They will have the same paw size since their proteins for paw size are the same so the proteins will connect in the same way.

They will have the same paw size since all wolves have the same paw size.

They will have different paw sizes because even with the same proteins for paw size, the proteins can connect in different ways.

They will have different paw sizes since only offspring from the same parents have the same size paws.

Each parrot has different feather colors because offspring from different parents will have different feather colors.

Each parrot has different feather colors because they have different versions of the gene for feather color that connect together to make different feather colors.

The parrots have different versions of the gene for feather color, and the genes are different colors in each parrot’s feathers.

The parrots have different versions of the gene for feather color, which instruct for different proteins that connect in different ways to make different feather colors.

The dragonfly inherited one copy of the gene for wing color from its mother and one copy from its father. That gene combination instructs for proteins that connect in ways that make its wings blue.

The dragonfly inherited one copy of the gene for wing color from its mother and one copy from its father. Those genes connect together to make its wings blue. 

The dragonfly inherited its copies of the gene for wing color from its mother and not from its father. Those genes connect together to make its wings blue.

The dragonfly inherited its copies of the gene for wing color from its mother and not from its father. Just like its mother’s genes, those genes instruct for proteins that connect in ways that make its wings blue.

They will have the same tongue lengths because even with different proteins for tongue length, the proteins can connect in the same way.

They will have different tongue lengths since offspring from different parents will have different tongue lengths.

They will have different tongue lengths since their proteins for tongue length are different so the proteins will connect in different ways.

They will have the same tongue lengths since all tree frogs have the same tongue length.

The beetles have different versions of the gene for horn shape, which instruct for different proteins that connect in different ways make their horn shapes different.

The beetles have different versions of the gene for horn shape. The genes are curved differently in each beetle’s horns.

Each beetle has a different horn shape because offspring from different parents will have different horn shapes.

Each beetle has a different horn shape because they have different versions of the gene for horn shape that connect together to make different horn shapes.

The baby bunny inherited its copies of the gene for ear length from its father and NOT from its mother. Those genes connect together to make its ears long.

The baby bunny inherited its copies of the gene for ear length from its father and NOT from its mother. Just like its father’s genes, those genes instruct for proteins that connect in ways that make its ears long.

The baby bunny inherited one copy of the gene for ear length from its father and one copy from its mother. That gene combination instructs for proteins that connect in ways that make long ears.

The baby bunny inherited one copy of the gene for ear length from its father and one copy from its mother. Those genes connect together to make its long ears.

They will have the same whisker thicknesses since all mice have the same whisker thickness.

They will have the same whisker thicknesses since their proteins for whisker thickness are the same so the proteins will connect in the same way.

They will have different whisker thicknesses because even with the same proteins for whisker thickness, the proteins can connect in different ways.

They will have different whisker thicknesses since only offspring from the same parents have the same whisker thickness.