Can you figure out where our buzzwords go??

Slides:

Advertisements

Similar presentations

Advertisements

Genetics SC Biology Standard B The students will be able to predict inherited traits by using the principles of Mendelian Genetics, summarize.

Booklet Project – Genetics Review

Blood Group Notes.

Exceptions to Mendel’s laws. 1) Incomplete dominance Some alleles are not completely dominant and the offspring will have a “blending” of the parents.

Genetics College Biology. Gregor Mendel Mid 1800’s, Austrian monk. Introduced probability to genetics Mated pea plants.

Mendelian Genetics Part II. Dihybrid Crosses A cross involving 2 traits. Law of Independent Assortment: Genes for different traits can segregate independently.

PATTERNS OF INHERITANCE. What type of inheritance pattern is represented?

Genetics- the study of heredity. Heredity is the passing of characteristics from parent to offspring.

Probability and Punnett Squares. Probability Probability is the likelihood that a specific event will occur. For example, if you flip a coin, the probability.

11.3 Other Patterns of Inheritance

Objectives 11.3 Other Patterns of Inheritance

C. Beyond Dominant and Recessive Alleles 1. Incomplete Dominance a. One allele is not completely dominant over another b. The heterozygous phenotype is.

Beyond Dominant and Recessive Alleles Other forms of inheritance.

REVIEW GENETICS- the study of heredity. Inheritance Traits are specific characteristics inherited from parents Genes are the factors that determine traits.

There is no dominant allele, There is no recessive allele. Both alleles “blend” to result in a third phenotype.

MENDELIAN GENETICS Unit Four. Gregor Mendel Discovered principals of genetics Used peas to prove his inheritance theory Before Mendel, people thought.

Predict and interpret patterns of inheritance Genetics Unit.

1/12/15 Objective: What factors influence typical inheritance Do Now: Take out your HW genetics problems.

Genes that are located on the sex chromosomes are sex-linked genes. In mammals, individuals with two X chromosomes, an XX genotype, are females. Individuals.

Beyond Dominant and Recessive Alleles. The whole story... Not all phenotypes are dictated by dominant and recessive alleles (in fact, very few are). Some.

Lesson Overview Lesson Overview Other Patterns of Inheritance -Describe the other patterns of inheritance. -Explain the relationship between genes and.

Exceptions to Mendel’s laws Variations in Genetics.

Genetics. Genetics vocabulary terms INHERITANCE or HEREDITY- The genetic transmission of characteristics from parent to offspring, such as hair, eye,

WHAT DOES MEIOSIS HAVE TO DO WITH IT?. REMEMBER _____________ chromosomes ________________ during ANAPHASE I = _________________ SEGREGATION Image modified.

Exceptions to the Rule of Dominance & Recessiveness

Patterns of Inheritance

Why we look the way we look...

Exceptions to Mendel’s laws

Why we look the way we look...

Blood Group Notes.

IN 147 Headings Vocabulary Important Info

Bell Work 1/19 Hemophilia is a sex-linked, recessive trait. Which of the following describes the probability of hemophilia in the offspring of a man who.

Multiple Alleles & Polygenic Traits

More complicated….11.3 Or Non-Mendelian

Punnett Squares.

Biology Unit 5 Notes: NON-Mendelian Genetics

Understanding Inheritance

Genetics Jeopardy!.

Headings Vocabulary Important Info

KEY CONCEPT Phenotype is affected by many different factors.

Understanding Inheritance

KEY CONCEPT Phenotype is affected by many different factors.

Punnett Squares: Part 2.

Punnett Squares: Part 2.

Phenotype the set of observable characteristics of an individual resulting from their DNA information.

Two-factor Cross, F1 RRYY x rryy Round/yellow peas wrinkled/green

Complex Patterns of Inheritance

Gregor Mendel – “Father of Genetics”

OTHER PATTERNS OF INHERITANCE

Exceptions to Mendel’s laws

Non-Mendelian Genetics

Why we look the way we look...

Extending Mendelian Genetics

Can you figure out where our buzzwords go??

Patterns of Inheritance

Gregor Mendel: Father of Genetics

Complex Patterns of Inheritance

How are traits passed from one generation to the next?

Carrier = an organism that has inherited a genetic trait or mutation, but displays no symptoms X-linked traits = traits that are passed on from parents.

(Where did you get your genes?)

KEY CONCEPT Phenotype is affected by many different factors.

Unit 6 Notes: Non-Mendelian

GENES & INHERITANCE Review PPT.

Types of Dominance.

Complete Incomplete Codominance Multiple Alleles Sex-linked Traits

Mendel’s Dominance Mendel’s rule of dominance was complete dominance

Chapter 5 Notes Heredity.

Presentation transcript:

Can you figure out where our buzzwords go?? Dominant Gametes Genotype Proportion Variation Heterozygous Complete Dominance Codominance Sex-linked trait Sex-linked gene Multiple alleles Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Polygenic traits

Allele Recessive Phenotype Offspring Homozygous Dominant 23 Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Variation Heterozygous Complete dominance Sex-linked gene Multiple alleles Polygenic traits 23

Dominant Gametes Genotype Proportion Variation Heterozygous Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits

Aa TTWw aa AA TtWW Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance aa Dominant Gametes Genotype Proportion Variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits AA TtWW

r Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits

Pp Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits

Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits

Different forms of a gene Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits

R Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Genetic variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits

Different combinations produce … Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Genetic variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits

TT or tt Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Genetic variation Heterozygous Sex-linked gene Multiple alleles Polygenic traits

Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Two alleles blend their characteristics in a trait. Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Genetic variation Heterozygous Complete dominance Sex-linked trait Multiple alleles Polygenic traits

Allele Recessive Phenotype Offspring Homozygous Incomplete dominance One allele completely masks the other Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Genetic variation Heterozygous Complete dominance Sex-linked gene Multiple alleles Polygenic traits

Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Both alleles are equally dominant – both are expressed. Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Genetic variation Heterozygous Complete dominance Sex-linked gene Multiple alleles Polygenic traits

Allele Recessive Phenotype Offspring Homozygous Incomplete dominance More than two alleles can code for a gene. Ex. Human blood type is controlled by three alleles: IA , IB and i. Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Genetic variation Heterozygous Complete dominance Sex-linked gene Multiple alleles Polygenic traits

Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Caused by genes found on the X chromosome. Fewer females are afflicted because they have two X chromosomes and the other is usually normal. Ex. Colorblindness, Hemophilia (inability to clot blood) – both are recessive. Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance Dominant Gametes Genotype Proportion Genetic variation Heterozygous Complete dominance Sex-linked traits Multiple alleles Polygenic traits

Allele Recessive Phenotype Offspring Homozygous Incomplete dominance More than two genes control a trait. This trait often show a wide range of phenotypes. Ex. The variety of skin color, in humans comes about partly because more than four different genes probably control this trait. Dominant Gametes Genotype Proportion Genetic variation Heterozygous Complete dominance Sex-linked gene Multiple alleles Polygenic traits Allele Recessive Phenotype Offspring Homozygous Incomplete dominance Codominance

Show me (use letter “T” & “t”) Recessive allele Homozygous recessive genotype Heterozygous genotype Two parents that are both heterozygous for a trait Dominant allele Homozygous dominant genotype One parent that is heterozygous and the other that is homozygous recessive tt Tt Tt x Tt T If time TT Tt x tt

Show me (using pieces in baggie) What the gametes would be if a parent was AABB What the gametes would be if a parent was Aabb What the gametes would be if a parent was AaBb. AB, AB, Ab, AB Ab, Ab, ab, aB If time Ab, Ab, aB, ab

Predict their parents' genotypes

Results in 1/2 black pups and 1/2 blonde pups