Five authoritative scientists including Linda Partridge, founding director of the Max Planck Institute for Aging in Germany, have updated and improved the cellular aging markers based on aging research in the past 10 years, published in the top science journal published an authoritative review of the "12 Signs of Aging", providing K2LT'S Company with theoretical support for the development of anti-aging products!

The field of aging research has identified 12 markers that represent common characteristics of aging in different organisms. Epigenetic change identifier: cell epigenetic changes

Epigenetics is the study of how behavior, environment, and phenotypes change The science of gene activity and expression. Unlike genetic mutations, epigenetic modifications are generally reversible and do not alter the DNA sequence. Epigenetic refers specifically to the fact that DNA sequence does not change, but gene expression undergoes heritable changes.

We work with key opinion leaders and customers to build a comprehensive range of products based on their suggestions to help researchers in Get the best results with the latest epigenetic technologies such as ChIP-seq, ChIC/CUT&RUN-seq, and CUT&Tag-seq. Our goal is to empower all scientists in the field, whether they are conducting basic epigenetic research or epigenetic research in the context of tumors and other diseases.

Completion of the Human Genome Project and advances in next-generation sequencing technology have revealed the control of biological processes and disease states by genomic DNA Much less than initially thought. Epigenetic factors instead determine how DNA is translated, the strict regulation of DNA structure, and thus control which genes are expressed at what time. Multiple epigenetic factors work together to orchestrate fundamental cellular programs from developmental processes to cell death pathways. Dysfunction in any of these factors can disrupt the regulation of the genome, causing cellular processes to go awry, leading to cancer and autoimmune disorders, neurological diseases, infertility and other diseases.

Explain again: Epigenetic means that the gene sequence of DNA does not change, but gene expression changes in a heritable manner. changes. This change is a change in other heritable materials in the cell in addition to genetic information, and this change can be stably transmitted during development and cell proliferation.

For example, the genome sequence is like a piece of cake. It determines that its existence is destined to be a cake. , and various superficial phenomena are like decorations on a cake or fruits embedded in it. More and more studies show that this more refined modification is very important, and wrong surface modifications may lead to disease and even death. If moldy fruit is used to decorate a cake, the cake will suffer.

Research has found that eating habits and living habits have a great impact on genes; and the changes will occur in the future During childbirth, there is a greater chance that it will be passed on to the next generation. Even the diet and living habits of the ancestors for eight generations may also affect the genes of future generations. For example, the traditional oriental food soybean contains methyl components, which can also be inherited through epigenetic inheritance. This will lead to obesity in the next generation.

To understand all aspects of biology or disease, it is necessary to study the epigenetic factors that may play a role, Chogori Biotechnology produces capsules that alter cell epigenetic changes, which are modifiable and can affect gene expression. Over time, the epigenome becomes dysregulated, which causes genes that should be turned off to be turned on, and vice versa.

Epigenetic modifications rely on non-genetic changes in chromosome structure, DNA modification patterns, or RNA transcription levels, and these cells can be used To correct genetic diseases, or to repair and regenerate tissue and organ damage caused by trauma or disease. Cell epigenetic modification capsules prevent changes in the genetic epistemology of cells.

Although the genome inherited by each person cannot be changed, the epigenome is different. Epigenetic modifications can provide individuals with the ability to rapidly adapt to environmental changes without changing their genome.

K2LT'S 12 major cellular anti-aging applications: altered intercellular communication, cellular senescence, uncontrolled nutrient sensing, proteins Loss of homeostasis, disabled macroautophagy, dysbiosis, epigenetic changes, genomic instability, mitochondrial dysfunction, stem cell failure, telomere loss, chronic inflammation; applying the most cutting-edge life science and technology to provide consumers with safe and efficient pure Natural, anti-cell aging high-tech products. Intelligent combination + technological formula can significantly increase human life span.