4 Lactate Dehydrogenase

Abstract

This chapter discusses the lactate dehydrogenase. Lactic acid is the end product of anaerobic glycolysis in muscle tissue has been known for all of this century. Cell-free extracts able to catalyze the oxidation of lactate to pyruvate. The five different permutations of two different polypeptide chains readily explained the electrophoretic patterns. The distribution of these two polypeptide chains was dependent on whether the extract originated in aerobic tissue, such as heart or in anaerobic tissue as in skeletal muscle. The NAD+ binding structure found in L-lactate dehydrogenase (LDH) occurs frequently in other dehydrogenases and other proteins. In LDH the problem of catalysis is presented in stark simplicity. The complications of metal ions, linked substrate phosphorylation, or of ammonia uptake are absent. LDH is the only simpler dehydrogenase where both structure and sequence are known at present. The concept of multiple molecular forms of LDH has stimulated many investigations into the nature, function, and control of isozymes. There are only two major structural genes and there is a complex variety of other LDH genes, which can be expressed in some tissues at certain stages of development. © 1975, Academic Press Inc.