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Asparagine/Creatinine:MRto:24H:Urine:Qn
Known as:
Asparagine/Creatinine:Mass Ratio:24 hours:Urine:Quantitative
, Asparagine/Créatinine:Ratio de masse:24 h:Urine:Quantitatif
, Asparagiin/kreatiniin:MRto:24 tunni:U:Qn
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Related topics
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5 relations
Asparagine
Chemical procedure
Creatinine
MRto
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Papers overview
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Highly Cited
2010
Highly Cited
2010
A novel form of human STAT1 deficiency impairing early but not late responses to interferons.
X. Kong
,
Michael J. Ciancanelli
,
+16 authors
S. Boisson-Dupuis
Blood
2010
Corpus ID: 16516758
Autosomal recessive STAT1 deficiency is associated with impaired cellular responses to interferons and susceptibility to…
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Highly Cited
2008
Highly Cited
2008
Role of Nonstructural Protein NS2A in Flavivirus Assembly
J. Leung
,
G. Pijlman
,
N. Kondratieva
,
J. Hyde
,
J. Mackenzie
,
A. Khromykh
Journal of Virology
2008
Corpus ID: 7843466
ABSTRACT Flavivirus nonstructural (NS) proteins are involved in RNA replication and modulation of the host antiviral response…
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Highly Cited
2008
Highly Cited
2008
A Sporozoite Asparagine-Rich Protein Controls Initiation of Plasmodium Liver Stage Development
O. Silvie
,
Kristin Goetz
,
K. Matuschewski
PLoS Pathogens
2008
Corpus ID: 16283414
Plasmodium sporozoites invade host hepatocytes and develop as liver stages (LS) before the onset of erythrocytic infection and…
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Highly Cited
2006
Highly Cited
2006
Asparagine deamidation: pH-dependent mechanism from density functional theory.
B. Peters
,
B. Trout
Biochemistry
2006
Corpus ID: 10927979
Asparagine deamidation is a decisive event in chemotherapy-induced apoptosis and a major obstacle in the formulation of…
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Highly Cited
2003
Highly Cited
2003
Local anaesthetics have different mechanisms and sites of action at the recombinant N‐methyl‐D‐aspartate (NMDA) receptors
M. Sugimoto
,
I. Uchida
,
T. Mashimo
British Journal of Pharmacology
2003
Corpus ID: 33382462
Although the principal pharmacological targets of local anaesthetics (LAs) are voltage‐gated Na+ channels, other targets have…
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Highly Cited
2000
Highly Cited
2000
Access the most recent version at doi: 10.1110/ps.48702 References
2000
Corpus ID: 19017967
Highly Cited
1996
Highly Cited
1996
Differential contribution of the NR1‐ and NR2A‐subunits to the selectivity filter of recombinant NMDA receptor channels.
L. Wollmuth
,
T. Kuner
,
P. Seeburg
,
B. Sakmann
Journal of Physiology
1996
Corpus ID: 23630856
1. The molecular determinants for the narrow constriction of recombinant N‐methyl‐D‐aspartate (NMDA) receptor channels composed…
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Highly Cited
1989
Highly Cited
1989
A single amino acid substitution in the beta-adrenergic receptor promotes partial agonist activity from antagonists.
C. Strader
,
M. Candelore
,
W. Hill
,
R. A. Dixon
,
I. Sigal
Journal of Biological Chemistry
1989
Corpus ID: 22288315
The family of G-protein-linked receptors includes many important pharmacological targets, of which the beta-adrenergic receptor…
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Highly Cited
1988
Highly Cited
1988
Soluble, prolonged-acting insulin derivatives. III. Degree of protraction, crystallizability and chemical stability of insulins substituted in positions A21, B13, B23, B27 and B30.
J. Markussen
,
I. Diers
,
+6 authors
H. O. Voigt
Protein Engineering
1988
Corpus ID: 22527089
It was previously demonstrated that insulins to which positive charge has been added by substituting B13 glutamic acid with a…
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Highly Cited
1982
Highly Cited
1982
Completion of the amino acid sequences of the A and B chains of subcomponent C1q of the first component of human complement.
K. Reid
,
J. Gagnon
,
J. Frampton
Biochemical Journal
1982
Corpus ID: 28049223
The sequences of amino acid residues 109--224 of the A chain, and residues 109--22 of the B chain, of human subcomponent C1q are…
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