Kinetic simulation of malate-aspartate and citrate-pyruvate shuttles in association with Krebs cycle

Korla, Kalyani; Vadlakonda, Lakshmipathi; Mitra, Chanchal K.

doi:10.1080/07391102.2014.1003603

Cited by 17 publications

(10 citation statements)

References 18 publications

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“…Reactions of the CAC are described with eight differential equations with Michaelis-Menten reaction kinetic. Korla et al (2015) extends the earlier model with two transporter systems.…”

Section: Introductionsupporting

confidence: 56%

A Simple Dynamic Model for Mitochondrial Metabolism

Sváb¹,

Szederkényi²,

Horváth³

et al. 2018

MATHMOD 2018 Extended Abstract Volume

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A simple dynamical model is proposed in this paper to describe the main timevarying quantities in mitochondrial metabolism. The model is given in the form of kinetic ordinary differential equations containing 11 state equations. The parameters of the model were determined from the literature or from the authors' own laboratory measurements. The obtained simulation result is in good agreement with actual observation for simulating an ischemic process.

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“…Reactions of the CAC are described with eight differential equations with Michaelis-Menten reaction kinetic. Korla et al (2015) extends the earlier model with two transporter systems.…”

Section: Introductionsupporting

confidence: 56%

A Simple Dynamic Model for Mitochondrial Metabolism

Sváb¹,

Szederkényi²,

Horváth³

et al. 2018

MATHMOD 2018 Extended Abstract Volume

View full text Add to dashboard Cite

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“…The E1 subunit of the pyruvate dehydrogenase complex, a hub of the DC network, is also a hub in the metabolism linking glycolysis and citric acid cycle [ 44 , 45 ]. The aspartate aminotransferase, a hub of the oTA network, links the amino acid and the carbohydrate metabolisms [ 46 ]. These coincidences of hubs in sequence networks and metabolic networks could point at a higher robustness against mutations to preserve cellular function.…”

Section: Discussionmentioning

confidence: 99%

The scale-free nature of protein sequence space

2018

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The sequence space of five protein superfamilies was investigated by constructing sequence networks. The nodes represent individual sequences, and two nodes are connected by an edge if the global sequence identity of two sequences exceeds a threshold. The networks were characterized by their degree distribution (number of nodes with a given number of neighbors) and by their fractal network dimension. Although the five protein families differed in sequence length, fold, and domain arrangement, their network properties were similar. The fractal network dimension Df was distance-dependent: a high dimension for single and double mutants (Df = 4.0), which dropped to Df = 0.7–1.0 at 90% sequence identity, and increased to Df = 3.5–4.5 below 70% sequence identity. The distance dependency of the network dimension is consistent with evolutionary constraints for functional proteins. While random single and double mutations often result in a functional protein, the accumulation of more than ten mutations is dominated by epistasis. The networks of the five protein families were highly inhomogeneous with few highly connected communities ("hub sequences") and a large number of smaller and less connected communities. The degree distributions followed a power-law distribution with similar scaling exponents close to 1. Because the hub sequences have a large number of functional neighbors, they are expected to be robust toward possible deleterious effects of mutations. Because of their robustness, hub sequences have the potential of high innovability, with additional mutations readily inducing new functions. Therefore, they form hotspots of evolution and are promising candidates as starting points for directed evolution experiments in biotechnology.

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“…Состояние аэробного дыхания зависит не только от интенсивно-сти субстратного потока по циклу Кребса, но и опре-деляется уровнем водородного градиента в мито-хондриях, который, в свою очередь, поддерживается малат-аспартатным шунтом. Ключевую реакцию малат-аспартатного шунта катализирует НАДН-МДГ [16,17]. У чАСК и рАСК пациентов активность НАДН-МДГ в тром-боцитах снижена как в 1-е сут, так и на 10-е сут лече-ния.…”

Section: Discussionunclassified

Features of the Hemostasis and Platelets Enzyme Activity in Patients with Different Sensitivity to Acetylsalicylic Acid by the Acute Coronary Syndrome

Grinshtein

Savchenko²,

Grinshtein

et al. 2016

Racionalʹnaâ farmakoterapiâ v kardiologii

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1 Красноярский государственный медицинский университет им. проф. В.Ф. Войно-Ясенецкого Россия, 660022, Красноярск, пр. П. Железняка, 1А 2 Научно-исследовательский институт медицинских проблем Севера Россия, 660022, Красноярск, пр. П. Железняка, 3ГЦель. Изучить особенности состояния гемостаза и активности ферментов тромбоцитов у пациентов с острым коронарным синдромом (ОКС), чувствительных и резистентных к ацетилсалициловой кислоте (АСК). Материал и методы. Обследованы 53 пациента (25 мужчин и 28 женщин) с ОКС в первые 24 часа и через 10 суток. Контрольная группа -50 здоровых добровольцев. Пациенты до начала лечения тестированы на чувствительность и резистентность к АСК. Изучались показатели сосудисто-тромбоцитарного и плазменного гемостаза, а также определена активность НАД(Ф)-зависимых дегидрогеназ в тромбоцитах кро-ви биолюминесцентным методом в первые сутки ОКС до начала терапии дезагрегантами и на 10 сутки. Результаты. У АСК-резистентных пациентов в 1-е и 10-е сутки от развития ОКС установлено повышение спонтанной [1,72 (1,28-2,72) . Также у АСК-резистентных пациентов с ОКС выявлена очень низкая активность пентозофосфатного цикла и аэробная активность лактатдегидрогеназы, а также более высокая, чем у АСК-чувствительных пациентов интенсивность аэробного дыхания и уровень НАДФ-зависимого субстратного обмена меж-ду циклом трикарбоновых кислот и реакциями аминокислотного обмена. Заключение. Несмотря на применение комбинированной антитромбоцитарной терапии АСК и клопидогрелом риск тромбообразования у пациентов с ОКС, резистентных к АСК, сохраняется. Метаболические изменения в тромбоцитах отражаются на их агрегационной активно-сти и вызывают у пациентов с ОКС недостаточный ответ на дезагреганты.Ключевые слова: острый коронарный синдром, чувствительность, резистентность, ацетилсалициловая кислота, тромбоциты, дегидрогеназы. Aim. To study the features of the state of hemostasis and platelet enzymes activity in acetylsalicylic acid (ASA) sensitive and resistant patients with acute coronary syndrome (ACS). Material and methods. The study included 53 patients (25 men and 28 women) with ACS during the first 24 hours and after 10 days. The control group included 50 healthy volunteers. Before treatment the patients were tested on the sensitivity and resistance to ASA. The indicators of vascularplatelet and plasma hemostasis were evaluated as well as the NAD(P)-dependent dehydrogenases activity in platelets was assessed by the bioluminescent method in the first day of ACS before antiplatelet therapy and on day 10. was found in ASA-resistant patients with ACS in 1 and 10 day. Besides the ASA-resistant patients with ACS had very low pentose phosphate cycle and lactate dehydrogenase aerobic activity. They also demonstrated, compared with ASA-sensitive patients, higher intensity of aerobic respiration and the level of NADP-dependent substrate exchange between the tricarboxylic acid cycle and reactions of amino acid metabolism. Conclusion. Despite the dual antiplatelet therapy with ASA and clopidogrel, risk of thrombotic even...

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Kinetic simulation of malate-aspartate and citrate-pyruvate shuttles in association with Krebs cycle

Cited by 17 publications

References 18 publications

A Simple Dynamic Model for Mitochondrial Metabolism

A Simple Dynamic Model for Mitochondrial Metabolism

The scale-free nature of protein sequence space

Features of the Hemostasis and Platelets Enzyme Activity in Patients with Different Sensitivity to Acetylsalicylic Acid by the Acute Coronary Syndrome

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