Environmental influences on microbial growth: pH and osmolarity Flashcards
adaptations to avoid thermal lysis
- more saturated membrane lipids and saturases remodel membranes
* used ffor groth at high temp
-synthesis heat shock proteins and more thermostable proteins (stronger/more bonding)
adaptations maintaining a semifluid membrane
- less saturated membrane lipids and desaturases to remodel membranes
*adaptation for low temp
- syn mroe flexible proteins - weaker/less bonding
what is the key concern with changes with env pH
- plasma memabrane is a permeability barrier and has the ETC to generate PMF (energy generation)
- without proton motive force - no coupled transport, no flagellar rotations and no ATP synthase
relationship between membrane and cytoplasm to pH
- membrane of alkophiles or acidophiles mebrane is leaky under extreme pH condiitons
- cytoplams is maintained at approx near neutral pH due to ill defined active transprot
*issue is external environment - problem for proteins on the plasma membrane: want to prevent denaturation
what is A. ferrozidans
aka rustry
- acidophile
- ithotroph that uses sulfur and iron as energy source (a lot of acidophiles create their own acidic environemtn)
what is natronobacterium
-alkaliophile
what is a concern at high pH
- hydrogen bonds that hold DNA toether can break and lipids are hydrolyzed
describe the adaptations to high pH and low pH
high pH: alkaline shock proteins to resist deprotonation
lower pH: acid shock prtoeins, more flexible and resistant to protonation
*neutrophiles have a global stress response - induction of acid/alkaline-shock proteins (chaperones) to protect against denaturation and help refold proteins
just note: survival does not make an organism an extremophile!
- can surive but not grow (like ecoli surviving the stomach)
describe acidophiles
- grow optimally below pH 5
- membrane is slightly leaky to protons, the cytoplasmic pH is usually only slightly acidic bc can actively trasnport h+ ions out of the cell
- cytoplasmic proteins have evolved to function at slighlty acidic pH with increased negative surface charges compared to neutrophiles
*many are archea
- their proteins have secondary, tertiary and quaternary structutes that are resistant to protonating effects of the acidic environment
what makes archeal membranes advantageous for alkaliphilesand acidophiles
archea are typically the most successfl extremeophiles
- ether linked which is more stable to acid
- can fold a tetraether membrane lipid, onolayer structure makes memrbanes much better barrier to proton leakage @ very low pH
describe alkaliphiles
- have diether lipid membranes: ether linkage is more resistant to chemical or thermal degredation compared to ester linked phospholipids
- cell surface has high concentration of acidic (neg cahrged) molecules - acts as a proton spronge allowing more rapid lateral diffusion of proteins from ETS to ATP synthase
- secretes proteins the have evolved to resist deprotonation/denaturation and chemical degredation at high pH
- maintaining PMF is biggest challenge so have adapted a aodium motive force
-
decribe the sodium motive force
- N+/H+ antiport can create sodium motive force
- energy derived for reactions and motility can be form SMD rather than PMF (utilized in Bacillus firmus)
- can also use SMF to conserve protons for ATP synthase and use SDM for flagellar rotation