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Sale 90% OFF! [打印本页] 作者: Michaelmn 时间: 2016-5-14 12:18 标题: Buy pandora charm tooth
Sale 90% OFF! What Snakes Teach Us About the Mouse Body Plan
Make your way along the length of a vertebrate and it becomes pretty pandora rings canada clear that the backbone is divided into regions. The vertebrae of the ribcage, for example, have a distinct shape and can easily be told apart from the lumbar vertebrae further along. What about snakes, though? Like their body, their backbone isn't obviously divided into regions, though the divisions seem clear pandora charms sale in lizards, their closest relatives. pandora charms cheap They used a statistical analysis to pandor bracelets estimate the number of regions along each vertebral column and the boundaries of each region. Overlaying that onto a phylogenetic tree, they asked a simple question: Given the distribution of the data, is it likely that snakes have "lost" regions during their evolution that is, do they have fewer regions than lizards? The alligator skeleton is well documented as having four regions, so the researchers included it as a known point of comparison.(It may seem odd to use alligators as an outgroup for comparison, but they aren't actually lizards. Together with birds and crocodilians, they form a reptile clade called Archosauria, which is a sister group to the clade which includes snakes and lizards. In other words, an alligator is more closely related to a parakeet than to a snake. Really.) The results were pretty clear. Head Polly wrote that a "model in which limbed squamates [ie, lizards] and Alligator have four regions and this is reduced to three in snake like taxa was no better supported than the hypothesis that pandora charms on sale all squamates share three regions and Alligator has four". The skeletons of snakes and lizards pandora sale 2016 fit in well with the general pattern of reptiles and ancient mammals. In all of these groups, the shape of the vertebral column and ribs changes only gradually along the length of the body. This differs from modern mammals and archosaurs, whose skeletons have distinct changes along their length dividing them into regions. One of the figures in the paper shows this nicely:
spacerThis tree shows the skeletons of a few amniotes; mammals branch off node number 3 and reptiles off node number 2. The mouse (Mus) and alligator (Alligator) skeletons stand out because they're much more clearly divided into regions than the other skeletons, which show a much smoother change in morphology along their length. The general picture that emerges is one where the ancestral condition for amniotes is subtle gradations in vertebral morphology. This is still the pattern in snakes and lizards, while mammals and archosaurs have adapted the same machinery to produce regions with distinct boundaries. Life is rich and diverse and very, very weird, and it's easy to end up with a skewed view of it because we look at creatures that are familiar or accessible or popular. Of course, we also learn a lot from this approach, but it's important to step back and have a broader look every once in a while. Even though mice and alligators show similar body patterning during development, it turns out that their ancestors converged on the same approach. Everyone in between the two groups does it differently. Our ancestors figured out how to sharpen the boundaries between body regions and gained an extra region during their evolution; snakes didn't lose any. They're the normal ones.