5-Sex linked - Science-with

... • paired chromosomes segregate during meiosis. Each sex cell or gamete has half the number of chromosomes found in the somatic cells. This explains why each gamete has one of each of the paired alleles. ...

Unit 5 Review Guide

... If a pea plant that is heterozygous for all three characteristics were allowed to self-fertilize, what proportion of the offspring would be expected to be as follows: (Note: use the rules of probability instead of a huge Punnett square). a) homozygous for the three dominant traits b) homozygous for ...

Cytogenetics

... Karyotyping is the process of pairing and ordering all the chromosomes of an organism, thus providing a genome-wide snapshot of an individual's chromosomes. Karyotypes are prepared using standardized staining procedures that reveal characteristic structural features for each chromosome. Clinical cy ...

college-prep biology fall final exam review

...  The differences between the types of mutations that occur in the DNA replication and protein synthesis process  How to identify cells in the various phases of the cell cycle (microviewer lab)  The number of chromosomes that are a result of a mitotic division in human cells  The numbers of chrom ...

REVIEW FOR TEST 4: GENETICS

... 6. List chromosomal anomalies that can result from XX nondisjuction in a. spermatogenesis b. oogenesis. List chromosomal anomalies that can result from YY nondisjuction in spermatogenesis. ...

Organism Genome (kb) Form

... Yeast Arabidopsis (plant) Fruit fly Mouse Human ...

DNA and Heritable Traits - JA Williams High School

... Describe the type of cell division that occurs in the body cells of multicellular organisms ...

ChromosomesII - life.illinois.edu

... Artificially-Produced New Species! Brassica oleracea (cabbage) x Raphanus sativa (radish) Both species 2n = 18; n = 9, chromosomes not homologous. Cabbage X Radish --> hybrid has 18 chromosomes, but meiosis is abnormal. Nondisjunction in a meristematic cell --> 36 chromosomes. The cell is said to b ...

Practice Exam 4 Below are sample questions from your book (of

... Understand how meiosis introduces genetic variation Compare and contrast mitosis and meiosis Describe the mendelian evidence for the Chromosomal Inheritance Theory Understand sex-linked traits o Be able to work examples as Punnett squares Describe examples of non-Mendelian inheritance ...

2nd Semester Review The second semester test covers Meiosis

... Physiology: Digestive System, Circulatory System and Respiratory System, and Ecology. This list will help you prepare. You should also look over all the review documents that you have in your workbook for these units. ...

1) The creation of genetically identical offspring by a single parent

... 1) The creation of genetically identical offspring by a single parent, without the participation of sperm and egg, is called A) asexual reproduction. B) sexual reproduction. C) regeneration. D) spontaneous generation. 2) Asexual reproduction requires ________ individual(s). A) 0 B) 1 C) 2 D) 3 3) Eu ...

Chromosomes and Mapping

... • Ensures an equal expression of genes from the sex chromosomes even though females have 2 X chromosomes and males have only 1 • In each cell of a female, 1 X chromosome is inactivated and is highly condensed into a Barr body – the other X chromosome provides phenotype • Females heterozygous for gen ...

Vocab table - Genetics and variation teacher

... the differences among individuals in morphology, behaviour, and reproductive performance that have a genetic basis Having two different allelic forms of a given gene ...

Evolution and Genetics

... In asexual reproduction, offspring receive how much of their DNA from the parent(s)? ...

Unit 3 PreTest Heredity and Genetics

... Gregor Mendel demonstrated that traits are determined by A. ...

Human Genetics: Bug Karyotype Ch. 14

... enlarged, the chromosomes are cut from the picture, and they are arranged according to size, arm length, centromere position, and banding patterns. The karyotype that results from this procedure may be used to diagnose some genetic diseases. This investigation uses karyotypes for a species of insect ...

Translation RNA Single stranded Does not contain thymine but has

... Tumor – abnormal proliferation of cells that results from uncontrolled, abnormal cell division  Benign – a tumor that remains within a mass  Malignant tumor- uncontrolled dividing cells that invade and destroy healthy tissue elsewhere in the body  Metastasis – spread of cancer cells beyond ...

Human Genome PPT 2013

... Can be single gene mutation or polygenic mutation) Autosomal Dominant Genetic Disorders: These disorders are caused when an individual has inherited the defective allele from a single parent. Ex: Aa or AA (Dwarfism, Huntington disease) Autosomal Recessive Genetic Disorders: Such disorders manifest ...

5th and 6th grade Ch 4 test Notes:

... A) Dominant trumps one recessive gene B) Recessive needs two genes to dominant C) You need to read a Punnett Square D) One Dominant and one recessive gene equals a hybrid trait. Part B Short Answer 1. Answer questions based on a chart of Body Cell Chromosomes number. Remember that sex cells have ½ o ...

DNA Discovery

... • Females have two copies of the X chromosome however the amount of proteins in males and females is equal. – What happens is that one of the X chromosomes is inactivated randomly, it is referred to as a Barr body. It is important to remember that different X chromosomes are inactivated in different ...

1. The animals which possess backbones are a. Insects b. Birds c

... b. Cell division ...

Lecture #6 Date - Simon Technology

... Chromosomal errors, II  Alterations of chromosomal structure:  Deletion: removal of a chromosomal segment  Duplication: repeats a chromosomal segment  Inversion: segment reversal in a chromosome  Translocation: movement of a chromosomal segment to another ...

Meiosis Station Write the following statements in the correct column

... Makes haploid cells (1n) Makes four cells Makes diploid cells (2n) Makes genetically identical cells Makes genetically unique cells Makes two cells Makes gametes Goes through 2 cell divisions Goes through one cell division ...

Reproduction of Organisms

... Sexual Reproduction a. 2 haploid gametes (sex cells) unite to form a zygote (fertilized egg) b. Animals—almost all multicellular animals exist as Diploid organisms.  Diploid= a cell that contains both chromosomes of a pair. (2n) c. Plants—most plants have a haploid and diploid form during their lif ...

- human genetics

... a. causes the genes on one of the X chromosomes a female cell to be switched off. b. always causes the same X chromosome in a female's cells to be switched off. c. switches on the Y chromosome in a male cell. d. none of the above A cat that has spots of only one color a. has no Barr bodies. b. must ...

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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