Cytokines can affect their host cells (autocrine), neighboring cells (paracrine), and distant cells (endocrine) in some cases. They have the distinct advantage of allowing critical features of reaction development to be neglected when only one cytokine is assessed.
Furthermore, when these protein clusters are evaluated simultaneously, the cascade of normal cytokines can be more easily recognized, leading to a better understanding of the illness process and subsequent treatment. This is becoming increasingly desirable in laboratory medicine. You can get full information on laboratory medicine at www.bosterbio.com/multiplex-elisa-kit-for-human-cytokine-4-plex-mek1014-boster.html.
Image Source: Google
The concept that a single molecule could have many different biological activities was viewed with skepticism at first, but the emergence of molecular cloning of cDNA cytokines and the subsequent formulation of recombinant forms has cast doubt.
With this instrument, cytokine research has made rapid progress and exposes it to a multifunctional biological agent in a wide variety of human conditions. Recombinant cytokines also provide antigens for antibody production, resulting in rapid antigen count using ELISA or ELISA-based technologies such as biochip array technology.
Microbial disease stimulates the release of various cytokines that exercise various mechanisms to resist invasion. For example, to facilitate phagocyte-mediated killing, reactive oxygen species are created, cells move to the infection site, and coagulation is aided.
At the same time, additional cytokines aid dendritic cells in presenting antigens to bacteria, causing neutralizing antibodies to be produced.