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DO ARE YOU READY? PAGE 554-555, #1, 2, 3 Identify the cell Cell wall structures shown in Figure 1 and explain Mitochondria the importance or function of each. Cell Membrane Nucleus Chromosome 2. (a) Organize the following structures from largest to smallest: organ,chromosome,organism,nucleus,tissue, DNA molecule,cell,gene, Smallest - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - > Largest (b) Use the listed structures in (a) as labels for the diagram. organ cell chromosome diaper organism nucleus gene 3. If a human muscle cell contains 46 chromosomes, indicate the number of chromosomes that you would expect to find in the cells shown in Figures 3, 4, 5, and 6. 46 23 23+23=46 23 5. Many single-cell organisms divide by a process called binary fission. One cell divides into two cells identical to each other and identical to the original cell. More complex organisms form specialized sex cells. When sex cells combine from two different organisms, they form a fertilized egg or zygote. (a) Identify one advantage of binary fission as a means of reproduction. faster, only one parent is needed, and the offspring are the same as the parent. (b) Identify and explain an advantage of reproduction by the union of sex cells from different individuals. New traits are possible; Each sex cell will have a different combination of genes. Variation allows for adaptability to the environment and, thus, greater survival. 7. Table 1 shows the events in a typical cell cycle. Draw and label a circle graph to represent the data. Rapid Growth Grow & DNA Replication Prep. For Division Mitosis ASEXUAL CELL REPRODUCTION – Pg. 558 – Ch. 17.1 •Asexual reproduction: • One cell divides to produce two cells • Both cells are identical to each other • Both cells are identical to the original WHY DO CELLS NEED TO DIVIDE? - EFFICIENCY: big cells are less efficient (lower sa/v ratio). Cells divide to increase surface area. - GROWTH - Cells divide to increase the size of an organism. - DIFFERENTIATION - Cells have different jobs. They divide to produce cells that do different things in complex organisms. CELLS GROW AND DIVIDE IN WHAT IS CALLED THE CELL CYCLE. Cell Cycle has 2 major phases: •Interphase •Division Phase (Mitosis) CELL CYCLE INTERPHASE – when cell is not actively dividing, and they are carrying out their specific function (majority of cell’s lives) Interphase is divided into 3 parts: (G1 S G2) G1 = GAP 1 = GROWTH (G0=STATIONARY) CELL CYCLE S = SYNTHESIS = DNA DOUBLES (COPIES ITSELF) - Single chromosomes in the nucleus of a cell form double chromosomes CELL CYCLE G2 = Gap 2 = Growth and preparation for cell division CELL CYCLE G1 = Gap 1 = Growth and normal cell function S = Synthesis = DNA Doubles (copies itself) •Normally 46 chromosomes in the nucleus of each human body cell = doubles G2 = Gap 2 = Growth and preparation for cell division INTERPHASE S – PHASE In the S-phase (part of interphase) DNA is replicated and chromosomes become double chromosomes. CHROMATIDS DNA DOUBLES CENTROMERE Chromosome Structure • Chromatin = DNA + proteins that makes up chromosome • Chromosome = condensed (wound) DNA with a centromere • Sister chromatids = a chromosome and its duplicate attached to one another by a centromere Chromatid Centromere Chromatin Chromosome Chromosome (Double) (DNA Coiling clip) Mitosis • Division phase of mitosis • Composed of 4 phases: • • • • Prophase Metaphase Anaphase Telophase MITOSIS INTERPHASE PROPHASE – Chromosomes begin to condense (become visible) – Spindle fibers form – Centrioles (animal cells) move to opposite poles – Nuclear envelope disappears PROPHASE Centrioles PROPHASE Spindle fibers Chromosomes become visible METAPHASE MITOSIS METAPHASE – Chromosomes line up in the middle of the cell. METAPHASE MITOSIS ANAPHASE – Centromeres split – Sister chromatids move apart towards opposite ends of the cell. They are now each individual chromosomes. ANAPHASE MITOSIS TELOPHASE – Spindle fibres disappear. – Chromosomes at opposite ends, loosen – Cytoplasm starts to pinch off (cleavage furrow; Cell plate) – Nuclear envelope reform. TELOPHASE MITOSIS CYTOKINESIS – Cells separate – Splitting of cytoplasm CYTOKINESIS Review: MITOSIS DNA doubles in S-phase (INTERPHASE) prior to mitosis ONE cell becomes TWO. Each resulting (daughter) cell is identical and the same as the original cell (same genetic information, same number of chromosomes) FOR: growth, multiplication Mitosis in action Biology Project Microscope images of onion root tips Cells Alive Cell clips CLONING CLONING is the process in which identical offspring are formed from a single cell or tissue. -Many plants and some animals can reproduce in this way. CLONING -Cells to be cloned must be TOTIPOTENT (or multipotent). -This means the cell has not yet specialized. It may become any type of tissue. CLONING This can be done by using stem cells or by somehow turning differentiated cells become totipotent. STEM CELLS CLONING This can be done by using stem cells or by somehow turning differentiated cells totipotent. DIFFERENTIATED CELLS CAN ALSO BE “TRICKED” INTO BECOMING TOTIPOTENT WITH CHEMICALS OR ELECTRIC SHOCK. HOW TO CLONE: MITOSIS IMPLANTED INTO SURROGATE MOTHER Click & Clone HOW TO CLONE: HOW TO CLONE DOLLY: Telomere shortening There might be a few reasons why Dolly died far too young Telomere shortening: •Telomeres are the ends of a chromosome. •As each cell replicates, the telomeres grow progressively shorter. •Scientists believe cells stop replicating when the telomeres reach some critical length. •Dolly's telomeres were found to be approximately 80% of the length they should be for a sheep her age. There might be a few reasons why Dolly died far too young •It might be for the shortening of telomeres of a cloned animal, you have to count the years of the clone &their mother to get a correct age for it's telomere length. •Research is in progress to determine if this phenomenon is seen in other organisms and whether or not it is important. There might be a few reasons why Dolly died far too young •DNA damaging: •Over an organism's lifetime, the DNA within its cells deteriorates, and unrepaired damage causes some diseases, including cancer. •Scientists are concerned that this accumulated damage may be carried along during the cloning process. If so, it would give the clone a "head start" on developing some diseases and cancer. CLONING Identical twins are natural clones caused by the blastula splitting before differentiation and each separate ball of cells becoming a separate embryo => baby. INCOMPLETE SPLITTING 2 3 INCOMPLETE SPLITTING 2 CLONING Let’s clone a mouse!! AGING Cells seem to have a limited life span. •Ex. Heart cells only undergo 50 mitotic divisions. Maybe due to: -Increased number of mistakes -ends of the chromosome ,called telomeres “shortens” (like a candle wick) and when its gone it can’t divide. - telomerase enzyme seems to have some influence in slowing the loss of the telomeres…. Science Now – Biology of Aging CANCER CANCER IS: Cells growing and dividing out of control. Causes could be: Smoking, diet, radiation, genetic predisposition Treatments? 1) Radiation - has to be localized 2) Chemotherapy – chemicals stop mitosis 3) Surgery – removes benign tumors. If the tumor is malignant it can go through metastasis – it can move around the body. Cancer vs. Normal cells Normal cell have a number of characteristics. They can: • Reproduce themselves exactly • Stop reproducing at the right time • Stick together in the right place • Self destruct if they are damaged • Become specialized or ‘mature’ Cancer vs. Normal cells Cancer cells are different to normal cells in several ways. • They carry on reproducing • They don’t obey signals from neighbouring cells • They don’t stick together • They don’t specialize but stay immature • They don’t die if moved to a different part of the body Cancer cells don't stop reproducing Unlike normal cells, cancer cells do not stop reproducing after they have doubled 50 or 60 times. This means that a cancer cell will go on and on and on doubling. So one cell becomes two, then four, then eight, then sixteen.... Cancer cells don't stop reproducing…contd They may be more resistant to self destruction than normal cells, or they may self destruct more slowly than they reproduce. Eventually a tumour is formed that is made up of billions of copies of the original cancerous cell. Scientists describe cancer cells as being 'immortal'. Cancer cells do not obey signals Something in the cancer cells overrides the normal signaling system. This may be because the genes that tell the cell to reproduce keep on and on firing. Or because the genes that normally tell the cell to stop reproducing have been damaged or lost. So the cancer cell keeps on doubling up regardless of the damage it causes to the part of the body where it is growing. Cancer cells do not stick together Cancer cells can lose the molecules on their surface that keep normal cells in the right place. So they can become detached from their neighbours. This partly explains how cancer cells spread to other parts of the body. Cancer cells do not become specialized Unlike normal cells, cancer cells do not carry on maturing once they have been made. In fact, the cells in a cancer can become even less mature over time. With all the reproducing, it is not surprising that more of the genetic information in the cell can become lost. So the cells become more and more primitive and tend to reproduce more quickly and even more haphazardly. Work on… - Mitosis Quiz Tomorrow - 17.2 Review Questions #1-6, p. 571