Chapters 2-4

... C. During meiosis II, sister chromatids separate to produce haploid gametes 1. Prophyase II is similar to the prophase of mitosis 2. Metaphase II: chromosomes align at the metaphase plate 3. Anaphase II: sister chromatids separate to opposite spindle poles 4. Telophase II followed by cytokinesis cre ...

Biol 178 Practice Exam 4

... (B) an attachment between homologues that have crossed over. (C) detachment of the chromosomes from the kinetochore microtubules at the end of mitosis. (D) the number of sets of chromosomes possessed by a cell. (E) none of the above. ...

Human Genetics

... • The gene is on one of the autosomes and is in the recessive form to show the trait. • Heterozygous individuals never show the trait, but do carry the recessive allele. • The trait may skip a generation in a family. • Males and females affected equally. ...

Chapter 13

... Sex Chromosomes Dosage compensation ensures an equal expression of genes from the sex chromosomes even though females have 2 X chromosomes and males have only 1. In each female cell, 1 X chromosome is inactivated and is highly condensed into a Barr body. Females heterozygous for genes on the X chro ...

Study Guide:

... Mutations Activity 65 Breeding Critters, more traits See notes- exceptions to simple dominance What is the difference between Incomplete dominance vs co-dominance and examples of each? How do you determine Sex of an organism? Environmental effect examples? Multiple alleles Activity 62- Analyzing Ge ...

Mutations—1 [1] Mutations [2] To understand what mutations are

... know about two kinds of cell division that happen inside of living organisms. / One kind of cell division is called mitosis--a highly complex process that happens all the time / as your body continually makes new cells for routine growth and repair. / The other kind is called meiosis, which happens ...

Objectives for Lab Quiz 5

... meiosis & mitosis tetrad & crossing over chromosome sister chromatids homologous chromosomes haploid diploid alleles spermatogenesis oogenesis spermatogonia primary and secondary spermatocyte spermiogenesis spermatid (flagellum, acrosome) oogonium primary and secondary oocyte oocyte (ovum) polar bod ...

Sexual reproduction

... 4. Gregor Mendel: ...

Chapter 15 - The Chromosomal Basis of Inheritance

... Way of determining genetic sex (without doing a karyotype) ...

DNA Assignment

... c) Describe the position of the chromatids during metaphase: _______________________________ d) What does "omnis celula e cellula" mean? ___________________________________________________________ ...

Maritni: Inheritance

... Assortment leads to many possibilities as far as gamete formation goes. For any genome it can be calculated as 2n, where n=the number of chromosome pairs. ...

Genetics and Protein Synthesis

... ■ Discovered after Mendel; states that if genes are on the same chromosome and located close together, they are often inherited together ■ Example: red hair and freckles in people ■ Seems to violate Mendel’s independent principle, but as long as genes are on different chromosomes or found far apart ...

Final Exam Review - Blue Valley Schools

Name__________________________ Period ______ Exam

... 4. What is binary fission? 5. What type of reproduction do mammals undergo? 6. What is the difference between a gene and a chromosome? 7. Do all organisms have the same number of chromosomes in their cell? 8. How many total chromosomes do humans have in the nucleus of their cells? 9. How many pairs ...

Sex Cell Production - Marblehead High School

... – Use pencil first and then color in – Draw 3 homologous pairs (red for maternal chromosomes and blue for paternal chromosomes) – Label: homologous chromosomes, tetrads, crossing over, independent assortment, centrioles, spindle fibers, nucleus, sister chromatids ...

Genetics Review Sheet

... How are mitosis and meiosis similar? They are both processes of cell division; Both start with one diploid cell; both undergo very similar phases, or sequence of events. How are mitosis and meiosis different? Mitosis results in 2 diploid cells while meiosis results in 4 haploid. Meiosis undergoes 2 ...

Study Guide: Chapter 10

... 4. Are the cells in an adult human the same size as an infant? Explain. 5. True or false? Volume increases more rapidly than surface area, causing the surface area to volume ratio to decrease. (p.242) 6. True or false? More surface area than volume, or a greater surface area to volume ratio, leads t ...

Document

... 2. There are 4 bases that make up DNA, how are they paired (just the letters, not their names)? A with T and C with G 3. Using DNA from an organism to “create” an identical organism is called what? Cloning 4. What two scientist made the first model of DNA? Watson and Crick 5. A change in the order o ...

AP Chapter 13 Study Guide: The Meiosis and Sexual Life Cycles

... you might wish to read about probability on pages 258-259) ______________________________________ 34. Assuming no crossing over, admittedly very improbable, what are the chances of a human being producing two gametes with exactly the same chromosomes? _______________________________________ WOW! Now ...

college-prep biology midterm review

... and how to use the tools that we’ve already used The definitions of the words from the oral reports – fields of biology The organelles of the cell and their functions The people responsible for inventing the microscope, naming the cell, and coming up with cell theory. (Ex: Leeuwenhoek, Hooke, Schlei ...

Genes and Natural Selection

Biology Name_____________________________________

...  In order to survive, the cancer cell has learned to either spread its proteins to other cells (metastasizing) or rebuild new blood vessels into the tumor (angiogenesis). ...

03HeredityEnvironment2

...  Phenotype = Observable characteristics based on ...

39 Karyotyping and Chromosomes Discovering

... when you specifically mate a particular animal that has certain desirable traits with other animals that have different desirable traits. For the most part, we have been able to create certain animals and plants that meet our needs. The problem with selective breeding, it is a “hit or miss” type of ...

Pop Bead Meiosis Lab

... * You should now have 4 strands, each that is a different color, 2 strands should be 10 beads long and the other 2 should be 6 beads long. E. Draw a circle with your chalk on the counter top and place the DNA in the center of the circle which represents the nucleus. Draw another large circle around ...

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Chromosome

A chromosome (chromo- + -some) is a packaged and organized structure containing most of the DNA of a living organism. It is not usually found on its own, but rather is complexed with many structural proteins called histones as well as associated transcription (copying of genetic sequences) factors and several other macromolecules. Two ""sister"" chromatids (half a chromosome) join together at a protein junction called a centromere. Chromosomes are normally visible under a light microscope only when the cell is undergoing mitosis. Even then, the full chromosome containing both joined sister chromatids becomes visible only during a sequence of mitosis known as metaphase (when chromosomes align together, attached to the mitotic spindle and prepare to divide). This DNA and its associated proteins and macromolecules is collectively known as chromatin, which is further packaged along with its associated molecules into a discrete structure called a nucleosome. Chromatin is present in most cells, with a few exceptions - erythrocytes for example. Occurring only in the nucleus of eukaryotic cells, chromatin composes the vast majority of all DNA, except for a small amount inherited maternally which is found in mitochondria. In prokaryotic cells, chromatin occurs free-floating in cytoplasm, as these cells lack organelles and a defined nucleus. The main information-carrying macromolecule is a single piece of coiled double-stranded DNA, containing many genes, regulatory elements and other noncoding DNA. The DNA-bound macromolecules are proteins, which serve to package the DNA and control its functions. Chromosomes vary widely between different organisms. Some species such as certain bacteria also contain plasmids or other extrachromosomal DNA. These are circular structures in the cytoplasm which contain cellular DNA and play a role in horizontal gene transfer.Compaction of the duplicated chromosomes during cell division (mitosis or meiosis) results either in a four-arm structure (pictured to the right) if the centromere is located in the middle of the chromosome or a two-arm structure if the centromere is located near one of the ends. Chromosomal recombination during meiosis and subsequent sexual reproduction plays a vital role in genetic diversity. If these structures are manipulated incorrectly, through processes known as chromosomal instability and translocation, the cell may undergo mitotic catastrophe and die, or it may unexpectedly evade apoptosis leading to the progression of cancer.In prokaryotes (see nucleoids) and viruses, the DNA is often densely packed and organized. In the case of archaea by homologs to eukaryotic histones, in the case of bacteria by histone-like proteins. Small circular genomes called plasmids are often found in bacteria and also in mitochondria and chloroplasts, reflecting their bacterial origins.

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Chromosome