Hello there, budding biologists! Today, we're going on an adventure, diving into the microscopic world to explore how changes in our genes (in the DNA, RNA, and proteins) become the driving force for evolution. Not only that, we'll also look at how comparing gene sequences in different species serves as evidence for evolution, and we'll peek into a fascinating gene family called the Hox gene family. So, get ready and let's dive in!
Imagine you're an artist, and genes are your colors. Now, every time you create a new painting (new traits), you use different combinations and shades of these colors. Evolution is like that artist, tweaking the colors (genes) to make unique art (traits) over time.
The Coronavirus pandemic (COVID-19) that started in 2020 is a perfect example. The virus evolved over time, creating new 'artwork' (variants) through changes in its genetic base sequences. Some of these new variants were more successful in spreading, like a hit painting at an exhibition!
Let's say we're looking at family portraits from different generations. We can spot similarities, right? The same applies to species. When we compare the base sequences of the same gene in different species, we notice patterns. The more closely related two species are (like siblings in a family portrait), the fewer differences we find in their genetic base sequences.
For instance, it's like how you and your cousin might both love chocolate because your grandma did - a trait passed down! Similarly, species share traits with their 'genetic ancestors' due to evolution.
Dive deeper and gain exclusive access to premium files of Biology SL. Subscribe now and get closer to that 45 🌟
Hello there, budding biologists! Today, we're going on an adventure, diving into the microscopic world to explore how changes in our genes (in the DNA, RNA, and proteins) become the driving force for evolution. Not only that, we'll also look at how comparing gene sequences in different species serves as evidence for evolution, and we'll peek into a fascinating gene family called the Hox gene family. So, get ready and let's dive in!
Imagine you're an artist, and genes are your colors. Now, every time you create a new painting (new traits), you use different combinations and shades of these colors. Evolution is like that artist, tweaking the colors (genes) to make unique art (traits) over time.
The Coronavirus pandemic (COVID-19) that started in 2020 is a perfect example. The virus evolved over time, creating new 'artwork' (variants) through changes in its genetic base sequences. Some of these new variants were more successful in spreading, like a hit painting at an exhibition!
Let's say we're looking at family portraits from different generations. We can spot similarities, right? The same applies to species. When we compare the base sequences of the same gene in different species, we notice patterns. The more closely related two species are (like siblings in a family portrait), the fewer differences we find in their genetic base sequences.
For instance, it's like how you and your cousin might both love chocolate because your grandma did - a trait passed down! Similarly, species share traits with their 'genetic ancestors' due to evolution.
Dive deeper and gain exclusive access to premium files of Biology SL. Subscribe now and get closer to that 45 🌟