CHI-SQUARE TESTS: Statistical Analysis of Drosophila Generations

Similar documents
AP: LAB 8: THE CHI-SQUARE TEST. Probability, Random Chance, and Genetics

LAB : THE CHI-SQUARE TEST. Probability, Random Chance, and Genetics

Mendelian Genetics in Drosophila

The Genetics of Drosophila melanogaster

LAB 11 Drosophila Genetics

Is it statistically significant? The chi-square test

PRACTICE PROBLEMS - PEDIGREES AND PROBABILITIES

LAB : PAPER PET GENETICS. male (hat) female (hair bow) Skin color green or orange Eyes round or square Nose triangle or oval Teeth pointed or square

Having a coin come up heads or tails is a variable on a nominal scale. Heads is a different category from tails.

statistics Chi-square tests and nonparametric Summary sheet from last time: Hypothesis testing Summary sheet from last time: Confidence intervals

2 GENETIC DATA ANALYSIS

Genetics with a Smile

Study Guide for the Final Exam

Adverse Impact Ratio for Females (0/ 1) = 0 (5/ 17) = Adverse impact as defined by the 4/5ths rule was not found in the above data.

Understand the role that hypothesis testing plays in an improvement project. Know how to perform a two sample hypothesis test.

CONTINGENCY TABLES ARE NOT ALL THE SAME David C. Howell University of Vermont

Solutions to Homework 10 Statistics 302 Professor Larget

Variations on a Human Face Lab

Stats Review Chapters 9-10

Fairfield Public Schools

Solutions: Problems for Chapter 3. Solutions: Problems for Chapter 3

Odds ratio, Odds ratio test for independence, chi-squared statistic.

Mendelian and Non-Mendelian Heredity Grade Ten

STA-201-TE. 5. Measures of relationship: correlation (5%) Correlation coefficient; Pearson r; correlation and causation; proportion of common variance

A Primer on Mathematical Statistics and Univariate Distributions; The Normal Distribution; The GLM with the Normal Distribution

Genetics 1. Defective enzyme that does not make melanin. Very pale skin and hair color (albino)

Likelihood: Frequentist vs Bayesian Reasoning

MONT 107N Understanding Randomness Solutions For Final Examination May 11, 2010

Activity 4 Probability, Genetics, and Inheritance

Bivariate Statistics Session 2: Measuring Associations Chi-Square Test

Question: What is the probability that a five-card poker hand contains a flush, that is, five cards of the same suit?

Testing Research and Statistical Hypotheses

Class 19: Two Way Tables, Conditional Distributions, Chi-Square (Text: Sections 2.5; 9.1)

Statistiek I. Proportions aka Sign Tests. John Nerbonne. CLCG, Rijksuniversiteit Groningen.

This chapter discusses some of the basic concepts in inferential statistics.

Descriptive Statistics

CHROMOSOMES AND INHERITANCE

Name: Date: Use the following to answer questions 3-4:

Using Excel for inferential statistics

Crosstabulation & Chi Square

Chapter 5 Analysis of variance SPSS Analysis of variance

Bayesian Updating with Discrete Priors Class 11, 18.05, Spring 2014 Jeremy Orloff and Jonathan Bloom

Heredity. Sarah crosses a homozygous white flower and a homozygous purple flower. The cross results in all purple flowers.

An Introduction to Statistics Course (ECOE 1302) Spring Semester 2011 Chapter 10- TWO-SAMPLE TESTS

CCR Biology - Chapter 7 Practice Test - Summer 2012

SCHOOL OF HEALTH AND HUMAN SCIENCES DON T FORGET TO RECODE YOUR MISSING VALUES

11. Analysis of Case-control Studies Logistic Regression

Stat 20: Intro to Probability and Statistics


12.5: CHI-SQUARE GOODNESS OF FIT TESTS

INTERPRETING THE ONE-WAY ANALYSIS OF VARIANCE (ANOVA)

Research Methods & Experimental Design

General Method: Difference of Means. 3. Calculate df: either Welch-Satterthwaite formula or simpler df = min(n 1, n 2 ) 1.

Math 58. Rumbos Fall Solutions to Review Problems for Exam 2

The Binomial Probability Distribution

Ringneck Doves. A Handbook of Care & Breeding

Biology Final Exam Study Guide: Semester 2

Hooray for the Hundreds Chart!!

Introduction to Hypothesis Testing

AP Statistics 7!3! 6!

CONTENTS OF DAY 2. II. Why Random Sampling is Important 9 A myth, an urban legend, and the real reason NOTES FOR SUMMER STATISTICS INSTITUTE COURSE

7A The Origin of Modern Genetics

Lesson Plan: GENOTYPE AND PHENOTYPE

Elementary Statistics

Exploring Geometric Probabilities with Buffon s Coin Problem

MATH 140 Lab 4: Probability and the Standard Normal Distribution

Descriptive Statistics and Measurement Scales

Heredity - Patterns of Inheritance

Projects Involving Statistics (& SPSS)

Human Blood Types: Codominance and Multiple Alleles. Codominance: both alleles in the heterozygous genotype express themselves fully

STATISTICS 8, FINAL EXAM. Last six digits of Student ID#: Circle your Discussion Section:

Characteristics of Binomial Distributions

WEEK #23: Statistics for Spread; Binomial Distribution

The mathematical branch of probability has its

Biology 1406 Exam 4 Notes Cell Division and Genetics Ch. 8, 9

Bio EOC Topics for Cell Reproduction: Bio EOC Questions for Cell Reproduction:

November 08, S8.6_3 Testing a Claim About a Standard Deviation or Variance

The Dummy s Guide to Data Analysis Using SPSS

Chapter 9 Patterns of Inheritance

Contemporary Mathematics- MAT 130. Probability. a) What is the probability of obtaining a number less than 4?

7.S.8 Interpret data to provide the basis for predictions and to establish

Recovering the Romanovs

STATISTICS PROJECT: Hypothesis Testing

Students' Opinion about Universities: The Faculty of Economics and Political Science (Case Study)

Unit 31 A Hypothesis Test about Correlation and Slope in a Simple Linear Regression

Tests for Two Proportions

1. What is the critical value for this 95% confidence interval? CV = z.025 = invnorm(0.025) = 1.96

Independent t- Test (Comparing Two Means)

6.041/6.431 Spring 2008 Quiz 2 Wednesday, April 16, 7:30-9:30 PM. SOLUTIONS

DRAGON GENETICS LAB -- Principles of Mendelian Genetics

Simple Linear Regression Inference

A POPULATION MEAN, CONFIDENCE INTERVALS AND HYPOTHESIS TESTING

Probability Calculator

6. Let X be a binomial random variable with distribution B(10, 0.6). What is the probability that X equals 8? A) (0.6) (0.4) B) 8! C) 45(0.6) (0.

STT 200 LECTURE 1, SECTION 2,4 RECITATION 7 (10/16/2012)

Math 108 Exam 3 Solutions Spring 00

Curriculum Map Statistics and Probability Honors (348) Saugus High School Saugus Public Schools

Organizing Your Approach to a Data Analysis

Statistiek II. John Nerbonne. October 1, Dept of Information Science

Transcription:

CHI-SQUARE TESTS: Statistical Analysis of Drosophila Generations Lab #7 Heredity & Human Affairs

CHI-SQUARE TEST X 2 Test a.k.a. The Goodness-of-Fit test Statistical test used for analyzing results of an experiment. How do your actual results compare with your predictions? In other words, how good do your results fit with your predicted results.

CHI-SQUARE TEST Today: Let s test how your F 2 Drosophila counts (from last week) compare with the predictions you made using Punnett Squares.

Recall Punnett Square Autosomal Mutation: Apterous F 1 : (+, ap) For your counts, did you get exactly 3 winged for every 1 apterous fly? Probably not. (+, ap) Wing mutation + ap + + + + ap 3 winged : F 2 s 1 apterous ap + ap ap ap (predicted phenotypic ratio)

Recall Punnett Square Sex-Linked Mutation: White-Eyes F 1 : (X W Y) (X + X w ) For your counts, did you get exactly 1:1:1:1 ratio? Probably not. Eye-color mutation X w Y 1 red-eyed female: 1 X white-eyed + X + X w female: X + Y 1 red-eyed male: F 2 s 1 white-eyed X w X w X w male X w Y (predicted phenotypic ratio)

Does it matter? Are your counts close enough to the predicted numbers? If yes, then with what level of confidence? If no, what could be the cause of this deviation?

CHI-SQUARE TEST The Formula: O = observed data E = expected data X 2 = (O E) 2 E

CHI-SQUARE TEST Why do a chi-square test? Commonly used to compare observed data with data we would expect to obtain according to a specific hypothesis. Compares OBSERVED values to determine if these are close enough to EXPECTED (E) values (hypothesis) to be considered valid. Are deviations from expected values due to chance alone or some other factor?

CHI-SQUARE TEST Observing PROBABILITY, not possibility Example: coin flip»probabilities: heads or tails (2)»Possibilities: heads, tails, side, never come down, etc. (4 + )

CHI-SQUARE TEST Scientists use a high confidence level (or probability) to check the hypothesis in question. Scientists use a Probability > 95% This means that any differences observed are likely due to chance alone. Only a 5% chance that something else is responsible for the variation. Likewise, 95% chance that it s a random variation due to chance!

Degrees of Freedom = n 1 n= number of classes or categories

Fun Fact of the Day: Chi Square Created by Karl Pearson 1857 to 1936 in England Originally named Carl Changed at 23 Had 3 kids- Egon Sigrid Helga Professor of Applied Mathematics and Zoology

Fun Fact of the Day: Chi Square Published 18 papers from 1893 to 1912 Mathematical Contributions to the Theory of Evolution 1900: Chi-square test of statistical significance Had a long, very soap opera- ish battle with fellow statistician Sir Ronald Fisher Fisher added the Degrees of Freedom

Coin Toss Example When you flip a coin, what are the possibilities? What are the two probabilities?» It will land on heads. It will land on tails. Will the penny land on heads exactly 50% of the time? Tails exactly 50% of the time? If not, is the deviation from the expected results due to chance alone or some other reason? What could be the reason it does not land on heads exactly 50% of the time?

How to apply the X 2 Test Class Coin Toss Example: (page 57) # of heads / class total = # of tails / class total = TOTAL: How do you figure out the expected values? Total the number of coin tosses. Then, divide by 2 since it s a 1:1 (50:50) expected ratio of heads : tails. Classes O E O E (O E) 2 (O E) 2 E Heads Tails

1) What is the X 2 value & where does it fit on this chart? 2) What is the probability? 3) Do you: ACCEPT / No Reason to Doubt Hypothesis or REJECT / Reason to Doubt Hypothesis

Now your fly data!

Observed Results for SPRING 2012 Page 58 Exercise #2: SEX RATIOS Males = Females = TOTAL: 3516 3187 6703

Observed Results for SPRING 2012 Page 59 Exercise #3: AUTOSOMAL MUTATION WILD vs. APTEROUS Wild ( normal wings ) = 2523 Apterous = How do you figure out the expected TOTAL: values? 835 3358 Expected ratio is 3:1 (3 winged : 1apterous), so expected numbers = total flies counted divided by 4 or times 75% & times 25%.

Observed Results for SPRING 2012 Page 60 Exercise #4: SEX-LINKED MUTATION WHITE-EYED vs. RED-EYED 771 Males, White Eyes = Females, White Eyes = Males, Red Eyes = 758 1025 791 How do you figure Females, Red Eyes = out the expected 3345 values? TOTAL: Expected ratio is 1:1:1:1, so expected numbers = total flies counted divided by 4 or 25%.

OMIT! Page 61, Chi-Square Practice Dihybrid Corn

TODAY: Work through the X 2 problems in the lab packet. Try to do so ON YOUR OWN! These pages will be counted as your post-lab grade. Ask instructor for help, if you need it. You will need to know how to do these problems on your own for the Final Lab Practical Exam! Hand in completed problems before the end of lab today. SHOW ALL WORK! Nothing additional will be due. No Lab Next Week. Enjoy your Spring Break

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information