SUMMARYCell numbers in four organs of large, control and small mice were estimated by nuclear counts. Average cell mass was estimated from the cell number and the organ weight. The mice were from the selected Q-strain with six replicate lines in each size-group. The organs were lung, liver, spleen and kidney. At 6 weeks of age the large mice had more cells and larger cells than the controls in all organs; the small mice had fewer and smaller cells than the controls. The regression of log cell-number on log-organ weight provides a measure of how much, proportionately, cell number contributes to the differences in organ weight. In the lung and spleen, cell number contributed about 70% of the strain differences in organ weight, cell mass contributing about 30%; in the liver and kidney the relative contributions were about equal, at 50%.Cell counts at different ages from 3 to 15 weeks showed that cell number and cell mass contributed to the increases of organ weights during growth in roughly the same proportions as stated above. From this it is concluded that the main effect of selection for body weight has been to speed up or slow down the normal processes of cellular growth.
Morphological and functional features of large ovarian follicles from three breeds of sheep, with different ovulation rates (Finnish Landrace N = 12, Finnish Landrace X Scottish Blackface N = 16, Merino X Scottish Blackface N = 16) were compared by integrating three techniques; ink labelling, in-vitro oestradiol production and morphological classification. The follicles were removed at two stages of the follicular phase, 1 (PG + 1) or 2 (PG + 2) days after PGF-2 alpha treatment and compared after monitoring their rates of growth with the use of ink labelling. After ovariectomy all follicles greater than or equal to 1 mm in diameter were dissected, and the 8 largest were incubated individually for 2 h to assess their ability to secrete oestradiol and testosterone. After incubation the follicles were processed for histological examination and checked for atresia. An analysis of the follicle population was based on in-vitro oestradiol secretion rates in all three breeds; an oestrogen-active population producing 500-8100 pg oestradiol/ml/h and an oestrogen-inactive population producing 0-499 pg oestradiol/ml/h. A comparison of the 3 approaches demonstrated agreement on 94.3 +/- 1.2% of occasions. Ink-labelling demonstrated that all follicles identified as oestrogen-active were increasing in size. Within oestrogen-active follicles significant correlations were detected between oestradiol production and testosterone production (r = 0.42), oestradiol production and granulosa cell number (r = 0.45) and between oestradiol production and mitotic index (r = -0.38). A regression model fitting breed, stage of atresia, granulosa cell number, in-vitro testosterone production and mitotic index demonstrated that granulosa cell number is a characteristic which contributes significantly to the variation of in-vitro oestradiol production in oestrogen-active and oestrogen-inactive follicles. There was no significant difference between breeds in the mean number of ink-labelled follicles growing from Day PG - 1 to Day PG + 1. There was a significant difference between the breeds in the number of ink-labelled follicles growing between Days PG + 1 and PG + 2 (Days 1 and 2 of the follicular phase), the number being similar to the ovulation rate for the breed. The majority of the oestrogen-active follicles had been recruited by Day PG - 1, although in the Finnish Landrace genotypes more than 30% were recruited on or after Day PG + 1 compared to less than 10% in Merino x Scottish Blackface ewes.(ABSTRACT TRUNCATED AT 400 WORDS)
Summary. Prolific breeds of sheep (Romanov, Finn and
The continued elucidation of the trisomic syndromes with their varied and complex external abnormalities has emphasized the necessity for skilled recognition of significant deviations from normal in the outward appearance of the newborn. Mongolism, trisomy 17-18, trisomy 13-15, the recognized autosomal trisomic syndromes, show an odd facial appearance and abnormalities of the hands, feet, and ears.For some time we have been aware of a number of perinatal deaths with which certain external abnormalities were so often involved that they appeared to form a distinct group. Over the past few years 20 babies of this group have been systematically photographed, subjected to detailed post-mortem examination, and chromosome studies undertaken on the more recent cases. InvestigationsThe 20 perinatal deaths comprised 8 stillbirths and 12 neonatal deaths. The longest period of survival was 18 hours. In all cases there was an abnormal facial appearance, the predominating feature being flattening of the tip of the nose. What we thought to be a significant abnormality in the ears was present in 10 of these babies ; this consisted of flattening of the ears against the head. The presence of abnormal epicanthic folds was evident in the majority. Short great toes were present in three of these cases. In addition four showed varus deformity of the feet. The hands were unusually broad in three cases, but in the remainder they were normal.The average weight of these babies was 1,350 g., with a range of 1,100-1,850 g. The gestational age varied from 27 to 35 weeks, but a correlation of the menstrual delivery period and birth weight showed no deviation from normal.Post-mortem Examination.
Selection for increased and for decreased expression of the sex-linked gene brindled (Mo br ) in heterozygous females produced two lines with non-random X chromosome inactivation. In the High line the X chromosome marked by brindled was active in about 60 % of cells, while in the Low line it was active in about 25 % of cells. The whole of the difference was caused by the chromosomes carrying brindled: neither the unmarked X chromosome nor the autosomes were differentiated. There was a positive correlation between the expression of brindled in daughters and mothers. This was probably not caused by residual genetic variation, but was more probably a maternal effect similar to that described by Cattanach & Papworth (1981). On this assumption the daughters' scores were adjusted to a standard maternal score. Enzyme assays on females doubly heterozygous for brindled and for the sex-linked Pgk-1 locus proved that the percentage of brindled in the coat provided an accurate measure of the X-inactivation proportions in the blood, liver and kidney. The accuracy was improved by adjustment for maternal score. In the selection lines, brindled was always inherited from the mother. When brindled was transmitted by male parents the probability of activation of its chromosome was increased by 8 percentage points in the High line and 18 in the Low line. This effect of the parental source is much greater than has previously been reported. The responses to selection can be interpreted in terms of the Xce locus controlling the activation probability, different alleles on the chromosomes carrying brindled being selected in the two lines. If this interpretation is correct, the alleles on one or both of the chromosomes carrying brindled were different from any of the three known alleles. The different effects of male transmission in the two lines can be described as a difference between the two chromosomes in their reactions to imprinting. This difference might possibly also be due to the Xce locus.
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