Cytoskeleton Genes Expression and Survival Rate Comparison Between Immature and Mature Yak Oocyte After OPS Vitrification

This study was conducted to investigate the effect of vitrification on survival rate and cytoskeleton gene expression during yak oocyte maturation. The yak oocytes were incubated for 0?h [germinal vesicle (GV) stage] and in vitro matured for 24?h [metaphase II (MII) stage] to obtain immature and mature oocytes. Survival rate after vitrification were compared between immature and mature yak oocytes and cytoskeleton-related genes [cytokeratin 8 (CK8), β-actin (ACTB), and gap junction protein, alpha 1 (GJA1)] were tested by real-time PCR. Our results showed that MII stage survival rate after open pulled straw vitrification (35.60%) is significantly higher than GV stage (25.90%) oocytes. Furthermore, expression of CK8, ACTB, and GJA1 in MII stage oocytes are also significantly higher than GV stage oocytes. In conclusion, our study demonstrated that higher expression of GJA1, CK8, and ACTB in vitrify-warmed MII stage oocytes when compared with GV stage oocytes and such discrepancy might result in higher survival rate in vitrify-warmed MII stage oocytes.     

Meiotic maturation of vitrified immature chousingha (Tetracerus quadricornis) oocytes recovered postmortem

The ability to recover and cryopreserve oocytes from postmortem ovaries of endangered or wildlife species holds tremendous potential for conservation using assisted reproductive technologies. The objective of this study was to assess the in vitro meiotic maturation of chousingha (four-horned antelope) oocytes following vitrification using open pulled straw (OPS) method. The average number of oocytes recovered per ovary was 65.6. The proportion of oocytes that matured was significantly lower in vitrified oocytes (29.4%) when compared with fresh oocytes (69.3%). The study provides evidence that it is possible to cryopreserve immature oocytes by vitrification collected from the ovaries of chousingha at postmortem and also demonstrates that these cryopreserved oocytes retain their potential to undergo in vitro meiotic maturation.     

Morphologic comparison of ovulated and in vitro–matured porcine oocytes,with particular reference to polyspermy after in vitro fertilization

This study was conducted to evaluate morphologic differences in pig oocytes matured in vivo and in vitro, with particular reference to the potential relationship between oocyte morphology and the occurrence of polyspermy after in vitro fertilization (IVF). In vivo–matured oocytes were surgically recovered from the oviducts of gilts with ovulated follicles on day 2 of estrus, and in vitro–matured oocytes were obtained by culturing follicular oocytes in a oocyte maturation system that has resulted previously in production of live offspring following IVF. Comparisons were made of the cytoplasm density, the diameter of oocytes with or without zona pellucida (ZP), the thickness of the ZP, the size of the perivitelline space (PVS), ZP dissolution time, and cortical granule (CG) distribution before IVF, and CG exocytosis and polyspermic penetration after IVF. Oviductal oocytes have clear areas in the cytoplasm cortex, while in vitro–matured oocytes have very dense cortex. The diameter of ovulated oocytes with ZPs was significantly (P < 0.001) greater than that of in vitro–matured oocytes. However, no difference was observed in the diameter of the oocyte proper. Significantly (P < 0.001) thicker ZPs and wider PVSs were observed in the ovulated oocytes. The ZPs of ovulated oocytes were not dissolved by exposure to 0.1% pronase within 2 hr, but the ZPs of in vitro–matured oocytes were dissolved within 131.7 ± 7.6 sec. The ZPs of ovulated oocytes, but not of in vitro–matured oocytes, were strongly labeled by a lectin from archis hypogaea that is specific for β-D-Gal(1–3)-D-GalNAc. Polyspermy rate was significantly (P < 0.01) higher for in vitro–matured oocytes (65%) than for ovulated oocytes (28%). CGs of oviductal oocytes appeared more aggregated than those of in vitro–matured oocytes. Most of CGs were released from both groups of oocytes 6 hr after IVF regardless of whether they were polyspermic or monospermic oocytes. These results indicate that in vitro–matured and in vivo–matured pig oocytes possess equal ability to release CGs on sperm penetration. Unknown changes in the extracellular matrix and/or cytoplasm of the oocytes while in the oviduct may play an important role(s) in the establishment of a functional block to polyspermy in pig oocytes. Mol. Reprod. Dev. 49:308–316, 1998. © 1998 Wiley-Liss, Inc.     

Role of Synaptophysin in Exocytotic Release of Dopamine from Xenopus Oocytes Injected with Rat Brain mRNA

1. The role of synaptophysin in the exocytotic release of dopamine (DA) was examined in Xenopus laevis oocytes injected with rat brain mRNA.2. The mRNA-injected oocytes showed DA uptake which depended on the incubation time and external DA concentrations.3. Stimulation with KCl (10–50 mM) of mRNA-injected oocytes preloaded with DA evoked external Ca²⁺-dependent release of DA. The noninjected and water-injected oocytes did not produce uptake of DA and stimulation-evoked release of DA.4. The high-KCl (50 mM)-stimulated release of DA decreased in the oocytes injected with rat brain mRNA together with antibody to synaptophysin.5. Immunoblot analysis demonstrated that synaptophysin was expressed in the brain mRNA-injected oocytes but not in the noninjected and water-injected oocytes.6. Thus, uptake and release machinery similar to native dopaminergic nerve terminals was expressed in Xenopus oocytes by injecting mRNA-extracted from the rat brain, and synaptophysin may play a role in the exocytotic release of DA.     

Recovery of mitochondrial function and endogenous antioxidant systems in vitrified bovine oocytes during extended in vitro culture

This study was designed to examine the recovery of mitochondrial function and endogenous antioxidant systems in vitrified oocytes during extended incubations. After 16 hr of in vitro maturation, bovine meiosis‐II oocytes were vitrified, and then surviving oocytes were cultured an additional 8 hr. ATP content, ATP synthase activity, expression of ATP synthase F0 subunit 6 (ATP6) and 8 (ATP8) genes, and reactive oxygen species (ROS) levels were investigated in the vitrified oocytes during this additional period (4 or 8 hr). The results showed that: (1) the ATP content and ATP synthase activities in vitrified oocytes at 8 hr post‐warming (754.6 fmol, 25.9 nmol NADH/min/mg) were significantly higher than in oocytes immediately warmed (568.3 fmol, 8.7 nmol NADH/min/mg), but still lower than in control oocytes (901.5 fmol, 30.7 nmol NADH/min/mg); (2) the relative expression of ATP6 and ATP8 was initially down‐regulated in oocytes when they were first warmed, increased by 4 hr post‐warming, and were again down‐regulated by 8 hr post‐warming; (3) ROS levels in oocytes at 0, 4, and 8 hr post‐warming were significantly higher than in control oocytes; and (4) after parthenogenetic activation, the blastocyst rate of oocytes at 8 hr post‐warming (26.7%) was significantly higher than that of oocytes immediately warmed (16.9%). These results indicated that mitochondrial function and endogenous antioxidant systems recovered significantly better in vitrified–thawed bovine oocytes with 8 hr of additional incubation, but they did not achieve the activity levels found in fresh oocytes. Mol. Reprod. Dev. 78:942–950, 2011. © 2011 Wiley Periodicals, Inc.     

Embryo development,oocyte morphology,and kinetics of meiotic maturation in bovine oocytes exposed to 6-dimethylaminopurine prior to in vitro maturation

The developmental competence of bovine follicular oocytes that had been meiotically arrested with the phosphokinase inhibitor 6-dimethylaminopurine (6-DMAP) was studied. After 24 h in vitro culture with 2 mM 6-DMAP, 85 ± 12% of the oocytes were at the germinal vesicle stage compared to 97 ± 3% at the start of culture (P > 0.05). After release of the 6-DMAP inhibition, followed by 24 h IVM, 82 ± 18% were at MII stage, compared with 93 ± 7% in the control group (P > 0.05). The 6-DMAP oocytes displayed a much higher frequency of abnormal MII configurations than the control oocytes (67% vs 23%; P < 0.0001). In addition spontaneous oocyte activation was more frequent than among control oocytes (5% vs 0.3%; P 0.0006). After IVF of 6-DMAP oocytes, normal fertilization was lower (76 ± 8% vs 89 ± 7%; P < 0.01), oocyte activation higher (11 ± 5% vs 2 ± 2%; P < 0.01), and polyspermy slightly but not significantly higher (8 ± 7% vs 4 ± 4%; P > 0.05), compared with the control group. Cleavage was lower (61 ± 13% vs 81 ± 6%; P < 0.001), as well as day 8 blastocyst formation (17 ± 7% vs 36 ± 8%; P < 0.001). The MII kinetics was different for 6-DMAP and control oocytes. Maximum MII levels were reached at 22 h IVM in both groups, but 50% MII was reached at 17 h in 6-DMAP oocytes, compared to 20 h in control oocytes. Ultrastructure of MII oocytes was similar in the two groups, but in 6-DMAP oocytes the ooplasmic vesicle pattern at GV was at a more advanced stage than in control oocytes. In conclusion, 6-DMAP exposure of GV oocytes prior to IVM induce asynchronous cytoplasmic maturation, leading to aberrant MII kinetics. Thus, at the time of insemination a smaller cohort of oocytes will be at the optimal stage for normal fertilization and subsequent blastocyst development. Mol. Reprod. Dev. 50:334–344, 1998. © 1998 Wiley-Liss, Inc.     

Role of glutathione in the maturation and fertilization of pig oocytes in vitro

The present study examined, by treatment of buthionine sulfoximine (BSO), which is a specific inhibitor of glutathione (GSH) synthesis, the role of GSH in the maturation and fertilization of pig oocytes in vitro. Follicular oocytes collected from prepubertal gilts at a local slaughterhouse were cultured for 36 h in Waymouth MB 752/1 with or without BSO (1 mM), fertilized in vitro, and assessed for GSH concentration (before insemination), maturation, and fertilization. The addition of BSO to maturation medium immediately after culture (Group I), 12 h after culture (Group II), or 24 h after culture (Group III) significantly decreased the GSH concentration in pig oocytes compared with the control (P < 0.01), whereas the rate of cumulus mass expansion at 36 h of culture and the rates of nuclear maturation and sperm penetration following in vitro insemination did not differ. However, the rate of pig oocytes having condensed sperm heads was significantly lower and the rate of male pronucleus formation of pig oocytes was significantly higher in oocytes matured in the control and Group III than in oocytes matured in Groups I and II (P < 0.01). In experiment 2, when BSO was added to maturation media 15, 18, 21, or 24 h after culture, the rate of pig oocytes having condensed sperm heads was significantly lower and the rate of male pronucleus formation of pig oocytes was significantly higher in oocytes matured in the medium supplemented with BSO at 21 or 24 h of culture than in oocytes matured in other groups (P < 0.05 or P < 0.01). The results indicate that GSH synthesis occurs throughout in vitro maturation of pig oocytes and GSH is an important cytoplasmic factor for regulating sperm nuclear decondensation and male pronucleus formation following sperm penetration in pig oocytes. © 1993 Wiley-Liss, Inc.     

Developmental competence of in vivo and in vitro matured porcine oocytes after subzonal sperm injection

In vivo and in vitro matured porcine oocytes were fertilized by subzonal sperm injection (SUZI), and their subsequent development in vitro was examined to determine whether ooplasmic incompetence is the major cause of limited developmental ability of in vitro matured/fertilized porcine oocytes (Experiment 1). There was no significant difference in rates of fertilization (61% vs. 70%), monospermy (37% vs. 45%), and male pronuclear formation (77% vs. 61%) between in vivo and in vitro matured oocytes. Blastocyst formation rate was significantly lower for in vitro matured oocytes (11% vs. 42%; P < 0.001). Forty-six percent of in vivo matured oocytes cleaved to the 2-4 cell stage by 24 hr in culture after SUZI, compared with 3% of in vitro matured oocytes (P < 0.01). In experiment 2, in vitro development of in vitro matured oocytes with evenly and unevenly granulated cytoplasm were compared after SUZI to examine whether developmentally competent in vitro matured oocytes can be identified on the basis of morphological appearance. Most of the blastocysts obtained developed from oocytes with unevenly granulated cytoplasm (7/56 vs. 1/45; P > 0.05). Experiment 3 revealed that the proportion of oocytes with evenly granulated cytoplasm was originally low (11%) in the population of oocytes used for in vitro maturation, and it increased approximately 3-fold (36%; P < 0.001) after maturation. These results suggest that ooplasmic incompetence in porcine in vitro matured oocytes is the major cause of their limited developmental competence. Cytoplasmic maturation measured by male pronucleus formation does not directly reflect developmental competence of the oocytes. It was also shown that evenness of granulation of the cytoplasm is not a useful morphological indicator of developmental competence. © 1996 Wiley-Liss, Inc.     

Endothelial and inducible nitric oxide synthases in oocytes of cattle

Nitric oxide (NO) is a chemical messenger generated by the activity of the nitric oxide synthases (NOS). The NOS/NO system appears to be involved in oocyte maturation, but there are few studies on gene expression and protein activity in oocytes of cattle. The present study aimed to investigate gene expression and protein activity of NOS in immature and in vitro matured oocytes of cattle. The influence of pre-maturation culture with butyrolactone I in NOS gene expression was also assessed. The following experiments were performed: (1) detection of the endothelial (eNOS) and inducible (iNOS) isoforms in the ovary by immunohistochemistry; (2) detection of eNOS and iNOS in the oocytes before and after in vitro maturation (IVM) by immunofluorescence; (3) eNOS and iNOS mRNA and protein in immature and in vitro matured oocytes, with or without pre-maturation, by real time PCR and Western blotting, respectively; and (4) NOS activity in immature and in vitro matured oocytes by NADPH-diaphorase. eNOS and iNOS were detected in oocytes within all follicle categories (primary, secondary and tertiary), and other compartments of the ovary and in the cytoplasm of immature and in vitro matured oocytes. Amount of mRNA for both isoforms decreased after IVM, but was maintained after pre-maturation culture. The NOS protein was detected in immature (pre-mature or not) and was still detected in similar amount after pre-maturation and maturation for both isoforms. NOS activity was detected only in part of the immature oocytes. In conclusion, isoforms of NOS (eNOS and iNOS) are present in oocytes of cattle from early folliculogenesis up to maturation; in vitro maturation influences amount of mRNA and NOS activity.     

Ovarian nests in cultured females of the Siberian sturgeon Acipenser baerii (Chondrostei,Acipenseriformes)

Ovaries of Acipenser baerii are of an alimentary type and probably are meroistic. They contain ovarian nests, individual follicles, inner germinal ovarian epithelium, and fat tissue. Nests comprise cystoblasts, germline cysts, numerous early previtellogenic oocytes, and somatic cells. Cysts are composed of cystocytes, which are connected by intercellular bridges and are in the pachytene stage of the first meiotic prophase. They contain bivalents, finely granular, medium electron dense material, and nucleoli in the nucleoplasm. Many cystocytes degenerate. Oocytes differ in size and structure. Most oocytes are in the pachytene and early diplotene stages and are referred to as the PACH oocytes. Oocytes in more advanced diplotene stage are referred to as the DIP oocytes. Nuclei in the PACH oocytes contain bivalents and irregularly shaped accumulation of DNA (DNA‐body), most probably corresponding to the rDNA‐body. The DNA‐body is composed of loose, fine granular material, and comprises multiple nucleoli. At peripheries, it is fragmented into blocks that remain in contact with the inner nuclear membrane. In the ooplasm, there is the rough endoplasmic reticulum, Golgi complexes, free ribosomes, complexes of mitochondria with cement, fine fibrillar material containing granules, and lipid droplets. The organelles and material of nuclear origin form a distinct accumulation (a granular ooplasm) in the vicinity of the nucleus. Some of the PACH oocytes are surrounded by flat somatic cells. There are lampbrush chromosomes and multiple nucleoli present (early diplotene stage) in the nucleoplasm. These PACH oocytes and neighboring somatic cells have initiated the formation of ovarian follicles. The remaining PACH oocytes transform to the DIP oocytes. The DIP oocytes contain lampbrush chromosomes and a DNA‐body is absent in nuclei. Multiple nucleoli are numerous in the nucleoplasm and granular ooplasm is present at the vegetal region of the oocyte.     

Dynamics of oogenesis in the tropical anuranRana tigrina (Amphibia: Ranidae) with special reference to vitellogenic cycles in wild-caught and captive flogs

The ovarian cycle ofRana tigrina was analysed by quantifying the developing oocytes (classified into stages on the basis of diameter) and atretic ones at monthly intervals. Stages I to IV represent oocytes in the first growth phase and the remaining ones the vitellogenic or second growth phase. Stages I–III occurred year round but exhibited significant variation in their number. The number of stage II oocytes always dominated the other stages. Recruitment of oocytes to stages IV and V in April marked the initiation of vitellogenic growth in all specimens. Of the 30 to 35% second growth phase oocytes, 25 to 28% reached ovulatory sizes by June. After spawning the ovarian mass declined drastically from 15 to 0.2% of body mass in July. Atresia was maximal (5%) in August. In other months, it was less than 1.5% of the total oocytes. Oogenic episodes occurred in March and July yielding new oocytes. The number of first growth phase oocytes fluctuated from 65 to 95%. The fluctuation was inversely correlated with the second growth phase oocytes indicating a 30 to 35% annual turnover rate of oocytes in the frog. The final egg number/ovarian mass is positively correlated with the snout-vent length as well as body mass of the frogs.R. tigrina produces about 4000 eggs/100g body mass. Further, the mean number of yolky eggs/100 g body mass and the total volume (V) of eggs/frog were highly correlated. Frogs living in captivity produced fewer eggs compared to the wild ones (3594 ± 227 in captivevs 4704 ± 317 in wild frogs). Also, these frogs failed to breed though they showed amplexus with breeding males. Injection of desoxycorticosterone acetate however induced spawning in 4 out of 5 frogs. They released about 3000 eggs each. Captivity seems to mainly impair breeding and to a little extent the vitellogenic growth of oocytes inR. tigrina.     

Procyanidin B1 promotes in vitro maturation of pig oocytes by reducing oxidative stress

Oxidative stress negatively affects the in vitro maturation (IVM) of oocytes. Procyanidin B1 (PB1) is a natural polyphenolic compound that has antioxidant properties. In this study, we investigated the effect of PB1 supplementation during IVM of porcine oocytes. Treatment with 100 μM PB1 significantly increased the MII oocytes rate (p <0.05), the parthenogenetic (PA) blastocyst rate (p <0.01) and the total cell number in the PA blastocyst (p < 0.01) which were cultured in regular in vitro culture (IVC) medium. The PA blastocyst rate of regular MII oocytes activated and cultured in IVC medium supplemented with 100 and 150 μM PB1 significantly increased compared with control (p < 0.01 and p < 0.05). We also evaluated the reactive oxygen species (ROS) levels, mitochondrial membrane potential (Δψm) levels, glutathione (GSH) levels, and apoptotic levels in MII oocytes and cumulus cells following 100 μM PB1 treatment. The results showed that the PB1 supplementation decreased ROS production and apoptotic levels. In addition, PB1 was found to increase Δψm levels and GSH levels. In conclusion, PB1 inhibited apoptosis of oocytes and cumulus cells by reducing oxidative stress. Moreover, PB1 improved the quality of oocytes and promoted PA embryo development. Taken together, our results suggest that PB1 is a promising antioxidant additive for IVM of oocytes.     

Metabolism of glucose,pyruvate, and glutamine during the maturation of oocytes derived from pre‐pubertal and adult cows

The aim of the study was to compare the energy metabolism of oocytes from pre‐pubertal (2 to 3 months) and adult cows during maturation, to identify the cause of poor developmental potential in many pre‐pubertal oocytes. The metabolism of [5‐³H] glucose, [2‐¹⁴C] pyruvate, and [G‐³H] glutamine was measured at 0 hr, 12 hr, and 24 hr maturation. Oxidative metabolism was important during maturation of oocytes from both pre‐pubertal and adult cows, with pyruvate metabolism peaking at 12 hr and glutamine metabolism increasing linearly and peaking at 24 hr. Peak oxidative metabolism was significantly lower in oocytes from pre‐pubertal animals, for both pyruvate and glutamine (P < 0.05). Glucose metabolism increased significantly during oocyte maturation in both groups (0hr to 24 hr). Glucose metabolism was significantly lower in oocytes from pre‐pubertal cows at 12 hr (P < 0.05). Oocytes from pre‐pubertal animals were significantly smaller than oocytes from adult cows at 0 hr, 12 hr, and 24 hr maturation (P < 0.05). When metabolic rates were corrected for oocyte volume, there were no significant differences in substrate metabolism between oocytes from pre‐pubertal and adult cows. There was however, a delay in the increase in glucose metabolism in pre‐pubertal oocytes 0 hr to 12 hr maturation. Germinal vesicle breakdown was slower in oocytes from pre‐pubertal animals with more oocytes still at the germinal vesicle stage approximately 5 hr post‐aspiration, compared to oocytes from adult cows (P < 0.05). By 24 hr, development to metaphase II was equivalent for pre‐pubertal and adult oocytes. This study identified differences in energy metabolism, oocyte size, and meiotic progression between the oocytes from pre‐pubertal and adult cows that may account for the poor developmental potential of many pre‐pubertal oocytes. Mol. Reprod. Dev. 54:92–101, 1999. © 1999 Wiley‐Liss, Inc.     

Acquisition of meiotic competence in the rat: Role of gonadotropin and estrogen

Oocytes were removed from the follicles of rats at 15 to 31 days of age, and their ability to resume meiosis (“meiotic competence”) in vitro was correlated with their diameter and the stage of follicular development. The majority of oocytes explanted on day 15 did not resume meiosis when placed in culture, but the percentage of competent oocytes increased from 14.1% ± 3.0% on day 20 to 67.6% ± 3.3% on day 26 of age. This ability to resume maturation correlated well (r = 0.98) with the increase in diameter of oocytes and coincided with the development of antral follicles. Hypophysectomy on day 15 of age, but not on day 20, reduced the percentage (P < 0.001) and number (P < 0.001) of competent oocytes and was accompanied by a reduction in diameter of oocytes. Treatment with PMSG or E₂ increased the number (P < 0.001) and percentage (P < 0.001) of competent oocytes. These results suggest that the ability of oocytes to mature in vitro is dependent upon stimulation by gonadotropins and that this action of gonadotropin may be mediated by production of estrogen within the follicles.     

APPEARANCE OF PRONUCLEUS-INDUCING ACTIVITY DURING HORMONALLY INDUCED MEIOTIC MATURATION IN TOAD OOCYTES*

Detergent-pretreated spermatozoa of the toad, Bufo bufo japonicus, transform into pronuclei when injected into progesterone-matured oocytes at 18 hr post-hormone treatment (PHT). These sperm, however, do not show any change when injected into the oocytes at the same age from which the germinal vesicle (GV) has been removed before the progesterone treatment. In an attempt to determine when and how the pronucleus-inducing activity (PIA) develops in hormonally induced maturation process, enucleated oocytes were injected with GV and sperm at various stages after the hormone treatment and electrically stimulated at 18 hr PHT. It was found that sperm pronuclei are induced only in those oocytes receiving GV before 14 hr PHT. The 1 hr pulse-treatment of maturing oocytes with cycloheximide between 8–18 hr PHT and the injection of sperm at 18 hr PHT revealed that PIA does not occur in the oocytes treated with the inhibitor during 10–14 hr PHT. Injection of α-amanitin into maturing oocytes had no effect in this respect. Determination of DNA synthetic activity in vitro of the oocyte extracts from various maturation stages showed that the net increase of the activity occurs before the formation of PIA. The activity of the cycloheximide-treated oocyte extracts utilizing native DNA did not correlate with the sensitivity of oocytes to the inhibitor with respect to PIA in situ. It is concluded that PIA develops, in association with the GV materials, by way of translational events at 10–14 hr PHT, being quiescent during later maturation stages, and commences to function as an activation response of oocytes at 18 hr PHT.     

Nucleolar DNA in oocytes of crickets: representatives of the subfamilies Oecanthinae and Gryllotalpinae (Orthoptera: Gryllidae)

A large extrachromosomal mass of Feulgen positive material, the DNA body, has been visualized in early prophase oocytes of crickets (Orthoptera: Gryllidae) representative of the closely related subfamilies Gryllinae and Nemobiinae. A similar structure is present in oocytes of representatives of two subfamilies of crickets (subfamilies Oecanthinae and Gryllotalpinae) which taxonomically and phylogenetically are quite separate from those mentioned previously. In situ hybridization demonstrates that the body contains amplified copies of genes coding for ribosomal RNA. Unlike the DNA body in early diplotene oocytes of representatives of the subfamily Gryllinae, which is closely associated with the developing nucleolar apparatus, the DNA body in oocytes of the Oecanthinae and Gryllotalpinae cannot be demonstrated during diplotene. In the Oecanthinae, the nucleolar apparatus of early diplotene stage oocytes is composed of four to seven separate structures, the ribonucleoprotein of which has a characteristically lamellated appearance. During late diplotene, these nucleoli give rise to many smaller structures which are distributed throughout the germinal vesicle. In early diplotene stage oocytes of Scapteriscus acletus (Subfamily: Gryllotalpinae), the nucleolar apparatus consists of a single compact mass of ribonucleoprotein. In contrast to the oocytes of all other crickets that have been studied, the nucleolus of S. acletus remains single throughout diplotene. In situ hybridization analysis indicates that the amplified genes coding for rRNA which are localized in the DNA body of early prophase oocytes become incorporated into this compact nucleolar mass. Differences in nucleolar structure appear to reflect differences in the organization of amplified genes coding for rRNA.     

DNA methylation establishment of CpG islands near maternally imprinted genes on chromosome 7 during mouse oocyte growth

The genome methylation is globally erased in early fetal germ cells, and it is gradually re‐established during gametogenesis. The expression of some imprinted genes is regulated by the methylation status of CpG islands, while the exact time of DNA methylation establishment near maternal imprinted genes during oocyte growth is not well known. Here, growing oocytes were divided into three groups based on follicle diameters including the S‐group (60–100 μm), M‐group (100–140 μm), and L‐group (140–180 μm). The fully grown germinal vesicle (GV)‐stage and metaphase II (M2)‐stage mature oocytes were also collected. These oocytes were used for single‐cell bisulfite sequencing to detect the methylation status of CpG islands near imprinted genes on chromosome 7. The results showed that the CpG islands near Ndn, Magel2, Mkrn3, Peg12, and Igf2 were completely unmethylated, but those of Peg3, Snrpn, and Kcnq1ot1 were hypermethylated in MII‐stage oocytes. The methylation of CpG islands near different maternal imprinted genes occurred asynchronously, being completed in later‐stage growing oocytes, fully grown GV oocytes, and mature MII‐stage oocytes, respectively. These results show that CpG islands near some maternally imprinted genes are not necessarily methylated, and that the establishment of methylation of other maternally imprinted genes is completed at different stages of oocyte growth, providing a novel understanding of the establishment of maternally imprinted genes in oocytes.     

Transgenic RNAi-mediated reduction of LZP3 in <Emphasis Type="Italic">Lagurus lagurus</Emphasis> oocytes results in decreased fertilization ability in IVF

Structural differences in oligosaccharides on mammalian zona pellucida 3(ZP3) from different species may determine whether or not spermatozoa being able to bind to ZP. We reported here that by microinjecting the siRNA interference recombinant construct pGenesil-ZP31 encoding a Lagurus zp3 (lzp3) hairpin dsRNA of 21 bp into the inmatured oocytes of Lagurus lagurus, distributed in northern region of Xingjiang, to disturb its fertility. Results of in vitro fertilization after in vitro maturation of the immature oocytes of Lagurus lagurus showed that the fertilization rate of the transgenic oocytes carried pGenesil-ZP31 was decreased greatly (2.82%) compared to the oocytes carried pGenesil-HK (15.71%), suggesting that the transgenic RNAi-mediated silencing of lzp3 in Lagurus lagurus oocytes results in decreased fertilization ability. These results proved that LZP3 of Lagurus lagurus, like other mammalians, is essential for the recognition between oocyte and spermatozoa.     

The Presence of Intramitochondrial Yolk-crystals in Oocytes of Hypophysectomized Bullfrog Tadpoles*

Ovaries of hypophysectomized Rana catesbeiana tadpoles. weighing I to 14 g, were prepared for electron microscopic study. The oocytes are at the growth phase, ranging from 50 to 190 μm in diameter. The observation on these oocytes has revealed the presence of intramitochondrial yolk-crystals but not cytoplasmic yolk platelets. The crystalline structure, situated within the intracristal space, consists of a hexagonal array of dense particles about 50 Å in diameter and 72 Å in periodicity. Our data agree with those reported in oocytes of intact ranid species. According to literatures, crystals of intramitochondrial yolk and of cytoplasmic yolk platelets show similar ultrasturctures. The precursor of cytoplasmic yolk platelets in adult Xenopus oocytes is known to be synthesized in the estrogen-stimulated liver and incorporated via circulation into oocytes by gonadotropin-dependent micropinocytosis. The present finding suggests that the intramitochondrial yolk could be formed within oocytes, independently of the pituitary control.