Antibiotic Resistance Genes: Boon or Bane?

Bacteria are very dynamic organisms in nature and possesses exclusive ability to uptake foreign DNA and replicate them. This unique ability works in their favor to survive environmental changes and evolution. For instance, bacteria can uptake DNA that makes human insulin which can be useful to treat type I Diabetes. This very reason makes bacteria the most popular organism, that is widely used in research for amplifying desired gene and the process is called bacterial transformation. Bacterial transformation was first reported in 1928 by Griffith [1] in Streptococcus pneumoniae where some bacteria take up foreign genetic material from environment by horizontal gene transfer (HGT). In research labs the bacterial DNA (plasmid) can be used as a medium or vector to carry foreign DNA into a cell. The plasmid is mainly divided into 3 components, an origin of replication (specific sequence where DNA replication begins), a multiple cloning site (recognition sites for specific restriction enzymes to cut the plasmid and insert gene of interest) and a resistance gene (gene codes for a protein the bacteria need to survive in a selection growth medium).


Introduction
Bacteria are very dynamic organisms in nature and possesses exclusive ability to uptake foreign DNA and replicate them. This unique ability works in their favor to survive environmental changes and evolution. For instance, bacteria can uptake DNA that makes human insulin which can be useful to treat type I Diabetes.
This very reason makes bacteria the most popular organism, that is widely used in research for amplifying desired gene and the process is called bacterial transformation. Bacterial transformation was first reported in 1928 by Griffith [1] in Streptococcus pneumoniae where some bacteria take up foreign genetic material from environment by horizontal gene transfer (HGT). In research labs the bacterial DNA (plasmid) can be used as a medium or vector to carry foreign DNA into a cell. The plasmid is mainly divided into 3 components, an origin of replication (specific sequence where DNA replication begins), a multiple cloning site (recognition sites for specific restriction enzymes to cut the plasmid and insert gene of interest) and a resistance gene (gene codes for a protein the bacteria need to survive in a selection growth medium). Initial ignorance can be very costly mistake in the downstream process. These plasmids can be used in variety of fields (for instance agrobacterium in agriculture) to obtain genetically modified organisms (GMO's). Agro-GMO's are mainly grown to either enhance the herbicide effects (i.e. eliminate weeds without harming the crops) of crops [2], enhance insecticide effects of crops [3] or to enhance the yield and quality, to provide pest resistance against specific target insects [4].

ARG's are powerful Tool in Biotechnology
from Pearl and Haihe rivers [12]. There is a worldwide trend of ARG's contaminating water sources, plenty of microorganisms have develop resistance against broad range of antibiotics in all the sources of waste disposal such as medical waste, biohazard wastes, animal waste waters, sewage and waste water treatment plants furthermore they are also found in natural water such as underground water, surface water, drinking water [13,14].

ARG's are immortal threat to living Being
ARG's are utilized to survive the selection pressure in the lab, on the contrary ARG's can evolve to survive the selection pressures of environment but they cannot be destroyed when the selection pressure is removed from the environment [15,16]. According to study published in Frontiers in Immunology, 2017 bacteria in the gut are most vulnerable to HGT of ARG's and other drug resistant genes from GMO food sources as Gut provides constant optimal conditions such as stable temperature, physicochemical conditions, constant nutrient supply (food we eat), extreme high concentration of microbial cells in the gut, foreign lethal DNA from GMO's and numerous chances of conjugation on the surface of gut tissue and food particles. These conditions make gut microflora most capable, dynamic, and easily transformable system to ARG's. [17].

Conclusion
ARG's being the most powerful tool for research should be used and disposed of responsibly within laboratory. These biological pollutants are immortal in nature and well known as 'easy-to-get, hard-to-lose just as any organic, heavy metal or plastic pollutants [15,16]. These ARG's were introduced in environment in the form of GMO's to get enhance yield, pest & weed resistant properties in crops and over the period of years, these ARG's have been slowly incorporating in human genes. According to WHO (world health organization) the economic burden of antibiotic resistance on healthcare is being estimated up to $55Billion per year in the US and is estimated to increase up to $100 Trillion by 2050. It is essential to conduct more studies and come up with innovative methodologies and technologies to replace use of ARG's and all other such resistance genes that end up in environment and cause more harm than good.

Conflict of Interest
There is no conflict of interest