CH 10 Genetics: Vocabulary terms

... 14. ________________: “stronger” trait that shows up when the dominant allele is present; represented by a capital letter 15. ________________: “weaker” trait that shows up only when the dominant allele is not present; represented by a lowercase letter 16. ________________: states that every organis ...

13 Genetics Part 1

... The allele for straight hair (S) is dominant to the allele for curly hair (s). A father with straight hair who is heterozygous (Ss) has 4 children with his wife who is ...

Genetics and Inheritance

... Due to Mendel’s Law of Independent Assortment, we must look at all possible allele combinations that can go into sperm and egg. We will use a method of distribution you may have seen in math class called FOIL. FOIL stands for First, Outside, Inside, ...

Mendel and Heredity (Chapter 8)

... 3. Why did Mendel use garden peas? a) Peas have clear traits - easy to tell apart (see table 8-1, pg 163) b) Easy to control pollination (male and female parts are in same flower) 1) self-fertilization – flower fertilizes itself 2) cross-pollination – transfer of pollen between plants c) Easy to gr ...

5-2 genetics summary

... • Some examples of environmental factors that affect phenotype are soil type that a flower is growing in or time of year that a butterfly develops. ...

1. Traits are controlled by particles 2. Two genes per trait 3

... “A diagram that shows appearance of phenotypes for a single trait in a group of related individuals from one generation to the next.” ...

Introduction to Genetics using Punnett Squares

... the standard way of working out what the possible offspring of two parents will be. ...

Slide set - Mediterranean Group for the Study of Diabetes

... The correlation factor between allele scores and log Risk Ratio of each allele score was significant at 0.96 in pGDM group. ...

PHYSMendeliangenetics

... a. “When gametes are made, the two genes for a trait separate and each gamete has only one gene for each trait” This happens in meiosis ...

AP Biology Population Genetics and Evolution Lab Introduction In

... It is important to remember that the Hardy-Weinberg Theorem describes a hypothetical, non-evolving population that is in equilibrium. Most populations will not meet these five conditions. If a population's allelic frequencies are changing, then the population is undergoing evolution. So of what valu ...

Mendel and his Peas

... Anthers of one plant are removed so it can not self pollinate  Pollen from another plant is used to pollinate the flower ...

Document

... differ only in one character d. A breeding experiment in which the parental varieties have only one prominent trait. ...

Chapter 11 Introduction to genetics

... reproductive cells join to form a new cell. Pollen- contains the male reproductive cells, or sperm.  Carpel- the female part that ...

Chapter 5: Population Genetic Chapter Review - study

... 2. Which of the following is NOT a condition of the Hardy-Weinberg law? a. Mating within the population occurs at random with respect to the loci under consideration. b. The population is infinitely large or, in practical terms, is large enough that sampling errors and random effects are negligible. ...

MENDELIAN GENETICSonefactorcrosses

... round is dominant over wrinkled R = round r=wrinkled tall is dominant over short T = tall t = short brown is dominant over blue B = brown b = blue ...

Unit 8a-Classical Genetics

... d. What did Mendel conclude from his experiments? i. Biological inheritance is determined by "factors" that are passed from one generation to the next. e. With modern genetic advances, we now know these "factors" are genes __________ f. There are different forms (versions) of a gene, and some ...

Algorithms for Genetics: Introduction, and sources of

... Population geneticists study the entirety of variations (genotype) and their consequences on phenotypes. As the variations arise and disappear within a population, they give rise to many equilibria under ’neutral’ conditions. An important goal in population genetics is to investigate regions not und ...

Hardy-Weinberg Equilibrium Problems

... 6. In humans, the Rh factor genetic information is inherited from our parents, but it is inherited independently of the ABO blood type alleles. In humans, Rh+ individuals have the Rh antigen on their red blood cells, while Rh− individuals do not. There are two different alleles for the Rh factor kno ...

alleles in gene pair are identical

... • Example: WW, Ww, ww ...

Chapter 12: Mendel and Heredity Study Guide Section 1 – Origins of

... 20. Punnett Square – graphic model used to predict the possible offspring from a genetic cross. 21. Probability – the likelihood or chance that a specific event will occur, expressed in mathematical terms. Ex: The probability of flipping heads on a coin is 50:50 B. Mendel’s Breeding Experiments 1. W ...

6SC06 Tutorial: Genetics – study of heredity

... An allele is the different forms of a particular trait or gene. The gene that controls the pod color has one allele for green and another allele for yellow. Each generation of pea plants inherits one allele from each parent, a total of 2 alleles, for each physical characteristic. A dominant allele i ...

Sequence variation: Looking for effects of

... comparison will be their breeding system. It is possible that adh lies in a low recombination region in P. glaucum. Isozyme diversity is not generally low for this species [15], so it is unlikely that an event such as a bottleneck in population size has caused reduced diversity throughout its genome ...

Introduction to genetics

Modern Biology Unit 6 Genetics Learning Targets

... Vocabulary: Punnett square, monohybrid cross, dihybrid cross, true-breeding, P generation, F1 generation, F2 generation, testcross 4. Punnet Squares & Probability a. I can explain why half of my DNA comes from each parent. b. I can use the laws of probability to predict if offspring will be homozygo ...

Genetics - Louisiana Association of FFA

... Want to raise weaning wt to 110 lbs Select a ram with a wean wt of 110 lbs Heritability of weaning wt is 30% What can you expect new lamb crop to weigh ...

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Inbreeding

Inbreeding is the sexual reproduction of offspring from the mating or breeding of individuals or organisms that are closely related genetically. By analogy, the term is used in human reproduction, but more commonly refers to the genetic disorders and other consequences that may arise from incestuous sexual relationships and consanguinity.Inbreeding results in homozygosity, which can increase the chances of offspring being affected by recessive or deleterious traits. This generally leads to a decreased biological fitness of a population (called inbreeding depression), which is its ability to survive and reproduce. An individual who inherits such deleterious traits is referred to as inbred. The avoidance of such deleterious recessive alleles caused by inbreeding, via inbreeding avoidance mechanisms, is the main selective reason for outcrossing. Crossbreeding between populations also often has positive effects on fitness-related traits.Inbreeding is a technique used in selective breeding. In livestock breeding, breeders may use inbreeding when, for example, trying to establish a new and desirable trait in the stock, but will need to watch for undesirable characteristics in offspring, which can then be eliminated through further selective breeding or culling. Inbreeding is used to reveal deleterious recessive alleles, which can then be eliminated through assortative breeding or through culling. In plant breeding, inbred lines are used as stocks for the creation of hybrid lines to make use of the effects of heterosis. Inbreeding in plants also occurs naturally in the form of self-pollination.

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Inbreeding