11-13-12 Meiosis FILL IN THE BLANK NOTES

... ___________________- two cylindrical cellular structures that form at the poles of a cell during meiosis. ...

Mitosis

... Sister chromatids separate and begin moving towards opposite ends of cell (spindle fibers pull sister chromatids in via the centromere) and each one is now a “chromosome” Cell elongates At end of phase, each end of the cell contains complete and identical chromosomes ...

Lecture 6: Cell division

...  Chromosome: The package that formed from a condensed, coiled and folded chromatin.  Chromatids: Two sister chromatids formed from each duplicated chromosome. They contain identical copies of the chromosome’s DNA.  Centromere: The narrow region which the two sister chromatids are connected togeth ...

No Slide Title - Cloudfront.net

... Figure 12.5 The stages of mitotic cell division in an animal cell: metaphase; anaphase; telophase and cytokinesis. ...

MITOSIS

... Centrioles begin moving to opposite ends of the cell and fibers extend from the centromeres. Some fibers cross the cell to form the mitotic spindle. ...

Cell Growth and Reproduction

... during cell division is critical, so before division chromosomes copy themselves. When copied, chromosomes form two sister chromatids that are exact copies of each other. The two sister chromatids are held together by a centromere. ...

Slide 1

... Cell division is The process of DNA replication and the division of the cytoplasm to form 2 new identical cells ...

Cell Reproduction

... Fibers PULL sister chromatids to the middle of the cell.  Chromosomes line up in the MIDDLE. ...

Cell Processes Study Guide OL Answer Key

... 2. Explain the process of cellular respiration. Be sure to include the requirements and products. Cellular respiration is the process in all cells where food is broken down to release energy. In prokaryotes it occurs in the cell membrane, but in eukaryotes it occurs in the mitochondria. ...

mitosis review

... 2. What are the parts of the cell cycle? What general things happen in each? 3. What are the 3 parts of interphase? What happens during each? 4. What are the 4 phases of mitosis and what occurs in each? 5. When does cytokinesis occur? 6. What is the difference between a “replicated” chromosome and a ...

Cell Division

... division. ...

The Cell Cycle

... Mitosis – means the condition of ______________. ...

CD1

... Cell division is the process in which cells divide into two new IDENTICAL cells. Mitosis is the process in which a cell has created two IDENTICAL nuclei so that it can reproduce into two IDENTICAL cells with all the correct information (DNA) that they need for functioning independently. They are rel ...

Cell Cycle and Cell Division

... • G2 checkpoint—monitors DNA replication and cell size • Metaphase checkpoint—monitors chromosome attachment to spindle fibers ...

Slide 1

... Chromosomes are copied (# doubles) • Chromosomes appear as threadlike coils (chromatin) at the start, but each chromosome and its copy(sister chromosome) change to sister chromatids at end of this phase ...

Cell Cycle - Parkway C-2

... Phases of Mitosis • Size may be a trigger for beginning mitosis • Prophase-chromosomes look hairy, chromosomes shorten and are called chromatids, nuclear membrane disappears • Metaphase chromatids line up in the center of the cell. • Anaphase chromatids race off to the poles of the cell • Telophase ...

Mitosis Worksheet File

... 4. In a human cell, how many chromosomes would you expect to see across the equator of a cell during the metaphase stage of cell division? 5. Mitosis forms two daughter cells. How do they compare with the parent in terms of the number of chromosomes present? ...

Ch. 22 Cell Reproduction

... – S phase: this phase for SYNTHESIZING chromosomes. – G2: this phase is a second GROWTH phase dedicated to growing in size to prepare for cell division. – Mitosis: process of cell division – Cytokinesis: the end process of one cell becoming two cells ...

Cell Division Homework #2

... Name the stage in which the following events occur. Interphase is included. ______________2. ...

Biology Play Dough Mitosis Use your notes to answer the following

... Biology Play Dough Mitosis Use your notes to answer the following questions about cell division. Use complete sentences. ...

Bio07_TR_U03_CH10.QXD

... Short Answer On the lines provided, answer the following questions. 1. What are the four phases of the cell cycle? ...

cell reproduction - Peoria Public Schools

... attach to each chromosome  Cell preparing to separate its chromosomes  Cell aligns its chromosomes in the middle of the cell ...

Cell Reproduction - Peoria Public Schools

... attach to each chromosome  Cell preparing to separate its chromosomes  Cell aligns its chromosomes in the middle of the cell ...

eprint_3_20320_701

... After the completion of DNA duplication, cell enters a second growth phase called G2 .It is a period between the end of DNA synthesis and beginning of prophase , In this period all the genes are function fully again and the rate of protein synthesis is high . The relative lengths of these phases dif ...

O: You will be able to explain Mitosis.

... • The cells winds up being two cells that are exactly the same as the first one. • Why could this be a problem? ...

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Spindle checkpoint

During the process of cell division, the spindle checkpoint prevents separation of the duplicated chromosomes until each chromosome is properly attached to the spindle apparatus. In order to preserve the cell's identity and proper function, it is necessary to maintain the appropriate number of chromosomes after each cell division. An error in generating daughter cells with fewer or greater number of chromosomes than expected (a situation termed aneuploidy), may lead in best case to cell death, or alternatively it may generate catastrophic phenotypic results. Examples include: In cancer cells, aneuploidy is a frequent event, indicating that these cells present a defect in the machinery involved in chromosome segregation, as well as in the mechanism ensuring that segregation is correctly performed. In humans, Down syndrome appears in children carrying in their cells one extra copy of chromosome 21, as a result of a defect in chromosome segregation during meiosis in one of the progenitors. This defect will generate a gamete (spermatozoide or oocyte) with an extra chromosome 21. After fecundation, this gamete will generate an embryo with three copies of chromosome 21.The mechanisms verifying that all the requirements to pass to the next phase in the cell cycle have been fulfilled are called checkpoints. All along the cell cycle, there are different checkpoints. The checkpoint ensuring that chromosome segregation is correct is termed spindle assembly checkpoint (SAC), spindle checkpoint or mitotic checkpoint. During mitosis or meiosis, the spindle checkpoint prevents anaphase onset until all chromosomes are properly attached to the spindle. To achieve proper segregation, the two kinetochores on the sister chromatids must be attached to opposite spindle poles (bipolar orientation). Only this pattern of attachment will ensure that each daughter cell receives one copy of the chromosome.

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Spindle checkpoint