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Seeds are capable of accumulating high levels of seed storage proteins (SSP), as well as heterologous proteins under certain conditions.
In order to secrete spermidine into fermentation broth, TPO1 coding for the polyamine transporter was overexpressed in an engineered S. cerevisiae strain capable of accumulating high concentrations of spermidine.
The L. williamsii transcriptome provides a detailed genomic window on metabolic processes that are carried out in a cactus plant capable of accumulating high levels of alkaloids.
Since Escherichia coli exhibits many genetic, technical, and biotechnological advantages over native oleaginous bacteria, we aimed to construct a metabolically engineered E. coli strain capable of accumulating high levels of triacylglycerol (TAG) and evaluate its neutral lipid productivity during high cell density fed-batch fermentations.
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For example, Suaeda maritime, a potential halophyte, occupies 77% of the mesophyll cells of vacuoles [ 32] which makes it capable of accumulating higher concentration of salt as much as 500 mM [ 33].
The normal human prostate glandular epithelium has the unique function of accumulating high levels of zinc.
Among the most promising candidates for industrial use are the oleaginous yeasts, which are those capable to accumulate high amounts (>20%, cell dry weight) of intracellular lipids, as Cryptococcus albidus, Rhodosporidium toruloides, Rhodotorula glutinis Lipomyces starkeyi and Yarrowia lipolytica (Li et al.2008, Angerbauer et al.2008,Papanikolaou and Aggelis 2011).
Some species of microalgae are capable of producing and accumulating high amounts of neutral storage lipids, mainly TAGs, under stress-inducing conditions.
It is very likely that malic acid in A. carbonarius is transiently produced but not capable of accumulating at high concentration, especially in the Δgox mutant, the enhanced carbon flux towards the cytosolic oxaloacetate reduction pathway was supposed to result in a much higher concentration of malic acid during cultivation, but this was not achieved in our experiments.
Typha orientalis has received less attention than many other Typha species, but is capable of accumulating very high biomass in the field in environments ranging from waterlogged soil without standing water (Pegman and Ogden 2005) to water depths up to 1.0 m (Froend and McComb 1994; Inoue and Tsuchiya 2009).
In other words, under salinity stress, the tolerant accessions were capable of accumulating the higher amounts of proline, AG, and NAG than the sensitive accessions.
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