Bacteria and Archaea can use all 6 feeding strategies, but Eukaryotes can only use _ and...
Which of the following statements is not true regarding the differences between bacteria, archaea, and eukaryotes? a) Flagella are found on bacteria, archaea and eukaryotes yet they all vary in b Bacteria and archaea have circular chromosomes in a nucleoid region ) The cell walls of bacteria and archaea both contain the complex d) Ribosomal RNA sequencing revealed that the structure of the ribosomal structure whereas eukaryotes have linear chromosomes that are enclosed in a nuclear membrane macromolecule peptidoglycan, whereas...
Combine, into one tree, the phylogeny given in class for the Bacteria and Archaea and Eukaryotes with the phylogeny given for Eukaryotes. (i.e. make one tree that relates: Cyanobacteria, Chloroplasts, Rhizobium, Mitochondria, E. coli, Lokiarchaeota, TACK, Euryarchaeota, SAR, Red Algae, Green algae and Plants, Fungi, and Metazoans.) SAR Cilliates, Diatoms Brown Algae, etc. -Red Algae Plants + Green Algae Fungi Metazoans (Animals) – Eukaryotes Modern Cyanobacteria Lokiarchaeota Euryarchaeota Chloroplasts - TACK Archaea Rhizobium - Mitochondria - E.coli
43.Lipopolysaccharides (LPS) are found in: a. Gram-positive bacteria b. Gram-negative bacteria c. all Bacteria d. Archaea e. Eukaryotes ------------------------- 44. There are similarities and differences between Gram-negative and Gram-positive bacteria. Which of the following is not true? a. The cell wall of Gram-negative cells is composed of only one or two layers of peptidoglycan whereas the cell walls of Grampositive bacteria have many peptidoglycan layers b. Only Gram-positive bacterial cells have a periplasm 2/6/18 8 c. The cell membranes of...
Why is Streptomycin only effective against bacteria, and not archaea as well? I thought its mechanism of action had to do with its binding site on the 30S ribosomal subunit, but archaea have this as well, so why is it not effective against both? For reference, I was asked to explain how the mode of action of each antibiotic relates to the organisms in each domain. is down partenere a cyclo acteria on the basis of sensitivity to antimicrobial chemicals....
Bacteria contains only one RNA polymerase. Both bacteria and eukaryotes only have one RNA polymerase. Question 26 Which of the following is part of the promoter recognized by bacteria RNA polymerase? -10 region -35 region Both -35 regiona dn -10 region. -40 region
How do the genomes of Archaea and Bacteria compare? Drag and drop the phrases on the left to complete the sentences on the right. Part D Genome size of Archaea versus Bacteria How do the genomes of Archaea and Bacteria compare? Drag and drop the phrases on the left to complete the sentences on the right. Reset Help is/are larger than 1. Just by knowing that the Thaumarchaeota are Archaea, it isare smaller than those of s possible to predict...
QUESTION 19 All of the following describes organisms in the domains Bacteria and or Archaea except O Cell wall O Multicellular O Single celled O Prokaryotic
) Mollusks use a variety of different feeding/digestive strategies depending on the class. For the classes gatropoda and bivalvia: i) provide the path of food through each animal using a simple flow chart (x-> y -> z) containing all relevant structures or parts ii) explain in one or two sentences why this difference in feeding strategies makes sense for the lifestyles of the two classes iii) What are the primary differences between the digestion of mollusks and the digestion of...
rmentation. If cellular respiration makes more fuel for the cells, why wouldn't all bacteria use this method? I al.brightspace.com/d2l/Ims/quizzing/user/attempt/quiz start frame auto.d21?ou-940248isprv-8drc-08qi 2688468cfql 08dnb Beth Owens: Attempt 3 Question 1 (1 point) Which of the following statements about microbes within the domain Archaea is true? A) They are eukaryotes B) They lack ribosomes and RNA C) They are all extreme halophiles D) They are prokaryotes Question 2 (1 point) ich nhylum?
Which mechanisms of gene regulation are found in eukaryotes but not in bacteria? Choose all that apply. alternative splicing histone modifications alternative sigma factors anti-termination alternative polyadenylation attenuation