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在發(fā)展中求生存,不斷完善,以良好信譽(yù)和科學(xué)的管理促進(jìn)企業(yè)迅速發(fā)展Frankia are gram-positive, filamentous, nitrogen-fixing actinobacteria that are symbiotic with over 200
different species of plants. Frankia produce three cell types: vegetative hyphae, spores located in
sporangia, and the unique lipid-enveloped cellular structures, termed vesicles. Vesicles are formed
inside plant cell nodules, or in culture under nitrogen limiting conditions, and act as specialized structures
for the nitrogen fixation process. The mature vesicle is surrounded by an envelope that extends down the
stalk of the vesicle past the basal septum, which separates the vesicle from the hyphae. Techniques have
been developed for the isolation and urification of intact vesicles from Frankia grown in culture [1,2,3]. Initial
investigations on the properties of purified vesicles have focused on nitrogen metabolism [3,4]. Protein
extraction from vesicles has historically been difficult and a significant bottleneck to proteomic studies
because vesicles are resilient structures that are difficult to disrupt. Reliable and comprehensive proteomic
maps of Frankia hyphae and vesicles can only be assured when proteins are isolated reproducibly and in
a manner in which they are accuray represented in the downstream analysis. For example, 2DGE can be
an accurate representation of a proteome only if the entire protein constituency of cells is recovered during
the sample preparation process. While French press treatment effectively lyses hyphae, it fails to disrupt
Frankia vesicles. Pressure Cycling Technology (PCT) used in combination with a specialized lysis reagent
effectively disrupted purified vesicles enabling further investigation of the proteome of the vesicles.
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