20 resultados para major epitope on CII
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
鱼类胚胎由于其自身结构特征:体积大、含水量高、多室结构等,迄今超低温保存尚未成功。超低温保存过程中所造成的冷冻损伤是制约鱼类胚胎超低温保存成功与否的关键,具体表现为渗透压影响、抗冻剂毒性、冰晶损伤等。系统研究并阐明鱼类胚胎冷冻损伤机理,是成功建立鱼类胚胎超低温保存技术的基础。本论文主要针对胚胎对渗透压的耐受性、抗冻剂对胚胎的渗透性、降温速率对胚胎内外冰晶形成温度的影响等冷冻损伤机理进行了系统研究,主要研究结果如下: 1.通过检测胚胎在不同浓度人工海水(0%、25%、50%、75%、1×、2×、3×、4×,渗透压范围0~3740 mOsm/kg)中的孵化率,确定了真鲷不同发育时期胚胎对渗透压的耐受范围,以及心跳期胚胎浸泡不同时间对渗透压的耐受范围。结果显示:①真鲷2-4细胞期、原肠期、10-14体节期胚胎、心跳期和出膜前期胚胎孵化率>50%时渗透压的范围依次为:919~1391 mOsm/kg、919~1391 mOsm/kg、462 ~1391 mOsm/kg、232~1878 mOsm/kg和692~1391 mOsm/kg,表明心跳期胚胎对渗透压变化的耐受范围最广;②在不同浓度人工海水中分别浸泡10 min、30 min、1 h、5 h和10 h后,真鲷胚胎孵化率无显著变化的渗透压范围分别为0~2804 mOsm/kg、0~1878 mOsm/kg、232~1391 mOsm/kg、232~1391 mOsm/kg和919~1391 mOsm/kg;结果表明心跳期胚胎对渗透压的耐受范围随浸泡时间的延长而减小。 2.采用毛细管电泳技术检测胚胎内部DMSO的浓度,并且分析了胚胎孵化率和胚胎内部DMSO的浓度随浸泡时间变化与外部抗冻剂的关系。结果表明胚胎孵化率随胚胎外部抗冻剂溶液浓度和浸泡时间的增加而降低;胚胎内部DMSO浓度随胚胎外部抗冻剂溶液浓度和浸泡时间的增加而增加。对胚胎孵化率(y1)随抗冻剂溶液浓度(x)的变化进行一元三次多项式回归,当浸泡时间分别为10 min、30 min和60 min时,回归方程依次为:y1 = -2832.7x3 + 575.01x2 - 37.011x + 99.641(R2 = 0.9722);y1 = 30288x3 - 16322x2 + 2077.3x + 27.603(R2 = 0.9876);y1 = 16052x3 - 5985.2x2 - 32.696x + 119.6(R2 = 0.9124)。对胚胎内部DMSO浓度(y2)随抗冻剂溶液浓度(x)的变化进行回归,当浸泡时间分别为10 min、30 min和60 min时,回归方程依次为:y2 = 0.2584e6.7294x(R2 = 0.9876);y2 = 0.2521e10.964x(R2 = 0.9644);y2 = 0.4054e10.95x(R2 = 0.8954)。 3. 利用低温显微镜观察了不同降温速率(20、40、60、80、100、120℃/min)对胚胎内外冰晶形成温度的影响。胚胎外部冰晶形成温度(TEIF)随降温速率的增加显著下降,在降温速率大于80℃/min之后,TEIF随降温速率增加而降低的幅度减小;胚胎内部冰晶形成温度(TIIF)在降温速率小于80℃/min 时随降温速率的升高而降低,在降温速率大于80℃/min 时随降温速率的升高而升高;胚胎内外冰晶形成温度差值(TEIF - TIIF)在降温速率小于80℃/min时随降温速率的升高而增大,在降温速率大于80℃/min时随降温速率的升高而减小。 4. 在低温显微镜下观察了真鲷胚胎低温保存中有复活胚胎记录的保存方法在冷冻解冻过程中的冰晶形成过程,结果表明:①在冷冻过程中,玻璃化法冷冻的胚胎的内部冰晶形成温度(-53.70,-64.33℃)显著低于程序降温法(-17.51,-21.40℃);而且在玻璃化法冷冻的胚胎内部冰晶形成温度高于外部冰晶后形成(-70.30℃),程序降温法中则相反,胚胎内部冰晶形成温度显著低于外部冰晶形成温度(-4.93,-5.00℃);玻璃化法中,40%PG冷冻的胚胎外部溶液出现玻璃化现象,其他组均未出现;②在解冻过程中,各组均出现重结晶现象;解冻后,玻璃化法的胚胎完整率(62.82%)远高于程序降温法(9.21%)。
Resumo:
本文对真鲷心跳期胚胎对5种常用渗透性抗冻剂(DMSO、甘油、甲醇、丙二醇、乙二醇)和3种非渗透性抗冻剂(PVP、PEG-8000、蔗糖)的耐受性进行了研究。渗透性抗冻剂分6个浓度梯度(5%;10%;15%;20%;25%;30%)和3个时间组(10min;30min;1h)。非渗透性抗冻剂中,PVP、PEG-8000分3个浓度梯度(5%、10%、15%)和2个时间组(10min、30min),蔗糖为4个浓度梯度(5%、10%、15%、20%)和2个时间组(10min、30min)。实验结果表明,在渗透性抗冻剂组中,浓度为5%的处理组的孵化率(>90%)与对照组差异均不显著,随着抗冻剂浓度增大及处理时间的延长,真鲷心跳期胚胎的孵化率显著下降(P<0.05),在最高浓度的最长处理时间中胚胎孵化率均降到了0。总体上,真鲷心跳期胚胎对五种渗透性抗冻剂的耐受性从小到大依次为:甲醇 < 甘油 < 乙二醇 < DMSO < 丙二醇。对影响胚胎孵化率的三个因素(抗冻剂、浓度、时间)进行的因素效应分析结果表明,三种因素对孵化率的影响显著(P<0.05),并且浓度效应 > 时间效应 > 抗冻剂效应。在非渗透性抗冻剂组中,蔗糖组胚胎孵化率未呈显著变化;PVP组随着浓度及时间的增大,孵化率显著下降(P<0.05);PEG-8000组随着浓度增大孵化率显著下降(P<0.05),但在两个时间组间差异不显著。相同处理情况下PEG-8000对真鲷心跳期胚胎的毒性要小于PVP。因素效应分析比较结果表明仅时间效应不显著,且抗冻剂效应 > 浓度效应 > 时间效应。 对所用各种抗冻剂进行了渗透压测量,实验中使用的渗透性抗冻剂(5%-30%)的渗透压值在959-7980mOsm/kg之间,均高于使用海水的渗透压值(919mOsm/kg);使用的非渗透性抗冻剂的渗透压值在316-1040mOsm/kg之间,除20%蔗糖渗透压值(1040mOsm/kg)高于海水外,其他非渗透性抗冻剂的渗透压值均要低于海水。对孵化率与相应的溶液渗透压值进行相关回归分析结果表明,渗透性抗冻剂的渗透压与孵化率呈显著的负相关(P<0.05),而非渗透性抗冻剂的渗透压与孵化率相关不显著。渗透性抗冻剂组的回归分析结果表明,二次方程的曲线拟合度最高,得到的回归方程分别为:Y10min = -2×10-8X2 10min - 6×10-5 X 10min + 1.5635 (R2 = 0.713),Y30min= 5×10-8X2 30min-0.0007 X 30min + 2.097(R2 = 0.681),Y1h = 7×10-8X2 1h-0.0008 X 1h+ 2.0397(R2= 0.725)。 在真鲷胚胎对抗冻剂耐受性实验的基础上,挑选五种抗冻剂--10%DMSO、5%甘油、10%甲醇、20%丙二醇、10%乙二醇,浸泡真鲷心跳期胚胎30min后,分别以超速(130℃/min)、快速(20℃/min)、慢速(3℃/min)的速度降温并使用低温显微镜进行观察,依次记录Toif(油球结冰)、Teif(胚胎外部结冰)、Tiif(胚胎内部结冰)等结冰点,Toif值在-9~-23℃之间;Teif值在-21~-35℃之间;Tiif值在-21~-52℃之间。结冰顺序为先油球结冰,然后胚胎外部结冰随之内部马上瞬间变黑形成内部冰晶。随着降温速度的提高,各结冰温度值显著下降。各抗冻剂之间的Teif及Tiif值不同,Toif值之间没有显著差异。对两种玻璃化冷冻方法进行模拟观察,发现胚胎冰晶形成的顺序与非玻璃化过程不同--先内部结冰然后逐渐蔓延至外部形成外部冰晶,而且模拟玻璃化的内部结冰温度Tiif值(-52.56℃)显著(P<0.05)低于使用低浓度的同种抗冻剂超速降温组的Tiif值(-40.11℃)。在快速及慢速降温组中,20%丙二醇组的Tiif要显著的低于其他组(P<0.05);在超速降温中,甲醇组的Tiif值要显著的低于其他组(P<0.05)。在Tiif小于30℃的实验组中获得形态完整胚胎的比例平均仅有30.77%;在Tiif大于30℃的实验组中获得形态完整胚胎的平均比例高达70.37%,模拟玻璃化组达到100%。各抗冻剂之间,复温后胚胎形态完整率10%甲醇组最高(77.78%);其次依次为10%乙二醇(66.67%)、20%丙二醇(55.56%)和10%DMSO(55.56%);5%甘油组最低(11.11%);推测甲醇的对胚胎的渗透效果要好于其他组。综上推测:使用丙二醇、甲醇作为抗冻剂以及玻璃化冷冻保存方法对真鲷心跳期胚胎超低温保存也许较为合适。 我们对低温保存的真鲷精子核DNA损伤进行了研究以期为下一步胚胎遗传物质稳定性研究提供参考依据。研究方法为单细胞凝胶电泳(SCGE),针对研究对象,在实验过程中对传统的碱性单细胞凝胶电泳在铺胶方法、电泳条件等进行了改进。对精子细胞进行预处理,在碱性电泳液中使核DNA双链解链变性后电泳,EB染色lOmin后,在荧光显微镜下观察,每次随机观察50个左右的核DNA。结果表明,对荧光显微镜下观察到的精子核按彗尾长度及荧光强度划分等级,出现损伤的精子核DNA的损伤程度主要为轻度损伤和中度损伤,很少见有完全损伤的真鲷精子核。经5%、10%、18%、20%、25%、30%DMSO冷冻保存后的精子彗星率分别为33.47% ± 8.95%; 35.91% ± 19.44%; 48.95% ± 8.90%; 43.33% ± 11.19%; 55.80% ± 38.94%。鲜精彗星率为31.43 % ± 2.68%。对比真鲷冷冻精液与新鲜精液的精子DNA的损伤状况,表明仅用30% DMSO冷冻精子DNA损伤状况与鲜精差异显著(P<0.05)。 综上所述,渗透性抗冻剂对胚胎的毒性与其渗透压值呈显著的负相关关系。丙二醇对真鲷心跳期胚胎毒性最小,甲醇较其他抗冻剂能更好的渗透入胚胎;玻璃化方法能显著降低Tiif值并能更好的保持超低温保存后胚胎的形态完整性,因此,使用丙二醇、甲醇作为抗冻剂以及玻璃化冷冻保存方法对真鲷心跳期胚胎超低温保存也许较为合适。常规使用的用于超低温保存真鲷精子的DMSO(浓度<15%)不会对精子核物质稳定性造成明显影响。由于胚胎较精子结构要复杂许多,对于真鲷胚胎损伤机理的研究还有大量工作可以开展。
Resumo:
From St15 micro-carbon deep drawing steel sheets, two sets of samples with (r) over bar variant and Deltar constant, and (r) over bar constant and Deltar variant, were selected to carry out texture measurement and ODF analysis. A description of the texture characteristics and an investigation on the effect of the main textures on the (r) over bar and Deltar values were given. The results show that in the tested steel sheets no desired gamma < 111 > parallel to ND orientation line appears but gamma' orientation line located at <(
Resumo:
Low-cost photovoltaic energy conversion using conjugated polymers has achieved great improvement due to the invention of organic bulk heterojunction. in which the nanoscale phase separation of electron donor and acceptor favors realizing efficient charge separation and collection. We investigated the polymer photovoltaic cells using N, N'-bis(1-ethylpropyl)-3,4,9,10-perylene bis(tetracarboxyl diimide)/poly(3-hexyl thiophene) blend as an active layer. It is found that processing conditions for the blend films have major effects on its morphology and hence the energy conversion efficiency of the resulting devices. By optimizing the processing conditions, the sizes of donor/acceptor phase separation can be adjusted for realizing efficient charge separation and collection. The overall energy conversion efficiency of the photovoltaic cell processed with optimized conditions increases by nearly 40% compared to the normally spin-coated and annealed cell.
Resumo:
Noncompatibilized and compatibilized blends of nylon 1010/PP blends having five different viscosity ratios were prepared by melt extrusion. Glycidyl methacrylate-grafted-polypropylene (PP-g-GMA) was used as the compatibilizer to enbance the adhesion between the two polymers and to stabilize the blend morphology. The effect of the viscosity ratio on the morphology of nylon 1010/polypropylene blends was investigated, with primary attention to the phase-inversion behavior and the average particle size of the dispersed phase. The relationship between the mechanical properties and the phase-inversion composition was investigated as well. Investigation of the morphology of the blends by microscopy indicated that the smaller the viscosity ratio (eta(PP)/eta(PA)) the smaller was the polypropylene concentration at which the phase inversion took place and polypropylene became the continuous phase. The compatibilizer induced a sharp reduction of particle size, but did not have a major effect on the phase-inversion point. An improvement :in the mechanical properties was found when nylon 1010 provided the matrix phase. (C) 1996 John Wiley & Sons, Inc.
Resumo:
We measured methane (CH4) emissions in the Luanhaizi wetland, a typical alpine wetland on the Qinghai-Tibetan Plateau, China, during the plant growth season (early July to mid-September) in 2002. Our aim was to quantify the spatial and temporal variation of CH4 flux and to elucidate key factors in this variation. Static chamber measurements of CH4 flux were made in four vegetation zones along a gradient of water depth. There were three emergent-plant zones (Hippuris-dominated; Scirpus-dominated; and Carex-dominated) and one submerged-plant zone (Potamogeton-dominated). The smallest CH4 flux (seasonal mean = 33.1 mg CH4 m(-2) d(-1)) was, observed in the Potamogeton-dominated zone, which occupied about 74% of the total area of the wetland. The greatest CH4 flux (seasonal mean = 214 mg CH4 m(-2) d(-1)) was observed in the Hippuris-dominated zone, in the second-deepest water area. CH4 flux from three zones (excluding the Carex-dominated zone) showed a marked diurnal change and decreased dramatically under dark conditions. Light intensity had a major influence on the temporal variation in CH4 flux, at least in three of the zones. Methane fluxes from all zones increased during the growing season with increasing aboveground biomass. CH4 flux from the Scirpus-dominated zone was significantly lower than in the other emergent-plant zones despite the large biomass, because the root and rhizome intake ports for CH4 transport in the dominant species were distributed in shallower and more oxidative soil than occupied in the other zones. Spatial and temporal variation in CH4 flux from the alpine wetland was determined by the vegetation zone. Among the dominant species in each zone, there were variations in the density and biomass of shoots, gas-transport system, and root-rhizome architecture. The CH4 flux from a typical alpine wetland on the Qinghai-Tibetan Plateau was as high as those of other boreal and alpine wetlands. (C) 2004 Elsevier Ltd. All rights reserved.
Resumo:
Tangential flow affinity membrane cartridge (TFAMC) fs a new model of immunoadsorption therapy for hemoperfusion. Recombinant Protein A was immobilized on the membrane cartridge through Schiff base formation for extracorporeal IgG and immune complex removal from blood. Flow characteristics, immunoadsorption capacity and biocompatibility of protein A TFAMC were studied. The results showed that the pressure drop increased with the increasing flow rate of water, plasma and blood, demonstrating reliable strength of membrane at high now rare. The adsorption capacities of protein A TFAMC for IgG from human plasma and blood were measured. The cartridge with 139 mg protein A immobilized on the matrix (6 mg protein A/g dry matrix) adsorbed 553 mg IgG (23.8 mg IgG/g dry matrix) from human plasma and 499.4 mg IgG (21.5 mg IgG/g dry matrix) from human blood, respectively. The circulation time had a major influence on IgG adsorption capacity, but the flow rate had little influence. Experiments in vitro and in vivo confirmed that protein A TFAMC mainly adsorbed Ige and Little of other plasma proteins, and that blood cell damage was negligible. The extracorporeal circulation system is safe and reliable. Copyright (C) 1999 John Wiley & Sons, Ltd.
Resumo:
The objectives were to investigate the effect of cryoprotectants on the hatching rate of red seabream embryos. Heart-beat embryos were immersed in: five permeable cryoprotectants, dimethyl sulfoxide (DMSO), glycerol (Gly), methanol (MeOH), 1,2-propylene glycol (PG), and ethylene glycol (EG). in concentrations of 5-30% for 10, 30, or 60 min; and two non-permeable cryoprotectants: polyvinylpyrrolidone (PVP), and sucrose (in concentrations of 5-20% for 10 or 30 min). The embryos were then washed and incubated in filtered seawater until hatching occurred. The hatching rate of the embryos treated with permeable cryoprotectants decreased (P < 0.05) with increased concentration and duration of exposure. In addition, PG was the least toxic permeable cryoprotectant, followed by DMSO and EG, whereas Gly and MeOH were the most toxic. At a concentration of 15% and 30 min exposure, the hatching rate of the embryos immersed in PG was 93.3 +/- 7.0% (mean +/- S.D.), however. in DMSO. EG, Gly. and MeOH, it was 82.7 +/- 10.4, 22.0 +/- 5.7, 0.0 +/- 0.0, and 0.0 +/- 0.0%, respectively. Hatching rate of embryos treated with PVP decreased (P < 0.05) with the increase of concentration and exposure time, whereas for embryos treated with sucrose, there was no significant decrease in comparison with the control at the concentrations used. (C) 2008 Elsevier Inc. All rights reserved.
