NON CODING DNA.pptx

NON CODING DNA (INTRONS)
ALSO CALLED JUNK DNA.
Non-coding DNA corresponds to the portions of an organism's genome that do not code for amino acids, the building blocks of proteins. Some non-coding DNA sequences are known to serve functional roles, such as in the regulation of gene expression, ...

NON CODING DNA (INTRONS)
ALSO CALLED JUNK DNA.
Non-coding DNA corresponds to the portions of an organism's genome that do not code for amino acids, the building blocks of proteins. Some non-coding DNA sequences are known to serve functional roles, such as in the regulation of gene expression, while other areas of non-coding DNA have no known function.Non-coding DNA is a type of DNA that does not code for proteins, but it could have functions related to the regulation of gene expression. The percentage of non-coding DNA content varies between species, but it's approximately 98% in humans.

A significant portion of DNA was though to have no important biological function, and thus it was given the nickname "junk" DNA. A research study named "ENCODE," however, has revealed that around 80% of human junk DNA does seem to have relevant biochemical functions, due to its access to proteins such as transcription factors.

Non-coding DNA can also code for RNA molecules such as microRNA (which is used to blocked translation), ribosomal RNA (which are used to build ribosomes), and transfer RNA (which is used in the process of translation. DNA that has previously been shown to have no biological function are still deemed important due to their high degree of homology and their conservation during evolution. Furthermore, some of the functions of non-coding DNA are yet to be fully understood.

Non-Coding Regions of DNA
Non-coding regions of DNA are defined as regions that do not directly contribute to protein synthesis. Non-coding regions can fall into the form of introns within genes, satellite DNA, telomeres, and regulatory sequences such as promoters.
Non-coding DNA is a type of DNA that does not code for proteins, but it could have functions related to the regulation of gene expression. The percentage of non-coding DNA content varies between species, but it's approximately 98% in humans.

A significant portion of DNA was though to have no important biological function, and thus it was given the nickname "junk" DNA. A research study named "ENCODE," however, has revealed that around 80% of human junk DNA does seem to have relevant biochemical functions, due to its access to proteins such as transcription factors.

Non-coding DNA can also code for RNA molecules such as microRNA (which is used to blocked translation), ribosomal RNA (which are used to build ribosomes), and transfer RNA (which is used in the process of translation. DNA that has previously been shown to have no biological function are still deemed important due to their high degree of homology and their conservation during evolution. Furthermore, some of the functions of non-coding DNA are yet to be fully understood.