It's like turning off a switch for a gene to see what happens! Gene knockout is a method to "turn off" or make a gene inoperative.
Real-World Example: Think of a gene like a light in your house. If you're not sure what a particular light switch does, you turn it off (or "knock it out") and see which light goes off in the house. That's what scientists are doing with genes!
Genes can be predicted by looking for special patterns called ORFs in a genome.
These ORFs are sequences that start with the codon AUG, have a series of triplets coding for amino acids, and end with a stop codon.
Real-World Example: Imagine you're reading a book and you want to identify where a story starts and ends. ORFs are like chapters in that book, beginning with a title (AUG) and ending with 'The End' (stop codon).
Preparation: Scientists prepare DNA that can be inserted into mouse embryos, replacing (and hence deleting) a target gene.
Selection & Growth: Cells where this DNA insertion worked are picked. They grow into adult mice, but with a twist: these mice have only one copy of the target gene.
Breeding Time!: When a male and female, both with one gene copy, mate, 25% of their babies won't have that gene at all. They're the real knockout mice.
Observation: Scientists then observe these knockout mice. They're looking for any different traits or behaviors that might result from missing that gene.
Real-World Example: It's like baking cookies. If you leave out an ingredient (like chocolate chips) and the cookies taste different, you know that ingredient played a key role in the flavor.
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It's like turning off a switch for a gene to see what happens! Gene knockout is a method to "turn off" or make a gene inoperative.
Real-World Example: Think of a gene like a light in your house. If you're not sure what a particular light switch does, you turn it off (or "knock it out") and see which light goes off in the house. That's what scientists are doing with genes!
Genes can be predicted by looking for special patterns called ORFs in a genome.
These ORFs are sequences that start with the codon AUG, have a series of triplets coding for amino acids, and end with a stop codon.
Real-World Example: Imagine you're reading a book and you want to identify where a story starts and ends. ORFs are like chapters in that book, beginning with a title (AUG) and ending with 'The End' (stop codon).
Preparation: Scientists prepare DNA that can be inserted into mouse embryos, replacing (and hence deleting) a target gene.
Selection & Growth: Cells where this DNA insertion worked are picked. They grow into adult mice, but with a twist: these mice have only one copy of the target gene.
Breeding Time!: When a male and female, both with one gene copy, mate, 25% of their babies won't have that gene at all. They're the real knockout mice.
Observation: Scientists then observe these knockout mice. They're looking for any different traits or behaviors that might result from missing that gene.
Real-World Example: It's like baking cookies. If you leave out an ingredient (like chocolate chips) and the cookies taste different, you know that ingredient played a key role in the flavor.
Dive deeper and gain exclusive access to premium files of Biology HL. Subscribe now and get closer to that 45 🌟