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Lysis

About: Lysis is a research topic. Over the lifetime, 6072 publications have been published within this topic receiving 216978 citations.


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Journal ArticleDOI
TL;DR: During the massive mucllage event in the northern Adriatic Sea in July 1991 samples of macroaggregate were fixed in different ways: with formaldehyde, deep frozen and freeze-dried material, conventional microscopy revealed different autotrophic species embedded in gelatinous matl-ix.
Abstract: During the massive mucllage event in the northern Adriatic Sea in July 1991 samples of macroaggregate were fixed in different ways: with formaldehyde, deep frozen and freeze-dried. Conventional microscopy (light and epifluorescence) revealed different autotrophic species embedded in gelatinous matl-ix. Cyanobacteria and heterotrophic bacteria were also identified. Scanning confocal laser microscopy (SCLMI and fluorescent molec~~ la r p obes (the lectins concanavalin A and UEA-I) showed wall-free cytoplasm and particulate polysacchar~des leaklng from the envelopes of broken cells in the matrix. The extensive cell lysis was supported by the observation of cytoplasn1-free cytoskeletons, stained by the molecular probe phalloidin High concentrations of triglycerides (30Y0 of total lipids) and free fatty aclds (22'2%) along with very low concentrations of phospholipids ( 2 % ) also indicated massive cell degradation in freeze-dried material. The mucllage observations were compared with those of a natural plankton community grown under hlgh nutrlent conditions using the same techniques. Free polysaccharides were observed as globular flocs (marine snow) during in situ enrichment experiments and inti-acellular polysaccharides as carbon storage materials In autotrophic organisms. No strings, filaments, layers, cell lysis or lipid classes indicating strong cell biodeterioration were observed in a 1 mo controlled experiment during an algal bloom.

78 citations

Journal Article
TL;DR: The results suggest that human complement acted on the outer, lipoprotein—lipopolysaccharide layers of the bacterial cell wall and so gave lysozyme access to the deeper mucopeptide.
Abstract: Suspensions of Escherichia coli were not affected by lysozyme alone, but in solutions of appropriate pH and ionic strength some lysozyme was bound to the bacterial surface and remained available for action if the bacteria were subsequently treated with antibody and complement. In the presence of antibody, complement had a relatively prolonged action on E. coli ending in lysis. However, from an early stage in the reaction this lysis could be accelerated by adding lysozyme. The results suggest that human complement acted on the outer, lipoprotein—lipopolysaccharide layers of the bacterial cell wall and so gave lysozyme access to the deeper mucopeptide. When the number of bound lysozyme molecules per bacterium was less than 10,000–20,000 the lysozyme effect decreased rapidly. However, many of these molecules may have been inactivated by K antigen.

78 citations

Journal ArticleDOI
TL;DR: The lysis system involving pDKL02 is useful for the study of both the fate of DNA released naturally into the environment by dead cells and gene transfer by natural transformation in the environment in that biochemically unmanipulated DNA containing defined sequences and coding for selective phenotypes can be released into a selected environment at a specific time point.
Abstract: Two novel conditional broad-host-range cell lysis systems have been developed for the study of natural transformation in bacteria and the environmental fate of DNA released by cell death. Plasmid pDKL02 consists of lysis genes S, R, and Rz from bacteriophage lambda under the control of the Ptac promoter. The addition of inducer to Escherichia coli, Acinetobacter calcoaceticus, or Pseudomonas stutzeri containing plasmid pDKL02 resulted in cell lysis coincident with the release of high amounts of nucleic acids into the surrounding medium. The utility of this lysis system for the study of natural transformation with DNA released from lysed cells was assessed with differentially marked but otherwise isogenic donor-recipient pairs of P. stutzeri JM300 and A. calcoaceticus BD4. Transformation frequencies obtained with lysis-released DNA and DNA purified by conventional methods and assessed by the use of antibiotic resistance (P. stutzeri) or amino acid prototrophy (A. calcoaceticus) for markers were comparable. A second cell lysis plasmid, pDKL01, contains the lysis gene E from bacteriophage phi X174 and causes lysis of E. coli and P. stutzeri bacteria by activating cellular autolysins. Whereas DNA released from pDKL02-containing bacteria persists in the culture broth for days, that from induced pDKL01-containing bacteria is degraded immediately after release. The lysis system involving pDKL02 is thus useful for the study of both the fate of DNA released naturally into the environment by dead cells and gene transfer by natural transformation in the environment in that biochemically unmanipulated DNA containing defined sequences and coding for selective phenotypes can be released into a selected environment at a specific time point. This will allow kinetic measurements that will answer some of the current ecological questions about the fate and biological potential of environmental DNA to be made.

77 citations

Journal ArticleDOI
TL;DR: Although direct TFF of clarified lysate removed substantial amounts of RNA, the RNA levels left in the retentate were still significant, and the addition of calcium chloride to the clarified l Lysate combined with the clearance of low-molecular-weight RNA by TFF resulted in complete RNA removal and high plasmid recovery.

77 citations

Journal ArticleDOI
TL;DR: Aqueous extracts of disintegrated spores of Bacillus cereus and non-virulent B. anthracis contained an enzyme which produced visible lysis of the isolated cell walls of vegetative B. cereus, and possible functions of the enzyme may be to release ‘spore peptide’ from the spore coat during germination and to lyse the sporangium and free the spores during sporulation.
Abstract: SUMMARY: Aqueous extracts of disintegrated spores of Bacillus cereus and non-virulent B. anthracis contained an enzyme which produced visible lysis of the isolated cell walls of vegetative B. cereus. Optimum activity occurred at pH 7-8 in the presence of cobalt or manganese ions (10 p.p.m.) at 58°. Activity was destroyed during heating at 100° for 15 min. The lytic preparation released non-dialysable components containing αe-diaminopimelic acid (DAP), glutamic acid, alanine, amino sugars and glucose. Although lysis was less obvious, the enzyme preparation released similar material from cell walls of other Bacillus species, spore coats of B. megaterium and coats of autoclaved B. cereus spores. Extracts of freshly harvested B. cereus spores were more active than those from spores which had been stored for several weeks at 2°. Extracts from disintegrated spores of B. megaterium had no enzymic activity; the enzyme system was associated with the insoluble spore coat fraction. The action of the enzyme differed from that of lysozyme or glucosaminidase; the reaction products did not give a significant reaction for N-acetylhexosamine and visible lysis proceeded more rapidly with cell walls of B. cereus than with B. megaterium. Possible functions of the enzyme may be to release ‘spore peptide’ from the spore coat during germination and to lyse the sporangium and free the spore during sporulation.

77 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
2023389
2022607
2021123
2020142
2019139
2018161