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난포크기 및 난자직경과 관련된 한우 체외배양 난자의 핵성숙에 관한 연구
용환율,김현일,이은송,이병천,황우석,Yong, Hwan-yul,Kim, Hyun-il,Lee, Eun-song,Lee, Byeong-chun,Hwang, Woo-suk 대한수의학회 1996 大韓獸醫學會誌 Vol.36 No.4
The present study was undertaken to establish a relationship between bovine follicle size and oocyte diameter, compare the nuclear maturation competence of oocytes of different diameter groups and the nuclear maturation changes in Korean Native Cattle according to in vitro maturation period. To compare the relationship between follicle size and oocyte diameter, follicles were dissected, measured, and assigned to one of the following size categories($4{\geq}mm$, 3-4mm, 2-3mm, 1-2mm, and < 1mm), investigate the maturation competence in the different-sized oocytes, which were divided into three groups( < $110{\mu}m$, 110 - < $120{\mu}m$, and ${\geq}120{\mu}m$). Oocytes were cultured in the culture medium during 0, 6, 12, 18, and 24hrs, respectively, stained, and measured the nuclear maturation degree according to period. When compared the relationship between follicle size and intrafollicular oocyte diameter, oocyte diameters of three groups of ${\geq}3mm$ follicle-sized were significantly higher than < 3mm (p<0.01). After in vitro maturation, the rates reached to MI stage of < $110{\mu}m$ oocyte groups(25%) was higher than $110-120{\mu}m$ and ${\geq}120{\mu}m$ oocyte groups(11 and 10%) reached to the same stage(p<0.01), and the rates throughout MII stage of $110-120{\mu}m$ and ${\geq}120{\mu}m$ and < $110{\mu}m$(70 and 76%) groups were higher than < $110{\mu}m$(35%)(p<0.01). When nuclear maturation rates were measured according to period, < 6hr groups(7 and 10%) showed lower rates reached to MI than ${\geq}12hr$ groups(100%), 24hr groups(76%) revealed higher rates throughout MII than 18hr groups(40%). These results indicate that the preparation of oocyte for the production of in vitro fertilization embryos and nuclear transplantation ones could be adapted, as follicle increased up to appointed size there was a corresponding increase in oocyte diameter, and differences of nuclear maturation rate revealed according to oocyte diameter and maturation period.
U. Yong(용의중),D. Kim(김동환),H. Kim(김호중),D. G. Hwang(황동규),S. Cho(조성건),H. Nam(남효영),S. Kim(김세진),T. Y. Kim(김태영),U. Jeong(정운룡),K. Kim(김기훈),W. K. Chung(정완균),W. H. Yeo(여운홍),J. Jang(장진아) Korean Society for Precision Engineering 2021 한국정밀공학회 학술발표대회 논문집 Vol.2021 No.11월
Over the years, engineered heart tissue (EHT), composed of cardiac cells and a hydrogel, has been considered as a promising in-vitro cardiac model in that it can reproduce the physiological contractions of an actual animal heart. In particular, the contractile force of EHT is one of the representative factors to evaluate drug-induced cardiotoxicity that is a major cause of the withdrawal of drug development. Although there have been a lot of methods to monitor the contractile force of the EHT, most of them are based on optical readout systems that have to process a huge amount of image data. Recently, a strain gauge-based microphysiological system was developed to monitor the contractile force of a laminar cardiac tissue, which can acquire real-time data with a relatively small amount of data. However, the system can monitor only few layers of cardiomyocytes, which are physiologically less relevant environment compared to EHT. Here, we developed a hybrid bioprinted tissue platform, consisting of six bipillar-grafted strain gauges (BPSGs) and one wireless device, that enables online monitoring of the contractile forces from 6 different EHTs in real time during culturing. Furthermore, we confirmed that our system can detect the effects of commercially available drugs on EHTs.
혐기 혼합균주에서 황산염 농도변화에 따른 수소 발효 특성
황재훈(Jae Hoon Hwang),최정아(Jeong A Choi),이종학(Jong Hak Lee),정태영(Tae Young Jeong),차기철(Gi Cheol Cha),송호철(Ho Cheol Song),용보영(Bo Young Yong),김동진(Dong Jin Kim),전병훈(Byong Hun Jeon) 大韓環境工學會 2009 대한환경공학회지 Vol.31 No.6
황산염의 농도변화에 따른 연속 혐기성 수소 발효에 미치는 영향을 고찰하기 위해서 혼합균주를 사용한 완전 혼합형 반응조를 운전하였다. 기질은 글루코오스를 사용하였고, 수리학적 체류시간은 1, 0.5, 0.25 일로 각각 고정하였다. 황산염 농도는 0~20,000 mg/L로 단계별 증가시켰고 pH 5.5로 운전하였다. 실험 결과 높은 황산염 농도에 관계없이 수소가 발생하였고, HRT 0.25일로 짧아짐에 따라 수소 발생이 높게 나타났다. HRT 1, 0.5, 0.25일 각 조건별 수소 생성량과 수소 수율은 2.9, 4.6, 9.4 L/day, 2.0, 1.8, 1.6 mol H₂/mol glucose로 나타났으며, 잔존 황산염 96~98, 95~97, 94~97%로 나타나 황산염 환원이 발생하지 않았다. FISH 결과 모든 조건에서 수소생성균의 분포는 나타났지만 황산염환원균의 분포는 나타나지 않았다. The effect of varying sulfate concentration on continuous fermentative hydrogen production was studied using enriched mixed microflora in continuously fed reactor. Glucose was used as a model substrate for carbohydrates, and hydraulic retention time (HRT) was maintained at 1, 0.5, 0.25 day, respectively. Sulfate concentration was 0~20,000 mg/L and the operating pH was maintained at 5.5. The experimental results indicate that hydrogen production is not affected by high sulfate concentration and shorter HRT of 0.25 day enhance hydrogen production. At HRT 1, 0.5, 0.25 day, the hydrogen production rate and hydrogen yield were 2.6, 4.6, 9.4 L/day, and 2.0, 1.8, 1.6 mol H₂/mol glucose, respectively. Residual sulfate content was 96~98, 95~97, and 94~97% at HRT 1, 0.5, 0.25 day which show that no sulfate reduction occurred in the reactor during the experiments. Results of Fluorescence In Situ Hybridization (FISH) may indicate the presence of HPB (hydrogen producing bacteria) under all experimental conditions. However, SRB (sulfate reducing bacteria) were not found.