ETIMOLOGÍA DE LA PALABRA EMBDEN-MEYERHOF PATHWAY
Named after Gustav Embden (1874–1933) and Otto Meyerhof (1884–1951), German biochemists.
PALABRAS DEL INGLÉS RELACIONADAS CON «EMBDEN-MEYERHOF PATHWAY»
Embden-Meyerhof pathway
embden
meyerhof
pathway
entner
doudoroff
steps
animation
glycolysis
metabolic
that
converts
glucose
into
pyruvate
cocoo−
energy
released
this
process
used
form
high
compounds
glycolytic
gluconeogenesis
color
contain
genes
located
close
vicinity
each
other
clustering
chromosome
archaea
biochemistry
reaction
which
pyruvic
acid
production
named
after
gustav
medical
nerve
structures
through
impulse
passes
between
groups
cells
central
nervous
system
organ
muscle
distribution
phylogenies
enzymes
kengen
dijkema
stams
evidence
operation
novel
stages
describes
oxidation
generation
called
merriam
webster
noun
ˈem
dən
ˈmī
ˌhȯf
ˈemp
biographical
note
study
outline
mcgraw
hill
higher
education
common
found
major
microorganisms
10 LIBROS DEL INGLÉS RELACIONADOS CON «EMBDEN-MEYERHOF PATHWAY»
Descubre el uso de
Embden-Meyerhof pathway en la siguiente selección bibliográfica. Libros relacionados con
Embden-Meyerhof pathway y pequeños extractos de los mismos para contextualizar su uso en la literatura.
1
Clinical Hematology: Theory and Procedures
Metabolic Activities Embden-Meyerhof Pathway This glycolytic pathway (Fig. 5.12
) is the major source of the essential cellular energy. In the breakdown of a
molecule of glucose to lactate, two ATPs are consumed during the hexose
portion of ...
Mary Louise Turgeon, 2005
2
Biology of the Prokaryotes
The Embden-Meyerhof pathway is widespread in nature and occurs in animals,
plants, fungi and yeasts, and in many bacteria such as Escherichia coli, Clostridia
, and homofermentative lactic acid bacteria. Its reactions are described in ...
Joseph W. Lengeler, Gerhart Drews, Hans Günter Schlegel, 1999
3
The Prokaryotes: Vol. 1: Symbiotic Associations, ...
The triose- phosphates and glucose then enter the Embden-Meyerhof pathway
as shown in Fig. 9. Lactobacillus delbrueckii and L. helveticus contain the lactose
-permease-β-galactosidase pathway, whereas L. casei and the Lactococcus ...
Martin Dworkin, Stanley Falkow, 2006
4
Hematology for the Medical Student
CELLS. The RBC has a relatively simple pattern of metabolic pathways (Fig. 3-5).
A. Embden-Meyerhof pathway (anaerobic glycolysis). The anaerobic glycolytic
pathway is the major source of ATP production in the RBC. It generates the ATP ...
Alvin H. Schmaier, Lilli M. Petruzzelli, 2003
EMBDEN-MEYERHOF PATHWAY (GLYCOLYSIS) [Figure 162] Glucose to
glucose-6-phosphate (G6P). Glucose is phosphorylated (i.e., a phosphate group
is added) immediately on entering the cell and is efficiently trapped inside
because ...
Victor L. Davidson, Donald B. Sittman, 1999
6
Hematology: Clinical Principles and Applications
ATP is generated by the: a. Embden-Meyerhof pathway b. Hexose
monophosphate pathway c. Luebering-Rapaport pathway d. Aerobic glycolytic
pathway 3. The enzyme deficiency in the Embden-Meyerhof pathway responsible
for most cases ...
7
An Introduction to Microbiology
... a number of reactions which result in the production of ATP. Figure 9. 1 shows
four mechanisms by which Glucose (Cg) — •- Entner- Doudoroff pothwoy
Phospho ketolose pathwoy Embden-Meyerhof Pathway Triose Pentose cycle
Pentose ...
P. Tauro, K. K. Kapoor, K. S. Yadav, 1986
8
Blood Banking and Transfusion Medicine: Basic Principles & ...
... in these energy pathways represent about 10% of the more than 300 proteins
found in RBCs. Embden-Meyerhof Pathway Figure 13–1 shows the Embden-
Meyerhof glycolytic pathway with the associated Rapoport-Leubering shunt.2 ...
Christopher D. Hillyer, 2007
9
Encyclopedia of Agricultural, Food, and Biological ...
Yeast (Saccharomyces cerevisiae) has traditionally been utilized to achieve such
a conversion. Under anaerobic conditions, yeast metabolizes glucose to ethanol
primarily by the Embden-Meyerhof pathway. The overall net reaction produces ...
10
Red Cell Membrane Transport in Health and Disease
Glucose can be transformed to 2 molecules lactate via glycolysis (Embden-
Meyerhof pathway), or oxidatively via the oxidative section of HMS to ribulose-5-
phosphate. Ribulose-5-phosphate can reenter glycolysis as fructose-6-
phosphate and ...
Ingolf Bernhardt, J. Clive Ellory, 2003