How to manipulate matabolic changes in a cell?
Best insight from top research papers
Metabolic changes in a cell can be manipulated through various methods. One approach is to use a pulsed optical field to generate cavitations near conductive nanoparticles, which can result in cell damage or fusion . Another method involves contacting the cell with a toporythmic protein or its fragment, which can manipulate cell differentiation . Additionally, depositing a metal onto a substrate and irradiating it with laser pulses can create surface structures that can affect cell manipulation . Manipulating the fate of a cell can also lead to metabolic changes, such as cell regeneration, differentiation, or death. This can be achieved by contacting the cell with cell fate-determining untranslated/noncoding RNA species or compounds that affect fate-determining mechanisms involving nucleic acid interactions .
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| Papers (5) | Insight |
|---|---|
| The provided paper does not specifically mention how to manipulate metabolic changes in a cell. The paper focuses on manipulating the fate of cells through the use of untranslated/noncoding RNA species and compounds that affect cell fate-determining mechanisms. | |
| The provided paper does not specifically mention how to manipulate metabolic changes in a cell. The paper is about methods for manipulating cell differentiation using toporythmic proteins. | |
| The provided paper does not specifically mention how to manipulate metabolic changes in a cell. The paper discusses a method for manipulating a living cell using pulsed optical fields and conductive nanoparticles to effect cell damage or cell fusion. | |
| The provided paper does not specifically mention how to manipulate metabolic changes in a cell. The paper is about a method and system for manipulating cells using metal deposition and laser irradiation. | |
| The provided paper does not specifically mention how to manipulate metabolic changes in a cell. The paper is about a method and system for the manipulation of cells using metal deposition and laser irradiation. |
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