乳酸乳球菌冷冻保藏条件的研究

乳酸乳球菌能有效定植在人体肠道内,抑制有害菌的增殖,保护肠道,增强人体健康。但乳酸乳球菌在实际应用中的一大难题是难于保存其活性,尤其是冷冻保藏过程中。本实验通过单因素实验和正交实验确定最优保护剂组合为30%海藻糖,20%蔗糖,30%脱脂乳和10%甘油,使乳酸乳球菌的冷冻存活率达到91.96%。进一步研究不同的冷冻降温速率和解冻温度对乳酸乳球菌存活率的影响,发现降温速率在-20℃/min,解冻温度在0℃时,乳酸乳球菌的存活率最高,达93.14%。     

去甲基万古霉素菌种低温冷冻、冷干保藏条件优化及10 年菌种保藏效果

【目的】针对去甲基万古霉素产生菌不耐保藏的问题,改进菌种保藏方法,对超低温液氮保藏、-80°C低温冷冻保藏、冷干保藏方法跟踪考察10年保藏稳定性,评价不同保藏方法对去甲基万古霉素产生菌的保藏适用性。【方法】采用甘油作基础保护剂进行超低温液氮保藏和-80°C低温冷冻保藏,采用脱脂牛奶作基础保护剂进行冷干保藏,针对超低温液氮保藏进行降温速率考察,研究非渗透性冷冻保护剂海藻糖、聚乙烯吡咯烷酮(PVP)等对3种保藏方法的冻存影响,对优选出的保藏方法进行10年跟踪考察。【结果】3种保藏方法冻后菌种存活率依次为:-80°C低温冷冻保藏超低温液氮保藏冷干保藏。液氮保藏最适降温速率为快速冷冻。优选出最佳保护剂配方:超低温液氮保藏为甘油8.0%,海藻糖3.5%;-80°C低温冷冻保藏为甘油6.0%,PVP 5.0%;冷干保藏为脱脂牛奶,6.0%海藻糖。采用优化保藏条件,液氮保藏10年存活率稳定在70.6%,菌种发酵水平为入藏水平的92.9%。【结论】在优化条件下,尤以超低温液氮保藏适合于去甲基万古霉素产生菌长期保藏。     

冷风干燥制备高活菌的恶臭假单胞菌菌粉

【目的】获得高活菌恶臭假单胞菌菌粉,提高菌体干燥及保藏存活率。【方法】选用冷风干燥法制备活菌粉,并优化吸附载体与保护剂。【结果】冷风干燥制备恶臭假单胞菌菌粉干燥存活率普遍达到65%以上,显著优于喷雾干燥(24%);对载体与保护剂进行正交试验优化,确定了载体为混合的硅藻土和碱处理玉米芯粉,混合比为1:2,保护剂(质量比)为甘露醇7%、谷氨酸钠5%、甘油1%,制得菌粉活菌数为1.03×1011 CFU/g,室温保藏30 d和4 °C保藏60 d存活率分别达到40.54%和71.67%。【结论】冷风干燥温度相对较低(10?40 °C),对菌体损伤小,碱处理玉米芯粉、甘露醇和谷氨酸钠是提高菌粉保藏存活率的重要因子,此法克服了革兰氏阴性菌菌粉不易制备和不耐保藏的瓶颈。     

仙客来愈伤组织的超低温保存

为了避免连续继代造成仙客来愈伤组织的变异, 对仙客来愈伤组织进行了超低温冷冻保存研究。以继代后处于对数生长期的愈伤组织为实验材料, 首先在含有不同蔗糖浓度的培养基上预培养不同时间, 转至不同的冰冻保护剂中直接液氮冷冻或-20oC预冷冻2 h, 然后液氮超冷冻保存, 37oC水浴迅速解冻, 并用相应蔗糖浓度的液体培养基洗涤, 以中性红染色测定细胞的存活率, SPSS13.0软件进行统计学分析。结果表明: 预培养基中蔗糖浓度、预培养时间、降温方式、冷冻保护剂等对解冻后材料相对存活率存在不同程度的影响, 筛选出4%蔗糖浓度预培养3 d、9号保护剂、0oC停留30 min后直接冷冻为超低温保存的最佳方案, 通过简单的方法获得了较好的愈伤组织保存效果。     

仙客来愈伤组织的超低温保存

为了避免连续继代造成仙客来愈伤组织的变异, 对仙客来愈伤组织进行了超低温冷冻保存研究。以继代后处于对数生长期的愈伤组织为实验材料, 首先在含有不同蔗糖浓度的培养基上预培养不同时间, 转至不同的冰冻保护剂中直接液氮冷冻或-20oC预冷冻2 h, 然后液氮超冷冻保存, 37oC水浴迅速解冻, 并用相应蔗糖浓度的液体培养基洗涤, 以中性红染色测定细胞的存活率, SPSS13.0软件进行统计学分析。结果表明: 预培养基中蔗糖浓度、预培养时间、降温方式、冷冻保护剂等对解冻后材料相对存活率存在不同程度的影响, 筛选出4%蔗糖浓度预培养3 d、9号保护剂、0oC停留30 min后直接冷冻为超低温保存的最佳方案, 通过简单的方法获得了较好的愈伤组织保存效果。     

乙醇胁迫处理对酒酒球菌SD-2a生理特性的影响

为制备高效的葡萄酒乳酸菌发酵剂,以酒酒球菌SD-2a为试验材料,研究了5%、10%不同浓度的乙醇胁迫处理对菌体生长、细胞内MLE活性、冻干存活率及细胞膜脂肪酸组分的影响。试验结果表明乙醇胁迫处理明显降低了菌体的生长速率和生物产量。与对照相比,5%乙醇胁迫处理降低了菌体的冻干存活率,而10%乙醇处理却显著增加了菌体的冻干存活率。细胞膜脂肪酸组分的测定结果表明,前者细胞膜U/S比值为1.12,比对照降低了26.3%,而后者细胞膜U/S比值为2.29,比对照增加了50.6%。故认为酒酒球菌SD-2a为适应不同浓度的乙醇胁迫环境,在细胞膜脂肪酸水平上所采用的机制不同,且菌体的冻干存活率与其细胞膜脂肪酸组分密切相关。     

不同培养基对酒酒球菌SD-2a存活率及膜脂肪酸组分的影响

[目的] 为获得高效的葡萄酒乳酸菌发酵剂,本文研究了3种具有不同pH缓冲能力的培养基对酒酒球菌接种存活率、冻干存活率及细胞膜脂肪酸组分的影响.[方法]采用平板计数法测定菌体的接种存活率、冻干存活率;并采用GC/MS色谱方法测定收获菌体细胞膜脂肪酸组分.[结果]实验结果表明,没有添加苹果酸的ATB培养基,其pH缓冲能力弱.分别与FMATB和MATB培养基相比,ATB培养基培养获得的菌体,其接种模拟酒培养基后的存活率提高了20.3%和40.2%,其冷冻干燥存活率提高了48.5%和68.3%,其细胞膜中C19cyc11的相对含量提高了10.0%和36.8%,其细胞膜U/S值提高了20.4%和45.2%.[结论]本文推测ATB培养基培养所得菌体,由于自我酸胁迫反应,增强了其对葡萄酒胁迫因素及冷冻干燥的抗性,而该反应与菌体细胞膜脂肪酸组分的变化密切相关.故ATB培养基更适合于酒酒球菌SD-2a发酵剂的制备.     

螺旋藻的超低温保存法

【目的】建立螺旋藻藻种的超低温保存法,并探究该方法对不同种类螺旋藻藻种保存的适用性。【方法】采用碘量法筛选出耐低温螺旋藻藻株,通过单因素和正交试验设计对耐低温螺旋藻超低温保存法进行条件优化,并以优化后的超低温保存法对8株不同种类的螺旋藻进行保藏实验。【结果】FACHB-351为筛选出的耐低温螺旋藻藻株;优化后的超低温保存方案为:以10%蔗糖溶液做冷冻保护剂,将藻丝体密度为1.0×107 CFU/m L的藻悬液于4°C驯化72 h,再将藻液和保护剂分别在0°C预冷30 min后混匀,混匀后于0°C停留3 h,然后投入液氮保存。保藏实验结果表明,保藏6个月时除了耐低温性较差的FACHB-350、FACHB-1070、FACHB-902螺旋藻存活率为0,不能恢复生长繁殖,其它5种耐低温性较好的螺旋藻均能在一定时间内恢复正常的生长繁殖,其中FACHB-351的存活率最高,为39.33%。【结论】建立的超低温冷冻保存法可用于耐低温性较好的螺旋藻藻种的长期保存。     

瘤胃微生物RNA提取中样品前处理方法的优化

通过优化瘤胃液前处理方法,提高瘤胃微生物RNA提取数量与质量。试验优化4个前处理条件,共组合形成5个处理组。前处理完成后,利用Trizol进行RNA提取,检测RNA浓度和完整度(RIN)。结果显示,提取瘤胃内容物和瘤胃菌体RNA浓度和完整度的影响没有显著差异(P0.05)。液氮保存的样品提取的RNA浓度和完整度均显著(P0.05)高于RNA保护液保存的样品。解冻处理对RNA浓度的影响无显著差异(P0.05),但是不解冻处理提取的RNA完整度显著高于解冻处理(P0.05)。液氮冷冻研磨提取的RNA浓度(P0.05)显著高于常温研磨,但是对RNA完整度的影响没有显著差异(P0.05)。瘤胃内容物、液氮速冻、不解冻处理结合冷冻研磨方法所提取RNA的RIN值为9.43,完整度最高。瘤胃内容物、液氮速冻、解冻离心收集菌体结合冷冻研磨方法所提取的RNA浓度为1 048 ng/μL,为最高浓度。因此,瘤胃内容物直接液氮速冻并在不解冻条件下冷冻研磨,所提取的RNA效果最好,可用于后续宏转录组学试验。     

5种商业酵母对无花果酒质量的影响

为筛选出适合无花果酒发酵的菌株,选用五株商业酵母通过对发酵性能、理化指标、总酚、甲醇、感官评定进行比较分析。实验表明,菌株KD主发酵CO_2失重量为14.85 g,酒精度可达11.52%(V/V),透光率(96.7 T%)显著高于其它菌株(p0.05),总酸为3.55 g/L,酒中总酚含量为0.37 mg/L,甲醇含量为297.19 mg/L显著低于其它菌株(p0.05)。菌株KD发酵的无花果酒感官评分高于其它菌株发酵的酒,其风格独特,典型优雅。本试验通过从商业酵母中筛选出适合无花果酒发酵的优良酵母,可为无花果酒的生产提供理论依据。     

Optimal conditions for cryopreservation of primary chicken embryo kidney cells with dimethyl sulfoxide

Conditions were evaluated for optimum cryopreservation of primary chicken embryo kidney (CEK) cells. The recovery of viable CEK cells was best (50.8% viability) when the concentration of dimethyl sulfoxide (DMSO) in the freezing medium was 20% (v/v). The viability of primary CEK cells was not influenced by the concentration of calf serum in the freezing medium, the duration of storage at −70°C before storage in liquid nitrogen, cell concentration, or the method of addition or dilution of DMSO. Thawed cells recovered and grew in complete growth medium similarly to cells freshly isolated from kidney, and influenza viruses produced plaques in the monolayer. The cryopreservation procedures described here may facilitate maintenance of a standard stock of primary CEK cells for laboratories where preparation of primary CEK cells is not an option.     

Serum- and albumin-free cryopreservation of endothelial monolayers with a new solution

Cryopreservation is the only long-term storage option for the storage of vessels and vascular constructs. However, endothelial barrier function is almost completely lost after cryopreservation in most established cryopreservation solutions. We here aimed to improve endothelial function after cryopreservation using the 2D-model of porcine aortic endothelial cell monolayers.?The monolayers were cryopreserved in cell culture medium or cold storage solutions based on the 4°C vascular preservation solution TiProtec^®, all supplemented with 10% DMSO, using different temperature gradients. After short-term storage at ?80°C, monolayers were rapidly thawed and re-cultured in cell culture medium.?Thawing after cryopreservation in cell culture medium caused both immediate and delayed cell death, resulting in 11 ± 5% living cells after 24 h of re-culture. After cryopreservation in TiProtec and chloride-poor modifications thereof, the proportion of adherent viable cells was markedly increased compared to cryopreservation in cell culture medium (TiProtec: 38 ± 11%, modified TiProtec solutions ≥ 50%). Using these solutions, cells cryopreserved in a sub-confluent state were able to proliferate during re-culture. Mitochondrial fragmentation was observed in all solutions, but was partially reversible after cryopreservation in TiProtec and almost completely reversible in modified solutions within 3 h of re-culture. The superior protection of TiProtec and its modifications was apparent at all temperature gradients; however, best results were achieved with a cooling rate of ?1°C/min.?In conclusion, the use of TiProtec or modifications thereof as base solution for cryopreservation greatly improved cryopreservation results for endothelial monolayers in terms of survival and of monolayer and mitochondrial integrity.     

Susceptibility of human T cells, T-cell subsets, and B cells to cryopreservation

We have studied the number of viable and functionally active T and B lymphocytes obtainable after cryopreservation to determine the best and most practical way to recover the maximal number of viable and functionally active cells. Assays were done on purified populations of human T and B cells recovered after cryopreservation. The results were compared to those obtained from similar types of cells fractionated from fresh and from cryopreserved mononuclear cells. The number of viable T cells recovered after cryopreservation was significantly lower than the number of viable T cells obtained from either fresh or cryopreserved mononuclear cells. The residual viable T cells recovered after cryopreservation showed significantly reduced blastogenic activity in response to pokeweed mitogen (PWM) stimulation. This occurred despite their normal blastogenic response to phytohemagglutinin and their normal ability to help B cells in the production of immunoglobulins following PWM stimulation. The reduction in the blastogenic responses of these T cells to PWM stimulation is attributed to the loss of a portion of the PWM responding subset of T cells. The loss in this subset of T cells was related to the exposure of cells to ammonium chloride prior to cryopreservation. The viability and functional abilities of B cells were not affected regardless of whether purification was done before or after cryopreservation. These findings indicate that extrinsic membrane damage to T cells induced prior to cryopreservation can affect the viability and responsiveness of a certain population of normal T cells. The damage can be minimized by reversing the sequence of T-cell isolation and freezing so that isolation of T cells is done after, rather than before, freezing. These results could be important in the study of T cells from patients with T-cell abnormalities, since the patients' cells could have an intrinsic membrane defect which would make them sensitive to freezing similar to that induced by extrinsic damage.     

Evaluation of gilthead sea bream, Sparus aurata, sperm quality after cryopreservation in 5 ml macrotubes

Cryopreservation produces several types of damage in spermatozoa, leading to fertility impairment. The reduction arises both from a lower viability post-thaw and from sublethal dysfunctions in some of the surviving cells. In the present study, we have analysed the effect of cryopreservation in 5 ml macrotubes on the quality of post-thawed gilthead sea bream sperm. Several standard sperm quality parameters were determined: pH and osmolarity of seminal plasma, sperm concentration, and motility. An exhaustive determination of sperm quality before and after cryopreservation was investigated. Several parameters related with spermatozoal status were determined: ATP content, plasma membrane integrity and functionality, mitochondrial functionality, and sperm fertility. Our results demonstrated that gilthead sea bream spermatozoa suffer several types of damage after freezing/thawing. The percentage of viable cells slightly decreased after cryopreservation, however plasma membrane was affected by cryopreservation, since cells could not resist the hyperosmotic shock. Mitochondrial status was affected by cryopreservation since there was a decrease in the parameters of sperm motility, ATP content (3.17 nmol ATP/10(5) spermatozoa to 1.7 nmol ATP/10(5) spermatozoa in 1:20 frozen samples) and an increase of the percentage of cells with mitochondrial depolarized membranes (11% for fresh and 27% for 1:20 frozen samples). Fertility rate was similar either using fresh or frozen/thawed sperm (77 and 75% hatched larvae, respectively).     

A cryopreservation procedure for the rumen protozoon Entodinium caudatum: estimation of its viability by fluorescence microscopy

AIMS: To study the viability of a culture of the rumen protozoon Entodinium caudatum after a cryopreservation procedure by a fluorescence microscopy staining method. METHODS AND RESULTS: Fluorescence method is based on the different colour of cells depending on their membrane integrity. When the temperature effect was studied either by fluorescence or motility, the techniques were correlated (r = 0.727) and their slopes and intercepts were not different (P > 0.05). However, motility showed a higher variation coefficient (0.40 vs 0.12). There were no differences between cooling rates at cryopreservation (1 and 4 degrees C min-1) at 38, 15 or 5 degrees C, nor after thawing. CONCLUSIONS: Fluorescence staining is more accurate than motility for assessing protozoal viability. Viability after thawing was 0.50, and the number of viable cells per 250 microl straw was 320 and 420 for 1 and 4 degrees C min-1. SIGNIFICANCE AND IMPACT OF THE STUDY: This cryopreservation procedure seems to ensure culture recovery for E. caudatum.     

The thermodynamic principles of isochoric cryopreservation

The goal of this study is to introduce the fundamental thermodynamic principles of isochoric (constant volume) cryopreservation for low temperature preservation of biological materials. Traditionally, cryopreservation is performed in an isobaric process (constant pressure) at 1 atm, because this is our natural environment and it is most convenient experimentally. More than half a century of studies on cryopreservation shows that the major mechanism of damage during isobaric cryopreservation is the increase in intracellular ionic concentration during freezing, which presumably causes chemical damage to the components of cells. Cryoprotectants as well as hyperbaric pressures have been developed as methods to reduce the extent of chemical damage during freezing. The theoretical studies in this paper show that in isochoric cryopreservation, the increase in solution concentration during freezing is lower at each temperature by almost an order of magnitude from that in isobaric cryopreservation. This suggests that isochoric cryopreservation could be a preferential alternative to isobaric cryopreservation. The technology for isochoric cryopreservation is very simple; freezing in a constant volume chamber. Using a simple isochoric cryopreservation device, we confirm the theoretical thermodynamic predictions.     

Neuropeptides to replace serum in cryopreservation of mesenchymal stromal cells?

Background aimsThe therapeutic potential of human mesenchymal stromal cells (MSCs) has generated considerable interest in a wide variety of areas. MSC banking is feasible, but the optimal technique of cryopreservation remains to be determined.MethodsTo reduce dimethyl sulfoxide (DMSO) concentration in cryopreservation medium, DMSO was replaced with sucrose or trehalose. To increase cell survival and proliferation rates after thawing and to eliminate the need for fetal bovine serum (FBS), neuropeptides of the vasoactive intestinal peptide/glucose-dependent insulinotropic peptide/pituitary adenylate cyclase activating polypeptide family were added to the cryopreservation medium. Cell survival was analyzed by a trypan blue dye exclusion assay. Cell proliferation of cryopreserved MSCs was determined after 7 days of culture.ResultsNo significant differences in cell survival rates were detected between cryopreservation solutions with 5% and 10% DMSO, independently of the addition of trehalose or sucrose. Cell proliferation rates tended to be highest when MSCs were frozen in 5% DMSO + trehalose. FBS could be replaced by human albumin (HA) without loss in cell survival and proliferation potential. With FBS, the addition of neuropeptides could increase cell survival and proliferation rates. Without FBS or HA, cell survival and proliferation rates in the presence of neuropeptides were comparable to rates achieved with FBS or HA.ConclusionsClassic cryopreservation with 10% DMSO could be replaced by 5% DMSO + 30 mmol/L trehalose. FBS could be replaced by HA or neuropeptides without loss in cell survival and proliferation potential. The addition of neuropeptides in the cryopreservation medium containing FBS could increase the cell proliferation rate and consequently cellular output.     

Pigment recovery from encapsulated-dehydrated Vaccinium pahalae (ohelo) cryopreserved cells

Pigment producing in vitro cells of Vaccinium pahalae (ohelo) were tested for their ability to survive cryopreservation and retain pigment-production capacity after encapsulation-dehydration. Preculture of cells for 6 to 8 days in a medium containing 1.0 M sucrose was essential before dehydration. Reduction of bead water content before quenching in liquid nitrogen was highly correlated (r = 0.94) with increased survival rate in cells after cryopreservation. Dehydration of beads for 4 h was satisfactory for survival of cells. After quenching in liquid nitrogen, colored cells became pale, but pigment content was recovered once cells resumed growth. After three subcultures, cells regained their maximum capacity for pigment accumulation. The percentage of colored-to-total cell volume was not influenced by cryopreservation. Encapsulation-dehydration and cryopreservation did not diminish the capacity of cells to produce anthocyanins and other flavonoids. This revised version was published online in June 2006 with corrections to the Cover Date.     

花烛胚性悬浮细胞玻璃化超低温保存条件研究

为建立适宜的花烛(Anthurium andraeanum Lind. )胚性悬浮细胞玻璃化超低温保存技术,采用单因素实验方法对影响玻璃化超低温保存后细胞相对存活率的主要因素进行了研究.结果表明,经玻璃化超低温保存后花烛悬浮细胞的相对存活率与悬浮细胞的继代培养时间、渗透调节剂的种类和浓度及预培养时间、装载液种类和预处理时间、PVS2脱水时间以及超低温保存后的化冻温度均有一定的关系.继代培养3和5 d,细胞的相对存活率较高(约20%);分别以0.3、0.5、0.7 mol·L-1山梨醇和60、80、100、120 g·L-1蔗糖为渗透调节剂预培养0～4 d,以0.5 mol·L-1山梨醇预培养2 d的效果最好,细胞的相对存活率为26.2%;用体积分数25%PVS2预处理15 min,细胞的相对存活率最高(29.0%);分别用体积分数100%PVS2脱水0、5、10、15、20、25和30 min,其中脱水10 min的悬浮细胞相对存活率最高(32.1%);分别在10 ℃、20 ℃、30 ℃、40 ℃、50 ℃和60 ℃水浴条件下进行化冻处理,其中用40 ℃水浴化冻的悬浮细胞相对存活率最高(32.1%).花烛胚性悬浮细胞玻璃化超低温保存和化冻的适宜流程为:将继代培养3～5 d的胚性悬浮细胞团(直径2 mm)在含0.5 mol·L-1山梨醇的1/2MS液体培养基中预培养2 d后,于4 ℃条件下处理24 h,然后先用体积分数25%PVS2室温预处理15 min,再用体积分数100%PVS2 在0 ℃条件下脱水10 min,最后迅速投入液氮中冷冻保存;将经过冷冻保存的细胞置于40 ℃水浴中化冻3 min,用含1.2 mol·L-1蔗糖的1/2MS液体培养基洗涤3次(每次10 min),之后即可进行恢复培养.     

Cryopreservation of Bovine Ovarian Tissue: Structural Normality of Follicles after Thawing and Culturein Vitro

The recovery of viable follicles from cryopreserved ovarian tissue would be of benefit in many areas of assisted reproduction. Structural integrity needs to be maintained following cryopreservation of ovarian tissue in order to retrieve healthy follicles which can then be cultured in vitro to produce viable oocytes. We have assessed the effect of in vitro culture of bovine tissue for 0, 1, 4, 24, or 48 h after exposure to, or cryopreservation in, dimethylsulphoxide. Immediately after freezing, normality of primary and preantral follicles within the tissue was significantly lower than for tissue exposed to the cryoprotectant without freezing or for control tissue. After 4 h in culture, cryopreserved tissue appeared to have recovered from damage caused by freezing, although the percentage of tissue with normal morphology declined after 24 and 48 h of culture. There was no significant difference between percentage normality in control tissue and tissue exposed to the cryoprotectant without freezing for any of the culture times studied. These data indicate that it is possible to freeze/thaw bovine ovarian tissue while retaining a reasonable yield of morphologically intact follicles and that a short period of post-thaw culture may enhance follicle recovery.