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Created page with " === CRISPR-Cas9 === '''CRISPR-Cas9''' is a revolutionary genome-editing technology that allows scientists to precisely modify the DNA of living organisms. CRISPR stands for..."
=== CRISPR-Cas9 ===
'''CRISPR-Cas9''' is a revolutionary genome-editing technology that allows scientists to precisely modify the DNA of living organisms. CRISPR stands for "Clustered Regularly Interspaced Short Palindromic Repeats," and Cas9 is an associated protein that acts as molecular scissors to cut DNA. The process involves the following steps:
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'''Guide RNA (gRNA) Design''':
#*A guide RNA (gRNA) is designed to match the specific DNA sequence to be edited. The gRNA directs the Cas9 protein to the target DNA sequence.
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'''Cas9-gRNA Complex Formation''':
#*The gRNA is combined with the Cas9 protein, forming a complex that can locate and bind to the target DNA sequence.
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'''DNA Cutting''':
#*The Cas9 protein makes a double-stranded cut at the specific location within the genome identified by the gRNA.
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'''DNA Repair''':
#*The cell's natural DNA repair mechanisms repair the cut. This process can be harnessed to introduce specific changes (insertions, deletions, or replacements) to the DNA sequence. Two primary repair pathways are:
#**'''Non-Homologous End Joining (NHEJ)''': This repair process often results in small insertions or deletions (indels) at the cut site, which can disrupt gene function.
#**'''Homology-Directed Repair (HDR)''': This process uses a template to repair the break accurately, allowing for precise edits such as the insertion of new genetic material.
'''Applications''':
*'''Gene Knockout''': Disrupt specific genes to study their function by creating loss-of-function mutations.
*'''Gene Editing''': Correct genetic mutations responsible for diseases.
*'''Functional Genomics''': Understand gene function and regulatory elements by targeted editing.
*'''Biotechnology and Agriculture''': Develop genetically modified organisms (GMOs) with desirable traits, such as disease resistance or improved yield.
*'''Therapeutics''': Potential for treating genetic disorders, cancer, and viral infections.
'''Advantages''':
*'''Precision and Efficiency''': Can target specific DNA sequences with high accuracy.
*'''Versatility''': Applicable to a wide range of organisms and cell types.
*'''Cost-Effective''': Relatively inexpensive compared to previous gene-editing technologies.
'''Limitations''':
*'''Off-Target Effects''': Unintended edits can occur at sites other than the target, leading to potential side effects.
*'''Delivery Challenges''': Efficient delivery of the CRISPR-Cas9 components into target cells can be difficult.
*'''Ethical Concerns''': The potential for germline editing and its long-term effects raises ethical questions.
CRISPR-Cas9 has revolutionized genetic research and holds great promise for future medical and biotechnological advancements. It is a powerful tool for understanding gene function, developing new treatments for diseases, and enhancing agricultural productivity.