Sentence examples for bacterial cells has from inspiring English sources

Expression of human enzymes in bacterial cells has made possible the development of a new generation of mutagenicity assays.

The use of enzymes and whole bacterial cells has allowed the production of a plethora of compounds that have been used for centuries in foods and beverages.

Rational redesign and directed evolution have lead to engineered enzymes with new characteristics whilst the understanding of adaptation mechanisms in bacterial cells has allowed their use under new operational conditions.

Mechanism of interaction of zinc oxide nanoparticles with bacterial cells has been outlined below [120].

Transformation of low Al/Si clays to poorly ordered aluminosilicates with near-unity Al/Si ratio in the immediate vicinity of bacterial cells has been previously reported from weathered pyroclas-tic deposits, [50] in experimental incubations of volcanic ash, [51] in lake sediments enriched with metal contaminants, [52] and in river sediments in association with fresh water biofilms.

A fluorescence concentration threshold fthresh = 104, above which the accumulation of fluorescent particles kills the bacterial cells, has been introduced in order to reproduce the large mortality observed in the S condition.

Recent advances have demonstrated that bacterial cells have an exquisitely organized and dynamic subcellular architecture.

Moreover, recent experiments with unnatural bases in bacterial cells have demonstrated surprisingly efficient reading of the chemical information.

While most studies on bacterial cells have focused on fast-growing, exponential-phase cells, stationary phase presents unique challenges for cell growth due to accumulated waste and limited nutrients.

However, recent technological advancements in glycoprotein expression systems, employing genetically engineered production vehicles derived from mammalian, insect, yeast, and even bacterial cells, have yielded encouraging breakthroughs.

Bacterial cells have been exposed to be important resources that hold huge potential as ecofriendly, cost-effective, evading toxic of dangerous chemicals and the alternative of conventional physiochemical synthesis.