Transcript Document
TITANIC
Launched: 31st May 1911
Passengers Lost: 818 (62%)
Total Lost: 1,502 (68%)
Crew Lost: 684 (77%)
WHY did soooo many die as they awaited rescue in the North
Sea?
WHY did soooo many die as they awaited rescue in the North
Sea? HINT: THE NORTH SEA IS COLD!!!!!
Function of
Cellular
Respiration…
harvesting the energy
of food for ATP
synthesis… so the
cells have energy for
WHAT if there is NO
electronegative oxygen
to pull electrons
down the chain????
Oxidative phosporylation
STOPS!
GAAAAK!!!!
Glucose
CYTOSOL
Pyruvate
No O2 present
Fermentation
O2 present
Cellular respiration
MITOCHONDRION
Ethanol
or
lactate
Acetyl CoA
Citric
acid
cycle
Fermentation the synthesis of ATP
via. glycolysis ONLY
in the absence of oxygen
Quic kTime™ and a
dec ompres sor
are needed to s ee this pic tur e.
Alcohol fermentation is done by yeast and some kinds
of bacteria.
Quic kTime™ and a
dec ompres sor
are needed to s ee this pic tur e.
yeast / bacteria.
The waste products of this process are ethanol and
carbon dioxide (CO2).
Quic kTime™ and a
dec ompres sor
are needed to s ee this pic tur e.
yeast / bacteria.
The waste products of this process are ethanol and
carbon dioxide (CO2).
Humans have long taken advantage of this process in
making bread, beer, and wine.
Alcohol Fermentation 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2
2 Pyruvate
2 Lactate
Lactic acid fermentation
Carboxyl (X2) to CO2 (X2) 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2
2 Pyruvate
2 Lactate
Lactic acid fermentation
Acetaldehyde produced (X2) 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2
2 Pyruvate
2 Lactate
Lactic acid fermentation
Acetaldehyde (X2) REDUCED 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2
2 Pyruvate
2 Lactate
Lactic acid fermentation
Ethanol Produced (X2) 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2
2 Pyruvate
2 Lactate
Lactic acid fermentation
Alcohol Fermentation 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2
2 Pyruvate
2 Lactate
Lactic acid fermentation
QuickTime™ and a
decompressor
are needed to see this picture.
Fermentation after glycolysis (no O2
Lactic acid fermentation is done by some fungi, some
available)
bacteria like in yogurt, and sometimes by our muscles.
Fermentation after glycolysis (no O2
Lactic acid fermentation is done by some fungi, some
available)
bacteria like in yogurt, and sometimes by our muscles.
Normally our muscles do cellular respiration like the
rest of our bodies, using O2 supplied by our lungs and
blood. However, under greater exertion when the
oxygen supplied by the lungs and blood system can’t
get there fast enough to keep up with the muscles’
needs, our muscles can switch over and do lactic
acid fermentation. In the process of lactic acid
fermentation, the 3-carbon pyruvic acid molecules are
turned into lactic acid.
Lactic Acid Fermentation 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2 Pyruvate
2 Lactate
Lactic acid fermentation
Pyruvate (X2) reduced by NADH2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2 Pyruvate
2 Lactate
Lactic acid fermentation
Lactate (X2) formed 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2 Pyruvate
2 Lactate
Lactic acid fermentation
Fermentation 2 ADP + 2 P
Glucose
2 ATP
Glycolysis
2 NAD+
2 NADH
+ 2 H+
2 Pyruvate
2 Lactate
Lactic acid fermentation
QuickTime™ and a
decompressor
are needed to see this picture.
Fermentation extension of glycolysis
Anaerobic
catabolism
organic molecules.
of
•Yields only 2 ATP’s
•Electrons are transferred
from NADH to pyruvate
(not the e- transport chain)
yruvate as a key juncture in catabolism
aerobic
anaerobic
Fermentation
3.5bya
no oxygen