16
PMID:Growth and reactivation of single stranded DNA phage phiX174 in E. coli undergoing "thymineless death". 32 76

A mutant of E. coli selected for temperature-sensitive growth on rich medium harbored an altered ribosomal protein S6 (Isono et al., 1976). This mutant was found to possess at least two mutations, one being responsible for the temperature-sensitivity and the other for the S6 alteration. Crosses with various Hfr strains as well as transductions with P 1kc revealed that the former mutation mapped at 98 min and the latter at 97 min. Furthermore, rec A derivatives of this mutant heteromerodiploid for this region possessed both the wild type and themutant forms of S6. Thus it was established that the gene at 97 min was indeed the structural gene for protein S6 (rpsF) and not a gene modifying it.
Mol Gen Genet 1977 Jun 08
PMID:A new ribosomal protein locus in Escherichia coli: the gene for protein S6 maps at 97 min. 32 9

Genetic recombination of phage lambda DNA mediated by Rec function of Escherichia coli was studied in the absence of duplication, transcription, translation, and maturation. Cells were jointly infected with double amber mutants, lambda D-F-I and lambda S-R-, and incubated in the presence of chloramphenicol and rifampin. The am+ recombinant DNA molecules formed within the cell were detected by in vitro packaging as viable recombinant phages. This system was used to measure the recombination activity of rec- bacteria. In recA or recA recB bacteria, the number of recombinant DNA molecules was about 1% of the rec+ level. In contrast, almost normal numbers of recombinant DNA molecules were formed in recB or recC cells. Therefore, (1) the recombination mediated by recA function does not need de novo protein synthesis; all gene products required for the recombination are present in the cell. (2) It can occur without duplication, transcription, and maturation of recombining DNA molecules. (3) The ATP dependent DNase (exonuclease V) controlled by recB and recC genes is not required for formation of recombinant DNA molecules.
Mol Gen Genet 1977 Jun 24
PMID:Formation of recombinant DNA of bacteriophage lambda by recA function of Escherichia coli without duplication, transcription, translation, and maturation. 33 Oct 71

The adjacent genes rpoB and rpoC code for the beta and beta' subunits of RNA polymerase in Escherichia coli, and are cotranscribed in the order given. The nearest known genes to rpoB are rplL and rplA,J,K, which code for ribosomal proteins, and which are transcribed in the same direction as the polymerase genes. It has been suggested that rpoBC may be distal elements of a larger operon including these ribosomal genes. To test this possibility we have cloned a segment of DNA, derived by endoR. HindIII digestion from the rpoBC-transducing bacteriophage lambdarifd18, in the replacement vector NMlambda761. The structure of the lambdarpoBC bacteriophages so produced is such that the inserted DNA can be transcribed from lambda promoters, allowing us to confirm that it carries intact rplL, rpoB, and rpoC genes. We have studied these bacteriophages as lysogens in rec+ and rec bacteria, and by infection of UV-irradiated bacterial strains in which lambda promoters are either repressed or active. The results indicate that the cloned DNA contains at most a very weak promoter for the above genes, in contrast to that present in the larger segment of bacterial DNA carried by lambdarifd18. We have in the same way cloned the adjacent bacterial HindIII-fragment of lambdarifd18 DNA, and have found that it displays vigorous autonomous expression of the tufB, rplA, and rplK genes. We conclude that rpoB and C are obligatorily co-transcribed with rplL, from a promoter located outside the DNA segment cloned in lambdarpoBC. We discuss the evidence for the existence of a regulatory site, rpoU, located between rplL and rpoB.
Mol Gen Genet 1979 Jan 31
PMID:Evidence for co-transcription of the RNA polymerase genes rpoBC with a ribosomal protein gene of escherichia coli. 37 8

RP4-prime plasmids containing chromosomal fragments of either Escherichia coli or Rhizobium meliloti were constructed in vitro. When introduced into E. coli or R. meliloti respectively, they promoted a polarized transfer of the chromosome as demonstrated either by the gradient of transfer of various markers or by the study of the genetic constitution of recombinants. In E. coli, mobilization was shown to be dependent upon the presence of a functional rec A system. Inheritance of markers was due to their integration into the chromosome of the recipient as shown by the need for a functional rec A system in the recipient E. coli or by mobilization of recessive markers in R. meliloti. The system described could be applied to genetic mapping in any Gram negative bacteria.
Mol Gen Genet 1979 Jun 20
PMID:Use of RP4-prime plasmids constructed in vitro to promote a polarized transfer of the chromosome in Escherichia coli and Rhizobium meliloti. 38 51

Infectivity of linear lambdaDNA molecules is proved to be about a hundred times higher in calcinated E. coli K12 (lambai434) than in E. coli K12(lambda-): the levels of transfection were 1-3-10(7) and 1-2-10(5) infective centers per 1 mug DNA, respectively. In E. coli JC 5743 rec B21 defective for exonucleases I and V the level of transfection was 1-3-10(6). High infectivity of linear lambdaDNA in lysogenic cells cannot be explained by a helping effect of phage particles spontaneously liberated by these cells. It can be caused by recombinations of inserted lambdaDNA molecules with prophage or by the low activity of some nucleases in the lysogenic cells. Covalently closed and "Hershey" ring forms of lambdaDNA penetrate the calcinated cells as readily as linear molecules do but the infectivity of the former ones is proved to be very low.
Mol Biol (Mosk)
PMID:[Infectivity of different forms of lambda bacteriophage DNA in transfection of calcinated Escherichia coli]. 76 69


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