Review of Simple Mendelian Genetics  Law of Segregation: each gene has two different alleles that are separated when gametes form  One allele goes to.

Slides:



Advertisements
Similar presentations
Mendel’s Laws Law of Dominance: if the two alleles at a locus differ, then one, the dominant allele, determines the organism′s appearance; the other, the.
Advertisements

Genetics SC Biology Standard B The students will be able to predict inherited traits by using the principles of Mendelian Genetics, summarize.
Investigating different patterns of inheritance
Genetics Experiments With Pea Plants
Booklet Project – Genetics Review
Patterns of Inheritance different ways to display Phenotypes.
Mendelian Exceptions Chapter 12 Section 4.
Genetics Chapters 9-1 & 9-2. Incomplete dominance There is no dominant allele or recessive allele The 2 alleles are blended and make up a new physical.
Co-dominant and Incomplete dominance
Allele Genotype vs. Phenotype Flashcard Warm-up
Advanced Genetics.
Continuing Genetics DOMINANCE Unit 5: Mendelian Genetics
Patterns of Inheritance. Dominant Vs. Recessive Dominant gene will always be displayed Recessive gene can “Skip” Generations Need 2 copies of recessive.
Mendelian Genetics Part II. Dihybrid Crosses A cross involving 2 traits. Law of Independent Assortment: Genes for different traits can segregate independently.
Exploring Mendelian Genetics 11-3 Independent Assortment Inheritance Patterns Beyond Simple Dominance.
Genetics Study of genes GQ- How does the understanding of genetics help you interpret the variations you come across everyday?
PATTERNS OF INHERITANCE. What type of inheritance pattern is represented?
HEREDITY: Going beyond Mendel Individuals don’t always follow the basic pattern of inheritance (dominant/recessive)
Non Mendelian Genetics
Mendel performed cross-pollination in pea plants.
Probability and Punnett Squares. Probability Probability is the likelihood that a specific event will occur. For example, if you flip a coin, the probability.
COMPLEX PATTERNS OF INHERITANCE Patterns of inheritance that do NOT follow Mendel’s law.
Variations to Inheritance Exceptions to Mendel’s Laws.
Complex Patterns of Inheritance. Sometimes two traits can be dominant at the same time.
Patterns of Inheritance Inheritance Hypotheses Blending Hypothesis – parental contributions combined Particulate Hypothesis – parents pass along discrete.
Non-Mendelian Genetics Thus far, all of the genes which we have studied have had only 2 possible forms or ALLELES. (Brown or white, tall or short, freckled.
Everything you need to know about Genetics
Patterns of Inheritance
Exploring Mendelian Genetics Chapter Transmission of characteristics from parents to offspring is called: A. Heredity B. Genetics C. Genes D. Homozygous.
Principles of Heredity Chapter 8. Gregor Mendel Father of Genetics –1860’s Austrian Monk –Made the 1 st detailed investigation of how traits are inherited.
Chapter 11: Introduction into Genetics Mr. Freidhoff.
A. Heredity: The passing of traits (characters) from parents to offspring B. Genetics: The branch of biology that studies heredity. 1. Gregor Mendel:
GENETICS. Nicotiana Prediction % Green _______ % Yellow _______.
Exceptions to Mendel’s laws Variations in Genetics.
Review of Patterns of Inheritance Gregor Mendel’s Principles 1. Principle of Dominance 2. Law of Segregation – each parent has 2 alleles for a trait but.
Genetics The Wonder of Heredity. What is Genetics?  Genetics is the study of heredity  Heredity is the passing of traits from parents to offspring 
Genetics, Heredity and Punnett Squares. Why / How do populations change over time? GENES! Genetics is the science of heredity (the passing on of genetic.
To Mendel and BEYOND!! Mendel was fortunate to use pea plants because each trait that he observed was not only controlled by one set of genes, but there.
WHAT DOES MEIOSIS HAVE TO DO WITH IT?. REMEMBER _____________ chromosomes ________________ during ANAPHASE I = _________________ SEGREGATION Image modified.
Why we look the way we look...
Genetics Heredity – the passing of traits from parent to offspring
Beyond Mendelian Genetics
Why we look the way we look...
IN 147 Headings Vocabulary Important Info
Exceptions to Basic Mendelian Rules (complex inheritance)
Mendel’s Laws of Heredity
Mendelian Exceptions.
Biology Unit 5 Notes: NON-Mendelian Genetics
Patterns of Inheritance
Exceptions to Basic Mendelian Rules (complex inheritance)
Genetics Jeopardy!.
Headings Vocabulary Important Info
Gregor Mendel's Genetics
Patterns of Inheritance: Incomplete Dominance vs. Codominance
Genetic Inheritace.
Other Patterns of Inheritance
Beyond Mendel When it starts to get complicated…
Punnett Squares: Part 2.
Incomplete Dominance, Codominance, and ABO Blood Types
Incomplete Dominance, Codominance, and ABO Blood Types
Mendel & Inheritance SC.912.L.16.1 Use Mendel’s laws of segregation and independent assortment to analyze patterns of inheritance.
Complex Patterns of Inheritance
Genetics.
Why we look the way we look...
Exceptions to Mendel’s Discoveries
C-Notes: Patterns of Inheritance (Variations on Mendel’s Law)
The science of heredity Frank Gregorio
Mendelian Exceptions Chapter 11 Section 3.
Incomplete and Codominance
Non-Mendelian Genetics
Presentation transcript:

Review of Simple Mendelian Genetics  Law of Segregation: each gene has two different alleles that are separated when gametes form  One allele goes to one gamete and the other allele to a different gamete  Law of Independent Assortment: genes for different traits are inherited independently from each other

Review of Simple Mendelian Genetics  Dominant vs. Recessive alleles for a gene  The dominant allele masks the recessive one, so you see the dominant trait (for RR or Rr)  The only way to see a recessive trait is to have two recessive alleles (rr)  Dominant allele is represented as a capital letter (R)  Recessive allele is represented as a lowercase letter (r)

Incomplete Dominance  Sometimes neither allele is fully dominant over the other  Incomplete Dominance: neither allele is dominant but combine and display a new trait that is a mixing of the two alleles

Incomplete Dominance RRR’R’ RR’ RR RR’ R’R’

Incomplete Dominance  In incomplete dominance, the two alleles are represented as  Two capital letters, one with an apostrophe to indicate the different allele that is involved  Ex. R (for the red allele) and R’ (for the white allele)  When these two alleles come together, they portray a mixing of the two phenotypes!

Codominance  Other times both alleles are fully dominant  Codominance: both alleles of a gene are dominant and the heterozygous phenotype has both traits equally expressed

Codominance x BBWW BW

Codominance Winter xgames?  In codominance the two alleles are represented as  Two capital letters: Use the first letter of one trait (B for Brown) and the first letter of the other trait (W for White)  When they come together as a heterozygote, both traits show as the phenotype

Let’s Stop and Think…  Let’s say there are two alleles for the hair color trait- red and blue  What would be the resulting phenotype of a heterozygous pair if the alleles showed codominance?  A. Red  B. Blue  C. Purple  D. Red and Blue patches  Let’s say there are two alleles for the hair color trait- red and blue  What would be the resulting phenotype of a heterozygous pair if the alleles showed codominance?  A. Red  B. Blue  C. Purple  D. Red and Blue patches

Multiple Alleles  Sometimes there are more than two alleles that govern the phenotype of a trait  Multiple Alleles: the presence of more than two alleles for a genetic trait

Multiple Alleles  Blood Type  Human blood type is governed by the presence of 3 different alleles: AA BB OO  However, each person only has 2 of these 3 alleles in their DNA

ABO Blood Type  Blood types follow both Codominant and simple Dominant inheritance  The A allele and B allele are codominant with each other  The A allele and B allele are both purely dominant over the O allele  The O allele is recessive

Which blood type are you if you have…  AA  Type A blood  BB  Type B blood  AB  Type AB blood  AO  Type A blood  BO  Type B blood  OO  Type O blood

ABO Blood Types  The blood type gene and alleles are represented differently than you have seen before  The blood type gene is I  For this I gene you can have the following alleles:  For A: I A  For B: I B  For O: i

Let’s stop and think…  What are the two allele combinations you can have for type A blood?  I A I A and I a i  What are the two allele combinations you can have for type B blood?  I B I B and I B i

Let’s Stop and Think…  What is the only allele combination you can have for type AB blood? IAIBIAIB  What is the only allele combination you can have for type O blood?  ii

Sex-Linked Traits  genes which are carried only on the sex chromosomes  ex: red green color blindness  2:25 males  1:150 females

Sex-Linked Traits  Traits are usually not seen in women because it can be masked by another dominant gene on the other X-chromosome  Female – X B X b  Male – X b Y  But it is possible for it to happen in women!

Color Blindness Test Can you see the letters and numbers in these squares?

Hemophilia

Polygenic Inheritance  Sometimes traits are carried on more than one gene, making it difficult to tell if it’s dominant or recessive  Examples: Skin color, height, body mass

Polygenic Inheritance  There’s often a wide range of phenotypes: you can be anywhere from 5’ to 7’ tall, there is no tall or short in humans!

Human Height It’s often hard to tell where a person might get their height from

Multiple Genes  In this pattern there is more than one gene responsible for a single trait  Makes it possible for many types of genotypes and phenotypes  Continuous variation

With simple patterns of inheritance like dom/rec, co-dominance and incomplete dominance you may only get a few phenotypes and each is distinct from one another. Imagine people with only these skin colors It’s very easy to distinguish each phenotype

When there are multiple genes involved with a single trait you can expect more of a continuum of variation. This is more representative of human skin color

Sorry Smurfs!