Spindle fibers

... Mitosis begins (cell begins to divide) Centrioles (or poles) appear and begin to move to opposite ends of the cell. Spindle fibers form between the poles. Centrioles Sister chromatids ...

Chapter 4 Genetics Review

... 2. What are the factors that control inheritance of traits? 3. What are alleles? 4. What is a dominant allele? 5. What kind of allele can be hidden when a dominant allele is present? 6. What kinds of alleles does a hybrid organism have? 7. What tool can be used to predict the results of a genetic cr ...

Meiosis Reading - Helena High School

... creates two genetically identical daughter cells with a full set, or diploid number of chromosomes, meiosis produces sperm or eggs, also known as gametes. Unlike in mitosis, the resulting gametes are not genetically identical to the parent cell. Gametes are haploid cells, with only half the DNA pres ...

Name

... c. Starting with a cell with four chromosomes (i.e. 2n = 4) in metaphase I of meiosis, show how an error in anaphase I can lead to a situation that could lead to Down ...

Chapter 8

... Cell cycle multiplies cells • Most of the cycle is preparing for division – Interphase • Growth and replication ...

Review of relevant topics prior to “Linkage” lectures

... Have to visualize gene (locus)/alleles/chromosomes/metaphase/chromatids segregating/gamete formation 1. Stretch of DNA that codes for a protein; in the middle of a bunch of bases that are not encoding 2. The location of that gene (sequence) relative to the chromosome it exists on 3. The specific cop ...

Biology 1 Exam III F'04.doc

... a) 23 chromosomes. b) 46 chromosomes (23 pairs). c) 46 chromosomes. d) 23 autosomes. e) two sex chromosomes. 11) The two sister chromatids of a eukaryotic chromosome are connected at the: a) centromere. b) centriole. c) chiasma. d) telomere. e) centrosome. 12) DNA replication occurs in eukaryotic ce ...

answers - Biology Resources

... 21 Cell division and chromosomes - answers 1 After ten successive mitotic divisions, a basal cell will still have 46 chromosomes. 2 (a) The correct sequence is B, D, A, C, E. (b) There are two pairs of chromosomes in the cell. (c) The diploid number of chromosomes is four. 3 When chromosomes replica ...

Lecture Outline -- Meiosis, recombination, and sex

... Chiasmata form between non-sister chromatids, one to several per homologous pair. Paternal and maternal homologs undergo a physical exchange of DNA at each chiasma = “crossing over.” ...

Photoandresp cells _ miosis and meiosis 091

... Mitosis begins (cell begins to divide) ...

Photoandresp cells _ miosis and meiosis1

... Mitosis begins (cell begins to divide) ...

Ecology - Cobb Learning

... 4, and each will have only 23 chromosomes (haploid) which is different from the parent cell that has 46. ...

meiosis ii

... Chromosomes become thick and visible, the chromosomes of each homologous pair are tangled together. Portions of Chromatids may break off and attach to adjacent Chromatids on the homologous Chromosome - a process called CROSSING-OVER (genes are exchanged between homologues) Crossing-Over results in G ...

Meiosis Intro BTR

... that each cell has two copies of each chromosome, one from each parent. Gametes are haploid, which means that each cell has one copy of each chromosome. Gametes join together during fertilization, which is the actual fusion of egg and sperm, and restores the diploid number. The diploid chromosome nu ...

Review Worksheet Exam 3

... Make a series of sketches that follows the fate of chromosome 8 (an autosome) throughout an organism’s lifecycle. 1. Start with a sperm and an egg (both of which supply a version of chromosome 8). Remember that each version of chromosome 8 has different alleles (different types of the same genes) so ...

Microsoft Word - Bio VI - Cell Reproduction

... Sketch and compare the stages of mitosis verses meiosis denoting significant structures and events. Use a parent cell with the same Diploid number of chromosomes to start each process. You may do this the back of this paper. ...

meiosis webquest - IHMC Public Cmaps (3)

... 6. Print out at the end. You may need to install a printer. If so, I will tell you how or ask someone who already knows. Print to lab C135 7. When, and only when, you have your printout handed in, you may turn off your computer. Site 1 - Lew-Port's Meiosis Page Go to http://www.lew-port.com/1071204 ...

Heredity Chapter 5-3

... (sperm and egg) with half the usual number of chromosomes.  Why? When the sperm (23 chromosomes) combines with the egg (23 chromosomes) it produces a cell with 46 chromosomes. ...

Jeopardy Higher Level Genetics HANNAH

... AFTER THE PATERNAL & MATERNAL CHROMATIDS INTERTWINE & BREAK AT EXACTLY THE SAME POSITION, & THE TWO SEGMENTS CONNECT TO THE CORRESPONDING POSTION ON THE OTHER CHROMATID, THE PLACE WHERE THE TWO CONNECT TO EACHOTHER IS CALLED A CHIASTMA (PLURAL CHIASMATA) ...

Notes on Mitosis and Meiosis

... After 1 division - 23 double stranded chromosomes (n) After 2nd division - 23 single stranded chromosomes (n)) - occurs in our germ cells (remember latin? ) – cells that produce our gametes - egg and sperm ...

No Slide Title

... to minichromosomes, telomeres are added to sequences of the MDSs, and the DNA of the remaining non-MAs and the old MA fragments are degraded. ...

Meiosis Webquest

... 4. Somatic cells have two sets of _______________ (2 x 22) chromosomes, and one pair of _______________ _______________. a. They are called _______________ or 2n cells. b. Thus, humans would have (22 pr + 1 pr = 23 pr) or 44 + XX (female) or 44 + XY (male) _______________. 5. Gametes or ____________ ...

Chapter 12: Cell Reproduction Mitosis and Meiosis

... • Chromosome number: – Number of Chromosomes in a body cell – Diploid (2N) number • Specific for each species of organisms ...

Exam Review for Test 4 - Iowa State University

... c) Chromosome found outside of the cell nucleus d) Attachment point for a kinetochore microtubule 26) Which of the following does not contribute to genetic variation in sexually reproducing organisms? a) Synapsis b) Crossing over c) Random fertilization d) Independent assortment 27) If there are 40 ...

Cell division: mitosis and meiosis I. Cell division -

... thus achieve separation of one set of daughter chromosomes from the other - 10 - 60 minutes to complete journey to poles E. Telophase - chromosomes stop moving - reach poles - chromatin becomes diffuse F. Cytokinesis -- technically not part of mitosis - division of the cytoplasm • initiated by micro ...

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Meiosis

Meiosis /maɪˈoʊsɨs/ is a specialized type of cell division which reduces the chromosome number by half. This process occurs in all sexually reproducing single-celled and multi-celled eukaryotes, including animals, plants, and fungi. Errors in meiosis resulting in aneuploidy are the leading known cause of miscarriage and the most frequent genetic cause of developmental disabilities. In meiosis, DNA replication is followed by two rounds of cell division to produce four daughter cells each with half the number of chromosomes as the original parent cell. The two meiotic divisions are known as meiosis I and meiosis II. Before meiosis begins, during S phase of the cell cycle, the DNA of each chromosome is replicated so that it consists of two identical sister chromatids. In meiosis I, homologous chromosomes pair with each other and can exchange genetic material in a process called chromosomal crossover. The homologous chromosomes are then segregated into two new daughter cells, each containing half the number of chromosomes as the parent cell. At the end of meiosis I, sister chromatids remain attached and may differ from one another if crossing-over occurred. In meiosis II, the two cells produced during meiosis I divide again. Sister chromatids segregate from one another to produce four total daughter cells. These cells can mature into various types of gametes such as ova, sperm, spores, or pollen.Because the number of chromosomes is halved during meiosis, gametes can fuse (i.e. fertilization) to form a zygote with a complete chromosome count containing a combination of paternal and maternal chromosomes. Thus, meiosis and fertilization facilitate sexual reproduction with successive generations maintaining the same number of chromosomes. For example, a typical diploid human cell contains 23 pairs of chromosomes (46 total, half of maternal origin and half of paternal origin). Meiosis produces haploid gametes with one set of 23 chromosomes. When two gametes (an egg and a sperm) fuse, the resulting zygote is once again diploid, with the mother and father each contributing 23 chromosomes. This same pattern, but not the same number of chromosomes, occurs in all organisms that utilize meiosis. Thus, if a species has 30 chromosomes in its somatic cells, it will produce gametes with 15 chromosomes.

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Meiosis