E. V. Enzmann scite author profile

1. A definite chronological sequence of events occurs in the eggs and follicles of rabbits after mating or after the injection of ovulation-inducing substances. The follicle secretes secondary liquor folliculi, and there occurs a separation of the corona radiata from strands connecting it to the follicle cells. The ovum goes through nuclear maturation with as climax the production of the first polar body by the 8th hour after copulation. 2. Thyroxin injections cause indirectly the same effects as mating or pituitary injections but no ovulation occurs. The thyroxin effect occurs later than the pituitary effect and is due to an initiation of atresia in the follicles. 3. Explantation of ova results in typical maturation phenomena which are apparently unaffected by the presence of pituitary hormones or of thyroxin in the culture medium. 4. It is concluded that maturation of the ovum can be obtained simply by isolating it from the normal follicular environment. 5. Normal fertilization can be secured with eggs removed from the follicles.

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The comparative behavior of mammalian eggs in vivo and in vitro. II. The activation of tubal eggs of the rabbit

Pincus

Enzmann

1936

J. Exp. Zool.

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l w o FIGURESIt has become increasingly evident from work on the ova of non-mammalian forms that a real and useful distinction can be drawn between the activation of an egg through fertilization or parthenogenetic stimulation, and the subsequent cleavage. F. R. Lillie Runnstrom has clearly shown that the phaeohemin-cytochrome and dehydrase systems are definitely involved in the cleaving egg since cleavage and attendant respiratory exchanges may be inhibited by HCN and monoiodoacteic acid, whereas fertilization occurs in the presence of these poisons. Runnstrom ('33 b) has shown, furthermore, that both fertilization and parthenogenetic stimulation cause the temporary production of a typical strong acid indicative of a reaction concerned with the more obvious cortical changes.The methods used by these workers employing relatively enormous numbers of invertebrate ova are scarcely available 'This investigation was aided by a grant from the National Research Council Committee f o r Problems of Sex.

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Can Mammalian Eggs Undergo Normal Development in Vitro?

Pincus

Enzmann

1934

Proc. Natl. Acad. Sci. U.S.A.

102

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Chemicals Attracting Drosophila

Hutner¹,

Kaplan²,

Enzmann³

1937

The American Naturalist

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On the Relation Between Litter Size, Birth Weight, and Rate of Growth, in Mice

Crozier

Enzmann

1935

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We have been concerned with the connection between size of litter and weight of litter at birth, especially in mice. The weight at birth represents, it is to be presumed (at least in mice, and for certain other cases), the weight at a particular developmental stage. The connection between number in litter (N) and weight of litter (W) has been interpreted as due to the partition of nourishment between mother and young, and on an equal basis among the several embryos of a litter. The "heterogonic" relationship which the data exhibit between N and W shows that the constant K, defined by log W = K log N + const., is independent of the species, and has an essentially constant value (0.85±) in all multiparous mammals; it is therefore regarded as a partition coefficient. In the case of power function relationships between masses of components of a single individual, the respective "drawing powers" of the several organs are diverse, and diverse magnitudes of K are encountered. With developing embryos, the intrinsic drawing powers of the tissues concerned in embryos and mothers are in each case of the same general character, at least among mammals; the constancy of K reflects this. A parallel for the case as it appears in the consideration of relative growth rates of organs in a single individual, and in which the varying magnitudes of the heterogonic growth constant K are presumed to reflect diverse drawing powers of the respective tissues, would be given by intrauterine growth of a litter containing individuals with diverse capacities for growth, —that is, individuals differing genetically with respect to the factors determining the magnitudes of w1. We have been dealing with the growth of litters in inbred strains. It is to be presumed that in the case of the growth of a litter containing two categories of individuals so far as concerns intrinsic drawing powers with respect to the nourishment provided by the mother, it would be possible to investigate the way in which K is open to modification. Although difficult, from the standpoint of classifying the individual young, it would appear to be distinctly worth while to make such an experiment, and we have planned it for the future. It is pointed out that for genetic purposes the ideal weight of a litter of 1 is obtainable from a series of measurements of N and W, free from disturbances affecting the apparent value of this quantity as observed in single births. This weight of an ideal litter of 1 should be employed to disentangle the effects of heterosis and fertility factors from those having to do with individual weight at birth. During the suckling period the relation ΔW/W = K (ΔN/N) is maintained for young mice, but with modifications in the case of small and large suckling litters due to (1) the time course of milk yield, and (2) the effect of litter size upon this. It is shown that a growth curve can be obtained for an ideal litter of I, under the condition of milk supply that on each day the mother is able to provide a constant fractional increase of milk for each additional young mouse in the litter. The rate of growth then adheres to the time curve of capacity for production of milk.

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E. V. Enzmann

The Comparative Behavior of Mammalian Eggs in Vivo and in Vitro

The comparative behavior of mammalian eggs in vivo and in vitro. II. The activation of tubal eggs of the rabbit

Can Mammalian Eggs Undergo Normal Development in Vitro?

Chemicals Attracting Drosophila

On the Relation Between Litter Size, Birth Weight, and Rate of Growth, in Mice

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