MI BIG
Heredity III.3

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• All students will investigate and explain how characteristics of living things are passed on through generations.

• All students will explain why organisms within a species are different from one another.

• All students will explain how new traits can be established by changing or manipulating genes.

Overview

The DNA molecule.... so small, so intricate, so important and now so common in our vocabulary. "Why is your hair curly?" "Why does your tongue curl?" "What color of coat will the new litter of puppies probably have?" "How much corn per acre will be produced with seed from a particular genetic cross?" All of these are questions we commonly ask each other now that our language includes such terms as DNA and DNA testing. Even more fascinating may be the individual differences within a species and where they originate. Human diseases that occur within families can be traced and determined to help in making decisions that we as a population are just beginning to experience.

Essential Background Narratives

Investigate and explain how characteristics of living things are passed on through generations.
Explain why organisms within a species are different from one another.
Explain how new traits can be established by changing or manipulating genes.

Investigate and explain how characteristics of living things are passed on through generations.

Like produces like. To enable a child to understand why grandparents claim that they look just like their parents at their age requires many learning experiences. Elementary students should be able to provide evidence that visible traits are passed on from parents to children by comparisons of color, structure, and direct measurements. They should be able to match offspring to corresponding parents.

By middle school, students should know how characteristics of living things are passed from generation to generation. Common traits controlled by a single gene pair should be taught in the middle school years as well as the reproductive cells which facilitate this happening. They should be aware that when the sperm fertilizes the egg, the sperm passes the genetic material (genes) of the father to the egg. The genes of the father's sperm and mother's egg then contribute to the formation of an entirely new individual having characteristics from both parents.

Students at the high school level should understand that genes occur and act in pairs. If a dominant gene is present, it is fully expressed. A recessive gene will not be expressed in the presence of a dominant gene. A cross or combination of other gene pairs can show what future generations may inherit, or predict those chances of traits being exhibited such as sickle cell anemia and other genetic disorders.

Explain why organisms within a species are different from one another.

The characteristics of offspring are not only determined by the heredity from the parents. There are acquired traits like spoken language, size of a superfertilized plant vs. a tundra plant, or length of hair, which contributes to the individuality of the offspring. High school students should also be aware of how genetic material is passed from parent to offspring during sexual and asexual reproduction. Cell division of non-sexual cells or somatic cells is an essential process to the growth of an organism as well as a species. Cell division is comprised of two processes. Division of the nucleus of the non-sexual cell is called mitosis which is immediately followed by the division of the cytoplasm and cellular content producing two daughter cells. Division and replication of the nuclei of the sex cells is called meiosis and is immediately followed by two consecutive divisions of cytoplasm and cellular content producing four daughter cells.

Explain how new traits can be established by changing or manipulating genes.

How new traits may arise in individuals through changes in genetic material should also be taught during the high school years. Students might misinterpret genetic changes as only detrimental. Gene or chromosome mutations or recombination of genes can increase the variations that are seen among individuals in a population. In order to understand this, the entire DNA molecule and its intricacies of replication need to be understood. An extension of this could include products of genetic engineering, natural and human produced mutations, and variations from multiple sets of genes.