메주와 누룩은 한국 전통 발효 식품에 사용되는 스타터로, Aspergillus속 곰팡이나 aflatoxin에 노출되기 쉽다. 본 연구에서는 우리나라에서 시판되는 57개의 메주 시료와 18개의 누룩 시료로부터 Aspergillus 속 곰팡이를 분리하고 동정하였다. 분리주의 aflatoxin 생성 가능성을 평가하기 위하여 multiplex PCR을 통해 aflatoxin 생합성 유전자 (aflO, aflP, aflR)를 확인하고, 이들 분리주에 의해 생성되는 aflatoxin 함량을 HPLC로 조사하였다. 뿐만 아니라 시판 메주와 누룩 시료 중 aflatoxin 함량을 분석하였다. 그 결과, 메주 시료로부터 130개, 누룩 시료로부터 47개 균주가 분리되어 총 177개의 분리주를 확인 및 동정하였다. 각 각 메주와 누룩으로부터 분리된 19.2% (25/130), 10.6% (5/ 47)의 분리주가 3 종류의 aflatoxin 생합성 유전자를 모두 보유하였으며, 그 중 메주로부터 분리된 5개의 분리주가 실제 로 aflatoxin을 생성하였다. 시판 메주와 누룩 시료 중 aflatoxin 함량을 분석한 결과, 88% (51/58)의 메주 시료의 aflatoxin 오염 수준은 모두 검출한계 미만으로 나타났고, 누룩 또한 시료의 39% (7/18)가 검출한계 미만으로 확인되었다. 메주와 누룩에서 분리된 분리주 중 aflatoxin 생합성 유전자를 모두 보유하거나 배지 상에서 aflatoxin 생성을 보여준 aflatoxigenic 균주는 존재하였으나 유통되고 있는 시료에서 aflatoxin 오염 빈도는 낮은 수준임을 확인할 수 있었다.

This study examined the methods used in household doenjang (Korean soybean paste) production. Nine hundred fortythree responses were obtained using a nationwide, questionnaire-based survey (2018-2019) with non-probabilistic snowballing sampling. Consistent with previous studies, the respondents were primarily over the age of 50 years (97.1%) and female (97.9%). In addition to soybeans, the most used ingredients were red pepper (85.8%) and charcoal (85.5%), which most respondents obtained through direct farming (50.4-59.9%). Seasonal production occurred later in the higher latitude regions (Gyeonggi-do, Gangwon-do, Chungcheong-do) (p < 0.01), which have lower average temperatures, and the fermentation period was shorter in the lower latitude regions (Jeolla-do, Gyeongsang-do, Jeju-do) (p < 0.01), which have higher average temperatures. There were no significant regional differences in the season when doenjang was made, with most production occurring during January and February (81.1%). Most respondents (71.3%) made doenjang using homemade meju (soybean block used as a starter) in a traditional way to allow the microorganisms to be naturally inoculated. These results could be used as a basis for future research on topics such as starter development, standardized production, and safety of household doenjang.

BACKGROUND Ca2+ oscillations during fertilization induce eggs activation and embryonic development in mammalian eggs.. The type 1 inositol 1,4,5-trisphosphate receptor (IP3R1) is in charge of Ca2+ oscillations for the release of stored Ca2+ from the endoplasmic reticulum. The capacity of this oscillation is obtained during egg maturation and corresponds with an increase in the sensitivity of the IP3R1 and their localization in cytoplasm. Cluster formation of IP3R1 in the egg cortex is important to initiation of Ca2+ oscillations during egg and sperm fusion. In this study, we investigated that cell cycle–coupled redistribution of IP3R1 and Ca2+- oscillatory activity in mouse zygotes. MATERIALS AND METHODS Metaphase II arrested eggs were collected from ICR female mouse after super ovulation induction. At 14 hr post hCG, MII eggs were collected, and artificially activated in Ca2+ free CZB medium with 10 mM SrCl2 for 2 hrs. Pronuclear zygotes (PN) were collected from Strontium activated eggs at 8 hr post activation, and the first mitotic eggs were collected at 16~17 hr post activation. To identify cell cycle coupled IP3R1 redistribution, MII eggs, zygotes, and first mitotic eggs were collected, and fixed for immunostaining with anti-IP3R1antibody (CT-1) and observed on CLSM. Ca2+-oscillatory activity was monitored with fluorescence microscope mounted SimplePCI program (Hamamatsu) after injection of cRNA of mouse phospholipase C zeta (mPLCZ). RESULT IP3R1 were shown clusters, 1~2 um in diameter, in cortex of ovulated MII eggs with high Ca2+ oscillatory activity by mPLCZ injection. These eggs represent more than 6 spikes per 60 min. However, IP3R1 clusters were disappeared in PN eggs and these eggs showed very low Ca2+- oscillatory activity by mPLCZ. In mitosis I stage eggs, clusters of IP3R1 were appeared and Ca2+-oscillatory activity was reactivated slightly (2 spikes per 60 min). CONCLUSIOINS This study introduced the redistribution of IP3R1 clusters were occurred in egg activation according to cell cycle dependent manner. Also, functional modification of IP3R1 including protein phosphorylation was associated with cortical clustering of IP3R1 in cell cycle coupled Ca2+ oscillatory activity.

To overcome the risk of the ovarian hyperstimulation syndrome (OHSS) in patients have polycystic ovarian syndrome (PCOS) and to prepare emergency fertility preservation in patients undergoing anticancer treatment, several researchers have reported IVM of oocytes retrieved from ovaries exposed by only hCG priming. However, the maturation rate and the developmental potential of embryos from IVM oocytes are significantly lower than those of oocytes matured in vivo. Here, we investigated the optimal time point for immature oocyte collection at post hCG only injection for in vitro maturation, in vitro fertilization and blastocyst formation. Immature GV oocytes were collected from 25 days old B6D2F1 female mouse at 12 hr, 14 hr, 16 hr or 24 hr post hCG injection. Oocytes were collected from antral or late secondary follicle by puncturing with 26 G needle. Collected oocytes were cultured in G2 medium with 10% FBS, FSH, estradiol, and hCG for 16 hr in vitro and subjected in vitro fertilization and further embryonic development. To examine follicular maturation, we estimated the numbers of primordial, primary, secondary follicle and antral follicle on ovaries of each time point post hCG. To confirm the optimal time point post hCG injection for collecting immature oocytes, we recovered the oocytes from each time point. There is no difference in the number of oocytes per mice. Oocytes collected at 14 hr post hCG injection were shown higher maturation rate to MII stage and blastocyst formation compare to other three groups (p<0.01). However, there is no difference in the maturation rate on the other three groups. Also, apoptotic signal with TUNEL assay or anti-PARP staining was not change in ovaries from all experimental groups. Granulosa cell proliferation test with anti Ki-67 or anti AMH was not show any difference. According to these results, there are no significant differences in four different time points at 12 hr, 14 hr, 16 hr or 24 hr of collection of immature oocytes in hCG primed mouse. However, oocytes from 14 hr post hCG injection showed higher percentages of maturation rate, in vitro fertilization rate, blastocyst formation.

Cryopreservation has become a powerful method of the assisted reproduction technology and supports fertility preservation of cancer and other indication patients. After controlled ovarian hyperstimulation, surplus oocytes and embryos were recommended to store using cryopreservation. Recently, vitrification is replaced with traditional slow freezing protocol, because of improved survival rates and clinical outcomes. Vitrification requires a high concentration of CPAs that may induce significant osmotic and metabolic damage to cells including oocytes even in a short exposure of a few minutes. Generally, MPF plays a crucial role in the cell cycle regulation and maintaining the meiotic arrest of oocytes. In fact, it has been observed to decline in MII ovine oocytes after vitrification and would be suggested that one of the main causes of low fertilization rate and developmental competence derived from cryoinjury during vitrification. Therefore, the aim of this study was to evaluate the effect of caffeine treatment on the activity of MPF, MAPK level in vitrified/warmed mouse mature eggs. Caffeine, Phosphataseinhibitor, may maintain active form of MPF. We evaluated their survival after warming procedure, fertilization, cleavage, and developmental rates. Ovulated MII eggs were retrieved from 6 weeks old B6D2F1 female mouse at 14hr post hCG injection. Collected MII eggs were maintained in HTF medium containing 10% KSR with or without caffeine for 1hr. Eggs were vitrified in 7.5%EG +7.5%DMSO equilibrium solution, 15%EG + 15%DMSO + 0.5M sucrose vitrification solution with or without caffeine. Also warming solution contained sucrose (0.5M, 0.25M, 0.125M, and 0M) with or without caffeine. After warming, eggs were cultured in HTF medium with or without caffeine for 2 hr then fertilized with epididymal sperm in vitro and cultured in KSOM for 5 days to analyze embryonic development. Survival rates were similar in all experimental groups. However, fertilization rate was higher in with caffeine group compare to without caffeine significantly (80% vs. 85%, p<0.05). 2-cell and blastocyst formation were increased in caffeine group (p<0.05). MPF activity and MAP kinase activity were recovered in with caffeine group after vitrification/warming process. In conclusion, Caffeine may maintain MPF and MAPK level in vitrified/warmed MII eggs, and enhance fertilization and further embryonic development.

Throughout their meiotic maturation in most mammals, oocytes are arrested twice, prophase I and metaphase II. Being released from these arrests, transient or oscillation of intracellular Ca2+ concentration is observed in the ooplasm, which is not answered in relation to the specific role in the resumption of meiotic arrest. Recently, Ca2+/calmodulin-dependent protein kinase II (CaM KII) has been known as a Ca2+ oscillation decoder from the in vitro experiment. CaM KII is multifunctional serine/threonine kinase observed in most cells. Present studies were performed to investigate the role of CaM KII during resumption of meiotic arrest and activation in vitro of mouse oocytes. It was questioned whether CaM KII might be involved in the meiotic resumption of mouse oocytes. Compared to the control, both of CaM KII inhibitors, KN-93 and KN-62, significantly inhibited germinal vesicle breakdown (GVBD) of mouse oocytes in a dose-dependent manner. As the concentration of KN-93 increased, concomitant decrease of intracellular Ca2+ concentration ([Ca2+]i) was also observed using confocal laser scanning microscope (CLSM) and an intracellular Ca2+ indicator, fluo 3-AM. When GVBD oocytes were treated with 6% ethanol, small [Ca2+]i transient was observed in oocytes bathed with Ca2+-free medium and large increase was observed in oocytes bathed with Ca2+-containing medium, suggesting that [Ca2+]i transient could happen from intracellular Ca2+ store as well as Ca2+ influx through Ca2+-channel on the oolemma. However, KN-93 inhibited the [Ca2+]i transient of GVBD oocytes in both cases. Using monoclonal antibodies against α-subunit of CaM KII, tubulin and microtubule-assocaited proteins (MAPs), CaM KII has been colocalized on the spindle with tubulin and MAPs. The present study also demonstrated the presence of α-subunit of CaM KII in heart, kidney, testes, ovary as well as in brain of the mouse. In ovarian follicles, CaM KII was expressed in granulosa cells and oocytes. Based on overall the above results, followings are suggested. First, CaM KII might be involved in the regulatory mechanism of meiotic resumption. Second, CaM KII might play a regulatory role in the stabilization of microtubule.

Mature mammalian oocytes are ovulated at the metaphase II stage of meiosis and complete the cell cycle by fertilization with sperm. During fertilization sperm release an egg activation protein, pho-spholipase C zeta (PLCZ) into oocyte cytoplasm, PLCZ hydrolyze PIP2 into IP3 and DAG. The elevation of IP3 concentration induces Ca2+ release from endoplasmic reticulum (ER) by binding to the IP3 receptor (IP3R) on the membrane of ER. Recent studies have shown that sperm from patients lacking expression of PLCZ1 or expressing mutant forms of PLCZ1 fail to induce [Ca2+]i oscillations or oocyte activation. Purified recombinant human PLCZ1 (hPLCZ1) protein evaluated its [Ca2+]i oscillation activity in mouse and human oocytes. Here we investigated that produced mouse PLCZ-specific antibodyrecognized the PLCZ protein in mouse testes. PLCZ antibody was raised in rabbits against 19-mer sequence at the C-terminus (MENKWFLSMVRDDFKGGKI) of mouse PLCZ protein. Sperm were fixed in 3.7% paraformaldehyde followed by permeabilization. Sperm were incubated in 5% normal goat serum (NGS) and then incubated overnight with anti-mouse PLCZ. Peanut agglutinin (PNA)-lectin was used for detection of the acrosome. Mouse testes from 6~8 weeks old ICR mouse were fixed in 10% formalinand serial sectioned at 5~8um. Testes tissues were immunostained with anti PLCZ antibody and peanut agglutinin(PNA) for acrosome staining. Produced anti mouse PLCZ antibody recognized 74 kDa protein in western and PLCZ is localized to the post-acrosomal region of mouse sperm and to the equatorial region of bull sperm. Mouse PLCZ protein wasdetected on spermatocytes, spermatid, but not on spermatogonia in seminiferous tubules. Some residual bodies on sperm neck and tail showed strong signal of PLCZ, but this staining was still present with antigenic peptide pretreatment to reduce non specific antibody reaction. Also this antibody reacted with the apical region (arrowheads) of principal cells, where secretory vesicles accumulate on the epididymal tissue. But antigenic peptide pretreatment did not remove this apical region staining. This study presents PLCZ protein is localized on the post-acrosomal region or equatorial region of mouse and bull sperm head. Also PLCZ protein in mouse testes expressed from spermatocytes to mature sperm on later stage of spermatogenesis.