Answer:
Yes, they present everywhere in our environment.
Until recently, prokaryotes did not contain linear plasmids or chromosomes, but they have since been discovered in spirochaetes, Gram-positive bacteria, and Gram-negative bacteria. Bacterial linear DNA has been classified into two structural kinds. Each end of linear plasmids from the spirochaete Borrelia has a covalently closed hairpin loop, while each end of linear plasmids from the Gram-positive filamentous Streptomyces has a covalently connected protein. In eukaryotic cells, replicons with comparable structures are more common than in prokaryotes. However, linear genomic architectures are likely more widespread in bacteria than previously thought, and some replicons may be able to switch between circular and linear isomers. The molecular biology of these widely scattered pieces reveals information about the origins of linear DNA in bacteria, including evidence of prokaryote-eukaryotes genetic exchange.
Phenyl oxalate ester is responsible for the luminescence in a glow stick<span>. The reaction with hydrogen peroxide </span>causes<span> the liquid inside a </span>glow stick to glow<span>. These chemicals can sting and burn eyes, irritate and sting skin and can burn the mouth and throat if ingested.</span>
(A) Mitosis has occurred, where healthy eukaryotic cells divide to form new cells.
Hello!
For the complementary strand of DNA, 36 Thymine bases and 24 Guanine bases would complete the proper base pairing.
This is given by the concept of complementarity. A base in DNA has complementarity with only one other base. This complementarity is produced by hydrogen bond interactions.
For DNA, Adenine couples with Thymine and Cytosine couples with Guanine. So the 36 adenine bases will couple with 35 thymine bases, and so on.
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