NO! Dexoyribnucleic acid is an acid, and is found in chromosomes in wich the DNA is compacted.
Negative results for DNA extraction from muscle tissue can occur due to several factors. The muscle tissue may not have been adequately homogenized, preventing effective cell lysis. Additionally, if the sample was degraded or improperly stored, the DNA could be fragmented or contaminated. Lastly, the extraction protocol may not be optimized for the specific type of muscle tissue being processed.
It is usually done to obtain genes for antibodies.
It is difficult to extract DNA from fat tissue because of the high lipid content in the cells. Lipids can interfere with the DNA extraction process by binding to the DNA and preventing it from being isolated effectively. Specialized protocols and reagents are needed to remove the lipids and extract the DNA successfully from fat tissue.
Transitional tissue is a type of epithelial tissue.
It serves to break the tissue apart so the DNA can be subsequently extracted.
The amount of tissue needed to perform a DNA analysis varies depending upon the type of test needed and the quality of the tissue itself. If the tissue is decomposed the alternative would be to use bones or teeth.
The results of the DNA test conducted on the Miracle of Lanciano showed that the flesh and blood samples were human cardiac tissue and blood type AB, which is a rare blood type.
sperm blood hair with attached tissue
In the mitochondria
It is usually done to obtain genes for antibodies.
It is difficult to extract DNA from fat tissue because of the high lipid content in the cells. Lipids can interfere with the DNA extraction process by binding to the DNA and preventing it from being isolated effectively. Specialized protocols and reagents are needed to remove the lipids and extract the DNA successfully from fat tissue.
The tissue is a connective tissue! :)
Transitional tissue is a type of epithelial tissue.
Muscle tissue is not a type of connective tissue. Connective tissue includes types such as adipose tissue, cartilage, bone, and blood.
DNA is a type of nucleic acid.
It serves to break the tissue apart so the DNA can be subsequently extracted.
it's a tissue cell in your knee called phoenominoses