Genome Editing is a process by which alterations are made to the DNA (genetic material) of an organism. These genetic alterations can cause changes in physical traits like hair colour, eye colour, body height, etc. Editing can be done on somatic cells as well as germline cells. This process has manyRead more
Genome Editing is a process by which alterations are made to the DNA (genetic material) of an organism. These genetic alterations can cause changes in physical traits like hair colour, eye colour, body height, etc. Editing can be done on somatic cells as well as germline cells. This process has many prospects for example, it can be used to prevent, treat or cure certain diseases.
Inspite of the benefits this technology offers, there are various ethical issues involved.
Some concerns are:
1) Some arguments say that when germline genome is edited, there is alteration in the genome of embryo at its earliest stages, which may effect every cell. This means that it has an impact not only on the person who may result, but also on his/her descendants.
2) Should people be allowed to use this technology to embrace basic human characteristics like height or skin colour?
3) It is difficult to ensure that people completely understand the risks and benefits involved with altering their genome.
4) The high cost of genome editing may make it available only to the wealthy section of society, thus ensuring fair and equitable access is a big challenge.
5) Genetically engineered humans may feel alienated from themselves or feel a confused identity.
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Roles of Introns in DNA: 1. Introns, previously thought of as useless DNA, have significant functions in controlling gene expression. They enable alternative splicing, enabling one gene to create various proteins, thus enhancing protein variety without increasing genome size. 2. In addition, intronsRead more
Roles of Introns in DNA:
1. Introns, previously thought of as useless DNA, have significant functions in controlling gene expression. They enable alternative splicing, enabling one gene to create various proteins, thus enhancing protein variety without increasing genome size.
2. In addition, introns play a role in regulating genes by containing elements that impact how genes are expressed. They have the ability to impact mRNA stability and transportation, which guarantees proper and timely synthesis of proteins.
3. Introns play a role in evolution by offering opportunities for genetic recombination and mutation, potentially resulting in the development of novel gene functions.
4. Their existence in DNA highlights the intricate nature of genomic regulation and the advanced methods of controlling gene expression.
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