: Micro-organisms show many quantum effects and usually exchange information with each other through quantum particles like electrons, photons and some micro-bubbles with ½,1,.. spins. We can summarize some of these quantum effects as 1. DNAs, membranes, emitted ions and other elements of microbes are formed from charged particles and by their motions, some quantum waves are emerged. Some of these structures show quantum spinning behavior and could interact with other spinors. These micro-organisms and their emitted charges and gases may be confined by water molecules and form some quantum spinning micro-bubbles. These micro-organisms and also their related micro-bubbles could interact with some external magnetic fields like earth’s one and their spins become parallel or anti-parallel respect to them. 2. DNAs, membranes and charges around micro-organisms or within the micro-bubbles could absorb photons of a light source, excited and produce new photons with different frequencies. This causes to the emergence of rainbow colors around microbes or micro-bubbles. These colors could be used in diagnosing type of microbe or micro-bubble specially in conditions that chemical coloring cause to missing many facts about evolutions of system. 3. By using multi-gonal lamps as the light source, one can induce several photonic lines in micro-bubbles around the microbes and control their behaviors. It is interesting that micro-bubbles take the shape of macro-light source and microbes within them interact with each photonic line separately. 4. In addition to micro-bubbles, micro-organisms could build some biological colonies which their shapes are similar to the multi-gonal light source. 5. It seems that microbes under lenses of microscope see the macro-objects in their size. This means that as lenses of microscopes produce big images of microbes for us from one side, make some small images of macro-objects in the scale of microbes from other side. Microbes usually have some sensors or gates in their membranes which absorb photons and feel any change in light. For example, if one put a macro- object on the eye-lens, photons of light source pass the lenses, collide with it and return to microbes. Then, microbes feel this change and interact with shadow or image of that object. 6. Some micro-organisms like chloroplasts or cyanobacteria have electronic transport and exchange some ions and charges with medium. If one put two parts of a leaf on the metal with a separation distance from each other, chloroplasts shoot electrons and ions. These ions act like some spinors , are surrounded by water molecules and form some micro-bubbles. These spinning micro-bubbles interact with each other and form some biological lines which are strength from one part of a leaf to another one. 7. Sometimes, some microbes also interact with chloroplasts and exchange ions and electrons with them. These microbes also maybe form micro-bubbles, join to each other and produce biological lines. 8. Water memory could be also used as a quantum method in communicating between cells. A dirty water which was near some cells like plant ones or blood cells, store their electronic properties like ions, charges and photons even after removing cells. This water could produce some micro-bubbles which transform these properties to some target cells within the clean water.