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1.
4种渗透性抗冻剂对暗色唇鱼精子冷冻保存的影响 总被引:2,自引:0,他引:2
4℃冷冻保存条件下,以冷冻精子活力、寿命和细胞膜完整率为指标,检测二甲亚砜(DMSO)、甘油(Glycerol)、乙二醇(EG)和甲醇(MeOH)4种渗透性抗冻剂对暗色唇鱼(Semilabeo obscurus)鲜精以及对精子冷冻保存效果的影响.结果显示,4种渗透性抗冻剂对鲜精活力呈负作用,MeOH< EG< DMSO< Glycerol;抗冻剂对鲜精寿命呈负作用,MeOH< EG< DMSO和Glycerol;抗冻剂对鲜精细胞膜完整率呈负作用,MeOH< EG< DMSO< Glycerol.在鲜精活力为(36.17±4.06)%,寿命为(47.5±3.1)s,细胞膜完整率为(86.22 ±5.29)%时,经过短期冷冻保存,5% MeOH和5% EG解冻后暗色唇鱼精子活力最高,分别为(18.33±1.70)%和(17.83±2.67)%,与鲜精活力差异显著(P<0.05);5% MeOH和5% EG解冻后精子寿命最长,分别为(44.3±3.6)s和(42.8±5.5)s,5%MeOH解冻后精子寿命与鲜精寿命差异不显著(P>0.05);5% MeOH解冻后精子细胞膜完整率最高,为(85.67±1.11)%,与鲜精细胞膜完整率无显著差异(P>0.05).研究表明,DMSO和Glycerol并不适合作为暗色唇鱼精子冷冻的抗冻剂,MeOH和EG具有相似的保护作用,是暗色唇鱼精子冷冻保存潜在的渗透性抗冻剂. 相似文献
2.
《水产学报》2014,(10)
为建立条纹锯鮨精液超低温冷冻保存方法,实验采用计算机辅助精子分析系统(CASA)分析了采用6种抗冻保护剂(GLY[甘油]、DMSO[二甲基亚砜]、PG[丙二醇]、EG[乙二醇]、METH[甲醇]、DMA[二甲基乙酰胺])在4种浓度(5%、10%、15%、20%,v/v)下对条纹锯鮨精液的冷冻保存效果。结果发现,以HBSS为稀释液,采用程序降温仪分步降温冷冻保存条纹锯鮨精液,37℃水浴解冻后的精子中,15%PG作为抗冻保护剂的精子运动率最高,达到(93.1±0.9)%,与鲜精差异不显著(P0.05),15%PG作为抗冻保护剂的精子水浴解冻后精子的运动速度最高,平均直线速度、平均曲线速度、平均路径速度分别达到了(88.3±0.3)μm/s、(76.2±0.5)μm/s、(86.7±0.7)μm/s,与鲜精差异不显著(P0.05)。在不同种类及不同浓度抗冻保护剂保护下,15%PG作为抗冻保护剂的精子解冻后1 min内运动率变化与鲜精差异不显著(P0.05)。研究表明,15%PG为条纹锯鮨最佳抗冻保护剂,可用于条纹锯鮨精液的超低温冷冻保存。 相似文献
3.
为研究适用于乌克兰鳞鲤精子的超低温冷冻保存方法,分析比较3种稀释液[Hank′s、Cortland、Freezefish冻精稀释液,精子与每种稀释液均设置3种比例(1∶1、1∶3、1∶5)]及3种体积分数为10%的抗冻剂(二甲基亚砜、1,2-丙二醇和丙三醇)对乌克兰鳞鲤精子低温(4 ℃)保存活力的影响;运用筛选出的冷冻保护液及稀释比例,分析比较3种“3步冷冻法”以及3种解冻温度(20、30、40 ℃)对乌克兰鳞鲤精子活力的影响。试验结果表明,采用Hank′s作为稀释液,10%二甲基亚砜为抗冻剂,精子与稀释液比例为1∶3,平均降温速率为12 ℃/min,解冻温度为30 ℃时,精子活力最高(>68%)。通过对稀释液、抗冻剂、稀释比例、降温速率和解冻温度的层层筛选,建立了适宜乌克兰鳞鲤精子超低温冷冻保存的方法,在其种质保护方面具有重要意义,为开展其他鱼类精子超低温冷冻保存提供参考。 相似文献
4.
中间球海胆精子的超低温保存技术 总被引:1,自引:2,他引:1
20 0 0年 10~ 11月 ,对大连龙王塘海区成熟的中间球海胆 (Strongylocentrotusintermedius)精子进行超低温保存研究。结果表明 :不同的抗冻保护剂 ,不同的体积分数 ,不同的冷冻方式 ,精子冻存的效果不同。以自然海水为基础溶液 ,以 12 %的二甲亚砜或 9%的甘油作为抗冻保护剂 ,稀释精液至 8× 10 7~ 11× 10 7个 /ml,距液氮表面 10cm处预冷 8min ,再浸入液氮中保存 ,解冻时直接移出液氮于 17~ 18℃自来水流水解冻 ,精子存活率分别是 95 % ,90 % ;受精率分别为 94 0 % ,86 5 %。 相似文献
5.
日本黄姑鱼精子生理特性及超低温冷冻保存研究 总被引:5,自引:1,他引:4
对日本黄姑鱼精子部分生理特性及其超低温冷冻保存技术进行了研究。结果表明,日本黄姑鱼精液pH值为7.0~7.5,精子密度为(11.23±2.78)×109/m l,精子寿命(229.33±17.16)s。在盐度为30~35,pH为7.5~8.5时,精子的活力最高,分别达到(88.33±2.89)%和(88±4.33)%。精子在室温(25℃)条件下,可存活24 h;在低温(4℃)条件下可以存活36 h。以D液作为稀释液,20%的乙二醇作为抗冻剂,利用快速降温法对精子进行超低温冷冻保存,38℃水浴快速解冻,解冻后的精子获得最高的活力为(47±5.78)%。 相似文献
6.
为建立圆口铜鱼(Coreius guichenoti)精子超低温冷冻保存方法,采用计算机辅助精子分析系统(CASA)评价了4种稀释液(D15、D20、L1、D1), 3种抗冻保护剂[二甲基甲酰胺(DMF)、二甲基亚砜(DMSO)、甲醇(METH)]在3种体积浓度(7.5%、10%、12.5%, V/V)下对圆口铜鱼精液的冷冻保存效果,并比较了150 mOsm/kg NaCl与超纯水作为激活剂对精子活力的影响。结果表明,D1组稀释液的精子活率(MOT)最高,为(74.64±13.17)%,与鲜精无显著差异(P0.05);以10%甲醇作为抗冻保护剂的圆口铜鱼精子经超纯水激活后,测得MOT最高,达到(78.11±14.74)%,与鲜精无显著差异(P0.05),精子运动速度达最大,平均曲线运动速度(VCL)、平均直线运动速度(VSL)、VAP(平均路径运动速度)分别达到(50.28±12.46)μm/s、(35.06±10.82)μm/s、(39.44±12.46)μm/s,精子快速运动时间和寿命分别为(8.67±1.15) s、(33.33±5.00) s,显著低于鲜精(P0.05); 7.5%甲醇组和7.5%二甲基甲酰胺组的MOT次之,分别为(77.71±17.74)%、(76.42±12.49)%,抗冻剂二甲基亚砜组的MOT显著低于甲醇组、二甲基甲酰胺组(P0.05)。12.5%的3种抗冻保护剂中,几乎无精子存活;在不同种类不同浓度的抗冻剂保护下,10%甲醇组,相较于使用超纯水激活,用150 mOsm/kg NaCl激活后的精子活率和寿命更高,说明Na~+有延长冻精寿命,提高精子活率的作用。研究表明, D1+10%METH (7.8 g/L NaCl+0.5 g/L KCl+15 g/L葡萄糖+10%METH)可用于圆口铜鱼精液超低温冷冻保存,为圆口铜鱼的繁育工作和种质资源保护奠定了基础。 相似文献
7.
8.
鱼类胚胎冷冻保存前几个因子对其成活率影响的研究 总被引:6,自引:0,他引:6
1.稀释液渗透压升高是影响胚胎成活的主要因素,在达到480mOsm/L时胚胎全部死亡。2.在室温和0℃条件下几种抗冻剂对胚胎的极限浓度分别为二甲亚砜16%和20%,甘油4%和5%,乙二醇12%和12%,甲醇0℃下为20%。3.原肠期以前的胚胎为敏感期胚胎,不宜进行低温冷冻保存。4.冻前处理超过180分钟后胚胎出现畸形变化。 相似文献
9.
分别以生理盐水、柠檬酸钠-甘氨酸液、海水、KCl-NaCl溶液、Hank’s液、D-Hank’s液为稀释液,不同浓度二甲基亚砜(dimethylsulfoxide,DMSO)及海藻糖为抗冻剂,研究超低温冷冻保存香港牡蛎(Crassostrea hongkongensis)精子方法及不同浓度含氨海水对复苏精子的激活效果,以筛选出最适宜精子冷冻保存的稀释液和抗冻剂及其浓度。结果显示,柠檬酸钠-甘氨酸液为稀释液复苏后精子成活率最高,为(82.90%±0.19%);其次是生理盐水(77.57%±0.49%)、D-Hank’s液(72.22%±0.36%)、Hank’s液(70.00%±0.28%)。氨海水终浓度为0.0313%时,复苏后精子活力最强,柠檬酸钠-甘氨酸溶液为稀释液精子活力为(61.25%±3.06%),生理盐水为稀释液精子活力为(68.70%±0.74%)。以生理盐水为稀释液、DMSO浓度为14%冷冻保存时,复苏精子存活率最高,含海藻糖精子存活率为(86.91%±3.14%),不含海藻糖精子存活率为(81.81%±3.68%),以柠檬酸钠-甘氨酸液为稀释液、DMSO浓度为12%时,复苏后精子存活率最高,含海藻糖的为(79.62%±1.95%),不含海藻糖的为(70.58%±2.41%)。 相似文献
10.
鲤、鲢、鳙精子低温短期保存研究 总被引:8,自引:0,他引:8
本文对鲤(Cygrinus carpio)、鲢(Hypophthalmichthys molitrix)和鳙(Aristichthys nobilis)精液在2—4℃的短期保存进行了实验研究。筛选出了几种较为理想的稀释保护液配方;确定了精液与稀释液的适宜稀释比例为1:1;研究了抗冻剂二甲亚砜(DMSO)对低温保存条件下精于活力的影响,确定了DMSO的适宜添加浓度为6%左右。鲤精在2—4℃保存10天,活力仍高达70%,少数精子存活时间长达12天;鲢和鳙精子在2—4℃保存7天后活力仍高达60%,达到了生产应用的水平。为水产养殖和鱼类育种研究提供了一种简便易行的精液短期保存技术。 相似文献
11.
The effect of six cryoprotectants was investigated on the cryopreservation of African catfish Clarias gariepinus (Burchell) sperm. Fructose (6%) solution buffered with NaHCO3‐CO2 was used as the diluent in the experiments. Glycerol (5–11%), ethylene glycol, methanol and propylene glycol (5–15%) and, finally, dimethyl sulphoxide (DMSO) and dimethylacetamide (DMA) (10%) were tested using various equilibration times (2–30 min). Sperm was frozen in 250‐μL straws in a programmable freezer (Cryocell‐15, BLS, Hungary) from 3 °C to ?4 °C at 4 °C/min and from ?4 °C to ?80°C at 11 °C/min. Thawing was carried out in a 40 °C water bath for 5 s. Fertilization and hatching trials were performed only with DMSO and DMA using 200 and 100 μL of diluted sperm (100 and 50 μL of pure sperm) and the dry and the wet fertilization methods. Ethylene glycol, glycerol, methanol and propylene glycol yielded poor results. An average post‐thaw motility rate of 44.0 ± 9.7% and 22.6 ± 18.1% was achieved after 10 min equilibration using DMSO and DMA respectively. Highest average fertilization (86.8 ± 3.1%) and hatching (67.1 ± 11.9%) rates were achieved with DMA and DMSO, respectively, 200 μL of diluted sperm and the wet fertilization technique. The use of cryoprotectants increased the percentage of malformed larvae compared with the control groups. We found that DMA at a 10% concentration was equally as suitable for the cryopreservation of African catfish sperm as DMSO. 相似文献
12.
半滑舌鳎精子冷冻保存对于人工繁殖育苗、杂交育种、雌核发育及其性别控制研究具有重要的意义,为此,本文对半滑舌鳎精子冷冻保存方法进行了研究。分别利用2.8mol/L的二甲基亚砜(DMSO)、甘油(Gly)和1,2-丙二醇(PG)冷冻保存该鱼精子。结果显示,DMSO冷冻保存精子的活力较高。利用MPRS+2.8mol/L DMSO以1:0.5、1:1、1:1.5和1:2的比例稀释并冷冻精子,1:1比例在冻前能够抑制精子的运动,冻后活力可达82.50±3.54%,显著高于其他稀释比例(P〈0.05)。分别利用冷冻保存液A(MPRS+2.8mol/L DMSO)和B(TS-2+2.8mol/LDMSO)稀释平衡精子,精子在A中的冻前快速运动时间、寿命分别为37.75±6.45S和145.00±78.98S,与鲜精无显著差异(P〉0.05)。利用以上两种冷冻稀释液冷冻保存精子,精子在A液中的冻后活力和寿命分别可达53.50±6.69%和98.00±13.51s,冷冻效果优于B液(P〈0.05)。冷冻后精子的受精率和孵化率分别为55.00±5.00%和35.00±13.23%,受精率与鲜精无显著性差异(P〉0.05),因此认为MPRS+2.8mol/L DMSO可用于半滑舌鳎精子的冷冻保存。 相似文献
13.
To develop a suitable cryopreservation diluent for spermatozoa of the endangered Sakhalin taimen Hucho perryi, all possible combinations of cryoprotectants (glycerol, dimethyl sulfoxide [DMSO], methanol) and extenders (fetal bovine
serum [FBS], 300 mM glucose solution [GS], artificial seminal plasma for masu salmon) were examined by observing sperm motility
10 s after thawing. Spermatozoa cryopreserved with diluents such as mixtures of 10% glycerol plus 90% FBS, 10% DMSO plus 90%
FBS, and 10% methanol plus 90% GS showed the highest motility. The maximal post-thaw motility was observed at 10% among all
concentrations (0, 5, 10, 15 and 20%) of these three cryoprotectants. No significant difference among three diluents was observed
in motility at 10 s. Mixtures of 10% glycerol plus 90% FBS, 10% DMSO plus 90% FBS, and 10% methanol plus 90% GS are suitable
cryopreservation diluents for Sakhalin taimen spermatozoa. 相似文献
14.
Sperm were collected in Florida from wild common snook, Centropomus undecimalis (Bloch), and were shipped to Louisiana State University for analysis and cryopreservation. Threshold activation of sperm (10% motility) occurred at 370 mOsmol kg?1, and complete activation occurred at 680 mOsmol kg?1. These values were significantly different. Sperm samples stored at 1°C in Hanks' balanced salt solution (HBSS) or in 0.6% NaCl solution at 200 mOsmol kg?1 retained motility for as long as 22 days. Mean motility remained above 50% for 9 days for sperm stored in HBSS and for 7 days for sperm stored in NaCl solution. Sperm exposed to 5% dimethyl acetamide (62±10%; mean±SD), 10% dimethyl sulphoxide (DMSO) (39±16%), 5% glycerol (26±5%) or 10% glycerol (6±2%) for 30 min had significantly lower motility than did unexposed sperm (89±9%). When used as a cryoprotectant, samples frozen with 5% or 10% DMSO or 5% methanol had significantly higher post‐thaw motility than did samples frozen with other cryoprotectants. Sperm cryopreserved with 10% DMSO (38±12%) had significantly higher post‐thaw motility than did sperm cryopreserved with 15% DMSO (19±10%) or 20% DMSO (4±4%). There were no significant differences in hatch rates of eggs fertilized with fresh sperm (54±29%) or cryopreserved sperm (41±35%). Survival to first feeding was not different between fish produced with fresh sperm (37±30%; range, 0–86%) or with thawed sperm (24±29%; 0–77%). Transport of sperm to a cryopreservation laboratory and back to a hatchery for thawing and use enabled collaboration between groups with specific expertise and provides a model for the application of cryopreservation by transport of fresh and frozen samples. 相似文献
15.
Sperm cryopreservation of silver barb (Barbodes gonionotus): cryoprotectants,cooling rate and storage time on sperm quality 
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下载免费PDF全文 Verapong Vuthiphandchai Kanokporn Wilairattanadilok Sumate Chomphuthawach Treerat Sooksawat Subuntith Nimrat 《Aquaculture Research》2015,46(10):2443-2451
Effectiveness and efficiency of frozen sperm on fertilization and hatching success of eggs from silver barb was examined in relation to cryoprotectants, freezing rate and storage period. Sperm was diluted in calcium‐free Hank's balanced salt solution, equilibrated with dimethylsulphoxide (DMSO), propylene glycol, sucrose or methanol at 5%, 10%, 15% or 20% final concentrations, and frozen in 250‐μL straws using a one‐step freezing procedure (1, 5 and 8°C min?1 from 25 to ?40°C). Highest post‐thaw sperm motility was found from a treatment using 10% DMSO and 5°C min?1 (82.2 ± 2.1%), similar to that of 10% DMSO and 8°C min?1 (87.8 ± 3.2%). Post‐thaw motility of sperm frozen at 5 or 8°C min?1 was significantly higher than 1°C min?1. Relative sperm motility declined significantly after 10 months of cryostorage while viability did not change during a 12‐month cryostorage. Average fertilization rates of sperm after 1 and 4 months of storage were 64.5 ± 4.6% and 61.3 ± 3.4%, respectively, similar to those of fresh sperm (69.6–72.3%). Hatching rates of cryopreserved sperm (45.4–51.2%) were similar to those of fresh sperm (51.8–57.8%). This study developed suitable methods for cryopreservation of silver barb sperm that can be used to facilitate hatchery operation. 相似文献
16.
Ana T M Viveiros Thiciana B Amaral Laura H Orfão Ziara A Isaú Danilo Caneppele Marcelo C Leal 《Aquaculture Research》2011,42(6):858-865
The aim of this study was to test the effects of cryoprotectants [dimethyl sulphoxide (DMSO) and methylglycol], extenders (0.9% NaCl, 5% glucose, Beltsville Thawing Solution? and Merck III?), thawing temperatures (30 and 60 °C) and activating agents (0.29% NaCl and 1% NaHCO3) on the cryopreservation process of tiete tetra Brycon insignis sperm. Sperm was loaded in 0.5 mL straws, frozen in nitrogen vapour at ?170 °C and stored in liquid nitrogen. Post‐thaw sperm quality was evaluated in terms of subjective motility rate, quality motility score (0=no movement; 5=rapidly swimming spermatozoa), duration of motility and vitality (eosin–nigrosin staining). Post‐thaw sperm motility rate was greater in methylglycol (76–88%), compared with DMSO (23–59%). In general, the highest quality motility scores were observed when sperm was thawed at 30 °C and triggered in 1% NaHCO3 (3.5–4.3). Duration of motility was longer when triggered in 1% NaHCO3 (95–120 s) compared with 0.29% NaCl (69–107 s). Sperm vitality was not affected by any of the parameters tested and varied from 51% to 69% intact sperm. Brycon insignis sperm frozen in methylglycol combined with any of the extenders tested and using the methods described above yields motility above 57% and that should last long enough to fertilize oocytes. 相似文献
17.
Jianlin Pan Shuyan Ding Jiachun Ge Weihui Yan Chen Hao Jianxiu Chen Yahong Huang 《Aquaculture (Amsterdam, Netherlands)》2008,279(1-4):173-176
Yellow catfish (Pelteobagrus fulvidraco) is a candidate freshwater fish for aquaculture in China with its high consumer demand. The aim of this study was to examine the possibility of storage of the sperm of yellow catfish by cryopreservation in liquid nitrogen. Experiments were designed to investigate the effects of the different combinations of three extenders (Ringer extender, Kurokura-1 extender and D-15 extender) and three cryoprotectants (DMSO, Glycerol and Methanol) on the cryopreservation of yellow catfish sperm. Post-thaw sperm motility, fertilization and hatching rate were detected to evaluate the reliability of sperm cryopreservation. The results demonstrated that Ringer extender and 10% methanol was the best combination for protecting the sperm during freezing in liquid nitrogen by a three-step method and thawing in a water bath at 37 °C for 60 s. In this combination for cryopreservation, sperm maintained the highest post-thaw motility (65 ± 5%), fertilization (90.47 ± 3.67%) and hatching rate (88 ± 4%). And more interestingly, the fertilization and hatching rate were similar to those of fresh sperm (97.55 ± 2.74% and 92 ± 5%). Successful sperm cryopreservation techniques for yellow catfish have been developed for hatchery purpose. 相似文献
18.
Beata Sarosiek Sylwia Judycka Dariusz Kucharczyk Daniel Żarski Radosław K. Kowalski 《Aquaculture International》2014,22(1):167-172
The addition of cryoprotectants during the freezing of semen in liquid nitrogen protects spermatozoa from the negative influence of freezing. Every species needs an appropriate cryoprotectant that has to be experimentally selected. Semen obtained from five perches was diluted with the Kobayashi buffer solution at 1:9 ratio. To determine the influence of cryoprotectants on spermatozoa motility parameters, the same type of buffer solution was applied with the addition of methanol, dimethyl sulfoxide (DMSO) and dimethylacetamide (DMA) using the concentration of 10, 5, 2.5 %, respectively, glycerol (15; 7.5 %), sucrose and trehalose (0.45; 0.225; 0.113 M). After the preparation of such tests, parameters of spermatozoa motility were measured, using the CASA system (Image House CRISMAS Company Ltd.). Among used cryoprotectants, methanol did not cause any effect on the sperm motility parameters. The lowest percentage concentrations of DMA, DMSO, glycerol, sucrose and trehalose did not significantly influence the percentage of motile spermatozoa. Higher concentrations of these compounds considerably lowered all motility parameters. As for glycerol and saccharides, their addition resulted in the lowering of the spermatozoa motility possibly due to a higher viscosity of the solution. However, DMA and DMSO were most probably toxic to perch sperm cells. The obtained results indicate that the best cryoprotectant to be used with perch spermatozoa is methanol. 相似文献
19.
Fertilizing capacity and motility of tench Tinca tinca (L., 1758) sperm following cryopreservation 下载免费PDF全文
下载免费PDF全文 Jelena Lujić Gergely Bernáth Zoran Marinović Nataša Radojković Vladica Simić Miroslav Ćirković Béla Urbányi Ákos Horváth 《Aquaculture Research》2017,48(1):102-110
Experiments were carried out to develop an optimal cryopreservation protocol for tench sperm by testing the fertilizing capacity and motility parameters including progressive motility, curvilinear velocity (VCL) and linearity (LIN) of cryopreserved sperm. Three experiments were designed to this aim: first experiment where we tested the effects of two extenders (sugar‐based Grayling and ion‐based Kurokura 180) and two cryoprotectants (DMSO and methanol) on fertilization and hatching success; second where we tested the effect of cryoprotectant type (methanol or DMSO) in different concentrations (5%, 10% and 15%) on fertilization and hatching success; and third where we tested the effect of two cryoprotectants (methanol and DMSO) on sperm motility parameters (progressive motility, VCL and LIN) after 4 h post‐thaw storage (4°C). Sperm prepared with the sugar‐based Grayling extender displayed better fertilization and hatching rates independently of the applied cryoprotectant most likely due to glucose present which acted as an external cryoprotectant. Concerning cryoprotectant concentrations, the use of 10% methanol yielded the highest fertilization (85 ± 15%) and hatching (80 ± 13%) rates, which were significantly higher than in all other groups. During the post‐thaw storage time, 5% methanol, 10% methanol and 5% DMSO groups had significantly higher motility parameters than other groups and we observed no significant decline in any of the parameters during the storage time. Overall, we found that a sugar‐based extender in combination with methanol as cryoprotectant is suitable for the cryopreservation of tench sperm and allows storage of cryopreserved sperm for up to 4 h post thaw. 相似文献