{ Bio 211 SI Lineage Review 9/14/15. A. Protists, eukaryotes, prokaryotes B. Archaea, Bacteria,...

{Bio 211 SI Lineage Review

9/14/15

A. Protists, eukaryotes, prokaryotes

B. Archaea, Bacteria, Eukarya

C. Bacteria, prokaryotes, protists

D. Eukaryotes, protists, archaea

What are the three domains of life?

A. Protists, eukaryotes, prokaryotes

B. Archaea, Bacteria, Eukarya

C. Bacteria, prokaryotes, protists

D. Eukaryotes, protists, archaea

What are the three domains of life?

A. Bacteria and Eucarya

B. Eucarya only

C. Archaea and Eucarya

D. Bacteria and Archaea

Of the three domains, which of the following are prokaryotic?

A. Bacteria and Eucarya

B. Eucarya only

C. Archaea and Eucarya

D. Bacteria and Archaea

Of the three domains, which of the following are prokaryotic?

A. A

B. B

C. C

D. D

What point on the phylogenetic tree suggests that Archaea and Eucarya are more closely related?

A

C

B

D

A. A

B. B

C. C

D. D

What point on the phylogenetic tree suggests that Archaea and Eucarya are more closely related?

A

C

B

D

A. Eukarya

B. Bacteria

C. Protista

D. Archaea

Cillates are a class found under which domain?

A. Eukarya

B. Bacteria

C. Protista

D. Archaea

Cillates are a class found under which domain?

A. True

B. False

True/False: All eukaryotes are protists except for land plants, fungi, and animals.

A. True

B. False

True/False: All eukaryotes are protists except for land plants, fungi, and animals.

A. Cyanobacteria

B. Chlamydiae

C. Proteobacteria

D. Opisthokonta

Which of the following phylums can be found within domain eukarya?

A. Cyanobacteria

B. Chlamydiae

C. Proteobacteria

D. Opisthokonta

Which of the following phylums can be found within domain eukarya?

A. Domain

B. Phylum

C. Species

D. Subclass

The classification “Euryarcheota” includes the classes of methanogens, hyperthermophiles, and halophiles. Euryarcheota can therefore be considered a:

A. Domain

B. Phylum

C. Species

D. Subclass

The classification “Euryarcheota” includes the classes of methanogens, hyperthermophiles, and halophiles. Euryarcheota can therefore be considered a:

A. The origins of prokaryotic cells from eukaryotes

B. The origins of eukaryotic cells from prokaryotes

C. The origins of mitochondria, plastids, and chloroplasts as organelles

D. B & C

The endosymbiont theory explains which of the following:

A. The origins of prokaryotic cells from eukaryotes

B. The origins of eukaryotic cells from prokaryotes

C. The origins of mitochondria, plastids, and chloroplasts as organelles

D. B & C

The endosymbiont theory explains which of the following: