Abstract
Uptake of 14C-labelled amino acids into single oocytes was determined using 3H-labelled choline to correct for extracellular space. Cycloleucine, a non-metabolisable amino acid sharing an entry mechanism with methionine and phenylalanine, was transported in accord with Michaelis-Menten kinetics. At extracellular levels below 8 mM, cycloleucine was concentrated within the oocyte. The proportion of sheep oocytes having a functional amino acid transport system (i.e. cycloleucine flux > 1 nmole cm −2 h −1) was highest in pre-ovulatory follicles (97%), and lowest in atretic follicles (59%). Amino acid fluxes in functional germinal vesicle oocytes were similar at all stages of development studied. An increase in V max but not K m during meiotic maturation resulted in a doubling of amino acid uptake in metaphase II oocytes. These increased fluxes were under gonadotropic regulation and were independent of nuclear maturation. Amino acid uptake by mouse oocytes was approximately half that measured in sheep oocytes.
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