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    • 8. 发明申请
    • TARGETED GENE DELETIONS FOR POLYSACCHARIDE SLIME FORMERS
    • 针对多糖制剂的目标基因删除
    • WO2006096269A3
    • 2008-12-04
    • PCT/US2006003982
    • 2006-02-03
    • CP KELCO US INC
    • HARDING NANCY EYAMINI PATELCOLEMAN RUSSELL J
    • C12Q1/68A01N43/04A23G4/18A61K9/14C07G99/00C12N1/20C12N9/10C12N15/00C12N15/74C12P19/04C12P19/08C12P19/34
    • C12N15/74C07K14/195C12N15/52C12P19/04
    • Sphingomonas strains have extracellular polysaccharide (e.g., gellan, diutan) that is firmly attached to the cell surface. This attachment may limit polysaccharide production by impairing uptake of nutrients into the cell or due to limited sites for polysaccharide biosynthesis on the cell surface. Two genes for polysaccharide biosynthesis, designated gelM and gelN in gellan- producing strains and dpsM and dpsN in diutan-producing strains, have been inactivated by deletion mutations and shown to produce polysaccharide that is not firmly attached to the cell surface, i.e., slime form. Another gene for polysaccharide biosynthesis, designated gell in gellan producing strains, was inactivated by insertion mutation and also shown to produce the slime phenotype. The homologous gene dpsl in the diutan producing strain should also be involved in the attachment of the polysaccharide to the cell surface. The slime characteristic was demonstrated by the ability of the cells to be centrifuged and the lack of cell clumping as seen under the microscope or in diluted suspensions. The diutan slime mutants had somewhat increased productivity and the recovered diutan product had significantly improved rheology. Gellan slime mutants had lower broth viscosity which facilitates mixing during fermentation; however, the recovered gellan product had lower gel strength than the gellan produced from a capsular strain. A deletion in a gene gelR, which encodes a protein with homology to surface proteins and outer membrane proteins and weak homology to proteins with polysaccharide.
    • 鞘氨醇单胞菌属菌株具有牢固附着于细胞表面的细胞外多糖(例如,结冷糖,二氘)。 该附件可能通过损害营养物质进入细胞或由于细胞表面上多糖生物合成的有限位点而限制多糖产生。 用于多糖生物合成的两个基因,在凝胶产生菌株中命名为gelM和gelN,在diutan产生菌株中命名为dpsM和dpsN,已被缺失突变失活,并显示产生不牢固附着于细胞表面的多糖,即粘液形式 。 用于多糖生物合成的另一个基因,在凝胶产生菌株中称为凝胶,通过插入突变失活,并且还显示产生粘液表型。 二萜生产菌株中的同源基因dps1也应参与多糖与细胞表面的连接。 通过细胞离心的能力和在显微镜下或在稀释的悬浮液中观察到的细胞团聚的缺乏证明了粘液特性。 di an sl ime mut mut ants。。。。。。。。。。。。。。。。。。。。 凝胶粘液突变体具有较低的肉汤粘度,有利于发酵期间的混合; 然而,回收的结冷胶产品的凝胶强度低于从荚膜菌株产生的结冷胶。 在基因gelR中的缺失,其编码与表面蛋白质和外膜蛋白质具有同源性的蛋白质以及与多糖蛋白质的弱同源性。