Lecture 1

Pregunta	Respuesta
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

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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