L15: Nutritional Categories Flashcards
How are nutrional categoeis defines
source, electrons (reducing equivalents), carbon
Phototrophs
– use light as an energy source (i.e., in photophosphorylation)
– some phototrophs can switch to a chemotrophic strategy during
dark period
Chemotrophs
– obtain (conserve) energy from biochemical reactions
– breaking and forming of chemical bonds
– aerobic/anaerobic respiration, fermentation, methanogenesis
– biochemical energy can be conserved by formation of energy-
storage compounds i.e., ATP, carbohydrate polymers i.e.,
glycogen, polyhydroxybutyrate, etc
– biochemical energy can be interconverted with membrane
potential
What do cells use energy for
energise cytplamic membrane via electron flow and maintenance of proton gradeint
*the gradeint interconverted with ATP, NAD(P)H
Autotrophs needs energy
to fuel carbon fixation
diazatrophs need energy…
to feul N2 fixation
Organotrophs
obtain electrons from organic compounds
Lithotrophs
obtain electrons from inorganic compounds
What happens to ep
– electrons are transferred to coenzymes such as NAD + or
NADP +, reducing them to NAD(P)H
– in phototrophs this is often light-driven
– in chemotrophs it is mediated by enzymatic reactions
– some electrons are used to reduce compounds in the cell
– some electrons are dumped onto electron acceptors and form
waste products (respiration, methanogenesis, fermentation)
What happens to NAD(P)H
– source of electrons for enzymatic reactions requiring reducing
equivalents, thus for biosynthesis (all cells)
– source of electrons for the electron transport chain, to fuel the
proton gradient and thus ATP synthesis, in chemotrophs that use
respiration (aerobic or anaerobic)
chemolithotrophs, photolithotrophs and lithotrophs
hemolithotrophs:
– organisms that use inorganic compounds as the source of energy nd electrons
– chemolithoautotrophs and chemolithoheterotrophs
Photolithotrophs:
– organisms that use light energy and obtain electrons from inorganic compounds
– photolithoautotrophs and photolithoheterotrophs
lithoautotrophs are common because organisms that fix CO 2
often obtain electrons from inorganic compound
Organotropjs
Photoorganotrophs:
– organisms that use light energy and obtain electrons from
organic compounds
– photoorganoheterotrophs and photoorganoautotrophs
Chemoorganotrophs:
– organisms that use organic compounds as the source of energy
and reducing equivalents (electrons)
chemoORGANOtrophs
organisms that use organic compounds as the source of energy
and electrons
– organoheterotrophs are common because many organisms
utilize the same compound as source of carbon and electrons
– chemoorganoheterotrophs may utilize the same compound as
source of carbon, electrons and energy
– chemoorganoautotrophs utilize organic compounds as their
source of electrons and energy but not carbo
Hetertrophs
– assimilate organic compounds as C source for growth
– may or may not use organic compounds as energy and/or
electron sources
– take up organic compounds and then use them as the source of
carbon in their own biosynthetic reactions
– sugars, organic, amino, nucleic and fatty acids, etc
– some CO 2 may be re-fixed via enzymes like PEP carboxylas
Autotrophs
obtain carbon from inorganic sources (CO 2 , CH 4 )
