Preiss J, Greenberg E, Parsons T F, Downey J
Arch Microbiol. 1980 May;126(1):21-31. doi: 10.1007/BF00421887.
The ADPglucose pyrophosphorylases from Rhodopseudomonas sphaeroides and Rhodopseudomonas gelatinosa are activated by fructose-6-phosphate, pyruvate and fructose-1,6 biophosphate-P2. The effects of the activators are to increase significantly the Vmax of ADPglucose synthesis and to lower the S0.5 values (concentration of substrates giving 50% maximal velocity) for ATP and MgCl2. The R. sphaeroides enzyme is inhibited by Pi while the R. gelatinosa enzyme is inhibited by AMP as well as by Pi. The interaction between inhibitor and activator is complex. At very low concentrations of activator the enzyme is more sensitized to inhibition. However, at higher concentrations of activator there is a decrease in the sensitivity of the enzyme towards inhibition. The findings are discussed with respect to glycogen synthesis in these microorganisms and may be related to findings that indicate that Rhodopseudomonads have the ability to degrade sugars via the Entner-Duodoroff or Embden-Meyerhoff pathways.
球形红假单胞菌和胶状红假单胞菌的ADP葡萄糖焦磷酸化酶被6-磷酸果糖、丙酮酸和1,6-二磷酸果糖-P2激活。激活剂的作用是显著提高ADP葡萄糖合成的Vmax,并降低ATP和MgCl2的S0.5值(产生50%最大速度的底物浓度)。球形红假单胞菌的酶被无机磷酸抑制,而胶状红假单胞菌的酶被AMP以及无机磷酸抑制。抑制剂和激活剂之间的相互作用很复杂。在激活剂浓度非常低时,酶对抑制更敏感。然而,在激活剂浓度较高时,酶对抑制的敏感性降低。结合这些微生物中的糖原合成对这些发现进行了讨论,并且可能与表明红假单胞菌具有通过恩特纳-杜多罗夫或糖酵解途径降解糖类能力的发现有关。