Unit 3 - GeneticsMy most favorite unit!Genetics the study of how traits are passed from parent to offspring (sometimes called heredity)Genetic information for all organisms stored in the base sequences of DNA (order of A, T, C & G)Within the eukaryotic cell, DNA is present in the nucleus (but also present in mitochondria & chloroplasts )DNA and protein make up chromosomes long condensed threads most visible when the cell is dividingHumans cells each contain 23 pairs of chromosomes (46 in total)When the cell is not dividing, DNA is dispersed throughout the nucleus as chromatin

Chromosome Structurechromatids single strands of a chromosome (contain DNA and protein)centromere structures that hold chromatids together. Can be in the middle of the chromatids, or off-centersister chromatids identical strands of DNA joined together by a centromerekaryotype chromosomes are arranged in homologous pairs from shortest pair to longest pairhttp://learn.genetics.utah.edu/

Karyotype

Human Karyotype p. 561 (Nelson)

Chromosome Abnormalities

Edward Syndrome (trisomy 18)Gender Female (XX)

Down Syndrome (trisomy 21)

Down SyndromeEach year in the United States, approximately one in every 800 to 1,000 newborns has Down syndrome. This translates to approximately 5,000 children. In the United States today, Down syndrome affects approximately 350,000 people. As many as 80% of adults with this condition reach age 55, and many live longer. No one knows exactly why this chromosomal error occurs, but it does appear to be related to the age of the mother. At age 25, a woman has a one in 1,250 risk for having a child with Down syndrome. The risk increases to one in 952 at age 30, to one in 378 at age 35, to one in 106 at age 40 and one in 35 at age 45. However, 80% of children born with Down syndrome are born to mothers under the age of 35. This is because most babies, in general, are born to younger women.

CloningClone: a living thing genetically identical to another living thing. Identical twins are sometimes called natures clones.Somatic Cell Nuclear Transfer: unfertilized egg has its nucleus removed (tiny needle)donor (to be cloned) individuals somatic cell has its nucleus (with DNA) removedSomatic cells DNA (even the entire cell) is then inserted into unfertilized egg (that had its nucleus removed)The new cell is then given a electric shock (or a certain chemical) to get the egg to start dividingThe egg can then be inserted into a surrogate mother to complete development

Cloning Techniques

Types of CloningTwo types of Cloning:Reproductive Cloning: cloned embryo is allowed to grow into a new organism. Reproductive cloning in animals has an extremely low success rate (1-2%)Therapeutic Cloning: embryo is kept in a culture and the cells grow and divide to become stem cells (which can grow into specialized body cells). While stem cells hold astonishing promise for therapeutic procedures, the use of stem cells is highly controversial because of their source, making cloning not just a scientific issue, but a political policy issue that will impact us all.Human Cloning? David Rorvik / Landrum Shettles

The Cell CycleThree parts to the cell cycle:InterphaseMitosisCytokinesis

Click here to see the cell cycle in action!

Interphase3 main phases:G1 phase (growth 1) cell goes through basic cell processesS phase (synthesis) DNA is replicated at this stageG2 phase (growth 2) cell continues their basic processes and prepares for mitosis

Mitosis tutorialmore good websites: http://www.biology.arizona.edu/cell_bio/tutorials/cell_cycle/cells3.htmlhttp://www.maxanim.com/genetics/Mitosis/Mitosis.htmAsexual cellular division two daughter cells have same chromosome # as mother cell (2n --> 2n)Mitosis - used for growth and repair of an multicellular organism, or for reproduction of unicellular organisms

5 stages of the Cell CycleI P M A TInterphase (G1, S & G2) cell not dividing!Prophase chromosomes condense so you can see themMetaphase chromosomes aligned at cells equator (middle)Anaphase sister chromatids start to separate to opposite poles of cellTelophase cells start to pinch off (to start cytokinesis

InterphaseNot considered a phase of mitosis.Time when a cell is between mitotic cyclesOften called the resting stageThis is NOT an accurate description

Events of Interphase:Cell is growing in sizeProteins,organelles, and nucleic acids are producedMajority of a cells life Prepares for mitosisChromosomes and centrioles replicate.

Relative lifetime of a cell:

1) ProphaseThe double chromosomes are visible as threads that coil and contract into thick rods

Events of prophaseCentrioles migrate toward opposite ends (poles) of the cell.Microtubules extend from centrioles to form asters and eventually a spindle.Toward end of prophase chromosomes begin to move to center (equator) of the cellNuclear envelope and nucleolus disappears

Late Prophase:

2) MetaphaseCentromeres line up on equatorTwo chromatids of each chromosome become separate chromosomesANIMALPLANT

3) anaphaseThe duplicated chromosomes move to opposite polesMicrotubules help to move the chromosomes.

ANIMALPLANT

4) TelophaseChromosomes uncoil and get longerSpindle fibers disappearNuclear membrane forms around daughter nuclei.ANIMALPLANT

Chromosome # in various species

Allium (Onion) cells in Mitosishttp://www.grossmont.net/cmilgrim/Bio220/BIO221/AlliumMitosis/mitosis_in_allium_root_tips.htm

Questions 1-3, page 137Synthesis (S)

S, G2 and M stagesThe ratio of cell surface area to volume.

Questions 4-6, page 137Students should suggest representing G0 as an offshoot of G1 because during G0, a cell carries out normal functions but does not divide. G1 is the only stage that does not involve DNA synthesis, duplicated DNA, or cell division.The cells would probably look large and have two nuclei located at opposite sides of the cell.It is likely that the algae in the sunny pond would have a faster rate of cell division than the algae in the shady pond. Any feasible way of testing that prediction is acceptable. One example could be to gather algae from the two ponds and evaluate what percentages of the sample were in each stage of the cell cycle. Presumably, a higher percentage of the algae in the shady pond would be in G1 compared to the algae in the shady pond.

MeiosisUsed to cut chromosome # in halfEssential to sexual reproduction - 1/2 of DNA (chromosomes) from each parent (sperm and ova are called gametes)Gametes unite in fertilization to form a zygoteIn mitosis - 2n 2n (diploid diploid)In meiosis 2n n (diploid haploid)Meiosis - two successive nuclear divisions that provide gametes that have half the genetic material (1/2 the chromosomes) of the original cell

Meiosis2 main parts:1. Meiosis I cuts chromosome # in half, homologous chromosome pairs separated- prophase I, metaphase I, anaphase I, telophase I2. Meiosis II chromatids separate (like mitosis)- prophase II, metaphase II, anaphase II, telophase II

Questions 1-3, p1761. How do homologous chromosomes differ from sister chromatids?Homologous chromosomes: same genes but have different versions of them; sister chromatids: copies of each other, produced by DNA replication2. Explain why an egg is so much larger than a sperm cell.An egg needs to provide the nutrients and building blocks for life to begin; a sperm needs only to reach the egg and deliver its DNA, so it is streamlined and small.3. If, during metaphase I, all 23 maternal chromosomes lined up on one side of the cell, would genetic diversity increase? Explain.Genetic diversity would not increase because the maternal and paternal chromosomes would not become arranged in new combinations.

Questions 4-54. List the key differences between meiosis I And II.Meiosis I: begins with diploid cell, homologous chromosomes separate.Meiosis II: begins with two haploid cells; sister chromatids separate.Both mitosis and meiosis are types of nuclear divisions, but they result in different cell types. Describe how the steps of meiosis I differ from mitosis.Mitosis: chromosomes are duplicated and the copies are separated, one for each cellMeiosis I: duplicated chromosomes remain attached to each other, each new cell gets half of each homologous pair.