Degnan B A, Macfarlane G T
Medical Research Council, Dunn Clinical Nutrition Centre, Cambridge, UK.
Arch Microbiol. 1993;160(2):144-51. doi: 10.1007/BF00288717.
Glucose was required for the transport of arabinose into Bifidobacterium breve. The non-metabolisable glucose analogue 2-deoxy-D-glucose (2-DG) did not facilitate assimilation of arabinose. Studies using D-[U-14C]-labelled arabinose showed that it was fermented to pyruvate, formate, lactate and acetate, whereas the principal metabolic products of D-[U-14C]-labelled glucose were acetate and formate. In contrast to glucose, arabinose was not incorporated into cellular macromolecules. A variety of metabolic inhibitors and inhibitors of sugar transport (proton ionophores, metal ionophores, compounds associated with electron transport) were used to investigate the mechanisms of sugar uptake. Only NaF, an inhibitor of substrate level phosphorylation, and 2-DG inhibited glucose assimilation. 2-DC had no effect on arabinose uptake, but NaF was stimulatory. High levels of phosphorylation of glucose and 2-DC by PEP and to a lesser degree, ATP were seen in phosphoenolpyruvate: phosphotransferase (PEP:PTS) assays. These data together with strong inhibition of glucose uptake by NaF suggest a role for phosphorylation in the transport process. Arabinose uptake in B. breve was not directly dependent on phosphorylation or any other energy-linked form of transport but may be assimilated by glucose-dependent facilitated diffusion.
阿拉伯糖转运至短双歧杆菌中需要葡萄糖。不可代谢的葡萄糖类似物2-脱氧-D-葡萄糖(2-DG)不能促进阿拉伯糖的同化作用。使用D-[U-¹⁴C]标记的阿拉伯糖进行的研究表明,它被发酵为丙酮酸、甲酸、乳酸和乙酸,而D-[U-¹⁴C]标记的葡萄糖的主要代谢产物是乙酸和甲酸。与葡萄糖不同,阿拉伯糖未掺入细胞大分子中。使用了多种代谢抑制剂和糖转运抑制剂(质子离子载体、金属离子载体、与电子传递相关的化合物)来研究糖摄取的机制。只有底物水平磷酸化抑制剂氟化钠(NaF)和2-DG抑制葡萄糖同化。2-DC对阿拉伯糖摄取没有影响,但NaF具有刺激作用。在磷酸烯醇丙酮酸:磷酸转移酶(PEP:PTS)测定中,观察到PEP和程度较轻的ATP对葡萄糖和2-DC的高水平磷酸化。这些数据以及NaF对葡萄糖摄取的强烈抑制表明磷酸化在转运过程中起作用。短双歧杆菌中阿拉伯糖的摄取不直接依赖于磷酸化或任何其他与能量相关的转运形式,但可能通过葡萄糖依赖性易化扩散被同化。
