2. The Six Kingdoms How do we group organisms into kingdoms? Organisms are grouped in kinedoms based on 5 different characteristics: AMALIA FUNG tiouler anytic PLANDA neular PROTISTA Bubary war 1....


2. The Six Kingdoms<br>How do we group organisms into kingdoms?<br>Organisms are grouped in kinedoms based on 5 different<br>characteristics:<br>AMALIA<br>FUNG<br>tiouler<br>anytic<br>PLANDA neular<br>PROTISTA<br>Bubary<br>war<br>1.<br>EUBACTERIA<br>nicellar<br>prokaryotic<br>ABCHASBACTERIA<br>der, prokaryoi<br>2. Cell structures<br>3. Number of cells<br>4. Mode of<br>5. Motile or non-motile<br>Characteristics of the Six Kingdoms<br>Mobility<br>Examples<br>Domain<br>Kingdom<br># of Cells<br>Nutrition<br>Cell Type<br>Cell Structure<br>Some<br>Bacteria<br>Eubacteria<br>can<br>Prokaryote<br>unicellular<br>move<br>Archaea Archaebacteria<br>Cell walls<br>Autotroph or<br>Methanogens,<br>without<br>heterotroph<br>halophiles<br>peptidoglycan<br>Protista<br>Most<br>unicellular,<br>Some<br>Eukaryote<br>some<br>can<br>colonial,<br>move<br>some multi<br>Plantae<br>Cell walls of<br>cellulose.<br>Mosses, ferns,<br>autotroph<br>Contain<br>flowering plants<br>

Extracted text: 2. The Six Kingdoms How do we group organisms into kingdoms? Organisms are grouped in kinedoms based on 5 different characteristics: AMALIA FUNG tiouler anytic PLANDA neular PROTISTA Bubary war 1. EUBACTERIA nicellar prokaryotic ABCHASBACTERIA der, prokaryoi 2. Cell structures 3. Number of cells 4. Mode of 5. Motile or non-motile Characteristics of the Six Kingdoms Mobility Examples Domain Kingdom # of Cells Nutrition Cell Type Cell Structure Some Bacteria Eubacteria can Prokaryote unicellular move Archaea Archaebacteria Cell walls Autotroph or Methanogens, without heterotroph halophiles peptidoglycan Protista Most unicellular, Some Eukaryote some can colonial, move some multi Plantae Cell walls of cellulose. Mosses, ferns, autotroph Contain flowering plants
Some<br>Bacteria<br>Eubacteria<br>can<br>Prokaryote<br>unicellular<br>move<br>Archaea Archaebacteria<br>Methanogens,<br>Autotroph or<br>heterotroph<br>Cell walls<br>halophiles<br>without<br>peptidoglycan<br>Protista<br>Most<br>Some<br>unicellular,<br>can<br>Eukaryote<br>some<br>move<br>colonial,<br>some multi<br>Plantae<br>Cell walls of<br>Mosses, ferns,<br>cellulose.<br>autotroph<br>flowering plants<br>Contain<br>Eukarya<br>chloroplasts<br>Fungi<br>Most<br>multicellular,<br>Non-<br>Eukaryote<br>motile<br>some<br>unicellular<br>Animalia<br>Sponges, worms,<br>No cell walls or<br>Heterotrophs<br>fish, birds,<br>chloroplasts<br>mammals<br>3. Bacteria: A Closer Look<br>Pili<br>Basics<br>1. For everY<br>DNA<br>human cell there are<br>bacteria cells, which is roughly.<br>Ribosomes<br>of<br>your total mass<br>2. All bacteria are<br>lack<br>Flagellum<br>anucleus<br>Cell Wall<br>3. Smallest, simplest microorganism<br>Plasma<br>Membrane<br>4. Live in all<br>

Extracted text: Some Bacteria Eubacteria can Prokaryote unicellular move Archaea Archaebacteria Methanogens, Autotroph or heterotroph Cell walls halophiles without peptidoglycan Protista Most Some unicellular, can Eukaryote some move colonial, some multi Plantae Cell walls of Mosses, ferns, cellulose. autotroph flowering plants Contain Eukarya chloroplasts Fungi Most multicellular, Non- Eukaryote motile some unicellular Animalia Sponges, worms, No cell walls or Heterotrophs fish, birds, chloroplasts mammals 3. Bacteria: A Closer Look Pili Basics 1. For everY DNA human cell there are bacteria cells, which is roughly. Ribosomes of your total mass 2. All bacteria are lack Flagellum anucleus Cell Wall 3. Smallest, simplest microorganism Plasma Membrane 4. Live in all
Jun 11, 2022
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