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1.

MNADK, a novel liver-enriched mitochondrion-localized NAD kinase.

Zhang R.

Biol Open. 2013 Mar 5;2(4):432-8. doi: 10.1242/bio.20134259. Print 2013 Apr 15.

2.

MNADK, a Long-Awaited Human Mitochondrion-Localized NAD Kinase.

Zhang R.

J Cell Physiol. 2015 Aug;230(8):1697-701. doi: 10.1002/jcp.24926.

PMID:
25641397
3.

Identification and characterization of a human mitochondrial NAD kinase.

Ohashi K, Kawai S, Murata K.

Nat Commun. 2012;3:1248. doi: 10.1038/ncomms2262.

4.
5.

Evidence that feedback inhibition of NAD kinase controls responses to oxidative stress.

Grose JH, Joss L, Velick SF, Roth JR.

Proc Natl Acad Sci U S A. 2006 May 16;103(20):7601-6. Epub 2006 May 8.

6.

NAD kinase levels control the NADPH concentration in human cells.

Pollak N, Niere M, Ziegler M.

J Biol Chem. 2007 Nov 16;282(46):33562-71. Epub 2007 Sep 13.

7.
8.

Subcellular and tissue localization of NAD kinases from Arabidopsis: compartmentalization of de novo NADP biosynthesis.

Waller JC, Dhanoa PK, Schumann U, Mullen RT, Snedden WA.

Planta. 2010 Jan;231(2):305-17. doi: 10.1007/s00425-009-1047-7. Epub 2009 Nov 17.

PMID:
19921251
9.

NADPH regulates human NAD kinase, a NADP⁺-biosynthetic enzyme.

Ohashi K, Kawai S, Koshimizu M, Murata K.

Mol Cell Biochem. 2011 Sep;355(1-2):57-64. doi: 10.1007/s11010-011-0838-x. Epub 2011 Apr 28.

PMID:
21526340
10.

NADK2, an Arabidopsis chloroplastic NAD kinase, plays a vital role in both chlorophyll synthesis and chloroplast protection.

Chai MF, Chen QJ, An R, Chen YM, Chen J, Wang XC.

Plant Mol Biol. 2005 Nov;59(4):553-64.

PMID:
16244906
11.

Developmental ontogeny of NAD+ kinase in the rat conceptus.

Akella SS, Harris C.

Toxicol Appl Pharmacol. 2001 Jan 15;170(2):124-9.

PMID:
11162776
12.

Oxidative stress evokes a metabolic adaptation that favors increased NADPH synthesis and decreased NADH production in Pseudomonas fluorescens.

Singh R, Mailloux RJ, Puiseux-Dao S, Appanna VD.

J Bacteriol. 2007 Sep;189(18):6665-75. Epub 2007 Jun 15.

13.
14.

Glucose regulates enzymatic sources of mitochondrial NADPH in skeletal muscle cells; a novel role for glucose-6-phosphate dehydrogenase.

Mailloux RJ, Harper ME.

FASEB J. 2010 Jul;24(7):2495-506. doi: 10.1096/fj.09-151803. Epub 2010 Mar 12.

15.
16.

Converting NADH to NAD+ by nicotinamide nucleotide transhydrogenase as a novel strategy against mitochondrial pathologies during aging.

Olgun A.

Biogerontology. 2009 Aug;10(4):531-4. doi: 10.1007/s10522-008-9190-2. Epub 2008 Oct 19.

PMID:
18932012
18.
20.

Cytosolic and mitochondrial systems for NADH- and NADPH-dependent reduction of alpha-lipoic acid.

Haramaki N, Han D, Handelman GJ, Tritschler HJ, Packer L.

Free Radic Biol Med. 1997;22(3):535-42.

PMID:
8981046
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