CHAPTER 16 The Origin and Evolution of Microbial Life: Prokaryotes and Protists Modules 16.18 – 16.21.

Slides:

Advertisements

Similar presentations

Advertisements

Endosymbiotic Theory.

Protists The Unicellular Eukaryotes. Some Basics:  species  difficult to classify  no “ typical ” protist  most aquatic, some terrestrial.

BIOLOGY CONCEPTS & CONNECTIONS Fourth Edition Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings Neil A. Campbell Jane B. Reece Lawrence.

The Origin and Evolution of Microbial Life

Unicellular eukaryotes

The Origin and Evolution of Microbial Life: Prokaryotes and Protists

Algae- Plant- like Protists Textbook 17.4 pp

Protist Kingdom - Ch. 15 p Droplets of pond water are filled with Protists! Protists are the first eukaryotes to evolve from prokaryote (bacteria)

aspen-part-1.html.

Chapt. 28 – The Origins of Eukaryotic Diversity

Chapter 28 Key Points.  Simplest Eukaryotes  Most diverse kingdom  Can be unicellular or multicellular  Paraphyletic  Under reorganization.

Fig Fig a Precambrian Common ancestor to all present-day life Origin of Earth Earth cool enough for crust to solidify Oldest prokaryotic.

AP Biology Origin of Life “…sparked by just the right combination of physical events & chemical processes…”

Endosymbiotic Theory. The Endosymbiotic Theory Review:  What is a theory?  What is the difference between prokaryotic and eukaryotic cells? The endosymbiotic.

l Chapter 28 l The Origins of Eukaryotic Diversity.

There are two main types of cells; Prokaryotes and Eukaryotes Prokaryotic Cells Prokaryotic cells are the oldest forms of life and evolved 3.5 billion.

 Prokaryotes  Pro=before-Karyotes= nut (nucleus)  These cells have no nucleus Examples: bacteria  Eukaryotes  Eu=good-Karyote= nut (nucleus)  These.

Prokaryotes and Eukaryotes. Prokaryotes Prokaryotes: (pro- means before, and -karyote means nucleus) First type of cells to evolve Very small (size of.

Kingdom Protista The Kingdom that has all the eukaryotes that do not go in the other kingdoms.

Where did life come from?. First, where did the earth come from? Everything appears to have started with the Big Bang – about 14 billion years ago. The.

Protists Chapter 28. What you need to know! Protista is no longer considered an independent kingdom. They are part of the Eukaryotes doman and are very.

NIS - BIOLOGY Lecture 93 – Lecture 94 Introduction to Protists Ozgur Unal 1.

Viruses Chapter What you need to know!  The components of a virus.  The differences between lytic and lysogenic cycles.

What organelle uses sunlight to make food? Chloroplast.

Chapter 5: Cell structure & function

The building blocks of life

Ch.3 Open-ended Test Questions

Protists Domain Eukarya Domain Bacteria Archaea Eukarya

Closing Task: I will complete and color my Protists foldable.

CHAPTER 7: CELL STRUCTURE AND FUNCTION

Structure and Function

Prokaryotic and Eukaryotic

Endosymbiotic Theory.

Protists Origin of eukaryotic cells

The Eukaryotes.

Protists Origin of eukaryotic cells

Chapter 28~ The Origins of Eukaryotic Diversity

Types of Cells In this presentation you will:

Turn your homework in. Get out your notebooks. Open to page 16.

Endosymbiotic Theory.

The cell theory.

Protists The first Eukaryotes.

Protists The first Eukaryotes.

Cell Types and Cell Structures

Prokaryotic vs. Eukaryotic

ADDITIONAL PROTISTS NOTES

Prokaryote and Eukaryote notes

Deep-rooted phylogeny

Types of Cells In this presentation you will:

THE ORIGINS OF EUKARYOTIC DIVERSITY

COMPARING Prokaryotes & Eukaryotes

Prokaryotic Cell or Eukaryotic Cell?

Copyright Pearson Prentice Hall

Endosymbiotic theory: A Theory of how Eukaryotes were born

Cell Diversity.

Origin of Eukaryotic Cells

Classification 9.2 Formative 1

Cell Diversity.

How did eukaryotic cells evolve from unicellular organisms?

Plants, Animals, Fungi and Protista

CHAPTER 4 A Tour of the Cell

Explain how eukaryotic cells evolved from prokaryotic cells

The functional and structural unit of all living organisms.

Cell Station Answers.

Prokaryotes and Eukaryotes

Kingdom Protista.

Kingdom Protista.

Unit 1 Vocabulary Part I.

Presentation transcript:

CHAPTER 16 The Origin and Evolution of Microbial Life: Prokaryotes and Protists Modules 16.18 – 16.21

Cell with nucleus and endomembrane system PROTISTS…the eukaryotes The eukaryotic cell probably originated as a community of prokaryotes—The Endosymbiotic Theory of Lynn Margulis (1970) Eukaryotic cells evolved from prokaryotic cells more than 2 billion years ago The nucleus and endomembrane system of eukaryotes probably evolved from infoldings of the plasma membrane of ancestral prokaryotes Plasma membrane Cytoplasm Endoplasmic reticulum Nucleus Nuclear envelope Ancestral prokaryote Cell with nucleus and endomembrane system Figure 16.18A

Photosynthetic eukaryotic cell Mitochondria and chloroplasts probably evolved from symbiotic prokaryotes that took up residence inside larger prokaryotic cells Evidence comes from the fact that mitochondria, chloroplasts and centrioles all have their own DNA that is similar to the DNA of bacteria. It also replicates independently of the nuclear DNA. Aerobic heterotrophic prokaryote Mitochondrion Mitochondrion Photosynthetic prokaryote Chloroplast Some cells Ancestral host cell Photosynthetic eukaryotic cell Figure 16.18B

Early protists were the ancestors of plants, animals, and fungi 16.19 Protists—unicellular eukaryotes and their close multicellular relatives—probably represent multiple kingdoms Early protists were the ancestors of plants, animals, and fungi The taxonomy of protists is in a state of flux Figure 16.19

16.20 Protozoa are protists that ingest their food They include flagellates amoebas Figure 16.20A, B

apicomplexans ciliates Red blood cell Apex Cilia Cilia Macronucleus Figure 16.20C, D Macronucleus

Most protozoa live freely in water or moist soil Some live in humans and other animals and cause disease

Slime molds are protists that may constitute a distinct kingdom 16.21 Cellular slime molds have both unicellular and multicellular stages Slime molds are protists that may constitute a distinct kingdom Amoeboid cells Sluglike colony Reproductive structure Figure 16.21