In vivo nuclear magnetic resonance study of the osmoregulation of phosphocholine-substituted beta-1,3;1,6 cyclic glucan and its associated carbon metabolism in Bradyrhizobium japonicum USDA 110.

P E Pfeffer; G Bécard; D B Rolin; J Uknalis; P Cooke; S Tu

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In vivo nuclear magnetic resonance study of the osmoregulation of phosphocholine-substituted beta-1,3;1,6 cyclic glucan and its associated carbon metabolism in Bradyrhizobium japonicum USDA 110.

机译：体内核磁共振研究了日本慢生根瘤菌USDA 110中磷胆碱取代的β-1,3; 1,6环状葡聚糖的渗透调节及其相关碳代谢。

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A phosphocholine-substituted beta-1,3;1,6 cyclic glucan (PCCG), an unusual cyclic oligosaccharide, has been isolated from Bradyrhizobium japonicum USDA 110 (D. B. Rolin, P. E. Pfeffer, S. F. Osman, B. S. Swergold, F. Kappler, and A. J. Benesi, Biochim. Biophys. Acta 1116:215-225, 1992). Data presented here suggest that PCCG synthesis is dependent on the carbon metabolism and that osmotic regulation of its biosynthesis parallels regulation of membrane-derived oligosaccharide biosynthesis observed in Escherichia coli (E. P. Kennedy, M. K. Rumley, H. Schulman, and L. M. G. van Golde, J. Biol. Chem. 251:4208-4213, 1976) and Agrobacterium tumefaciens (G. A. Cangelosi, G. Martinetti, and E. W. Nester, J. Bacteriol. 172:2172-2174, 1990). Growth of B. japonicum USDA 110 cells in the reference medium at relatively low osmotic pressures (LO) (65 mosmol/kg of H2O) caused a large accumulation of PCCG and unsubstituted beta-1,3;1,6 cyclic glucans (CG). Sucrose and polyethylene glycol, nonionic osmotica, reduce all growth rates and inhibit almost completely the production of PCCG at high osmotic pressures (HO) above 650 and 400 mosmol/kg of H2O), respectively. We used in vivo 13C nuclear magnetic resonance spectroscopy to identify the active osmolytes implicated in the osmoregulation process. The level of alpha,alpha-trehalose in B. japonicum cells grown in autoclaved or filter-sterilized solutions remained constant in HO (0.3 M sucrose or 250 g of polyethylene glycol 6000 per liter) medium. Significant amounts of glycogen and extracellular polysaccharides were produced only when glucose was present in the autoclaved HO 0.3 M sucrose media. The results of hypo- and hyperosmotic shocking of B. japonicum USDA 110 cells were monitored by using in vivo 31P and 13C nuclear magnetic resonance spectroscopy. The first observed osmoregulatory response of glycogen-containing cells undergoing hypoosmotic shock was release of P(i) into the medium. Within 7 h, reabsorption of P(i) was complete and production of PCCG was initiated. After 12 h, the PCCG content had increased by a factor of 7. Following the same treatment, cells containing little or no glycogen released trehalose and failed to produce PCCG. Thus the production of PCCG/CG in response to hypoosmotic shocking of stationary-phase cells was found to be directly linked to the interconversion of stored glycogen. Hyperosmotic shocking of LO-grown stationary-phase cells with sucrose had no effect on the content of previously synthesized CG/PCCG. The PCCG/CG content and its osmotically induced biosynthesis are discussed in terms of carbon metabolism and a possible role in hypoosmotic adaptation in B. japonicum USDA 110.

机译：磷酸胆碱取代的β-1,3; 1,6环状葡聚糖（PCCG）是一种不常见的环状寡糖，已从日本短节根USDA 110（DB Rolin，PE Pfeffer，SF Osman，BS Swergold，F.Kappler和AJ Benesi，Biochim.Biophys.Acta 1116：215-225，1992）。此处提供的数据表明PCCG合成取决于碳代谢，其生物合成的渗透调节与在大肠杆菌中观察到的膜衍生的寡糖生物合成的调节平行（EP Kennedy，MK Rumley，H.Schulman和LMG van Golde，J。 Biol.Chem.251：4208-4213，1976）和根癌土壤杆菌（GA Cangelosi，G.Martinetti，和EW Nester，J.Bacteriol.172：2172-2174，1990）。在相对较低的渗透压（LO）（65 mosmol / kg的H2O）下，日本血吸虫USDA 110细胞在参考培养基中的生长导致PCCG和未取代的β-1,3; 1,6环状葡聚糖（CG）大量积累。蔗糖和聚乙二醇（非离子渗透剂）会分别降低所有生长速率，并分别在650和400 mosmol / kg H2O的高渗透压（HO）下几乎完全抑制PCCG的生成。我们使用了体内13C核磁共振波谱技术来确定与渗透调节过程有关的活性渗透压。在高压灭菌或过滤灭菌的溶液中生长的日本芽孢杆菌细胞中的α，α-海藻糖水平在HO（0.3 M蔗糖或250 g聚乙二醇6000 /升）培养基中保持恒定。仅当高压灭菌的HO 0.3 M蔗糖培养基中存在葡萄糖时，才会产生大量的糖原和细胞外多糖。通过使用体内31P和13C核磁共振波谱监测日本双歧杆菌USDA 110细胞的低渗和高渗休克结果。第一次观察到的含糖原细胞经历低渗性休克的渗透调节反应是将P（i）释放到培养基中。在7小时内，P（i）的重吸收完成，并开始生产PCCG。 12小时后，PCCG含量增加了7倍。在相同的处理之后，几乎没有糖原或几乎没有糖原的细胞释放了海藻糖，无法产生PCCG。因此，发现响应于固定相细胞的低渗性休克而产生的PCCG / CG与储存的糖原的相互转化直接相关。用蔗糖高渗震荡LO生长的固定相细胞对先前合成的CG / PCCG的含量没有影响。讨论了PCCG / CG含量及其渗透诱导的生物合成，涉及碳代谢以及在B.japonicum USDA 110中低渗适应中的可能作用。

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《Applied and Environmental Microbiology》 |1994年第6期|共10页
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P E Pfeffer; G Bécard; D B Rolin; J Uknalis; P Cooke; S Tu;
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In vivo nuclear magnetic resonance study of the osmoregulation of phosphocholine-substituted beta-1,3;1,6 cyclic glucan and its associated carbon metabolism in Bradyrhizobium japonicum USDA 110.

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