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Efim Liberman toward the comprehension of the phenomenon of life
Efim Liberman toward the comprehension of the phenomenon of life
Efim Liberman toward the comprehension of the phenomenon of life
2022
Biosystems
2022
Biosystems
2022
Biosystems
V. 215-216
V. 215-216
doi.org
Abstract
Abstract
АННОТАЦИЯ
АННОТАЦИЯ
Efim Liberman was a proud scholar of biophysics - a genuine scientific discipline that strives for high accuracy in contrast to descriptive biology. He played a major role at the Pushchino Institute of Biophysics and participated in Gelfand’s famous seminar. He developed a groundbreaking model of neural impulses and discovered the decisive role of cell membranes and membrane channels in neural cell excitation. Efim Liberman studied artificial and biological membranes, and conducted seminal experiments to proof Mitchell’s hypothesis of oxidative phosphorylation. He discovered penetrating ions in pioneering studies of mitochondrial electrical energetics. He put forward a trailblazing idea of an intracell analog-digital molecular computer capable of using genetically coded algorithms for processing information. His ideas and research gave impetus to academic studies in various areas, such as a role of small RNАs as universal regulators of life. Efim Liberman was an outstanding, versatile and bright personality whose lifelong journey was to pursue the comprehension of the Universe and to understand the phenomenon of life.
Efim Liberman was a proud scholar of biophysics - a genuine scientific discipline that strives for high accuracy in contrast to descriptive biology. He played a major role at the Pushchino Institute of Biophysics and participated in Gelfand’s famous seminar. He developed a groundbreaking model of neural impulses and discovered the decisive role of cell membranes and membrane channels in neural cell excitation. Efim Liberman studied artificial and biological membranes, and conducted seminal experiments to proof Mitchell’s hypothesis of oxidative phosphorylation. He discovered penetrating ions in pioneering studies of mitochondrial electrical energetics. He put forward a trailblazing idea of an intracell analog-digital molecular computer capable of using genetically coded algorithms for processing information. His ideas and research gave impetus to academic studies in various areas, such as a role of small RNАs as universal regulators of life. Efim Liberman was an outstanding, versatile and bright personality whose lifelong journey was to pursue the comprehension of the Universe and to understand the phenomenon of life.
Efim Liberman was a proud scholar of biophysics - a genuine scientific discipline that strives for high accuracy in contrast to descriptive biology. He played a major role at the Pushchino Institute of Biophysics and participated in Gelfand’s famous seminar. He developed a groundbreaking model of neural impulses and discovered the decisive role of cell membranes and membrane channels in neural cell excitation. Efim Liberman studied artificial and biological membranes, and conducted seminal experiments to proof Mitchell’s hypothesis of oxidative phosphorylation. He discovered penetrating ions in pioneering studies of mitochondrial electrical energetics. He put forward a trailblazing idea of an intracell analog-digital molecular computer capable of using genetically coded algorithms for processing information. His ideas and research gave impetus to academic studies in various areas, such as a role of small RNАs as universal regulators of life. Efim Liberman was an outstanding, versatile and bright personality whose lifelong journey was to pursue the comprehension of the Universe and to understand the phenomenon of life.
Efim Liberman was a proud scholar of biophysics - a genuine scientific discipline that strives for high accuracy in contrast to descriptive biology. He played a major role at the Pushchino Institute of Biophysics and participated in Gelfand’s famous seminar. He developed a groundbreaking model of neural impulses and discovered the decisive role of cell membranes and membrane channels in neural cell excitation. Efim Liberman studied artificial and biological membranes, and conducted seminal experiments to proof Mitchell’s hypothesis of oxidative phosphorylation. He discovered penetrating ions in pioneering studies of mitochondrial electrical energetics. He put forward a trailblazing idea of an intracell analog-digital molecular computer capable of using genetically coded algorithms for processing information. His ideas and research gave impetus to academic studies in various areas, such as a role of small RNАs as universal regulators of life. Efim Liberman was an outstanding, versatile and bright personality whose lifelong journey was to pursue the comprehension of the Universe and to understand the phenomenon of life.
chaimatics
Chaimatics
Discovery of links between the biology, physics and mathematics, and founding a new area of studies focused on computations in living systems are his life achievements. Efim Liberman gave the name of “Chaimatics” to this new area of science
I
DNA is the text of a code written for molecular computers of living cells. The notion of “Text” is intrinsically opposite to a random sequence of symbols, and it can exist only inside the system of language. In this case, it is a genetic language, which is isomorphic to a natural language
II
Computations conducted in a living cell are real physical actions, and free energy and time must be spent for completing them. As all living organisms are comprised of cells, this statement is applicable to any control processes implemented in the biosphere
III
Molecular computations are limited by the microscopic scale of a cell and inevitable impact of the computations on formulation of a problem begin solved. The Chaimatics grew from the recognition of the computation reality as the quantum mechanics grew from the recognition of the measurement reality.
IV
A cell creates а quantum computing tool for solving complex problems. This tool utilizes hypersound quanta, and uses the cell cytoskeleton as the computing environment. In such a computer, a price of elementary computation converges to the physical limit, which is Planck’s constant
Chaimatic's statements are simple, but they require a change in the traditional vision, rooted in scientific practice
Read a book
Chapter I
The journey of life in science
chaimatics
хаиматика
хаиматика
Итогом жизни в науке стало установление связей между биологией, физикой, математикой и новая область исследования, посвященная вычислениям в живых системах. Ефим Либерман дал имя новой науке: «Хаиматика»
I
ДНК – это текст программы для молекулярных компьютеров клеток. «Текст» по определению не случайная последовательность знаков и может существовать только внутри языковой системы. В данном случае это генетический язык, изоморфный естественному языку
II
Вычисление в живой клетке является реальным физическим действием и требует затрат свободной энергии и времени. Поскольку все живые организмы состоят из клеток, это относится ко всему управлению, которое осуществляется в биосфере
III
Молекулярные вычисления ограничены микроскопическим объемом клетки и принципиальной возможностью влияния вычисления на условия решаемой задачи: квантовая механика возникла из осознания реальности измерения, Хаиматика - из реальности вычисления
IV
Для решения сложных задач клетка создает устройство квантового вычисления, использующего кванты гиперзвука и клеточный цитоскелет, как вычисляющую среду. Цена вычисления в таком компьютере стремится к физическому пределу – постоянной Планка
Утверждения Хаиматики просты, но они требуют изменения традиционных представлений, принятых в научной практике
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Глава I
Как все начиналось
хаиматика