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Query: UMLS:C0432222 (
SEM
)
47,337
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This work was undertaken in order to evaluate the effect of partial zona digestion on fertilization in vitro of mouse oocytes and assess zona surface changes induced by the procedure. Three hundred forty-six oocytes allocated for treatment were exposed to Ham's F-10 medium supplemented with 0.5%
Pronase
for either 3 min (188 oocytes) or 5 min (158 oocytes); 324 oocytes served as controls. Oocyte losses incurred as a result of the procedure were small (15 oocytes; 4.3%). Control and
Pronase
-treated oocytes were each divided into four subgroups and inseminated with 5 x 10(5), 5 x 10(4), 5 x 10(3), or 5 x 10(2) sperm cells/ml. Fertilization was assessed 8 hr following insemination by the appearance of two pronuclei and development to the two- to four-cell stage the following day. The morphology of the zona pellucida following
Pronase
treatment was assessed by phase-contrast and scanning electron (
SEM
) microscopies performed immediately after treatment. Fertilization rate of control oocytes was 80% at a sperm concentration of 500,000/ml and gradually declined to approximately 30% at 500 cells/ml. In contrast, treated oocytes inseminated with 500 sperm cells/ml demonstrated a normal rate of fertilization. At this low sperm concentration the longer
Pronase
treatment was significantly (P less than 0.05) more efficient in enhancing fertilization (69 and 88% for 3 and 5 min of
Pronase
treatment, respectively). Polyspermic fertilization was not observed in any of the subgroups. Phase-contrast microscopic examination of oocytes at the time of
Pronase
treatment showed an initial swelling of the zona pellucida for 30-60 sec with a time-dependent increase in its transparency.
...
PMID:Enhancing in vitro fertilization of mouse oocytes by partial zona pellucida digestion. 162 28
Triiodothyronine (T(3)) and thyroxine (T(4)) were measured by immunoassay in the serum and thyroid hydrolysates of control (group A), mildly iodine-deficient (group B), and severely iodine-deficient rats (group C). These results were correlated with changes in thyroidal weight, (131)I uptake and (127)I content as well as with the distribution of (131)I in
Pronase
digests of the thyroid. There was a progressive increase in thyroid weight and (131)I uptake at 24 h with decrease in iodine intake. The (127)I content of the thyroids of the group B animals was 44% and that of the group C animals 2% of that in group A. The mean labeled monoiodotyrosine/diiodotyrosine (MIT/DIT) and T(3)/T(4) ratios in group A were 0.42+/-0.07 (SD) and 0.12+/-0.01, 0.59+/-0.06 and 0.11+/-0.03 in group B, and 2.0+/-0.3 and 1.8+/-0.9 in the group thyroid digests.Mean serum T(4) concentration in the control rats was 4.2+/-0.6 (SD) mug T(4)/100 ml, 4.5+/-0.3 mug/100 ml in group B animals, and undectectable (<0.5 mu(4)/100 ml) in group C animals. There was no effect of iodine deficiency on serum T(3) concentrations, which were 44+/-9 (Mean+/-SD) ng/100 ml in A animals, 48+/-6 ng/100 ml n B animals, and 43+/-6 ng/100 ml in the C group. Thyroidal digest T(3) and T(4) concentrations were 39 and 400 ng/mg in group A animals and were reduced to 5 and 1% of this, respectively, in group C. The molar ratio of T(3)/T(4) in the thyroid digests of the groups A and B animals was identical to the ratio of labeled T(3)/T(4) and was slightly less (1.0+/-0.9) than the labeled T(3)/T(4) ratio in the group C animals. The mean ratio of labeled T(4) to labeled T(3) in the serum of the severely iodine-deficient animals 24 h after isotope injection was 11+/-1 (
SEM
). With previously published values, it was possible to correlate the ratio of labeled T(4)/T(3) in the thyroid digest with the labeled T(4)/T(3) ratio in the serum of each iodine-deficient animal. This analysis suggested that the labeled thyroid hormones in the severely iodine-deficient rat were secreted in the ratio in which they are present in the gland. Kinetic analysis of total iodothyronine turnover indicated that two-thirds of the T(3) utilized per day by the iodine-sufficient rat arises from T(4). If the T(4)-T(3) conversion ratio remains the same in iodine deficiency, then the analysis suggests that about 90% of the T(3) arises directly from the thyroid. Therefore, it would appear that absolute T(3) secretion by the thyroid increases severalfold during iodine deficiency. The fact that serum T(3) remains constant and T(4) decreases to extremely low levels, combined with previous observations that iodine-deficient animals appear to be euthyroid, is compatible with the hypothesis that T(4) in the normal rat serves primarily as a precursor of T(3).
...
PMID:Triiodothyronine and thyroxine in the serum and thyroid glands of iodine-deficient rats. 472 46
Techniques applied in
SEM
studies of a solid organ such as the kidney are reviewed. The tissue can be prepared by razor sectioning, ethanol cryofracture and ultraplanning of polyethylene glycol embedded tissue. Tissues embedded in paraffin can also be used. Glomeruli and tubuli can be isolated from renal biopsies. A new procedure for tubular isolation is based on sequential digestion by trypsin, pepsin and
Pronase
E.
SEM
examination has proved useful in a number of renal diseases, such as glomerular diseases, hypertensive renal disease, an tubular diseases, including medullary cystic disease, adult polycystic disease, and acute tubular necrosis. Particularly in human acute tubular necrosis,
SEM
was helpful.
SEM
has also contributed to the study of the physiologically important basal-lateral surfaces of human, dog, rat, rabbit and frog renal tubules, and in particular allowed the elucidation of patterns of processes on the basal-lateral surfaces of proximal S1, S2, and S3 tubular segments, thin limbs, distal ascending and convoluted limbs and collecting ducts in human tubules.
...
PMID:The complementary role of scanning electron microscopy in renal pathological diagnosis. 641 8
An
SEM
analysis of the effects of tunicamycin, cytochalasin B, and colcemid has yielded insights into the process of compaction in the early mouse embryo. All three reagents block or reverse compaction and decrease the number of microvilli (MV), although some MV polarization is permitted. In addition, tunicamycin is shown to lessen cell adhesion even in compacted embryos. Cytochalasin B causes the formation of MV clumps some of which are preferentially localized to the apex or lateral ring region. Colcemid reverses compaction and, coupled with
Pronase
treatment, completely blocks compaction of uncompacted 8-cell embryos. Observations also suggest that MV polarization can occur only once but compaction (the close adherance and flattening of blastomeres) can be reversed and reinduced. Evidence is consistent with a three-step compaction process involving (1) cell surface recognition and attachment of a ring of lateral microvilli to adjacent blastomeres, (2) subsequent microfilament shortening in these lateral MV, and (3) maintenance of the compacted and polarized state by microtubules.
...
PMID:Analysis of compaction in the preimplantation mouse embryo. 668 57
