http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Culture of a Whole Porcine Liver Ex Situ without Red Blood Cells
( Jing Dong ),( Lingling Xia ),( Hefang Shen ),( Congwen Bian ),( Sujin Bao ),( Ming Zhang ),( Yan Dai ),( Yanhong Xu ),( Qiru Xiong ),( Jianjian Xu ),( Lili Xu ) 대한간학회 2018 춘·추계 학술대회 (KASL) Vol.2018 No.1
Aims: Liver transplantation is an effective approach to end-stage liver disease. Shortage of donor liver and increased waiting time for liver transplantation necessitate the development of an organ culture system by which livers can be cultured and maintained ex situ for a prolonged period of time. The aim of this work is to test whether cell culture condition in vitro could be used to culture whole livers ex situ without the use of erythrocytes. Methods: Eight castrated male land race/farm young porcine livers were exposed to 30 min warm ischemia and 30 min cold perfusion. Livers were isolated and connected to an ex situ liver culture system using a standard culture medium RPMI 1640 supplied with 10% of fetal calf serum and sufficient dissolved oxygen under a normothermic condition for 6 hours. Metabolic biomarkers, bile and urea production, hepatic cell viability, and histology analysis of biopsies were performed and analyzed. Results: Dissociated porcine hepatic cells survived and grew in vitro under the standard RPMI 1640 culture medium. When the same RPMI 1640 medium supplemented with 10% of FCS and sufficient oxygen was used to culture livers ex situ, over 98% of liver cells were viable for at least 6 hours during ex situ whole organ culture based on the results from biochemical assays. Conclusions: Our data demonstrate that the liver culture system established in this work can be used to culture whole livers ex situ in the absence of erythrocytes.
ChangbiaoWu,Lili Wu,Lingling Zhang,Ivan Gelbi,Lei Xu,Xiong Guana 한국응용곤충학회 2014 Journal of Asia-Pacific Entomology Vol.17 No.3
In eight fecal samples of 5 herbivorous animals from Fuzhou Zoo and Fuzhou Panda Center were found eightBacillus thuringiensis isolates. Obtained isolates were characterized by crystal microscopy, cry identification,and assay against the development of Eimeria tenella oocyst in chicken embryo. Bt WCB1, WCB2, WCB3 andWCB8, originated from horse, spotted deer, giant panda and lesser panda, respectively, all exhibited bipyramidaland cuboidal crystal and harbored the same cry genes, which were cry1Cb, cry1Db, cry1Fa, cry1Ib and cry2Ab. WCB7, a Bt isolate with bipyramidal crystal from zebra, showed a different cry pattern, cry1Cb, cry1Db, cry1Faand cry1Ia. BtWCB6, the third Bt isolate fromgiant panda, also contained bipyramidal crystal, however, harboredcry1Ib only. It was noted that Bt isolate WCB5 contained cuboidal crystal and harbored an unknown cry3 gene. It was very interesting that no cry genes were detected from Bt isolate WCB4 with dot-like crystal. Parasporalcrystal proteins of WCB3, WCB4 and WCB7 obviously inhibited the development of E. tenella oocyst in chickenembryo.
Cohesive Mechanism of the FeCr/Ni Interface: A First-Principles Study
Yong Tan,Haizhong Zheng,Guifa Li,Lingling Xiong,Ping Peng 대한금속·재료학회 2016 METALS AND MATERIALS International Vol.22 No.1
Based on previous experimental results, a series of FeCr/Ni interface models have been constructed and analyzed using a first-principles pseudopotential plane-wave method. Several parameters, such as the ideal work of separation (W), formation enthalpy (ΔH), cohesive energy (ΔE), and electronic structure were calculated in order to analyze the bonding performance and adhesion mechanisms of elements along an FeCr/Ni interface. The largest ideal work of separation was obtained for the Fe(100)/Ni(100) interface, which implies that this interface model presented the most stable structure among a series of crystal interface indices, e.g., (100), (110), and (111). With Cr doping, the W of the FeCr(100)/Ni(100) interface was increased by 101.571 mJ/m2. The corresponding ΔH and ΔE values also indicated that the FeCr(100)/Ni(100) interface model was strengthened by doping with chromium. Furthermore, the overlap population ratio, RLBOP (RLBOP= 1.04), of FeCr(100)/ Ni(100) was smaller than that of Fe(100)/Ni(100) (RLBOP = 1.35), which implies that the toughness of the Fe(100)/Ni(100) interface can be improved by the presence of chromium impurities. Moreover, electronic structure analysis provided an understanding of the mechanical performance of the various Fe(Cr)/Ni interface models. Thus, our findings open a potential avenue for the comprehensive study of composite material designs.
Yizao Wan,Jin Li,Zhiwei Yang,Haiyong Ao,Lingling Xiong,Honglin Luo 한국물리학회 2018 Current Applied Physics Vol.18 No.8
In this study, we report the construction of a ternary flexible nanocomposite of bacterial cellulose/graphene/polyaniline (BC/GE/PANI) via a facile two-step strategy. Bacterial cellulose/graphene (BC/GE) is first prepared by a novel in situ membrane-liquid-interface method, in which the three-dimensional continuous BC nanofibers can be maintained and the introduced GE can improve the mechanical properties mainly due to the uniform dispersion of GE in the BC matrix. To construct the effectively interconnected conductive paths between separated GE nanosheets, polyaniline (PANI) is simultaneously deposited on the surfaces of both BC nanofibers and GE nanosheets to obtain BC/GE/PANI with excellent electrical conductivity. It is found that the as-prepared BC/GE/PANI has an electrical conductivity of 1.7 ± 0.1 S cm−1, which is higher than most of PANI-based composites. It is believed that the BC/GE/PANI nanocomposite possesses great potential for applications in electromagnetic shielding and flexible electrodes.