Bacteria are differnet in many unique ways such as their shape. There are rod, sphere, and spiral shaped bacteria. There are also archaebacteria and eubacteria. Archaebacteria need no oxygen while others do. They also grow at different rates, their environment is different, etc. Pretty cool, isn't it?? Bacteria are differnet in many unique ways such as their shape. There are rod, sphere, and spiral shaped bacteria. There are also archaebacteria and eubacteria. Archaebacteria need no oxygen while others do. They also grow at different rates, their environment is different, etc. Pretty cool, isn't it??
The process by which one strain of bacteria is apparently changed into another strain is called bacterial transformation. This process involves the uptake and expression of foreign DNA by bacteria, leading to genetic changes.
Prokaryotes are non-nucleated cells. That is, the genetic material is not contained within a nucleus, like eukaryotes, but is distributed around the cell. Bacteria are an example of prokaryotes, and one would be relatively safe using this as a substitute. Bacteria is another name for a prokayote.
Two principal organelles of eukaryotes that share features with one another and with bacteria are the mitochondria and chloroplasts. Both organelles have their own DNA and ribosomes, similar to bacteria, and are thought to have originated from ancient endosymbiotic bacteria that were engulfed by early eukaryotic cells.
bacteria and Archea is another name for prokaryotes.
bacteria duhhh:D
no
No
Bacteria are prokaryotes.
what are three ways that ocean zones differ from one another
yes
it differs by the vibrations
Organisation. Bacteria have cellular level of organisation and humans have organ system level of organisation.
some genes are skinny some are boot cut but bacteria are bacteria
Electromagnetic waves differ in there properties because of the difference in there frequency
Rocks differ due to texture, hardness, color and shape.
Rocks differ due to texture, hardness, color and shape.
Monosaccharides differ from one another in the following ways: The number of carbon atoms they contain. The orientations of their hydroxyl group. The location of their carbonyl group.