28
30
38
60
C. 38
Sugars
Starch
Protons
Fats
fumaric acid
malic acid
oxalo-acetic acid
succinate Co-A
matrix of mitochondria
cell cytoplasm
cell membrane
mitochondrial membrane
4
6
2
3
enzymes
polypeptides
triglycerides of fatty acids
none of these
remove excess from circulation
keep the blood sugar level constant
relieve liver from excess glycogen
all of these
reversible
irreversible
monotonic
anaerobic
basal metabolic rate
stomach and intestine
liver
cellular respiration
Beating of heart
Activity of brain
Combination of O2 with haemoglobin to form oxyhaemoglobin
Maintenance of body temperature
in animals with large surface area per kilogram body weight
in fever
a decrease in external temperature
hypersecretion of thyroxine
liver
adipose tissue
muscles
intestine
metabolic rate
minimal metabolic rate
optimal metabolic rate
basal metabolic rate
per day
per hour
per minute
per second
soluble in saline solution
soluble in fats
insoluble in fats
none of these
secretion of thyroxine
secretion of adrenaline
high atmospheric temperature
shivering
lactic acid
citric acid
arginase
acetyl CoA
fermentation
photosynthesis
aerobic respiration
anaerobic respiration
glucose in liver
glycogen in liver and muscles
glycogen in muscles
lactic acid in spleen
Proteins
Fatty acids
Sugars
All of these
100 kilo calories
200 kilo calories
300 kilo calories
400 kilo calories
ammonification
excretion
deaminations
transamination
4 calories
4 kilo calories
9 calories
9 kilo calories
liver and muscles are saturated with glycogen
blood sugar level is constant
glucose combines with glucose
none of these
Glucose
ADP
ATP
DNA
muscles
kidney
liver
brain
liver
brain
heart
skeletal muscle
metabolism
anabolism
catabolism
cannibalism
lactic acid
acetyl Co-A
malic acid
glycerol
Glucose
Pyruvic acid
PGA
Citric acid
glucose is the only substrate
glucose is the preferred substrate
glucose cannot be used directly
any material which burns in air can be a substrate