The RNA Genome Sequencing Demonstrates Increased Production of Metabolic Genes in Late Ages in Highly Differentiated Tissues DOI Open Access
Lev Salnikov,

Saveli Goldberg,

Eugene Pinsky

и другие.

Medical Research Archives, Год журнала: 2023, Номер 12(1)

Опубликована: Янв. 1, 2023

In this paper, we continue statistical analysis of RNA-Seq results the whole genome Mus musculus during their lifetime. We propose that implementation developmental program by cells and transition to active performance functions is main mechanism aging. The data obtained confirm basis our ideas triggering aging processes embedded in very "design" multicellulars. Previously, noted a gradual decrease RNA production part responsible for cellular infrastructure. At same time, rise level genes late ages. hypothesized associated with increased demand energy maintain weakening organism. identified block 24 most productive metabolic activity cell. As shown analysis, it was these appeared be overall infrastructural period. also structures organism pronounced highly differentiated tissues. For purpose, distinguished two groups tissues, according mitotic index. show found ages due synthesis expressed only group tissues low plan further investigate age-related dynamics proteome, comparing other databases identify similar patterns them.

Язык: Английский

Aging mechanisms and their relationship with the ontogenesis program: a narrative review DOI
Lev Salnikov

Aging advances., Год журнала: 2024, Номер 1(2), С. 112 - 117

Опубликована: Дек. 1, 2024

The main challenge in understanding the mechanisms and causes of aging is that separating consequences from its very difficult. This review presents our perspective on underlying their relationship with process ontogenesis. present data show discrimination RNA production for part genome responsible cellular infrastructure, which begins after fertility reached. also at level translation, as shown by evidence age-related changes distribution between membrane-bound free ribosomes cells, where number decreases age. provides an assessment useful information hallmarks terms importance aging. A direction rejuvenation presented, follows leads to idea autocloning, designed stop principle proposed method initiate a periodic autocloning cell nucleus. In such division, two daughter nuclei are formed, one self-liquidated, leaving renewed nucleus without physical division itself. process, when started periodically, allows be nullified or stopped “cellular age” initiated.

Язык: Английский

Процитировано

0
The RNA Genome Sequencing Demonstrates Increased Production of Metabolic Genes in Late Ages in Highly Differentiated Tissues DOI Open Access
Lev Salnikov,

Saveli Goldberg,

Eugene Pinsky

и другие.

Medical Research Archives, Год журнала: 2023, Номер 12(1)

Опубликована: Янв. 1, 2023

In this paper, we continue statistical analysis of RNA-Seq results the whole genome Mus musculus during their lifetime. We propose that implementation developmental program by cells and transition to active performance functions is main mechanism aging. The data obtained confirm basis our ideas triggering aging processes embedded in very "design" multicellulars. Previously, noted a gradual decrease RNA production part responsible for cellular infrastructure. At same time, rise level genes late ages. hypothesized associated with increased demand energy maintain weakening organism. identified block 24 most productive metabolic activity cell. As shown analysis, it was these appeared be overall infrastructural period. also structures organism pronounced highly differentiated tissues. For purpose, distinguished two groups tissues, according mitotic index. show found ages due synthesis expressed only group tissues low plan further investigate age-related dynamics proteome, comparing other databases identify similar patterns them.

Язык: Английский

Процитировано

0