pH Wave-Front Propagation in the Urea-Urease Reaction

被引:42
|
作者
Wrobel, Magdalena M. [1 ]
Bansagi, Tamas, Jr. [1 ]
Scott, Stephen K. [1 ]
Taylor, Annette F. [1 ]
Bounds, Chris O. [2 ]
Carranzo, Arturo [2 ]
Pojman, John A. [2 ]
机构
[1] Univ Leeds, Sch Chem, Leeds LS2 9JT, W Yorkshire, England
[2] Louisiana State Univ, Dept Chem, Baton Rouge, LA 70803 USA
来源
BIOPHYSICAL JOURNAL | 2012年 / 103卷 / 03期
关键词
GLYCOLYTIC OSCILLATIONS; TRAVELING-WAVES; GLUCOSE-OXIDASE; FEEDBACK; SYSTEMS; DESIGN; BISTABILITY; MEMBRANE; PATTERNS; SULFITE;
D O I
10.1016/j.bpj.2012.06.020
中图分类号
Q6 [生物物理学];
学科分类号
071011 ;
摘要
The urease-catalyzed hydrolysis of urea displays feedback that results in a switch from acid (pH similar to 3) to base (pH similar to 9) after a controllable period of time (from 10 to >5000 s). Here we show that the spatially distributed reaction can support pH wave fronts propagating with a speed of the order of 0.1-1 mm min(-1). The experimental results were reproduced qualitatively in reaction-diffusion simulations including a Michaelis-Menten expression for the urease reaction with a bell-shaped rate-pH dependence. However, this model fails to predict that at lower enzyme concentrations, the unstirred reaction does not always support fronts when the well-stirred reaction still rapidly switches to high pH.
引用
收藏
页码:610 / 615
页数:6
相关论文
共 50 条
  • [41] INHIBITORY EFFECT OF UREA-UREASE SYSTEM ON HUMAN TISSUE ALKALINE PHOSPHATASES
    METZ, M
    PINSKY, A
    WILKINSON, JH
    CLINICA CHIMICA ACTA, 1970, 30 (02) : 325 - +
  • [42] WAVE-FRONT RECONSTRUCTION ERROR OF SHACK-HARTMANN WAVE-FRONT SENSORS
    TAKATO, N
    IYE, M
    YAMAGUCHI, I
    PUBLICATIONS OF THE ASTRONOMICAL SOCIETY OF THE PACIFIC, 1994, 106 (696) : 182 - 188
  • [43] Wave-front sensing from defocused images by use of wave-front slopes
    van Dam, MA
    Lane, RG
    APPLIED OPTICS, 2002, 41 (26) : 5497 - 5502
  • [44] GPU Acceleration in Wave-Front Sensorless Adaptive Wave-Front Correction System
    Ke Xizheng
    Zhang Yunfeng
    Zhang Ying
    Lei Sichen
    LASER & OPTOELECTRONICS PROGRESS, 2019, 56 (07)
  • [45] Wave-front sensing from defocused images by use of wave-front slopes
    Van Dam, Marcos A.
    Lane, Richard G.
    Applied Optics, 2002, 41 (26): : 5497 - 5502
  • [46] THE MOLECULAR KINETICS OF THE UREA-UREASE SYSTEM .2. THE INHIBITION BY PRODUCTS
    HOARE, JP
    LAIDLER, KJ
    JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1950, 72 (06) : 2487 - 2489
  • [47] Statistical analysis of wave-front fluctuations from measurements of a wave-front sensor
    Botygina, N. N.
    Emaleev, O. N.
    Konyaev, P. A.
    Lukin, V. P.
    23RD INTERNATIONAL SYMPOSIUM ON ATMOSPHERIC AND OCEAN OPTICS: ATMOSPHERIC PHYSICS, 2017, 10466
  • [48] THE MOLECULAR KINETICS OF THE UREA-UREASE SYSTEM .5. RELATIONSHIP BETWEEN ACTIVITY AND CONCENTRATION OF UREASE SOLUTIONS
    WALL, MC
    LAIDLER, KJ
    ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS, 1953, 43 (02) : 307 - 311
  • [49] Centrifugal wave-front propagation speed for localizing the atrial tachycardia origin
    Kurata, Naoya
    Masuda, Masaharu
    Asai, Mitsutoshi
    Iida, Osamu
    Okamoto, Shin
    Ishihara, Takayuki
    Nanto, Kiyonori
    Kanda, Takashi
    Tsujimura, Takuya
    Matsuda, Yasuhiro
    Okuno, Shota
    Ohashi, Takuya
    Abe, Akimasa
    Mano, Toshiaki
    INTERNATIONAL JOURNAL OF CARDIOLOGY, 2019, 279 : 96 - 99
  • [50] PROPAGATION OF WAVE-FRONT SET IN GEVREY CLASS FOR AN EXAMPLE OF HYPERBOLIC SYSTEM
    MORIMOTO, Y
    NAGOYA MATHEMATICAL JOURNAL, 1986, 101 : 131 - 150
12345