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Related Citations for PubMed (Select 21448658)

1.

The creatine kinase system and pleiotropic effects of creatine.

Wallimann T, Tokarska-Schlattner M, Schlattner U.

Amino Acids. 2011 May;40(5):1271-96. doi: 10.1007/s00726-011-0877-3. Epub 2011 Mar 30. Review.

2.

Creatine kinase in non-muscle tissues and cells.

Wallimann T, Hemmer W.

Mol Cell Biochem. 1994 Apr-May;133-134:193-220. Review.

PMID:
7808454
3.

[Creatine kinase isoenzymes--characterization and functions in cell].

Grzyb K, Skorkowski EF.

Postepy Biochem. 2008;54(3):274-83. Review. Polish.

PMID:
19112826
4.

Mitochondria and diabetes. Genetic, biochemical, and clinical implications of the cellular energy circuit.

Gerbitz KD, Gempel K, Brdiczka D.

Diabetes. 1996 Feb;45(2):113-26. Review.

PMID:
8549853
5.

Some new aspects of creatine kinase (CK): compartmentation, structure, function and regulation for cellular and mitochondrial bioenergetics and physiology.

Wallimann T, Dolder M, Schlattner U, Eder M, Hornemann T, O'Gorman E, Rück A, Brdiczka D.

Biofactors. 1998;8(3-4):229-34. Review.

PMID:
9914824
6.

Systems bioenergetics of creatine kinase networks: physiological roles of creatine and phosphocreatine in regulation of cardiac cell function.

Guzun R, Timohhina N, Tepp K, Gonzalez-Granillo M, Shevchuk I, Chekulayev V, Kuznetsov AV, Kaambre T, Saks VA.

Amino Acids. 2011 May;40(5):1333-48. doi: 10.1007/s00726-011-0854-x. Epub 2011 Mar 10. Review.

PMID:
21390528
7.

Presence of (phospho)creatine in developing and adult skeletal muscle of mice without mitochondrial and cytosolic muscle creatine kinase isoforms.

in 't Zandt HJ, de Groof AJ, Renema WK, Oerlemans FT, Klomp DW, Wieringa B, Heerschap A.

J Physiol. 2003 May 1;548(Pt 3):847-58. Epub 2003 Mar 14.

8.

Analyzing the functional properties of the creatine kinase system with multiscale 'sloppy' modeling.

Hettling H, van Beek JH.

PLoS Comput Biol. 2011 Aug;7(8):e1002130. doi: 10.1371/journal.pcbi.1002130. Epub 2011 Aug 11.

10.

Theoretical modelling of some spatial and temporal aspects of the mitochondrion/creatine kinase/myofibril system in muscle.

Kemp GJ, Manners DN, Clark JF, Bastin ME, Radda GK.

Mol Cell Biochem. 1998 Jul;184(1-2):249-89.

PMID:
9746325
11.

Functional coupling of creatine kinases in muscles: species and tissue specificity.

Ventura-Clapier R, Kuznetsov A, Veksler V, Boehm E, Anflous K.

Mol Cell Biochem. 1998 Jul;184(1-2):231-47.

PMID:
9746324
13.

Mathematical model of compartmentalized energy transfer: its use for analysis and interpretation of 31P-NMR studies of isolated heart of creatine kinase deficient mice.

Aliev MK, van Dorsten FA, Nederhoff MG, van Echteld CJ, Veksler V, Nicolay K, Saks VA.

Mol Cell Biochem. 1998 Jul;184(1-2):209-29.

PMID:
9746323
14.
16.

Mitochondrial creatine kinase isoform expression does not correlate with its mode of action.

Anflous K, Veksler V, Mateo P, Samson F, Saks V, Ventura-Clapier R.

Biochem J. 1997 Feb 15;322 ( Pt 1):73-8.

17.

The creatine kinase reaction: a simple reaction with functional complexity.

Sahlin K, Harris RC.

Amino Acids. 2011 May;40(5):1363-7. doi: 10.1007/s00726-011-0856-8. Epub 2011 Mar 11. Review.

PMID:
21394603
18.

Mitochondrial creatine kinase activity and phosphate shuttling are acutely regulated by exercise in human skeletal muscle.

Perry CG, Kane DA, Herbst EA, Mukai K, Lark DS, Wright DC, Heigenhauser GJ, Neufer PD, Spriet LL, Holloway GP.

J Physiol. 2012 Nov 1;590(Pt 21):5475-86. doi: 10.1113/jphysiol.2012.234682. Epub 2012 Aug 20.

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