1) Half Sheet: Have you ever failed at something? Why did you? Did you put an emotional connection with your failure? Why? 2) Finish Worksheet #6 – LAB.

Slides:

Advertisements

Similar presentations

Meiosis is a special form of cell division.

Advertisements

6.6 Meiosis and Genetic Variation KEY CONCEPT Independent assortment and crossing over during meiosis result in genetic diversity.

Meiosis Chapter 10.

Genetic Engineering Genetic engineering simply manipulates the chromosome number of gene frequencies in a population of organisms – Used to select for.

6.6 Meiosis and Genetic Variation KEY CONCEPT Independent assortment and crossing over during meiosis result in genetic diversity.

 Sexual Reproduction – type of reproduction in which the genetic materials from two different cells combine, producing an offspring  Sperm – male sex.

Diagram a cell with four chromosomes going through meiosis.

Chapter 4.3.  Gametes:  Reproductive cells. They contain half the usual number of chromosomes.  Egg:  Gamete that is formed by the female.  Sperm:

Vocabulary Review Chapter 14 & 15. Mendel’s true breeding generation P or parental generation.

MEIOSIS: The Production of Sex Cells *Click for Animation*

GENETIC CONTINUITY. A METHOD OF REPRODUCTION IN WHICH ALL THE GENES ARE PASSED ON TO THE OFFSPRING COME FROM A SINGLE PARENT AND ARE GENETICALLY IDENTICAL.

Mitosis vs. Meiosis. What is the difference Mitosis is asexual reproduction. Does not produce a new organism. Mitosis is asexual reproduction. Does not.

6.6 Meiosis and Genetic Variation Independent assortment and crossing over during meiosis result in genetic diversity.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu 2 major groups of Cells 1.Somatic Cells Body cells Diploid = 2n –two.

Learning Target: Meiosis & Genetic Variation Learning Target: Meiosis & Genetic Variation I Can…Explain how crossing over during meiosis contributes to.

You have body cells and gametes.

Biology Webpage  Meiosis Lesson  File  Make a copy (Now you can fill in your copy!)

Mendel and Meiosis Chapter 11. Mendel’s Laws of Heredity Heredity – passing on traits from parents to offspring Gametes – sex cells; they have a haploid.

6.6 Meiosis and Genetic Variation KEY CONCEPT Independent assortment and crossing over during meiosis result in genetic diversity.

MEIOSIS AND SEXUAL LIFE CYCLES CH 13. I. Overview of Reproduction Asexual reproduction: produces identical offspring (budding, cloning, binary fission/mitosis)

CHAPTER 10 MENDEL AND MEIOSIS WHAT YOU’LL LEARN: **THE BASIC CONCEPT OF GENETICS **THE PROCESS OF MEIOSIS WHY IT’S IMPORTANT: **YOU INHERITED TRAITS FROM.

Unit 7 Genetics Study Guide. 1. Mitosis A type of cell division that results in two identical daughter cells with the same number and kind of chromosomes.

VARIATION IN HUMANS By Desiree Williams. Mutations:  Mutations are A source of variation, not THE only source.  Mutations cause a change in D.N.A. 

6.1 Chromosomes and Meiosis

WARM UP List anything and everything you know about chromosomes, mitosis, meiosis, or cell division.

What do these pictures show?

EQ: What is the difference between meiosis and Mitosis

The Cell Cycle/Mitosis & Meiosis Notes

MEIOSIS Creating gametes (sex cells).

Day one of Meiosis.

Section 6-6 “Genetic Variation”

Friday & Monday Do now #3: (Protein Synthesis & Meiosis Unit) What type of cells would you expect to be haploid (containing half the number.

Meiosis Chapter 10.1 and 11.3.

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

You have body cells and gametes.

Mitosis vs. Meiosis.

Mendel and Meiosis.

Sexual reproduction creates unique combinations of genes.

Some helpful definitions

Meiosis Cuts # of chromosomes in half

Sexual reproduction creates unique combinations of genes.

Chapter 10 Section 1 Meiosis.

Sexual reproduction creates unique combinations of genes.

Meiosis & Sexual Reproduction

Meiosis Chapter 10.1 and 11.3.

Meiosis Chapter 10.1 and 11.3.

Week 8 Vocab Definitions

Cell Division Meiosis.

Sexual Reproduction and Meiosis

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

You have body cells and gametes.

Genetic Engineering Chapter 13.

Reproduction Definitions

GENETIC VARIATION Sources of Variation.

Warm up Quiz Describe the law of independent assortment.

Fertilization The process of haploid gametes joining together to form a diploid cell with 2n chromosomes. n chromosomes come from the male parent and n.

Meiosis & Sexual Reproduction

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

Chromosomes and Meiosis

Meiosis Section 3.3.

Presentation transcript:

1) Half Sheet: Have you ever failed at something? Why did you? Did you put an emotional connection with your failure? Why? 2) Finish Worksheet #6 – LAB 3) Grab Worksheet #7 4) Quiz #3

#13 Chromosomal crossover (or crossing over) is the exchange of genetic material between homologous chromosomes that results in recombinant chromosomes.

#14

#15 Linked genes are genes that tend to be inherited together

#16 Selective breeding (also called artificial selection) is the process by which humans breed other animals and plants for particular traits

#17 Inbreeding is reproduction from the mating of pairs who are closely related genetically

#18 Hybridization-The process of combining different varieties of organisms to create a hybrid Liger

#19 In genetics, a mutation is a change of the nucleotide sequence of the genome of an organism, virus, or extrachromosomal genetic element.

#20 Why induce mutations? To increase diversity Potato famine in Ireland

#21 Polyploidy having a chromosome number that is more than double the basic or haploid number.

QUIZ #3 1) Gametes are produced by the process of: 2) Meiosis in females results in ___ sex cell(s) and ___ egg(s). 3) Selective breeding produces a) fewer offspring. b) more offspring. c) transgenic organisms. d) desired traits in offspring