Chapter 15

... III. Sex Chromosomes  XX=female XY=male / very little crossing over / SRY codes for proteins that regulate male characteristics  Sex-linked traits / Duchenne Muscular Dystrophy, Hemophilia, Color Blindness  X inactivation – one X in females is turned off during embryonic development Barr body – ...

Chapter 8

... • This DNA-protein complex is chromatin • Chromatin is organized into a long, thin fiber • Fiber is coiled & folded to form the chromosome • Gene – a unit of information on a chromosome - consists of DNA - can be passed along to offspring ...

Meiosis and Mitosis - Northwest ISD Moodle

... • The failure of homologous chromosomes to separate properly during meiosis is called nondisjunction. •This would occur when homologous chromosomes are suppose to separate from each other. ...

Genes, Chromosomes and DNA

... their species. Referred to as the diploid number of chromosomes. • Gametes - Sex Cells. Cell which carry genetic information for sexual reproduction. Contain one half the compliment of chromosomes characteristic to their species .Referred to as the haploid number of chromosomes. ...

Genetics Vocabulary List

... same genetic material Sexual Reproduction: A type of reproduction in which male and female reproductive cells combine to form offspring with genetic material from both cells Mitosis: Cell division resulting in two identical cells Meiosis: Cell division resulting in four sex cells with half the norma ...

Genetics Unit Review Any question that is not “fill in the bl

... 1. What is your plan for studying? Which nights, what times, for how long, which lesson, how will you study? 2. What is heredity? 3. What scientist made important discoveries that allow us to study genetics?_____________ 4. What organism did the scientist in question 4 study?____________________ 5. ...

Document

... Allium Root Meristem -A Mitotic Figures - Allium Region of Cell Division ...

Exam 2

... 6. The following statements refer to meiosis and/or mitosis. Next to each phrase, indicate whether the phrase refers to meiosis and mitosis. Write both is it refers to both processes. Write neither if it refers to neither process. Increases the number of chromosomes ________________________________ ...

Karyotypes and Karyotyping

... and organizing them according to the arrangement, number, size, shape, or other characteristics of the chromosomes. ...

Patterns of Inheritance 4. Sex-linked Recessive C. Nondisjunction

... 1. Genes located on autosomes 2. Simple inheritance patterns B. Sex-linked (X-linked) 1. Genes located on sex chromosomes 2. Males (XY) a. Only inherit 1 allele because they only have 1 X chromosome b. The one allele comes from their mom 3. Females (XX) a. Inherit 2 alleles b. 1 allele from each par ...

Notes 12 The M Stage Division of Genetic Material

...  In almost every cell are long molecules that hold _____________ _______________  This information tells the cell how to grow, develop and _____________  These long ______________ are called DNA, a type of ____________ ___________  ___________________ are long strands of DNA wrapped around prote ...

Meiosis II

... or egg). • Gametes have half the # of chromosomes. • Occurs only in gonads (testes or ovaries). Male: spermatogenesis Female: oogenesis ...

Chapter 7: Getting into genes Name

... mutations is not correct? A Mutations can be caused by radiation. B A mutation is a change in a gene or chromosome. C All mutations are harmful. D Mutations can occur as DNA is being copied. E Mutations can occur by pure chance. F Mutations can be inherited. ...

Genetic Disorders Class Notes

... deterioration, fatal (8:100,000) ...

Pedigrees - Cloudfront.net

... Pedigrees are used to: – Determine whether a trait is inherited – Show how a trait is passed from one generation to the next – To determine if an allele is dominant or recessive ...

Meiosis

... body are produced by mitosis. • These are the somatic cells. • Cells that become gametes are referred to as germ cells (sex cells). ...

Cell Division Notes

... G1 – growth and protein synthesis S – DNA replication (copying the DNA) G2 – Make organelles M – Mitosis (Nuclear division) and Cytokinesis – division of cytoplasm and membrane ...

Non-Disjunction & Aneuploidy

...  In the case of somatic human cells, euploidy occurs when the cell is diploid. ...

DNA - VanityWolveriine

... genetic characteristics in all life forms, constructed of two nucleotide strands coiled around each other in a ladder like arrangement with the sidepieces composed of alternating phosphate and deoxyribose units and the rungs composed of the perinea and pyrimidine bases adenine, guanine, cytosine, an ...

Activity 2.16 Reebops

... then made in the cell cytoplasm. The proteins produced by the genes can generally be sorted into two different types: ones that run the chemical reactions in the body, and ones that will be the structural components of the body. How an organism looks and functions are a result of the cumulative effe ...

File - Thomas Tallis Science

... What are inherited diseases? Inherited diseases are diseases caused by faulty genetic material that is passed on to future generations. They are sometimes called genetic disorders. Many inherited diseases are caused by mutations in DNA, resulting in faulty alleles that are not properly expressed. M ...

NAME - Liberty Union High School District

... 6. Which two genes/traits in Reebops are located on the same chromosome? 7. What do we call it when to genes are on the same chromosome? a. What genetics law does this test? 8. Look at the body parts again, which Reebop trait shows incomplete dominance? 9. Explain how you knew this was incomplete do ...

DNA Replication

...  Now, if a cell has 46 chromosomes in it  And we have done DNA replication,  Then that cell will have double the number of chromosomes…it will have 92  Is this normal? How do we get it back to 46? ...

Genetics - TeacherWeb

... • 1909 Thomas Hunt Morgan: Colombia University - used Drosophila melanogaster as a research animal ...

Cell Growth and Division:

... G1 – growth and protein synthesis S – DNA replication (copying the DNA) G2 – Make organelles M – Mitosis (Nuclear division) and Cytokinesis – division of cytoplasm and membrane ...

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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