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The genetic and genomic resources available for A. thaliana make this organism well suited for future research on the mechanistic basis of VOC mediated interactions and for analysis of the consequent biological responses.
The effectiveness of E. coli for inducible expression of heterologous proteins along with the variety of commercial recombinant DNA expression tools make this organism more desirable than others (e.g. Clostridia) for the large-scale production of hydrogenases for a variety of applications.
The relatively shorter consumption by R. opacus on multiple substrates simultaneously could make this organism a practical bioconverter for TAG production.
Its biological properties, like autotrophy, transformability, relatively rapid growth rate and easiness of cultivation, make this organism an ideal candidate for biotechnological applications that require a photosynthetic organism.
This ability to alternate between reproductive modes and the emergence of clonal populations under favorable conditions make this organism an interesting model for genetic and epigenetic studies.
These resources, along with its ancestral-type nervous system 51– 54, now make this organism an ideal starting point not only to unravel the molecular principles of its circalunar clock, but also to place it in an evolutionary context.
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The potential to re-cycle CO2 as a carbon source makes this organism a desirable chassis for industrial application.
The genetic tractability of Drosophila melanogaster makes this organism an ideal model to study the function of presenilin.
This genome sequence, with proteome [50], [51], [52] and transcriptome [53] analyses in place, has been the missing piece in making this organism an outstanding model.
Each zebrafish cell has the capacity to directly detect light, making this organism particularly suitable for the study of light dependent transcription.
A recent addition to the set of model organisms for biomedical research was the Branchiopod crustacean Daphnia pulex, whose genome sequencing project has made this organism ideal for studies of both ecotoxicogenomics as well as systems biology [1] [3].
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Justyna Jupowicz-Kozak
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