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Wyświetlanie 1-3 z 3
Tytuł:
Nielokalność i biokoherencja
Nonlocality and Biocoherence
Autorzy:
Molski, Marcin
Powiązania:
https://bibliotekanauki.pl/articles/2013923.pdf
Data publikacji:
2005
Wydawca:
Katolicki Uniwersytet Lubelski Jana Pawła II. Towarzystwo Naukowe KUL
Tematy:
nielokalność
kwantowe splątanie
koherencja
układy gompertzowskie
biokoherencja
nonlocality
quantum entanglement
coherence
Gompertzian systems
biocoherence
Opis:
In a series of quantum experiments performed in 1935-1986 a validity of the quantum theory has been tested. The results obtained have changed the viewpoints of physicists and philosophers on the nature of the Universe and physical reality. In particular, they have changed the traditional West view on the relationship between micro- and macro-level, between a part and the wholeness and between the system and its constituents. From the distinguishing quantum experiments a brief description of the Einstein-Podolsky-Rosen paradox, the Bell’s inequality and the Aspect-Dalibard-Roger experiment is made. The results obtained are important for the concept of the bioplasmatic transfer of information in the living systems, developed by Włodzimierz Sedlak. According to the Sedlak’s idea, the bioplasma is a local concept, so it does not take into account the possibility of a faster then light signaling. Because in the living systems the long-range quantum correlations should appear, the concept of bioplasma should be generalized to include the non-local quantum effects. As a consequence – such a dynamic quantum system as bioplasma has to be non-local – all its elements are connected because of quantum correlations, regardless of the distance between them. A model of the biocoherence for the systems described by the Gompertz function is presented. In this approach, the Gompertz function is a solution of the space-like (tachyonic) Horodecki-Feinberg equation with the time-analog of the Morse potential function. It is shown that Gompertzian systems evolve coherently and non-locally in the space. The presented model admits a continuous and instantaneous transfer of “influences” between micro-level represented by the single cell and the macro-level represented by the biosystem (tissue, organ, organism) as a whole. A consequence is the integration of organism and its coherent development on all levels of the bio-existence.
Źródło:
Roczniki Filozoficzne; 2005, 53, 1; 197-221
0035-7685
Pojawia się w:
Roczniki Filozoficzne
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
On the relationship between fractal geometry of space and time in which a system of interacting cells exists and dynamics of gene expression.
Autorzy:
Waliszewski, Przemysław
Molski, Marcin
Konarski, Jerzy
Powiązania:
https://bibliotekanauki.pl/articles/1044188.pdf
Data publikacji:
2001
Wydawca:
Polskie Towarzystwo Biochemiczne
Tematy:
complexity
neoplasia
fractal
differentiation
fractal dimension
Opis:
We report that both space and time, in which a system of interacting cells exists, possess fractal structure. Each single cell of the system can restore the hierarchical organization and dynamic features of the entire tumor. There is a relationship between dynamics of gene expression and connectivity (i.e., interconnectedness which denotes the existence of complex, dynamic relationships in a population of cells leading to the emergence of global features in the system that would never appear in a single cell existing out of the system). Fractal structure emerges owing to non-bijectivity of dynamic cellular network of genes and their regulatory elements. It disappears during tumor progression. This latter state is characterized by damped dynamics of gene expression, loss of connectivity, loss of collectivity (i.e., capability of the interconnected cells to interact in a common mode), and metastatic phenotype. Fractal structure of both space and time is necessary for a cellular system to self-organize. Our findings indicate that results of molecular studies on gene expression should be interpreted in terms of space-time geometry of the cellular system. In particular, the dynamics of gene expression in cancer cells existing in a malignant tumor is not identical with the dynamics of gene expression in the same cells cultured in the monolayer system.
Źródło:
Acta Biochimica Polonica; 2001, 48, 1; 209-220
0001-527X
Pojawia się w:
Acta Biochimica Polonica
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Onkogeneza i emergencja
Oncogenesis and Emergence
Autorzy:
Molski, Marcin
Chmielarczyk, Wiktor
Pruszyński, Andrzej
Powiązania:
https://bibliotekanauki.pl/articles/2013907.pdf
Data publikacji:
2005
Wydawca:
Katolicki Uniwersytet Lubelski Jana Pawła II. Towarzystwo Naukowe KUL
Tematy:
onkogeneza
nowotwory
nielokalność
kwantowe splątanie
korelacje EPR
emergentyzm
oncogenesis
cancer
nonlocality
quantum entanglement
EPR correlations
emergentism
Opis:
The population, molecular and submolecular (quantum) levels of oncogenesis are considered. The quantum description takes into account the nonlocal Einstein-Podolsky-Rosen correlations, interactions at-the-distance, quantum entanglement and macroscopic quantum coherence. In this approach, cancerogenesis is initiated by destruction of the quantum entanglement of the DNA molecules due to mutation, which leads to appearance of an oncogen and a local decoherence of the organism. In the genetic approach a cancer is the gene disease, whereas in the quantum approach — a disease of the living system. On the basis of the Humphreys criteria, an attempt of the ontological classification of bio- and ontogenesis is made. Those phenomena can be considered in terms of the coherent, synchronic and holistic emergence.
Źródło:
Roczniki Filozoficzne; 2005, 53, 2; 169-187
0035-7685
Pojawia się w:
Roczniki Filozoficzne
Dostawca treści:
Biblioteka Nauki
Artykuł
    Wyświetlanie 1-3 z 3

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