1.
CATs and HATs: the SLC7 family of amino acid transporters
by Verrey, François
Pflügers Archiv, 2004-02, Vol.447 (5), p.532-542
3.
The SLC38 family of sodium–amino acid co-transporters
by Broer, Stefan
Pflügers Archiv, 2013-11-06, Vol.466 (1), p.155-172
4.
Overview of symptoms and treatment for lysinuric protein intolerance
by Noguchi, Atsuko
Journal of human genetics, 2019-09, Vol.64 (9), p.849-858
5.
Protein-RNA Networks Regulated by Normal and ALS-Associated Mutant HNRNPA2B1 in the Nervous System
by Martinez, Fernando J
Neuron (Cambridge, Mass.), 2016-11-23, Vol.92 (4), p.780-795
6.
Pharmacological blockade of ASCT2-dependent glutamine transport leads to antitumor efficacy in preclinical models
by Schulte, Michael L
Nature medicine, 2018-02, Vol.24 (2), p.194-202
7.
Loss of function mutation of the Slc38a3 glutamine transporter reveals its critical role for amino acid metabolism in the liver, brain, and kidney
by Chan, Kessara
Pflügers Archiv, 2015-10-21, Vol.468 (2), p.213-227
8.
Amino acids regulate mTOR pathway and milk protein synthesis in a mouse mammary epithelial cell line is partly mediated by T1R1/T1R3
by Wang, YanHong
European journal of nutrition, 2016-08-18, Vol.56 (8), p.2467-2474
9.
Phosphoserine Aminotransferase Deficiency: A Novel Disorder of the Serine Biosynthesis Pathway
by Hart, Claire E
American journal of human genetics, 2007, Vol.80 (5), p.931-937
10.
Expanding and Reprogramming the Genetic Code of Cells and Animals
by Chin, Jason W
Annual review of biochemistry, 2014-06-02, Vol.83 (1), p.379-408
11.
Dietary Protein, Metabolism, and Aging
by Soultoukis, George A
Annual review of biochemistry, 2016-06-02, Vol.85 (1), p.5-34
12.
Characterization of the putative amino acid transporter genes AtCAT2, 3 &4: The tonoplast localized AtCAT2 regulates soluble leaf amino acids
by Yang, Huaiyu
Journal of plant physiology, 2014-05-01, Vol.171 (8), p.594-601
13.
Activation of Central Orexin/Hypocretin Neurons by Dietary Amino Acids
by Karnani, Mahesh M
Neuron (Cambridge, Mass.), 2011-11-17, Vol.72 (4), p.616-629
14.
Amino acid changes during transition to a vegan diet supplemented with fish in healthy humans
by Elshorbagy, Amany
European journal of nutrition, 2016-06-11, Vol.56 (5), p.1953-1962
15.
Imaging Patients with Psychosis and a Mouse Model Establishes a Spreading Pattern of Hippocampal Dysfunction and Implicates Glutamate as a Driver
by Schobel, Scott A
Neuron (Cambridge, Mass.), 2013-04-10, Vol.78 (1), p.81-93
16.
Branched-chain amino acid supplementation in treatment of liver cirrhosis: Updated views on how to attenuate their harmful effects on cataplerosis and ammonia formation
by Holecek, Milan
Nutrition (Burbank, Los Angeles County, Calif.), 2017-09, Vol.41, p.80-85
17.
Plasma branched chain/aromatic amino acids, enriched Mediterranean diet and risk of type 2 diabetes: case-cohort study within the PREDIMED Trial
by Ruiz-Canela, Miguel
Diabetologia, 2018-04-16, Vol.61 (7), p.1560-1571
18.
Identification and Characterization of an Inborn Error of Metabolism Caused by Dihydrofolate Reductase Deficiency
by Banka, Siddharth
American journal of human genetics, 2011, Vol.88 (2), p.216-225
19.
RF1 knockout allows ribosomal incorporation of unnatural amino acids at multiple sites
by Johnson, David B F
Nature chemical biology, 2011-09-18, Vol.7 (11), p.779-786
20.
Glutamate receptors at atomic resolution
by Mayer, Mark L
Nature, 2006-03-23, Vol.440 (7083), p.456-462
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