Abstract
generated in the process of these reactions themselves, and for which it was not required from the outside. In the process of further evolutional development and specialization of biochemical reactions, specialized proteins took on the role of catalysts–enzymes, and the role of genetic information carrier remained to be performed by RNA. These autocatalytic reactions are already able to enter in interactions with each other and generate more complex structures, referred to as hypercycles. A hypercycle is a means of merging selfreproducing macromolecules in closed autocatalytic chemical cycles. A hypercycle is several cyclic reactions organized in the way that by-products of one reaction are catalysts of the other one, and the last reaction produces catalysts for the first one. This is a means of merging of self-reproducing units in a new stable system capable of evolution 1 (pр.18–29). One of the reasons for
Highlights
Modern theories on the carcinogenesis cannot explain the process of cancerous progression, i.e. the process of creation of new cancerous cell clones
We subsequently refer to these simplest RNA replication forms as RNA world
Empirical Data Shared ferments as a kind of hypercyclic link of a cancerous hypercycle dsRNA can be a cyclic reaction which serves as the base for a cancerogenic hypercycle created by RNA interference, and any ferment able to cause RNA-dependent RNA replication can be the enzyme
Summary
Modern theories on the carcinogenesis cannot explain the process of cancerous progression, i.e. the process of creation of new cancerous cell clones. Empirical Data Shared ferments as a kind of hypercyclic link of a cancerous hypercycle dsRNA can be a cyclic reaction which serves as the base for a cancerogenic hypercycle created by RNA interference, and any ferment able to cause RNA-dependent RNA replication can be the enzyme.
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