Created by Nicole Bolo
over 10 years ago
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Question | Answer |
3 major functions of cell membrane | - permeability barrier, protein anchorage, energy conservation |
3 types of transport | - simple, group, ABC |
type of transport w/c modifies the solute | Group Transport |
3 types of Simple Transport | - Uniport, Antiport, Symport |
energy source in Simple Transport | pmf: proton motive force |
energy source for Group Transport | PEP : Posphoenolpyruvate |
energy source for ABC Transport | ATP : adenosine triphosphate |
structures present in G+ which are absent in G- | Teichoic & Lipoteichoic Acids |
G- additional layer | Outer membrane |
Describe: G+ peptidoglycan layer | thick |
Describe: G+ periplasmic space | thin |
Describe: periplasmic layer of G- | Thick |
G + type of organization | simple |
G- type of organization | complex |
FtsZ:prokaryotes:: ____:eukaryotes | tubulin |
FtsZ protein cuases what shape? | coccus |
mreB:prokaryotes:: ____:eukaryotes | actin |
crescentin:prokaryotes:: ____:eukaryotes | intermediate filaments |
mreB protein causes what shape? | bacillus |
FtsZ protein causes what shape? | spirillus |
most common type of nutritional type | chemoorganotrophic heterotrophy |
3 categories for nutritional type | - carbon source, energy source, reducing agents source |
types of nutritional type according to carbon source: | autotrophs, heterotrophs, myxotrophs |
example of myxotrophs | Euglena |
2 types of nutritional type according to energy source: | phototrophs, chemotrophs |
2 types of nutritional type according to reducing agents source: | lithotrophs, organtrophs |
generation of ATP in the absence of oxygen | Fermentation |
type of pathway in FermentaTion which yield the ATP | Substrate Phosphorylation |
6 ways of regulating metabolism | DNA-binding proteins, Feedback inhibitions, Allosteric inhibitions, Cooperativity, Enzyme modification, Enzyme inactivation |
define: Growth | addition in cell number ad cell size |
Types of asexual reproduction | Intracellular offspring production (binary fission & bipolar division), budding, baeocyte formation, arthrospore formation |
define: LUCA | Last Universal Common Ancestor |
tRNA initiation for Bacteria | formyl-methionine |
tRNA initiator for eukaryotes | methionine |
tRNA initiator for eukaryotes | methionine |
type of ribosome in eukarya | 80S |
type of ribosome in bacteria | 70S |
type of ribosome in archaea | 70S |
unbranched fatty acids | Bacteria |
branched isoprene chains | archaea |
define: Inteins | parts of proteins which can separate from an original protein then transfer to another protein |
define: RNA World Hypothesis | - RNA as the original genetic material, which was eventually replaced by DNA |
3 types of mutations ( differentiate ) | missense: A to B nonsense: A to stop codon silent: A to A |
main component of bacterial flagella | flagellin |
main component of archaaeal flagella | archaeallin |
differentiate: bacterial vs archaeal flagella based on dierction of growth | A: from the base B: from the tip |
differentiate: bacterial vs archaeal flagella based on energy source | A: ATP B: protons |
4 types of eukaryotic flagella | monotrichous, peritrichous, lophotrichous, amphitrichous |
2 types of movement for flagella | run (ccw), tumble (cw) |
define: axoneme | 9+2 arrangement of flagella |
importance of DIPI Colinic Acid in Cell Differentiation | binds with calcium to retain water |
2 stages in Acanthamoeba | trophozoite and cyst |
3 stages in Naegleria | trophozoite, cyst and flagellate |
disease caused by Naegleria | PAM: Primary Amoebic Meningoencephalitis |
autoinducers in G- | AHL: acylhomoserenes |
autoinducers in G+ | oligopeptides |
structures which prevent Quorom sensing | quenchers |
4 nutritional types | photolithotrophic autotrophy, photoorganotrophic heterotrophy, chemolithotrophic autotrophy, chemoorganotrophic heterotrophy |
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