about
The emerging role of AMPK in the regulation of breathing and oxygen supplyThe cellular and compartmental profile of mouse retinal glycolysis, tricarboxylic acid cycle, oxidative phosphorylation, and ~P transferring kinasesThe CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in ciliaIntegrated analysis of mRNA, microRNA and protein in systemic lupus erythematosus-specific induced pluripotent stem cells from urineScreening methods for AMP-activated protein kinase modulators: a patent review.The sarcomeric M-region: a molecular command center for diverse cellular processes.Evidence for purine nucleoside phosphorylase (PNP) release from rat C6 glioma cells.Simple oxygraphic analysis for the presence of adenylate kinase 1 and 2 in normal and tumor cells.Gene Expression and Activity Profiling Reveal a Significant Contribution of Exo-Phosphotransferases to the Extracellular Nucleotides Metabolism in HUVEC Endothelial Cells.Expanding the mutation spectrum in ICF syndrome: Evidence for a gender bias in ICF2.Targeting Nucleotide Biosynthesis: A Strategy for Improving the Oncolytic Potential of DNA Viruses.Characterization of circulating microparticle-associated CD39 family ecto-nucleotidases in human plasma.Structural analyses of adenylate kinases from Antarctic and tropical fishes for understanding cold adaptation of enzymes.The Purine Salvage Pathway and the Restoration of Cerebral ATP: Implications for Brain Slice Physiology and Brain Injury.Limb girdle myasthenia with digenic RAPSN and a novel disease gene AK9 mutations.Simultaneous Detection of Activity and Relative Molecular Mass of Adenylate Kinases After SDS-PAGE and Blotting.Discovery of genetic variants of the kinases that activate tenofovir among individuals in the United States, Thailand, and South Africa: HPTN067.Adenosine 5'-Triphosphate Metabolism in Red Blood Cells as a Potential Biomarker for Post-Exercise Hypotension and a Drug Target for Cardiovascular Protection.Staphylococcus aureus targets the purine salvage pathway to kill phagocytes.Intracellular Energy-Transfer Networks and High-Resolution Respirometry: A Convenient Approach for Studying Their Function
P2860
Q28072485-8EF4AA5F-7EA3-43BD-B04F-DBBBF960624CQ28385023-F0768810-3484-4270-9BE5-8684F427C0B4Q30638674-B5658E6B-2DEA-4ED8-998C-B016992B6D35Q36073380-B6EF13F1-139D-4C59-BC84-5441C42CD4A3Q38298547-DC5A1FC6-5EFE-4C94-8BA5-FBEBCA28A563Q38471353-F428B58A-14DD-44FE-8E1A-6664761F83E5Q38714243-4141BA7F-0F45-4547-A5A7-D5354BA9F9EEQ38730752-C42ACF26-0CF7-4F63-83DF-3D3E04FF4CB1Q39177365-44B9465B-AB97-49B9-83ED-D73D465712C6Q40356154-8896BF27-88A8-46FE-9EE3-B94BC11A61DBQ41919532-F89EC6DE-1D91-4D65-939B-16745006B6BEQ43073919-ABA4BF4F-452D-4D2F-BC0A-ACE7ACAFE6BAQ47152848-3B70DEBD-12CE-4B29-9601-DB01142FFE95Q48142175-9F89F30F-FD49-4DA5-BFA9-D10C91DD31DFQ49527986-9EEA1403-DC3D-40A1-A9FC-D08AAA2135DEQ50947658-4554345A-4ABA-4F96-AA73-8FCD354BD116Q52594148-02F5656C-7EA7-4799-BECD-39076D95B553Q55618500-11C40F52-3B42-441F-A496-95E3A65EAABFQ55710476-12A90033-A5F1-4742-980B-E8351E721508Q59138361-F7E0E29F-6ED8-4AD2-8CB7-64456760A7B3
P2860
description
2014 nî lūn-bûn
@nan
2014 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
The many isoforms of human adenylate kinases.
@ast
The many isoforms of human adenylate kinases.
@en
The many isoforms of human adenylate kinases.
@nl
type
label
The many isoforms of human adenylate kinases.
@ast
The many isoforms of human adenylate kinases.
@en
The many isoforms of human adenylate kinases.
@nl
prefLabel
The many isoforms of human adenylate kinases.
@ast
The many isoforms of human adenylate kinases.
@en
The many isoforms of human adenylate kinases.
@nl
P1476
The many isoforms of human adenylate kinases.
@en
P2093
Christakis Panayiotou
Nicola Solaroli
P356
10.1016/J.BIOCEL.2014.01.014
P577
2014-02-02T00:00:00Z