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Making Phylogenetic Trees Scientists use a variety of evidence to create phylogenetic trees to demonstrate evolutionary relationships among species or other taxa. For this assignment you will use two sets of data to construct two different trees. Part 1: Vertebrates The subphylum Vertebrata contains all the animals that have spines (vertebrae). Table 1 describes several characteristics of vertebrates for six different species. The lobe-finned fish is the “outgroup”, meaning its ancestors split from the other species the longest ago. Table1. Characteristics for Six Vertebrates Trait Outgroup (Lobe-finned fish) Human Turtle Frog Mouse Kangaroo Dorsal Nerve Yes Cord Yes Yes Yes Yes Yes Legs No Yes Yes Yes Yes Yes Nature of egg ExternalRequires water Develops inside the mother External-Has hard shell, on land ExternalRequires water Develops inside the mother Develops inside the mother Development In egg Placental In egg In egg Placental Marsupial Lives mostly in water Yes No No Yes No No Hair No Yes No No Yes Yes Pouch No No No No No Yes Warmblooded No Yes No No Yes Yes Limited to Australia No No No No No Yes To evaluate the evolutionary relationships among the species you must consider the similarities. To do this, you must quantify the number of similarities the species share. Perform this by drawing the matrix below into your journal. If the trait you are considering is partially shared, you may use decimals, e.g. a trait may be counted as 0.5 instead of 0 or 1. Note: Two “no’s” constitute a similarity. Lobefinned fish Lobed-fin fish Turtle Frog Mouse Human Kangaroo Turtle Frog Mouse Human Kangaroo NA NA NA NA NA NA Now, draw the tree that has already been constructed below into your journal. Fill in the boxes at the end of each branch with the correct species based on your measurement of similarities. Those that share the most similarities with the lobe-finned fish will be written in the box directly to the right, and so on. Lobe-finned fish Part 2: Across Kingdoms In the past, biologists relied upon physical traits to construct phylogenetic trees like the ones you used in Part 1. Nowadays, most phylogenies are constructed with molecular evidence. Cytochrome c is a common large protein found in nearly all organisms. This protein varies, however, in its composition. Table 2 shows how amino acids vary within the protein depending on the species. The amino acids are written in one of the top rows. If the species contains that same amino acid, a “+” is indicated. If it does not contain that amino acid, then the amino acid that is present is listed instead. The assumption is the more similarities that are shared between two molecules, the more recently they have evolved from a common ancestral molecule, and thus a common ancestor species. Table 2. Molecular Data For the Protein Cytochrome c 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 Gly Asp Val Glu Lys Gly Lys Lys Ile Phe Ile Met Lys Cys Ser Gln Cys His Thr Val Glu Lys Human Chicken Dogfish + + + + + + + + Ile + + + + + + + + + + + + + + + + + + + + + Val Gln + + Val + Val Gln + + + Lys Thr + + + + + + + + Ala + + + + + + + + + + + + + + + + + + Asn + Ala + + + + + Asp Ala Wheat + Asn Pro Asp Ala + Ala + Yeast + Ser Ala Lys + + Ala Thr Leu + Lys Thr Arg + Glu Leu + + + + + + Chimpanzee + + + + + + + + + + + + + + + + + Pig + + + + + + + + + + Val Gln + + Ala + + + + + + + Fruit flies + + + + + + + + Leu + Val Gln Arg + Ala + + + + + + Ala + + + + + In your journal, draw a matrix containing the 8 species listed in Table 2. Use the data from Table 2 to complete the matrix. Do this by counting the number of shared amino acids between each pair of species and write the number in your matrix. Humans Chicken Dogfish Wheat Yeast Chimps Pig Fruit flies Humans NA Chicken Dogfish Wheat Yeast Chimps Pig Fruit flies NA NA NA NA NA NA NA Now, construct a phylogenetic tree in your journal for the eight species you’ve studied. The species that shares the fewest similarities with the given example is the outgroup species (just like the lobe-finned fish in Part 1). Your tree should look very similar to the tree in Part 1 but will have eight branches instead of six.
