Homologous chromosomes Homologous chromosomes Sister
... Spindle microtubules begin to form between centrioles outside of nucleus. Centrioles move to the poles and the nuclear envelope breaks down. Kinetochore microtubules attach kinetochores of chromosomes to spindle poles. Polar microtubules extend toward the center of the cell and overlap. ...
... Spindle microtubules begin to form between centrioles outside of nucleus. Centrioles move to the poles and the nuclear envelope breaks down. Kinetochore microtubules attach kinetochores of chromosomes to spindle poles. Polar microtubules extend toward the center of the cell and overlap. ...
Bacterial cell Septum Bacterial chromosome: Double
... Nuclear envelope remains intact; spindle microtubules form inside the nucleus between spindle pole bodies. A ...
... Nuclear envelope remains intact; spindle microtubules form inside the nucleus between spindle pole bodies. A ...
Example Dihybrid Cross
... Allele-alternate forms of a given gene (brown or blue eyes) Independent assortment- random distribution of unlinked genes into gametes. Linked Genes- genes located on the same chromosome tend to be inherited together. The alleles do not assort independently. Sex linked genes- genes located on a sex ...
... Allele-alternate forms of a given gene (brown or blue eyes) Independent assortment- random distribution of unlinked genes into gametes. Linked Genes- genes located on the same chromosome tend to be inherited together. The alleles do not assort independently. Sex linked genes- genes located on a sex ...
If you need help, please ask!!!
... 3. Discuss the 5 control factors of cell division and briefly why cancer cells are easier to grow in the lab than other cells. 4. Briefly discuss how horizontal gene transfer can increase genetic diversity in asexually reproducing prokaryotes. 5. Compare and contrast PCR and RFLP. When would one be ...
... 3. Discuss the 5 control factors of cell division and briefly why cancer cells are easier to grow in the lab than other cells. 4. Briefly discuss how horizontal gene transfer can increase genetic diversity in asexually reproducing prokaryotes. 5. Compare and contrast PCR and RFLP. When would one be ...
Cell Cycle & Division
... Copying of all of DNA’s instructions (DNA Replication) DNA in the form of chromatin (not visible) ...
... Copying of all of DNA’s instructions (DNA Replication) DNA in the form of chromatin (not visible) ...
FOSS notes Heredity - Southington Public Schools
... Heredity is the passing of information from one generation to the next. Chromosomes are structures that contain hereditary info and transfer it to the next generation; they occur in nearly identical pairs in the nucleus of every cell. ...
... Heredity is the passing of information from one generation to the next. Chromosomes are structures that contain hereditary info and transfer it to the next generation; they occur in nearly identical pairs in the nucleus of every cell. ...
1 - Northern Highlands
... b. Prophase d. Anaphase 19) RNA is different from DNA in all of the following ways except a. Ribose sugar replaces Deoxyribose Sugar b. Uracil replaces Thymine c. RNA is double stranded d. RNA is capable of leaving the nucleus ...
... b. Prophase d. Anaphase 19) RNA is different from DNA in all of the following ways except a. Ribose sugar replaces Deoxyribose Sugar b. Uracil replaces Thymine c. RNA is double stranded d. RNA is capable of leaving the nucleus ...
UPDATED Cell Mitosis Lab
... 1. To indicate that you have a pair of homologous chromosomes, both gummy worms will be the same color. Explain what the color represents, in terms of what it is for in the body. Students can get creative with this – pick a trait for chromosomes to represent (brown hair, blue eyes, widows peak, etc. ...
... 1. To indicate that you have a pair of homologous chromosomes, both gummy worms will be the same color. Explain what the color represents, in terms of what it is for in the body. Students can get creative with this – pick a trait for chromosomes to represent (brown hair, blue eyes, widows peak, etc. ...
Exam 1 Review - Iowa State University
... 42. Which one of these is not part of the alteration of generations cycle? a. Haploid zygote b. Diploid Sporophyte c. Haploid gamete d. Multicellular cells 43. Which of these is not a characteristic of nonvascular plants? a. large b. dependent sporophyte c. lacks vascular tissue d. lives in moist ha ...
... 42. Which one of these is not part of the alteration of generations cycle? a. Haploid zygote b. Diploid Sporophyte c. Haploid gamete d. Multicellular cells 43. Which of these is not a characteristic of nonvascular plants? a. large b. dependent sporophyte c. lacks vascular tissue d. lives in moist ha ...
cell cycle - Montville.net
... When a chromosome is examined during mitosis or meiosis there is a pinched in region somewhere along the length of the chromosome called the centromere. The centromere is a region to which the spindle fibers attach to the chromosome and it is in a characteristic position that is constant for differe ...
... When a chromosome is examined during mitosis or meiosis there is a pinched in region somewhere along the length of the chromosome called the centromere. The centromere is a region to which the spindle fibers attach to the chromosome and it is in a characteristic position that is constant for differe ...
Georgia Science Standard S7L2.a Grade 7
... deoxyribonucleic acid (DNA). DNA is the hereditary material that controls all cell activities, including the making of new cells. The DNA of a cell is organized into structures called chromosomes. Copying chromosomes ensures that each new cell will be an exact copy of its parent cell. The copied chr ...
... deoxyribonucleic acid (DNA). DNA is the hereditary material that controls all cell activities, including the making of new cells. The DNA of a cell is organized into structures called chromosomes. Copying chromosomes ensures that each new cell will be an exact copy of its parent cell. The copied chr ...
Biology Final Review
... _____42. A child is diagnosed with a genetic disease. Neither parent has the disease. How might the child have inherited the disease? A. disorder dominant – carried by a single parent B. disorder is sex-linked – carried by the father C. disorder is recessive – carried by both parents D. None of the ...
... _____42. A child is diagnosed with a genetic disease. Neither parent has the disease. How might the child have inherited the disease? A. disorder dominant – carried by a single parent B. disorder is sex-linked – carried by the father C. disorder is recessive – carried by both parents D. None of the ...
DNA and the Cell Cycle - Mrs. Gracie Gonzalez Biology Class
... 2. Meiosis creates 4 genetically different daughter cells, like sperm or egg. Each cell has ½ the number of chromosomes because a sperm from dad and an egg from mom will combine to create a baby—which the full number of chromosomes. a. Things that occur to ensure genetic diversity (that’s why yo ...
... 2. Meiosis creates 4 genetically different daughter cells, like sperm or egg. Each cell has ½ the number of chromosomes because a sperm from dad and an egg from mom will combine to create a baby—which the full number of chromosomes. a. Things that occur to ensure genetic diversity (that’s why yo ...
Introduction to Meiosis
... 15. Sexually reproducing organisms have to form gametes, like egg and sperm cells, in order to make offspring. What is the process called that forms gametes so that sexual reproduction can occur?__________________ 16. Do asexual organisms like bacteria go through the process of meiosis (making gamet ...
... 15. Sexually reproducing organisms have to form gametes, like egg and sperm cells, in order to make offspring. What is the process called that forms gametes so that sexual reproduction can occur?__________________ 16. Do asexual organisms like bacteria go through the process of meiosis (making gamet ...
Slide 1
... from diploid to haploid Events in the nucleus during meiosis I – Prophase I – Chromosomes coil and become compact – Homologous chromosomes come together as pairs by synapsis – Each pair, with four chromatids, is called a tetrad – Nonsister chromatids exchange genetic material by ...
... from diploid to haploid Events in the nucleus during meiosis I – Prophase I – Chromosomes coil and become compact – Homologous chromosomes come together as pairs by synapsis – Each pair, with four chromatids, is called a tetrad – Nonsister chromatids exchange genetic material by ...
Cell division and Survival
... cell in a human has 46 ch_____________. Gorillas have two sets of 24 chromosomes (n= 24) so every gorilla body cell has 48 chromosomes. The diploid cell d_________ by M_________ to form g___________ that contain only o______ set of ch_____________. These are called h___________( n) cells. Notice tha ...
... cell in a human has 46 ch_____________. Gorillas have two sets of 24 chromosomes (n= 24) so every gorilla body cell has 48 chromosomes. The diploid cell d_________ by M_________ to form g___________ that contain only o______ set of ch_____________. These are called h___________( n) cells. Notice tha ...
S11 321 QUIZ 1 ANSWERS
... 1. (3 pts.) The hormone gibberellin is a major determinant of plant height and dwarfism can be caused by a failure to produce or to respond properly to this compound. Many different gene products are required for the biosynthesis of gibberellin and for the proper cellular response to its presence. G ...
... 1. (3 pts.) The hormone gibberellin is a major determinant of plant height and dwarfism can be caused by a failure to produce or to respond properly to this compound. Many different gene products are required for the biosynthesis of gibberellin and for the proper cellular response to its presence. G ...
Chapter 8 Review Sheet
... Meiosis and Crossing Over 8.12 Explain how chromosomes are paired. Distinguish between autosomes and sex chromosomes. 8.13 Distinguish between (a) somatic cells and gametes and (b) diploid cells and haploid cells. 8.14 List the phases of meiosis I and meiosis II, and describe the events characterist ...
... Meiosis and Crossing Over 8.12 Explain how chromosomes are paired. Distinguish between autosomes and sex chromosomes. 8.13 Distinguish between (a) somatic cells and gametes and (b) diploid cells and haploid cells. 8.14 List the phases of meiosis I and meiosis II, and describe the events characterist ...
Your Pre AP biology final exam
... What is a gene? What is a chromosome? What is chromatin? Where can you find these things? How many chromosomes do you have in your somatic cells? What is a somatic cell How many chromosomes do you have in your gametes? What is a gamete? Why do gametes have a haploid number of chromosomes? Cell cycle ...
... What is a gene? What is a chromosome? What is chromatin? Where can you find these things? How many chromosomes do you have in your somatic cells? What is a somatic cell How many chromosomes do you have in your gametes? What is a gamete? Why do gametes have a haploid number of chromosomes? Cell cycle ...
Your Pre AP biology final exam
... What is a gene? What is a chromosome? What is chromatin? Where can you find these things? How many chromosomes do you have in your somatic cells? What is a somatic cell How many chromosomes do you have in your gametes? What is a gamete? Why do gametes have a haploid number of chromosomes? Cell cycle ...
... What is a gene? What is a chromosome? What is chromatin? Where can you find these things? How many chromosomes do you have in your somatic cells? What is a somatic cell How many chromosomes do you have in your gametes? What is a gamete? Why do gametes have a haploid number of chromosomes? Cell cycle ...
Answers to Mastering Concepts Questions
... chestnut blight, athlete’s foot, and other diseases. Penicillium notatum produces antibiotics and other Penicillium species flavor cheeses. Morels and truffles are ascomycetes. Yeasts are used in baking, brewing, winemaking, and production of soy sauce. The drug cyclosporine comes from ascomycetes. ...
... chestnut blight, athlete’s foot, and other diseases. Penicillium notatum produces antibiotics and other Penicillium species flavor cheeses. Morels and truffles are ascomycetes. Yeasts are used in baking, brewing, winemaking, and production of soy sauce. The drug cyclosporine comes from ascomycetes. ...
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.