Sexual Reproduction and Meiosis. Sexual Reproduction Overview Requires the union of a sperm cell (male) and an egg cell (female) from separate parents.

Slides:

Advertisements

Similar presentations

Chapter 12:DNA and RNA (Molecular Genetics).

Advertisements

Chapter 4 Cell Reproduction.

Chapter 4 Section 3 DNA.

HEREDITY CHAPTER 4. You have Characteristics or traits. Acquired Traits —Reading Skills Inherited Traits —eye color.

C-26 Genetics Packet. What are most homologous chromosomal pairs called? Homozygous or Pure.

1 1 Asexual Reproduction Mitosis DSQ: Mitosis is the process in which the nucleus divides to form two new nuclei. How does mitosis differ in plants and.

Chapter 4: Cell Reproduction. Aim: Why is cell division important?

Cell Reproduction Chapter 4 Notes. Why is cell division important?  Many celled organisms grow because cell division increases the number of cells they.

Levels of Organization

Chapter: Cell Reproduction Table of Contents Section 3: DNADNA Section 1: Cell Division and Mitosis Section 2: Sexual Reproduction and MeiosisSexual Reproduction.

Sexual Reproduction During sexual reproduction, two sex cells, sometimes called an egg and a sperm, come together. Sex cells are formed from cells in.

DNA and Sex Chromosomes

Cell Reproduction.

DNA Chapter 4 Section 3.

Chapter 11 DNA Within the structure of DNA is the information for life- the complete instructions for manufacturing all the proteins for an organism. DNA.

Cell Division Meiosis Relationship Between Meiosis and Genetics Meiosis results in egg (females) and sperm (males) cells. When egg and sperm combine.

1 2 Chromosome Structure 3 Meiosis 4 DNA 5 Protein Synthesis.

Mrs. Degl Molecular Genetics DNA, or deoxyribonucleic acid, is the hereditary material in humans and almost all other organisms. Nearly every cell in a.

Day 2 The student will demonstrate an understanding of the organization of living systems.

RNA & Protein Synthesis.

Chapter 8 DNA and GENES Biology Notes.

DNA, Mitosis, and Meiosis Learning Target Objectives: I can…  Describe the structure of, base pairing, and roles (importance) of both DNA and RNA.  Explain.

Chapter 4. Section 1  Allows us to grow.  Replaces worn out cells.  One-celled organisms reproduce this way.

All About DNA. All about DNA Deoxyribonucleic acid A molecule that carries genetic information from parent to offspring It is the molecule that makes.

Life Science “The Molecular Basis of Heredity”. Amino Acid Any of the organic acids that are the chief component of proteins, either manufactured by cells.

Cell Reproduction and DNA. History of Cells During the 17 th century, the invention of the microscope helped scientists examine drops of blood, scrapings.

KEY CONCEPT DNA structure is the same in all organisms.

Chapter 10 Cell Reproduction.

DNA Deoxyribonucleic Acid. DNA Structure What is DNA? The information that determines an organisms traits. DNA produces proteins which gives it “The.

How Genes Function Quiz 6D. Four main points of how genes function Nucleotides (symbols in the language) are arranged into codons (letters) Codons (letters.

Chapter 10 Cell Reproduction Cell Division & Mitosis.

Blueprints of life Discussion Question Review Question.

Chapter 8 Cell Reproduction. 8-1 Chromosomes DNA Long, thin molecule that stores genetic information Instructions for Life.

2/10/2014 to 2/14/2014. DNA structure In 1952, scientist Rosalind Franklin discovered that DNA is two chains of molecules in a spiral form. The actual.

DNA GLE: Explain the relationship among genes, chromosomes, and inherited traits Investigate the relationship among DNA, genes, and.

DNA Deoxyribose Nucleic Acid – is the information code to make an organism and controls the activities of the cell. –Mitosis copies this code so that all.

Chapter 4.  Standard #1: Cell Division (Mitosis) - 7.S  Standard #2: Cell Reproduction (Meiosis) - 7.S  Standard #3: DNA - 7.S 

Chapter 10 Part - 1 Molecular Biology of the Gene - DNA Structure and Replication.

1 UNIT 4 PART 1: MODERN GENETICS In sexual reproduction the new individual develops from the zygote formed by the union of two gametes, one from each parent.

DNA Replication Why does the DNA in a cell replicate before cell division?

2.3 DNA DNA gene RNA mutation Lesson 3. What is DNA? Stands for deoxyribonucleic acid 2.1 The Cell Cycle and Cell Division Genetic material in the nucleus.

DNA, RNA, and PROTEIN SYNTHESIS DNA, genome, instructions, blueprint, chromosomes, genes All MEAN DNA!!!! THEY ALL HAVE TO DO WITH DNA DNA is a molecule.

Biology STAAR Review #2 DNA / RNA / Protein Cell cycle Mitosis Meiosis

Protein Synthesis: How Genes Becomes Traits How does this explain: family resemblance & differences! Why are the kids so similar to the parents but not.

The Cell Cycle Notes.

Biology Review Benchmark Test #3

DNA 3 What is DNA? A cell uses a code in its hereditary material. The code is a chemical called deoxyribonucleic (dee AHK sih ri boh noo klay ihk) acid,

I- DNA Using DNA to Make Proteins: As You grow cells divide producing new cells. These cells become specialized organs and grow larger.

DNA Replication and Protein Synthesis

What is a genome? The complete set of genetic instructions (DNA sequence) of a species.

DNA and RNA Pages

Meiosis, DNA Structure & Mutations

Sexual reproduction How many chromosomes do we have in body cells?

Chapter 4: Cell Reproduction

ACOS 10 Identify differences between deoxyribonucleic acid (DNA) and ribonucleic acid (RNA). Examples: DNA—double helix, contains thymine; RNA—single.

The Cell Cycle and Protein Synthesis

The Cell Cycle and Protein Synthesis

DNA, Meiosis, Protein synthesis and Karyotype

Structure of DNA & Replication

Mitosis All cells undergo mitosis.

Cells have membranes have cytoplasm and organelles

Genes and Gene Function Chapter 6

DEOXYRIBONUCLEIC ACID

DNA and RNA Pages

The Structure of DNA.

Presentation transcript:

Sexual Reproduction and Meiosis

Sexual Reproduction Overview Requires the union of a sperm cell (male) and an egg cell (female) from separate parents. This union is called fertilization. Fertilization creates a zygote. A zygote has a full set of chromosomes. It is diploid in number.

Diploid = 2n [ex. humans, n=23. 2(23)] Haploid means that a cell has half the number of chromosomes in a cell. Haploid = n [ex. Human n = 23] Each chromosome has a match in the nucleus that is very similar.

Meiosis Overview This creates pairs of matching chromosomes for each cell. Meiosis is cell division in sex cells. Two divisions occur. Start with one sex cell, end up with four. A full set of chromosomes will be reduced to half the number in each sex cell. Diploid cell to 4 haploid cells.

Sexual Reproduction Overview Each chromosomes has a match. These are homologous chromosomes. Each parent must only contribute half of the required chromosomes. Meiosis meets this requirement creating haploid cells. One duplicated chromosomes Homologous chromosomes

Draw this Venn Diagram

Mitosis and Meiosis Compared Mitosis Meiosis

Mitosis and Meiosis Compared Mitosis Diploid cell 2 new cells 1 division Anaphase – sister chromatids separate

Mitosis and Meiosis Compared Meiosis Haploid cell 4 new cells 2 division Anaphase I – sister chromatids stay together Only the pairs are separating

Mitosis and Meiosis Compared Mitosis Meiosis Nucleus breaks up Chromosomes line up in the center Chromosomes separate Cytokinesis occurs Common to both

Mitosis and Meiosis Compared Mitosis Meiosis Nucleus breaks up Chromosomes line up in the center Chromosomes separate Cytokinesis occurs Haploid cell 2 new cells 1 division Anaphase I – sister chromatids stay together Diploid cell 2 new cells 1 division Anaphase – sister chromatids separate Common to both

What is it? DNA is: –A molecule –Deoxyribonucleic acid –Stores hereditary material –A code of instructions For an organisms growth For normal functions For creating proteins

What is it? DNA is: –F–Found in the chromosomes of a cell’s nucleus –I–Is copied and passed to new cells –T–The key to biological life

Structure of DNA Each molecule consists of: –A five carbon sugar (deoxyribose) –A phosphate group –A nitrogen containing base (4 total) Thymine Guanine Cytosine Adenine

Structure of DNA Each molecule is: –A double helix (spiral structure) Think of a ladder that has been twisted

Copying of DNA Before a cell divides the DNA found in chromosomes must duplicate. Here’s how: Nitrogen bases separate (like unzipping a zipper). This creates 2 halves of DNA that serve as a pattern.

Copying of DNA An enzyme synthesizes the matching halves of DNA. The 2 new DNA halves match up to the original DNA. The cell is now ready to divide. Now look at the board and let’s illustrate.

Functions of DNA Purposes of DNA –Stores information for making you like you are (eye color, hair color, etc) –Provides the code for making proteins Proteins build cells and tissues in your body Proteins also act as enzymes that trigger many chemical reactions in your cells

Functions of DNA Making proteins –Proteins: Are made of amino acids Instructions for each protein are found on a GENE. –A gene is a section of DNA on a chromosome »Look at figure 16 on page 112.

Functions of DNA Making proteins Genes provide the code and are in the nucleus Proteins are made in ribosomes in the cytoplasm The codes for making proteins are carried from the nucleus to the ribosomes by another nucleic acid called RNA.

Functions of RNA –Three types 1. messenger RNA (mRNA) 2. transfer RNA (tRNA) 3. ribosomal RNA (rRNA) Look at page 113. We will discuss figure 17 to learn about RNA and making proteins.