respiration
photosynthesis
protein synthesis
fat synthesis
C. protein synthesis
200 times
2000 times
20,000 times
200,000 times
oxygen supply
nutrition
regulation by nucleus
all of die above
matrix
outer membrane
inner membrane
none of these
glyoxisomes
lomasomes
spherosomes
lysosomes
M.J. Schleiden and Theodore Schwann in 1838 and 1839 respectively
M.J. Schleiden and Theodore Schwann in 1939 only
Theodore Schwann and M.J. Schleiden in 1938 only
T.J. Schleiden and M.J. Schwann in 1838 only.
Huxley and Virchow
Leeuwenhok and Hooke
Knoll and Ruska
Farmer and Moore
a well-defined nuclear membrane
nucleolus only
double stranded circular DNA
single stranded DNA
9 + 2
9 + 4
9 + 0
9 + 1
Porter
DeDuve
Palade
Golgi
lysosome
spherosome
glyoxysome
lomasome
A. Kornberg
S.Ochoa
H. Khorana
Nirenberg
centrifugation
radioactive tracers
microscopy
chromatography
Robert Brown
Huxley
Virchow
Hammerling
peroxisomes
microsomes
lysosome
lomasome
GUA AUC GUA GUA CUG
GTA ATC GAT GTA CTA
TAG ATG ATG GUA CUG
GTA ATG GTA GAT CTA
Purkinje
Lamarck
Dutrochet
Dujardin
nucleus
centriole
nucleolus
mitochondria
ribosomes
chloroplast
mitochondrion
all of these
any 23 chromosomes are from father and remaining from the mother
the first 11 pairs and 'X' are from the father and next 11 pairs and 'Y' from the mother
the first 11 pairs and 'X' from mother and remaining from father
out of each pair one is received from the father and the other from the mother
electron transport and ATP synthesis
carbon assimilation
intake of
elimination of
uracil and adenine
thymine and uracil
uracil, adenine, guanine and cytosine
thymine, adenine, guanine and cytosine
nucleus
endoplasmic reticulum
chloroplast
mitochondria
phase contrast microscope
electron microscope
light microscope
autoradiography
Benda
Kolliker
Altmann
Robert Hooke
sunlight
UV-light
far red
beam of electrons
55S to 70S
80S
40S
60S
nucleus
cell
protoplasm
nutrition
dying
dehydrated
active
dividing
DNA and proteins
RNA and proteins
DNA, RNA and proteins
RNA arid DNA
gene
centromere
telomere
chromosome