Brooker Chapter 9

... observed long, threadlike bodies = Chromosomes (“colored bodies) – Mitosis described (nucleus is equally partitioned into daughter cells) – Sex Determination (♂ and ♀ chromosomes) ...

Cell division

... 2. Separate the two centriole pairs and move them to opposite poles of the nucleus. 3. Move each homologous chromosome to pair with its partner. You should have four strands together. How many tetrad complexes do you have in your cell which is 2n = 4? 4. Represent the phenomenon of crossing over by ...

Cell Division - El Camino College

... C) separate the duplicated sister chromatids D) divide the original material into four complete haploid cells. 15. The purpose of meiosis II is to: A) duplicate all chromosomes B) randomly separate the homologous pairs, called independent assortment C) separate the duplicated sister chromatids D) di ...

meiosis_and_sexual_life_cycles

... Random fertilization adds to ...

Lab 1

... Plant Mitosis Models skip Onion Root Tip Slide 1. Identify a cell in anaphase on a slide under a microscope and put the pointer on it. Call me over to check it and ask for my initials here: ________ Summary of Mitosis: Read about Cytokinesis on the next page (p. 70), before filling in the chart. sig ...

Cell Division

... parent; the other from the female: homologous • Our sex cells: sperm and egg are haploid meaning these special cells only have half the chromosomal complement • Involves two divisions of the nucleus called Meiosis I and Meiosis II ...

2) Overview of the human genome

... We will illustrate this only for chromosome 1. When the DNA is duplicated for the ova, the female has a chromosome from her mother (a) and her father (b) that can be used. NOTICE THE COLOR DIFFERENCE BETWEEN MATERNA AND PATERNAL. ...

Topic 2 notes

... 2.5.3 State that interphase is an active period of life of a cell when many metabolic reactions occur, including protein synthesis, DNA replication and an increase in the number of mitochondria and/or chloroplasts. 2.5.4 Describe the event that occur in the four phases of mitosis ( prophase, metapha ...

eoc review packet cell division

...  Purpose is cell division: making two cells out of one; divided into four phases. ○ Prophase: chromosomes condense and are more visible; nuclear membrane (envelope) disappears; centrioles separate and move to opposite sides of the cell; spindle fibers form ○ Metaphase: the shortest phase of mitosis ...

Standard B-2

...  Purpose is cell division: making two cells out of one; divided into four phases. ○ Prophase: chromosomes condense and are more visible; nuclear membrane (envelope) disappears; centrioles separate and move to opposite sides of the cell; spindle fibers form ○ Metaphase: the shortest phase of mitosis ...

tetrad synapsis - MsOttoliniBiology

... Homologous chromosomes separate (chromatids on a single chromosome DO NOT separate yet) Segregation = separation of homologous partners to different daughter cells Independent Assortment = mixing of paternal and maternal chromosomes (grandparent chromosomes) in different combinations… each chromosom ...

Spindle fibers

... 4 phases of nuclear division (mitosis), directed by the cell’s DNA (PMAT) Prophase ...

Unit VI: Cell Growth and Division

... 2. The larger the cell the ________________________________________ The exchange of materials depends upon _________________ The rate at which nutrients are used up and wastes are made depends upon the cells volume (what is happening inside) ...

Cell cycle

... Meiosis is the form of eukaryotic cell division that produces haploid sex cells or gametes (which contain a single copy of each chromosome) from diploid cells (which contain two copies of each chromosome). The process takes the form of one DNA replication followed by two successive nuclear and cellu ...

Cell Division - CCRI Faculty Web

... The Cell Cycle  4. Telophase Return to threadlike form as in prophase New nuclear envelope separates each chromosome cluster 2 new nuclei!!!!! ...

Standard S7L3. Students will recognize how biological traits are

... full set of genetic information (diploid cell) and will then grow into more cells through the process of mitosis. ...

Cell Division Teacher Notes

... Prophase I Homologous chromosomes pair together (called synapsis) Each homologous pair of chromosomes is called a tetrad Some chromatids break off and attach to adjacent homologous chromatids (crossing over) Crossing Over creates new genetic combinations Metaphase I Homologous chromosomes line up in ...

Lecture #6 Date ______

... Chromosomal Basis of Inheritance ...

Cellular Repro genetics to post

...  Zygote- fertilized egg ...

mitosis

... cytoplasm splits in two. This results in two daughter cells that are identical. Then the cells enter interphase and the cycle starts again. ...

Chapter 2 Power Point Slides

...  Sex chromosomes • Human X and Y chromosomes are involved in sex ...

The Cell Cycle

... Is an asexual process (without intercourse  single parent)  Is a multistep process that allows the nucleus to divide creating two daughter cells  Has the greatest amount of steps (four) of all the parts of the cell cycle  Is a relatively short cycle  Is carried out by all human cells (somatic ...

Cells are the building blocks of living things. They

... List two advantages of asexual reproduction: ____________________________________________________ _________________________________________________________________________________________________ List two disadvantages of asexual reproduction: __________________________________________________ _____ ...

Lesson: Mitosis and Meiosis Lab

... • Zygote: the cell that results from fertilization of two gametes (sex cells) that has 2 copies of chromosomes (one from each sex cell). • Fertilization: Male gamete and Female gamete fuse to create a zygote ...

Topic 10: Genetics (HL)

... 10.2.2 Distinguish between autosomes and sex chromosomes 10.2.3 Explain how crossing over between non-sister chromatids of a homologous pair in prophase I can result in an exchange of the alleles ...

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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