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Subunit interaction during catalysis: alternating site cooperativity in photophosphorylation shown by substrate modulation of [18O]ATP species formation.

机译：催化过程中的亚基相互作用：通过[18O] ATP物种形成的底物调节显示光磷酸化中的交替位点协同性。

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摘要

Pronounced substrate modulation of incorporation of water oxygen into ATP formed by photophosphorylation is observed, as measured by 31P NMR analysis of products formed from ADP and highly 18O-labeled Pi. A marked increase occurs in oxygen exchange per ATP formed as ADP or Pi concentration is decreased. This is explainable by the binding-change mechanism for ATP synthesis, in which the energy-linked release of ATP from one site requires the binding of ADP and Pi at an alternate site. Analysis of the distribution of 18O-labeled species arising from the ATP formed eliminates explanations for substrate modulation based on preexisting or induced enzyme heterogeneity. Furthermore, the results, together with other related findings, make participation of control sites unlikely. The occurrence of alternating site catalysis cooperativity in ATP synthesis by chloroplasts thus appears to be reasonably well established.

机译：如对由ADP和高度18O标记的Pi形成的产物的31P NMR分析所测量的，观察到明显的底物调节，即通过光磷酸化将水氧掺入ATP中。随着ADP或Pi浓度的降低，形成的每个ATP的氧交换量显着增加。这可以通过ATP合成的结合改变机制来解释，其中ATP从一个位点的能量相关的释放需要在另一个位点结合ADP和Pi。对由形成的ATP产生的18O标记物种的分布进行的分析消除了基于预先存在或诱导的酶异质性进行底物调节的解释。此外，结果以及其他相关发现使得控制点不太可能参与。因此，由叶绿体在ATP合成中交替出现的位点催化协同作用的发生似乎是相当合理的。

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Hackney, D D; Rosen, G; Boyer, P D;
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年度 1979
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2. The cooperativity effect in the reaction of soluble quinoprotein (PQQ-containing) glucose dehydrogenase is not due to subunit interaction but to substrate-assisted catalysis [J] . Duine Johannis A., Strampraad Marc J. F., Hagen Wilfred R., The FEBS journal . 2016,第19期

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3. Modulation of nucleotide binding to the catalytic sites of thermophilic F(1)-ATPase by the epsilon subunit: implication for the role of the epsilon subunit in ATP synthesis. [J] . Yasuno T, Muneyuki E, Yoshida Biochemical and Biophysical Research Communications . 2009,第2期

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4. β-D-Xylosidase from Selenomonas ruminantium: Role of Glutamate 186 in Catalysis Revealed by Site-Directed Mutagenesis, Alternate Substrates, and Active-Site Inhibitor [C] . Douglas Brian Jordan, Jay D. Braker Symposium on biotechnology for fuels and chemicals . 2010

机译：来自Selenomonas强溶酪蛋白的β-D-木糖苷酶：谷氨酸186在催化中的作用，通过定点诱变，交替底物和活性位点抑制剂揭示
5. The subunit b-dimer of the F1-ATPase influences conformational transition during catalysis [D] . Pandey-Joshi, Susan. 2012

机译：F1-ATP酶的亚基B-二聚体影响催化期间的构象过渡
6. Subunit interaction during catalysis: alternating site cooperativity in photophosphorylation shown by substrate modulation of 18OATP species formation. [O] . D D Hackney, G Rosen, P D Boyer 1979

机译：催化过程中的亚基相互作用：通过18O ATP物种形成的底物调节显示光磷酸化中的交替位点协同性。
7. β Subunit Glu-185 of Escherichia coli H+-ATPase (ATP Synthase) Is an Essential Residue for Cooperative Catalysis [O] . Hiroshi Omote, Nga Phi Le, Mi-Yeon Park, 1995

机译：大肠杆菌H + -ATP酶（ATP合酶）的β亚基Glu-185是合作催化的基本残留物

Subunit interaction during catalysis: alternating site cooperativity in photophosphorylation shown by substrate modulation of [18O]ATP species formation.

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