The Bacterium X Project

The weather in Atlanta is threatening the rain outside the Disease Control Headquarters, home of the world's most powerful microscope. In the famous laboratory, the two doctors were deeply immersed in their research and worked independently. Soft Humming from machine fans concentrates their attention to subconscious levels. In the past few hours, the distortion caused by the pressure caused by the bending of his work shook his head. He stood up and stretched out, jumped into the lab and exercised, then entered a quiet place next to him and was called astronomer at the California Institute of Technology.

Yesterday, from a laboratory at the University of Calgary, my experiments confirmed that my poetry code X - P 13 actually caused E. coli to emit red light. Poems (beginning with "What lifestyle begins / creative ...?") Certainly writes its own poems accordingly ("Fairy is rosy / is shining .. I finally proved the feasibility of genes (I spent about a year on design)

Let's look at some of the main differences between bacteria and viruses. Bacteria are small creatures of simple living cells. Because it consumes energy as it is alive, food energy is necessary to maintain life. Bacteria are only a small percentage of bacteria that can cause disease. Healthy bacteria can reproduce from myself by dividing itself into two parts. On the other hand, viruses are not alive - they are essentially just DNA or RNA flows. Viral particles are completely inactive before hijacking the appropriate host cells. The only way to propagate the virus is to hijack living cells from susceptible species without doing anything.

Life itself is an example of a new property. For example, single-celled bacteria are alive, but if you isolate and combine large molecules that produce bacteria, these units will not live. Based on our understanding of macromolecules, we can not predict that they can combine to form organisms, or that we can predict all the characteristics of the resulting bacteria. Therefore, understanding the physical and chemical properties of low-level tissues helps to understand only certain characteristics of an organism, thereby hampering the use of simplified methods. No matter how we understand the physics and chemistry of life systems, we recognize that the life system and other highly integrated levels have new unique properties through combinations of lower level material units (Novikoff, 1945).