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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Since moles are closely related to shrews, the gametes and reproductive tracts of the star-nose
mole
(Condylura cristata) and the eastern
mole
(Scalopus aquaticus) were examined to gain further insight into unusual reproductive traits of the Soricidae. Moles display many of these soricid traits, but with some important differences. The cumulus oophorus of Scalopus, ovulated about 16 h after hCG injection, was largely dispersed by hyaluronidase and, though quite dense, was nevertheless more similar to that of higher mammals than to the compact 'ball of the soricid cumulus. Within the female tract in these moles, approximately 85% of the length of the oviduct comprises a narrow ampulla with numerous differentiated crypts that, in shrews, house
spermatozoa
. However, in contrast to shrews, moles produce considerably larger numbers of
spermatozoa
, which challenges the proposal that, in shrews, oviductal sperm crypts specifically permit lower sperm production by the males. In the sperm head of these two moles, the acrosome displays the long rostrum that is typical of other Insectivora, and the perforatorium has the barbs by which soricid
spermatozoa
probably bind to the zona pellucida. Perhaps allied to this, immunoblots indicated that the immunoreactive acrosomal matrix of Scalopus
spermatozoa
is simpler than the polypeptide complex of the bovine and hamster acrosomal matrix.
...
PMID:Reproductive features of the eastern mole (Scalopus aquaticus) and star-nose mole (Condylura cristata). 1069 Feb 3
The blind
mole
rat is a seasonally breeding fossorial rodent that is perceptionally blind. This study examines the effect of photoperiod on the morphology and histology of the male
mole
rat reproductive system, three groups of male
mole
rats were maintained in the laboratory under short day (SD) conditions (9L: 15D); long day (LD) conditions (15L:9D); and constant darkness (CD), and compared to animals trapped in the field (FL). It was found that the field animals revealed higher testes and prostate gland weights, higher prostate tubuli volume (v*) and lower testes tubuli volume (v*) compared to the other three groups. Distribution of the tubuli in the testes (Vv) was low in the FL group compared to the SD and LD groups but still higher than in the CD group. Distribution of lumen in the testes (Vv) was higher in the CD group in comparison to the other three groups. Distribution of interstitial tissue in the testes (Vv) was higher in the FL group than in the other three groups. Electrolytes and elements secreted from the prostate gland did not differ among the four groups. In the FL group distribution of the tubuli (Vv) in the prostate gland was low and lumen ratio (Vv) was high compared to the other three groups. Distribution of connective tissue in the prostate gland did not differ among all four groups. Testosterone levels and total sperm count was highest in the FL group. Sperm production was noted in all groups; however spermatid and
spermatozoa
cell production was higher in the FL group. This study shows that photoperiod could be important in initiating timing in the breeding season but that certain other conditions which are absent in the laboratory appear to be responsible for successful breeding in the field.
...
PMID:Effect of photoperiod variation on testes and accessory sex organs in the male blind mole rat Spalax ehrenbergi. 1099 17
While screening Indian plants for biological activities, it was observed that a 2% aqueous solution of the crude 70% aqueous ethanolic extract of Schefflera capitata showed significant activity against both rat and human
spermatozoa
. The new saponin, melting point 230-232 degrees, gives on acid hydrolysis D(+)-fucose (1
mole
), D(+)-galactose (1
mole
), D(+)-glucoronic acid (1
mole
) and echinocystic acid (1
mole
). Its structure has been tentatively assigned to scheffleroside.
...
PMID:Constitution of scheffleroside: a spermicidal saponin from Schefflera capitata. 1226 Aug 77
A blighted ovum diagnosed initially by ultrasound was determined to be a partial hydatidiform mole with a 69,XXY,t(2;6)(p12;q24)der(6)t(2;6)(p12;q24)pat karyotype by cytogenetic analysis. The triploid state arose through dispermy in which both
spermatozoa
carried rearranged chromosomes, one carrying a balanced translocation through alternate segregation and the other an unbalanced derivative chromosome 6 through adjacent 1 segregation. Segregation analysis of 7,000
spermatozoa
from the father was performed with a three-color fluorescence in situ hybridization (FISH) protocol using alpha-satellite 6, telomeric 2p, and telomeric 6q probes. Segregation frequencies of normal and balanced products (alternate segregation), adjacent 1, adjacent 2, and 3:1 were 49.9%, 42.4%, 2.5%, and 4.2%, respectively. The high percentage of alternate segregation is consistent with the knowledge of their preferential outcome. However, the high incidence of adjacent 1 sperm highlights the abnormality risk. Alternate and adjacent 1 segregations (92.3%) accounted for the observed rearranged chromosomes in the triploid. The most viable imbalanced combination would be the one carrying the der(6) chromosome, but since the unbalanced segment comprises 3.6% of the haploid autosomal length (HAL), no risk of a viable imbalanced offspring is indicated. However, an increased likelihood of recurrent miscarriages is likely, and this is confirmed by the couple's two earlier miscarriages. Sperm segregation patterns of translocation carriers determined by FISH can help in ascertaining expected and unexpected karyotypes. The high frequency of adjacent 1 products shows that the presence of the additional derivative chromosome in the partial
mole
, though rare in occurrence, should be less surprising.
...
PMID:Sperm segregation patterns by fluorescence in situ hybridization studies of a 46,XY,t(2;6) heterozygote giving rise to a rare triploid product of conception with a 69,XXY,t(2;6)(p12;q24)der(6)t(2;6)(p12;q24)pat karyotype. 1256 17
Toluidine blue, applied to frog sperm under appropriate conditions, inactivates specifically the sperm nucleus, leaving the extranuclear parts of the cell undamaged. Thus, the dye-treated
spermatozoa
stimulate eggs to cleave normally, but contribute no chromosomes to the resulting embryos, which develop as typical gynogenetic haploids. The concentration of dye required to produce this inactivation varies with pH. Measurements made over the entire pH range which can be tolerated by sperm cells showed that in the lower part of the range (5 to 7) the effective dye concentration was about 5 x 10(-6)M; in the intermediate range (7 to 8.5) it was 1 x (-6) to 1 x (-7)M; and for the higher pH values (8.5 to 10.0) it was about 5 x (-8)M. Using sperm suspensions containing 1500 cells per c. mm. these concentrations of dye produced specific inactivation of the sperm nuclei within 7 to 60 minutes at 18 degrees C. Tests of the reversibility of the inactivation were made by transferring the sperm from the dye to a dilute Ringer's solution after a known degree of inactivation had been produced. Following removal of the dye the sperm cells were tested on eggs over a period of 2 hours. During this time there was no indication of a reversal of the inactivation. Microscopic observations of sperm treated with (-5)M or 5 X (-5)M dye show that the dye is taken up by the sperm nucleus, which is faintly but definitely stained. The dye appears to be uniformly distributed in the nucleus, while extranuclear structures remain unstained. Measurements of the amount of dye bound per sperm nucleus indicate that the minimal quantity required for complete inactivation is about 6.7 x (-18)
mole
, while the maximal amount which can be bound without injury to extranuclear structures is about 1.5 x (-16)
mole
. The value obtained for the minimal requirement (6.7 X (16)
mole
= 4 X (6) molecules) suggests that there are roughly 4 million binding sites in the nucleus which, when blocked by dye molecules, somehow prevent the sperm chromosomes from participating in the development of the egg.
...
PMID:An analysis of the inactivation of the frog sperm nucleus by toluidine blue. 1495 18
Incomplete understanding of the water transport parameters (reference membrane permeability, L(pg), and activation energy, E(Lp)) during freezing in the presence of extracellular ice and cryoprotective agents (CPAs) is one of the main limiting factors in reconciling the difference between the numerically predicted value and the experimentally determined optimal rates of freezing in boar (and in general mammalian) gametes. In the present study, a shape-independent differential scanning calorimeter (DSC) technique was used to measure the water transport during freezing of boar
spermatozoa
. Water transport data during freezing of boar sperm cell suspensions were obtained at cooling rates of 5 and 20 degrees C/min in the presence of extracellular ice and 6% (v/v) glycerol. Using previously published values, the boar sperm cell was modeled as a cylinder of length 80.1 microm and a radius of 0.31 microm with an osmotically inactive cell volume, V(b), of 0.6 V(o), where V(o) is the isotonic cell volume. By fitting a model of water transport to the experimentally obtained data, the best-fit water transport parameters (L(pg) and E(Lp)) were determined. The "combined-best-fit" parameters at 5 and 20 degrees C/min for boar
spermatozoa
in the presence of extracellular ice are: L(pg) = 3.6 x 10(-15) m(3)/N. s (0.02 microm/min-atm) and E(Lp) = 122.5 kJ/
mole
(29.3 kcal/
mole
) (R(2) = 0.99); and the corresponding parameters in the presence of extracellular ice and glycerol are: L(pg)[cpa] = 0.90 x 10(-15) m(3)/N. s (0.005 microm/min-atm) and E(Lp)[cpa] = 75.7 kJ/
mole
(18.1 kcal/
mole
) (R(2) = 0.99). The water transport parameters obtained in the present study are significantly different from previously published parameters for boar and other mammalian
spermatozoa
obtained at suprazero temperatures and at subzero temperatures in the absence of extracellular ice. The theoretically predicted optimal rates of freezing using the new parameters ( approximately 30 degrees C/min) are in close agreement with previously published but experimentally determined optimal cooling rates. This analysis reconciles a long-standing difference between theoretically predicted and experimentally determined optimal cooling rates for boar
spermatozoa
.
...
PMID:Subzero water transport characteristics of boar spermatozoa confirm observed optimal cooling rates. 1499 36
In the present study, we report the effects of cooling ejaculated and epididymal rhesus monkey (Macacamulatta) sperm with and without the presence of a cryoprotective agent, glycerol. Water transport data during freezing of ejaculated and epididymal sperm cell suspensions were obtained at a cooling rate of 20 degrees C/min in the absence of any cryoprotective agents and in the presence of 0.7 M of glycerol, as well. Using previously published values, the macaque sperm cell was modeled as a cylinder of length 73.83 microm with a radius of 0.40 microm and an osmotically inactive cell volume, V(b), of 0.772 V(o), where V(o) is the isotonic cell volume. This translated to a surface area, SA to initial water volume, WV ratio of approximately 22 microm(-1). By fitting a model of water transport to the experimentally determined volumetric shrinkage data, the best-fit membrane permeability parameters (reference membrane permeability to water at 0 degrees C, L(pg) or L(pg)[cpa] and the activation energy, E(Lp) or E(Lp)[cpa]) were found to range from: L(pg) or L(pg)[cpa]=0.0020-0.0029 microm/min-atm; E(Lp) or E(Lp)[cpa])=10.6-18.3 kcal/
mole
. By incorporating these membrane permeability parameters in a recently developed equation (optimal cooling rate, B(opt)=1009.5 x exp(-0.0546 x E(LP) x L(pg) x (SA/WV); where the units of B(opt) are degrees C/min, E(Lp) or E(Lp)[cpa] are kcal/
mole
, L(pg) or L(pg)[cpa] are mum/min-atm and SA/WV are mum(-1)), we determined the optimal rates of freezing macaque sperm to be approximately 23 degrees C/min (ejaculated sperm in the absence of CPAs), approximately 29 degrees C/min (ejaculated sperm in the presence of glycerol), approximately 24 degrees C/min (epididymal sperm in the absence of CPAs) and approximately 24 degrees C/min (epididymal sperm in the presence of glycerol). In conclusion, the subzero water transport response and consequently the subzero water transport parameters are not significantly different between the ejaculated and epididymal macaque
spermatozoa
under corresponding cooling conditions.
...
PMID:Water transport in epididymal and ejaculated rhesus monkey (Macaca mulatta) sperm during freezing. 1869 43
Hydatidiform moles are gestational diseases with abnormal development of the villous trophoblast and characterized by an excess of paternal to maternal genetic material. Complete moles are usually diploid and androgenetic, and are thought to develop after the fertilization of an "empty ovum" by either a haploid spermatozoon or two
spermatozoa
. We report a case of a complete
mole
in which fluorescence in situ hybridization (FISH) incidentally disclosed trisomy 13. Microsatellite genotyping showed a single allele at each of the markers tested on the chorionic villi, and comparison with parental peripheral blood specimens revealed that the markers were all of paternal origin. These results confirmed the paternal origin of all three copies of chromosome 13, and the isodisomy for each chromosome was consistent with duplication of a monospermic fertilization event and subsequent non-disjunction. To the best of our knowledge, this is the only case of an androgenetic complete
mole
with trisomy 13 described in the scientific literature. We present a review of the literature and hypothesize that the trisomy 13 in our case likely resulted from non-disjunction of chromosome 13.
...
PMID:Androgenetic complete mole with trisomy 13: report of a case with microsatellite genotyping and review of the literature. 2040 Feb 32
Spermiogenesis in the mammalian testis is the most critical post-meiotic developmental event occurring during spermatogenesis in which haploid spermatids undergo extensive cellular, molecular and morphological changes to form
spermatozoa
. Spermatozoa are then released from the seminiferous epithelium at spermiation. At the same time, the BTB (blood-testis barrier) undergoes restructuring to facilitate the transit of preleptotene spermatocytes from the basal to the apical compartment. Thus meiotic divisions take place behind the BTB in the apical compartment to form spermatids. These germ cells enter spermiogenesis to transform into elongating spermatids and then into
spermatozoa
to replace those that were released in the previous cycle. However, the
mole
-cular regulators that control spermiogenesis, in particular the dynamic changes that occur at the Sertoli cell-spermatid interface and at the BTB, are not entirely known. This is largely due to the lack of suitable animal models which can be used to study these events. During the course of our investigation to develop adjudin [1-(2,4-dichlorobenzyl)-1H-indazole-3-carbohydrazide] as a potential male contraceptive, this drug was shown to 'accelerate' spermiation by inducing the release of premature spermatids from the epithelium. Using this model, we have identified several molecules that are crucial in regulating the actin filament network and the unique adhesion protein complex at the Sertoli cell-spermatid interface known as the apical ES (ectoplasmic specialization). In the present review, we critically evaluate these and other findings in the literature as they relate to the restricted temporal and spatial expression of two actin regulatory proteins, namely Eps8 (epidermal growth factor receptor pathway substrate 8) and Arp3 (actin-related protein 3), which regulate these events.
...
PMID:Regulation of spermiogenesis, spermiation and blood-testis barrier dynamics: novel insights from studies on Eps8 and Arp3. 2148 26
Hydatidiform mole (HM) is an abnormal human pregnancy, where the placenta presents with vesicular swelling of the chorionic villi. A fetus is either not present, or malformed and not viable. Most moles are diploid androgenetic as if one spermatozoon fertilized an empty oocyte, or triploid with one maternal and two paternal chromosome sets as if two
spermatozoa
fertilized a normal oocyte. However, diploid moles with both paternal and maternal markers of the nuclear genome have been reported. Among 162 consecutively collected diploid moles, we have earlier found indications of both maternal and paternal genomes in 11. In the present study, we have performed detailed analysis of DNA-markers in tissue and single cells from these 11 HMs. In 3/11, we identified one biparental cell population only, whereas in 8/11, we demonstrated mosaicism: one biparental cell population and one androgenetic cell population. One mosaic
mole
was followed by persistent trophoblastic disease (PTD). In seven of the mosaics, one spermatozoon appeared to have contributed to the genomes of both cell types. Our observations make it likely that mosaic conceptuses, encompassing an androgenetic cell population, result from various postzygotic abnormalities, including paternal pronuclear duplication, asymmetric cytokinesis, and postzygotic diploidization. This corroborates the suggestion that fertilization of an empty egg is not mandatory for the creation of an androgenetic cell population. Future studies of mosaic conceptuses may disclose details about fertilization, early cell divisions and differentiation. Apparently, only a minority of diploid moles with both paternal and maternal markers are 'genuine' diploid biparental moles (DiBiparHMs).
...
PMID:Mosaics and moles. 2165 31
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