Abstract
Detergent extracts of microsomal fractions from suspension cultured cells of Rubus fruticosus (blackberry) were tested for their ability to synthesize in vitro sizable quantities of cellulose from UDP-glucose. Both Brij 58 and taurocholate were effective and yielded a substantial percentage of cellulose microfibrils together with (1-->3)-beta-d-glucan (callose). The taurocholate extracts, which did not require the addition of Mg(2+), were the most efficient, yielding roughly 20% of cellulose. This cellulose was characterized after callose removal by methylation analysis, electron microscopy, and electron and x-ray synchrotron diffractions; its resistance toward the acid Updegraff reagent was also evaluated. The cellulose microfibrils synthesized in vitro had the same diameter as the endogenous microfibrils isolated from primary cell walls. Both polymers diffracted as cellulose IV(I), a disorganized form of cellulose I. Besides these similarities, the in vitro microfibrils had a higher perfection and crystallinity as well as a better resistance toward the Updegraff reagent. These differences can be attributed to the mode of synthesis of the in vitro microfibrils that are able to grow independently in a neighbor-free environment, as opposed to the cellulose in the parent cell walls where new microfibrils have to interweave with the already laid polymers, with the result of a number of structural defects.
Highlights
Detergent extracts of microsomal fractions from suspension cultured cells of Rubus fruticosus were tested for their ability to synthesize in vitro sizable quantities of cellulose from UDP-glucose
Apart from giving information on the yield of in vitro cellulose and [133]--D-glucan, these experiments based on the incorporation of radioactive glucose into insoluble polysaccharides prove that the glucans analyzed were synthesized de novo and not carried along from the membrane preparations that were used as a source of enzyme
One must demonstrate that (i) the in vitro product consists exclusively of [134]--linked glucosyl moieties, (ii) it is of a high molecular weight, and (iii) it corresponds to crystalline microfibrils diffracting as native cellulose
Summary
Detergent extracts of microsomal fractions from suspension cultured cells of Rubus fruticosus (blackberry) were tested for their ability to synthesize in vitro sizable quantities of cellulose from UDP-glucose Both Brij 58 and taurocholate were effective and yielded a substantial percentage of cellulose microfibrils together with [133]--D-glucan (callose). It seems accepted that these membrane proteins are organized as rosette-like structures [7, 27,28,29,30,31], designated as terminal complexes, that act as spinnerets for the extrusion of microfibrils It is only when the integrity of this machinery is kept intact, as in the plant plasma membrane, that all of its proteinaceous subcomponents are able to polymerize glucosyl units in a coordinated fashion, leading to the spinning of cellulose I microfibrils [7]. These microfibrils were identified as cellulose by immunogold labeling and/or electron diffraction analysis [13,14,15]
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