Protein stabilisation and immobilisation in three dimensions- the suffice in identifying single cell issues related to the protein fixation What is meant by protein stabilisation and immobilisation? Protein stabilisation and immobilisation mean the process through which medical officials identify a problem or disease in a patient's body with the help of advanced technologies and techniques like RNA sequencing that helps to identify a single faulty gene and then officials can fix the protein or stabilise the cell that was causing trouble or can even immobilise a cell that tends to spread.
But why in three dimensions?
Well from the traditional ages, medical professionals have pushed their limits and put a lot of effort into improving the technologies and introducing new advanced methods to treat diseases and problems. Whether it is an external factor that causes cell damage or internal ones, our medical faculties have got it covered and the advancement and improvement of both sectors are termed as three dimensional. What is the process involved in identifying and analyzing the single-cell RNA to determine the fault? Well, the steps include: ~ The RNA is collected from the sample and is isolated from the blood tissues and the associated tissues that are mixed. Then the pure RNA is dripped into a base of DNA solution to make it prominent and then with the help of electrophoresis and a gel base, it is easier to determine the RNA features and numbers. ~ the next method includes the selection or depletion of the RNA in a transcriptome. This method indulges various 3rd party solutions to make the experiment viable. ~ inducing DNA synthesis. The RNA is reversed with the help of a DNA base that is more stable and which allows the percolation for better results. Though the strands of RNA can dilute with the base solution that can be easily avoided with the help of other chemical induces. Apart from these, there are many other components of RNA sequencing that include small RNA seq, direct sequencing and single-cell RNA sequencing. The single-cell RNA sequencing is reacted with different bases to get the correct reading and identification that is accurate. This helps in the identification of a tumour that grows inside or to treat a cell infected by external factors. This scientific method has the power to identify the cause and composition of a single cell from the thousands of cells that can be treated within time. This process is also effective for applications in the nervous system. When there is a single nerve that is having changes and which causes difficulties, with the help of this RNA sequencing that nerve can be easily detected within a few steps and then the diagnosis can be possible.