INSIGHTS INTO CELLULAR-ENERGY METABOLISM FROM TRANSGENIC MICE

被引：35

作者：

KORETSKY, AP ^{[1
]}

机构：

[1] CARNEGIE MELLON UNIV, PITTSBURGH NMR CTR BIOMED RES, PITTSBURGH, PA 15213 USA

来源：

PHYSIOLOGICAL REVIEWS | 1995年 / 75卷 / 04期

关键词：

D O I：

10.1152/physrev.1995.75.4.667

中图分类号：

Q4 [生理学];

学科分类号：

071003 ;

摘要：

Rapid progress in manipulating the mouse genome now makes it possible to express any cloned gene in virtually any cell type of the mouse. Homologous recombination in embryonic stem cells allows the specific mutation of any gene. These tools are finding widespread application to problems in cell. biology and physiology. After a brief description of some of the molecular genetic techniques available for the mouse, the application of transgenic mice to problems in cellular energy metabolism is discussed. The effects of increasing glucose transport on carbohydrate metabolism in muscle and fat are presented. Experiments rising a transgenic mouse expressing creatine kinase in liver to understand ATP catabolism and regulation of oxidative phosphorylation are discussed. Finally, mice either lacking or misexpressing different isoforms of creatine kinase have been useful for understanding the detailed role of this important enzyme in cellular energy metabolism.

引用

页码：667 / 688

页数：22

共 127 条

[1] ELECTROPHYSIOLOGICAL ANALYSIS OF CULTURED FETAL MOUSE DORSAL-ROOT GANGLION NEURONS TRANSGENIC FOR HUMAN SUPEROXIDE DISMUTASE-1, A GENE IN THE DOWN SYNDROME REGION OF CHROMOSOME-21 [J].

AULT, B ;

CAVIEDES, P ;

HIDALGO, J ;

EPSTEIN, CJ ;

RAPOPORT, SI .

BRAIN RESEARCH, 1989, 497 (01) :191-194

[2] DOWNS-SYNDROME - ABNORMAL NEUROMUSCULAR-JUNCTION IN TONGUE OF TRANSGENIC MICE WITH ELEVATED LEVELS OF HUMAN CU/ZN-SUPEROXIDE DISMUTASE [J].

AVRAHAM, KB ;

SCHICKLER, M ;

SAPOZNIKOV, D ;

YAROM, R ;

GRONER, Y .

CELL, 1988, 54 (06) :823-829

[3] REGULATION OF OXIDATIVE-PHOSPHORYLATION IN THE MAMMALIAN-CELL [J].

BALABAN, RS .

AMERICAN JOURNAL OF PHYSIOLOGY, 1990, 258 (03) :C377-C389

[4]

BARRANTES FJ, 1985, J BIOL CHEM, V260, P3024

[5]

BESSMAN SP, 1985, ANNU REV BIOCHEM, V54, P831, DOI 10.1146/annurev.biochem.54.1.831

[6] CONTACT SITES BETWEEN INNER AND OUTER MITOCHONDRIAL-MEMBRANE - A DYNAMIC MICROCOMPARTMENT FOR CREATINE-KINASE ACTIVITY [J].

BIERMANS, W ;

BAKKER, A ;

JACOB, W .

BIOCHIMICA ET BIOPHYSICA ACTA, 1990, 1018 (2-3) :225-228

[7] RATE-EQUATION FOR CREATINE-KINASE PREDICTS THE INVIVO REACTION VELOCITY - P-31 NMR SURFACE COIL STUDIES IN BRAIN, HEART, AND SKELETAL-MUSCLE OF THE LIVING RAT [J].

BITTL, JA ;

DELAYRE, J ;

INGWALL, JS .

BIOCHEMISTRY, 1987, 26 (19) :6083-6090

[8]

BITTL JA, 1985, J BIOL CHEM, V260, P208

[9] P-31 NMR MAGNETIZATION-TRANSFER MEASUREMENTS OF FLUX BETWEEN INORGANIC-PHOSPHATE AND ADENOSINE 5'-TRIPHOSPHATE IN YEAST-CELLS GENETICALLY MODIFIED TO OVERPRODUCE PHOSPHOGLYCERATE KINASE [J].

BRINDLE, KM .

BIOCHEMISTRY, 1988, 27 (16) :6187-6196

[10] ALTERING CREATINE-KINASE ISOENZYMES IN TRANSGENIC MOUSE MUSCLE BY OVEREXPRESSION OF THE B-SUBUNIT [J].

BROSNAN, MJ ;

RAMAN, SP ;

CHEN, LH ;

KORETSKY, AP .

AMERICAN JOURNAL OF PHYSIOLOGY, 1993, 264 (01) :C151-C160

← 1 2 3 4 5 6 7 8 9 10 →