HE EMERGENCE OF MOLECULAR BIOLOGY
Keywords:
molecular biology, science and innovations, new methods, medical stuff, different operations.Abstract
The field of atomic science has without a doubt changed how we might interpret the key components that oversee the living scene. Rising up out of the union of different logical disciplines, including hereditary qualities, organic chemistry, and biophysics, sub-atomic science has turned into a foundation of present-day science, giving significant experiences into the mind-boggling operations of cells and the perplexing cycles that support life. This article will dig into the authentic turn of events, key disclosures, and the extensive ramifications of this dynamic and always developing field.
References
Avery OT, MacLeod CM, McCarthy M (1944) Studies on the chemical nature of the substance inducing transformation of pneumococcal types. J Exp Med 79: 137–158
Ellis EL, Delbrück M (1939) The growth of bacteriophage. J Gen Physio 22: 365–384
Gamow G (1954) Possible relation between deoxyribonucleic acid and protein structures. Nature 173: 318
Gibbs WW (2003) The unseen genome: gems among the junk. Sci Am 289: 46–53
Hershey AD, Chase M (1951) Independent functions of viral protein and nucleic acid in the growth of bacteriophage. J Gen Physio 36: 35–56
Kellenberger E (1995) History of phage research as viewed by a European. FEMS Microbial Rev 17: 7–24
Beutler, M., Homann, A. R., Mihalic, M., Plesnik, S., Niebling, L., Eckart, M., ... & Hoffmann, H. (2021). Rapid tuberculosis diagnostics including molecular first-and second-line resistance testing based on a novel microfluidic DNA extraction cartridge. The Journal of Molecular Diagnostics, 23(5), 643-650.
Saifutdinov, Z. (2021). Molecular Determinants of Isoniazid Drug Resistance Mycobacterium tuberculosis. EC Pulmonology and Respiratory Medicine, 10, 63-68.
