Section 7.1: Chromosomes & Phenotypes
... because there is not always two copies of a gene. • Males, only have one chromosome that carries genes (X). • Therefore, for some disorders, a male only needs 1 copy of a gene. • This means males will show all recessive traits because there is no other allele to mask. • In females, their sex-linked ...
... because there is not always two copies of a gene. • Males, only have one chromosome that carries genes (X). • Therefore, for some disorders, a male only needs 1 copy of a gene. • This means males will show all recessive traits because there is no other allele to mask. • In females, their sex-linked ...
Chapter 11 Notes: Mendelian Genetics
... Example: In some plants, when a true-breeding plant with _______ flowers is crossed with a truebreeding plant with ________ flowers, _________ flowers are produced. Neither red nor white is dominant over the other. ii. __________________: situation in which both __________ of a gene contribute to th ...
... Example: In some plants, when a true-breeding plant with _______ flowers is crossed with a truebreeding plant with ________ flowers, _________ flowers are produced. Neither red nor white is dominant over the other. ii. __________________: situation in which both __________ of a gene contribute to th ...
4.1 Living Things Inherit Traits in Patterns
... position, seed shape, seed color, pod shape, pod color, flower color ...
... position, seed shape, seed color, pod shape, pod color, flower color ...
Power Point Slides
... 3. Couples who are blood relatives (first or second cousins) 4. African Americans, Ashkenzzi Jews, Italians, Greeks, and other high-risk ...
... 3. Couples who are blood relatives (first or second cousins) 4. African Americans, Ashkenzzi Jews, Italians, Greeks, and other high-risk ...
Mutations that happen during Transcription and
... • Enzymes proofread the DNA and replace incorrect nucleotides with correct nucleotides. • The greater the exposure to a mutagen such as UV light, the more likely is the chance that a mistake will not be corrected. ...
... • Enzymes proofread the DNA and replace incorrect nucleotides with correct nucleotides. • The greater the exposure to a mutagen such as UV light, the more likely is the chance that a mistake will not be corrected. ...
Meiosis to the Punnett Square
... If the offspring from question #6 were to pollinate each other (as plants often do), what would be the genotype probabilities for the offspring? ...
... If the offspring from question #6 were to pollinate each other (as plants often do), what would be the genotype probabilities for the offspring? ...
doc
... Most of the cells in a human contain two copies of each of 22 different chromosomes. In addition, there is a pair of chromosomes that determines sex: a female contains two X chromosomes and a male contains one X and one Y chromosome. Transmission of genetic information to offspring occurs through eg ...
... Most of the cells in a human contain two copies of each of 22 different chromosomes. In addition, there is a pair of chromosomes that determines sex: a female contains two X chromosomes and a male contains one X and one Y chromosome. Transmission of genetic information to offspring occurs through eg ...
MUTATIONS
... Occurs when homologous chromosomes fail to separate correctly during meiosis. Examples: Trisomy – extra chromosome, Down’s syndrome extra 21st chromosome Triploidy – extra set of chromosomes 3n Monosomy – missing one chromosome, Turner’s syndrome one missing X chromosome ...
... Occurs when homologous chromosomes fail to separate correctly during meiosis. Examples: Trisomy – extra chromosome, Down’s syndrome extra 21st chromosome Triploidy – extra set of chromosomes 3n Monosomy – missing one chromosome, Turner’s syndrome one missing X chromosome ...
Study Guide for Exam 3 Dr. Osborne
... Testes produce male and female sperm cells by meiosis b. Sperm cells leave the body via the vas deferens and urethra--they enter the vagina c. A single spenn cell will fertilize an egg in the oviduct ...
... Testes produce male and female sperm cells by meiosis b. Sperm cells leave the body via the vas deferens and urethra--they enter the vagina c. A single spenn cell will fertilize an egg in the oviduct ...
Mendelian Genetics
... Distributed to different gametes b. A gamete has either the parental or maternal gene, but not both i. Some chromosomes may include elements of each due to synapsis ...
... Distributed to different gametes b. A gamete has either the parental or maternal gene, but not both i. Some chromosomes may include elements of each due to synapsis ...
Mendel`s Genetics
... 6. Organisms are said to be homozygous for a trait if both alleles for the trait are the same. (TT for a tall plant and tt for a short plant.) 7. Organisms are said to be heterozygous for a trait if each allele for the trait is different. (Tt) 8. Organisms are said to be codominant for a trait when ...
... 6. Organisms are said to be homozygous for a trait if both alleles for the trait are the same. (TT for a tall plant and tt for a short plant.) 7. Organisms are said to be heterozygous for a trait if each allele for the trait is different. (Tt) 8. Organisms are said to be codominant for a trait when ...
In meiosis, what is the difference between metaphase 1 and
... 6. Explain what is meant by crossing-over (recombination). Be sure and mention at what time it is taking place within the cell. An exchange of corresponding segments between two homologous chromosomes at the chiasma. Occurs during prophase I of meiosis. ...
... 6. Explain what is meant by crossing-over (recombination). Be sure and mention at what time it is taking place within the cell. An exchange of corresponding segments between two homologous chromosomes at the chiasma. Occurs during prophase I of meiosis. ...
Human Genetics - Biology Department
... Remember: Have 23 pairs 1 of each pair came from mom 1 of each pair came from dad ...
... Remember: Have 23 pairs 1 of each pair came from mom 1 of each pair came from dad ...
Biological Applications in Agriculture
... I. What is genetics and why is it important to understand genetics? A. Genetics is the study of how traits are passed from parents to offspring 1.The passing of traits from one generation to another is heredity 2. traits are governed by genetics as well as the environment 3. The amount of environme ...
... I. What is genetics and why is it important to understand genetics? A. Genetics is the study of how traits are passed from parents to offspring 1.The passing of traits from one generation to another is heredity 2. traits are governed by genetics as well as the environment 3. The amount of environme ...
Pre AP - Applications of Genetics Notes Incomplete dominance and
... Phenotypic = _________ : ______________ : _________ ...
... Phenotypic = _________ : ______________ : _________ ...
PowerPoint Presentation - Mammalian X
... Nature Genetics 30, 325 - 328 (2002) Tetraploid green toads reproduce through diploid eggs and sperm cells. A new taxon was discovered at an isolated site in the Karakoram mountain range. Every wild toad caught from eight localities was triploid Did not find a single diploid or tetraploid Batura toa ...
... Nature Genetics 30, 325 - 328 (2002) Tetraploid green toads reproduce through diploid eggs and sperm cells. A new taxon was discovered at an isolated site in the Karakoram mountain range. Every wild toad caught from eight localities was triploid Did not find a single diploid or tetraploid Batura toa ...
Homologous chromosomes
... – Many people have the same number of repeats in a certain region of DNA – The probability that two people share identical numbers of repeats in several locations is very small – Several regions of DNA are used to make a DNA fingerprint to make it more likely the fingerprint is unique. – Used in cri ...
... – Many people have the same number of repeats in a certain region of DNA – The probability that two people share identical numbers of repeats in several locations is very small – Several regions of DNA are used to make a DNA fingerprint to make it more likely the fingerprint is unique. – Used in cri ...
Chapter Review
... c. environmental factors. d. uncertain dominance. Short Answer 12. Which sex chromosomes do females have? Which do males have? ...
... c. environmental factors. d. uncertain dominance. Short Answer 12. Which sex chromosomes do females have? Which do males have? ...
lecture 3 notes
... o “Killer” Paramecium liberate a toxin into the environment (or during conjugation) that kill “killer-minus” cells. Crosses showed cytoplasmic inheritance phenotype (all had it or didn’t; no 1:1 segregation)-termed “Kappa”. Determined that many species of bacterial symbionts are present in Parameciu ...
... o “Killer” Paramecium liberate a toxin into the environment (or during conjugation) that kill “killer-minus” cells. Crosses showed cytoplasmic inheritance phenotype (all had it or didn’t; no 1:1 segregation)-termed “Kappa”. Determined that many species of bacterial symbionts are present in Parameciu ...
8 Cell Division
... 2. Why are chromosomes copied (replicated) before cellular division? In what phase of the cell cycle does this occur? What is the difference in structure between a single chromosome and a replicated chromosome? What is a centromere? A (sister) chromatid? 3. Name the phases of the cell cycle and what ...
... 2. Why are chromosomes copied (replicated) before cellular division? In what phase of the cell cycle does this occur? What is the difference in structure between a single chromosome and a replicated chromosome? What is a centromere? A (sister) chromatid? 3. Name the phases of the cell cycle and what ...
Ch 6 Notes 1011
... c. Inversion may or may not cause any harm, but may lead to a chromosome mutation in offspring d. Translocation TWO chromosomes switch parts (may or may not be a problem, but may lead to a chromosome disorder) ...
... c. Inversion may or may not cause any harm, but may lead to a chromosome mutation in offspring d. Translocation TWO chromosomes switch parts (may or may not be a problem, but may lead to a chromosome disorder) ...
S-8-2-2_Genetics and Heredity: Vocabulary Worksheet and KEY
... S-8-2-2_Genetics and Heredity: Vocabulary Worksheet and KEY Genetics and Heredity: Vocabulary Worksheet Directions: Fill in the blanks with vocabulary terms from the list below. All organisms reproduce, or make more organisms that are similar to themselves. ______________________ also involves the p ...
... S-8-2-2_Genetics and Heredity: Vocabulary Worksheet and KEY Genetics and Heredity: Vocabulary Worksheet Directions: Fill in the blanks with vocabulary terms from the list below. All organisms reproduce, or make more organisms that are similar to themselves. ______________________ also involves the p ...
Polyploid
Polyploid cells and organisms are those containing more than two paired (homologous) sets of chromosomes. Most species whose cells have nuclei (Eukaryotes) are diploid, meaning they have two sets of chromosomes—one set inherited from each parent. However, polyploidy is found in some organisms and is especially common in plants. In addition, polyploidy occurs in some tissues of animals that are otherwise diploid, such as human muscle tissues. This is known as endopolyploidy. Species whose cells do not have nuclei, that is, Prokaryotes, may be polyploid organisms, as seen in the large bacterium Epulopicium fishelsoni [1]. Hence ploidy is defined with respect to a cell. Most eukaryotes have diploid somatic cells, but produce haploid gametes (eggs and sperm) by meiosis. A monoploid has only one set of chromosomes, and the term is usually only applied to cells or organisms that are normally diploid. Male bees and other Hymenoptera, for example, are monoploid. Unlike animals, plants and multicellular algae have life cycles with two alternating multicellular generations. The gametophyte generation is haploid, and produces gametes by mitosis, the sporophyte generation is diploid and produces spores by meiosis.Polyploidy refers to a numerical change in a whole set of chromosomes. Organisms in which a particular chromosome, or chromosome segment, is under- or overrepresented are said to be aneuploid (from the Greek words meaning ""not"", ""good"", and ""fold""). Therefore the distinction between aneuploidy and polyploidy is that aneuploidy refers to a numerical change in part of the chromosome set, whereas polyploidy refers to a numerical change in the whole set of chromosomes.Polyploidy may occur due to abnormal cell division, either during mitosis, or commonly during metaphase I in meiosis.Polyploidy occurs in some animals, such as goldfish, salmon, and salamanders, but is especially common among ferns and flowering plants (see Hibiscus rosa-sinensis), including both wild and cultivated species. Wheat, for example, after millennia of hybridization and modification by humans, has strains that are diploid (two sets of chromosomes), tetraploid (four sets of chromosomes) with the common name of durum or macaroni wheat, and hexaploid (six sets of chromosomes) with the common name of bread wheat. Many agriculturally important plants of the genus Brassica are also tetraploids.Polyploidy can be induced in plants and cell cultures by some chemicals: the best known is colchicine, which can result in chromosome doubling, though its use may have other less obvious consequences as well. Oryzalin will also double the existing chromosome content.