拟南芥悬浮细胞系的玻璃化法超低温保存

悬浮培养细胞系是植物生理生化研究的好材料之一。为了保持细胞系的遗传稳定性,需要采用超低温保存技术。玻璃化法是一种不用程序降温仪的超低温保存技术。本文报道了从模式植物拟南芥建立悬浮细胞系并对其进行玻璃化法超低温研究。细胞经过合理的预培养处理和保护剂处理,直接投入液氮贮存。复温后的细胞能恢复生长,恢复生长的细胞保持着植株再生能力。国外,拟南芥悬浮细胞系的程序降温法保存和包埋脱水法保存已经报道,玻璃化法保存尚未见报道。     

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.     

玻璃化法超低温保存蛇莓茎尖

本文采用玻璃化法对蛇莓离体茎尖超低温保存进行了初步探讨。研究了低温锻炼时间、预培养时间、预处理时间、玻璃化液处理时间和液氮保存时间对超低温保存后成活率的影响。经优化,蛇莓的最高成活率可达（42.00±2.74）%。     

长鞭红景天悬浮培养细胞的玻璃化法超低温保存研究

对长鞭红景天悬浮培养细胞的玻璃化法超低温保存进行了初步研究.结果表明,预培养、预处理、脱水处理及冻后处理对长鞭红景天悬浮培养细胞存活率均有重要影响,方差分析结果均显示差异显著.长鞭红景天悬浮培养细胞过程中最佳培养条件是:在含5%二甲基亚砜(DMSO)的MS培养基上预培养1 h,室温下80%PVS2预处理40 min,然后用100%PVS2于0℃处理50 min,投入液氮(LN)保存1 h后在40℃水浴中迅速化冻,再用1.2 mol/L蔗糖培养液洗涤3次,每次10 min,洗涤后的悬浮培养细胞用氯化三苯四氮唑(TTC)法检测,其存活率可达72.70%.     

水稻悬浮细胞的超低温保存研究

本研究分析了水稻悬浮细胞的生理状态和各种冷冻前处理等因素对超低温保存后细胞存活率的影响。结果表明,继代后培养3—5天,处于对数生长期的细胞,采用二步冷冻法,超低温保存后存活率最高。电镜超微结构观察显示,0.5mol/L山梨醇预培养,10%DMSO 0.5mol/L山梨醇复合保护剂处理,液泡显著变小,数目明显减少,从而降低了细胞内自由水含量,增强细胞的抗冷冻能力。在上述合适的前处理和冷冻-化冻条件下,超低温保存水稻悬浮细胞的恢复生长率为58%,恢复生长的细胞转移到分化培养基上,可再生健壮绿苗, 移植到盆钵,在温室中长成正常结实的植株。     

中国红豆杉悬浮培养细胞的超低温保存

对中国红豆杉悬浮细胞超低温保存中几个主要因素进行多方面对比研究。结果表明,取培养16d的细胞进行超低温保存效果最好,10％DMSO＋8％葡萄糖作为冰冻保护剂对冷冻细胞起到最佳的保护效果;较好的降温程序是在0℃中预处理30min后移入－20℃中停留180min,然后转入－70℃中停留30min,最后投入－196℃液氮中保存。该实验还对保存后细胞的恢复性生长进行了验证。     

桃花粉低温和超低温保存方法比较研究

桃(Prunus persica(L.)Batsch)是我国重要的无性繁殖作物种质资源,目前主要保存于3个国家无性繁殖作物种质圃。随着以茎尖、花粉、休眠芽为保存载体的超低温保存技术的发展,超低温保存已成为无性繁殖作物重要备份保存方式。本研究以15份桃种质花粉为研究对象,开展含水量、回湿处理和保存温度(4℃低温保存和液氮超低温保存)对保存后花粉离体萌发率的影响研究。研究结果:明确了桃种质花粉超低温保存的含水量;揭示了回湿处理对部分桃种质花粉超低温保存产生显著影响;超低温保存后花粉离体萌发率最高可达83%;4℃低温保存和超低温保存比较研究结果表明,超低温保存4年后14份桃种质花粉离体萌发率仍可保持30%以上,11份桃种质花粉离体萌发率与保存前花粉离体萌发率相比无显著变化甚至显著提高,而4℃低温保存的花粉离体萌发率降至0。该研究为国家种质库建立花粉规模化超低温保存提供技术支撑。     

水稻愈伤组织超低温保存体系的建立

水稻种质资源的长期有效保存对于世界粮食安全至关重要,而超低温保存是实现这一目标的最佳方式.本研究以水稻的胚性愈伤组织为材料,利用冻存后恢复培养阶段的新生愈伤率和新生愈伤分化率来评价不同品种不同粒级大小的胚性愈伤组织、不同浓度蔗糖预培养,以及高糖预培养和高糖预培-玻璃化处理2种预处理方式对水稻愈伤组织超低温保存效率的影响...     

卵叶泥炭藓茎尖包埋玻璃化法超低温保存研究

该研究通过对脱水时间和化冻温度的探索,检验了包埋玻璃化法在超低温保存湿润生境中苔藓的可能性。结果表明:卵叶泥炭藓无菌苗在4℃条件下预培养3d后,在0℃用60% PVS_2装载30min,PVS_2脱水60min后迅速投入液氮保存,24h后用40℃水浴快速化冻2min再培养,成活率可达42.41%,且再生植株与常温状态下的植株形态指标没有显著性差异。研究认为,包埋玻璃化法超低温保存湿润环境中生长的苔藓植物是可行的。     

红豆杉愈伤组织超低温保存有关因素的研究

对红豆杉愈伤组织超低温保存中几个主要因素进行了比较,试验证明预培养时间、预培养基中蔗糖浓度、保护剂的组合以及冰冻降温方法与超低温保存后的相对细胞活力密切相关.试验结果表明,在含8%蔗糖的62号液体培养基中振荡预培养6d,红豆杉愈伤组织在超低温保存后细胞活力可保持最高.有效的冷冻保护剂为10%山梨醇+10%DMSO,冷冻方法以分步冷冻和慢冻较为适宜,而经快冻的愈伤组织复苏后活力低下.     

甘草花粉超微鉴定及花粉活力、柱头可授性荧光显微镜观察

对甘草的有性生殖特性进行了研究,利用扫描电子显微镜对乌拉尔甘草、光果甘草和胀果甘草花粉的超微结构进行观察,利用荧光显微镜确定乌拉尔甘草的授粉方式、花粉生活力和柱头活性以及授粉后受精时间.结果表明,花粉超微结构为甘草的鉴别提供了一定的形态学依据;甘草的授粉方式属于闭花受精;花粉生活力在每天12:00时最强,去雄后超过4d的柱头已经不具备接受花粉的能力;对授粉后不同时间的雌蕊进行研究得出授粉后6h花粉管进入胚珠进行受精.     

5种甘草属植物花序和种子生产的位置效应及繁殖资源分配模式初步研究

以种植于新疆石河子的光果甘草( Glycyrrhiza glabra Linn.)、胀果甘草( G. inflata Batal.)、乌拉尔甘草( G. uralensis Fisch.)、黄甘草( G. eurycarpa P. C. Li)和蜜腺甘草( G. glabra var. glandulosa X. Y. Li)为研究对象,对植株不同部位的花序数量、花序正常发育率、每花序单花数量和果穗干质量,以及植株不同部位和花序不同部位的生物量投入比、座果率、结籽率、种子投影面积和种子千粒质量进行测定;在此基础上,对供试5种甘草属( Glycyrrhiza Linn.)植物的繁殖资源分配模式和种子生产策略进行分析。结果表明：同一植株内,光果甘草、乌拉尔甘草、黄甘草和蜜腺甘草的花序数量、花序正常发育率、每花序单花数量和果穗干质量从植株下部到上部总体上依次递减,而胀果甘草植株不同部位间这4项指标总体上无显著差异。同一植株内,胀果甘草植株中部的生物量投入比和座果率均较高,但其生物量投入比、座果率和结籽率在植株不同部位间均无显著差异;而供试另4种植物的生物量投入比、座果率和结籽率从植株下部到上部总体上依次递减。同一花序内,胀果甘草花序中部的生物量投入比明显高于花序上部和下部,座果率从花序下部到上部依次递减,结籽率则在花序不同部位间无显著差异,而供试另4种植物的生物量投入比、座果率和结籽率从花序下部到上部总体上依次递减。供试5种植物的种子投影面积和种子千粒质量在植株不同部位间和花序不同部位间均无显著差异。综合研究结果显示：在资源竞争、结构效应和花粉限制的影响下,供试5种甘草属植物存在2种不同的资源分配模式和种子生产格局。其中,光果甘草、乌拉尔甘草、黄甘草和蜜腺甘草通过减少对晚发育的花或果实的资源投入来保障早发育的花或果实获得较多的资源,达到繁殖成功的目的;而胀果甘草则采取对花和果实随机败育的方式减小资源竞争的压力,这2种繁殖资源分配模式和种子生产策略对提高甘草属植物的繁殖成功率具有重要作用。     

Production of glycyrrhizin in callus cultures of licorice

Licorice plants, Glycyrrhiza glabra, G. uralensis, and G. inflata, were investigated for callus induction using Murashige and Skoog (MS) medium combined with auxins and cytokinins. After 4 weeks of culture, 33-100% of leaf or stem explants formed calli. Maximum of shoot induction from callus cultures was achieved by G. inflata stem explants cultured on MS medium supplemented with 1 mg/l alpha-naphthaleneacetic acid (NAA) and 0.5 mg/l 6-benzyladenine (BA) (67%) which also gave maximum shoot formation per explant (two shoots per explant). These results indicated that all three Glycyrrhiza species regenerated shoots from callus cultures on MS medium combined with NAA and BA or only thidiazuron (TDZ; 0.1 and 0.5 mg/l). Glycyrrhizin contents of G. uralensis calli induced using MS medium in combination with NAA and BA [(27.60 +/- 8.47) microg/g DW] or TDZ alone [(36.52 +/- 2.45) microg/ g DW] were higher than those found in other combinations.     

Glycosylation of an immunoglobulin produced from a murine hybridoma cell line: the effect of culture mode and the anti-apoptotic gene, bcl-2

The impact of bcl-2 over-expression on the glycosylation pattern of an antibody produced by a bcl-2 transfected hybridoma cell line (TB/C3.bcl-2) was investigated in suspension batch, continuous and high cell density culture (Flat hollow fibre, Tecnomouse system). In all culture modes bcl-2 over-expression resulted in higher cell viability. Analysis of the glycans from the IgG of batch cultures showed that >95% of the structures were neutral core fucosylated asialo biantennary oligosaccharides with variable terminal galactosylation (G0f, G1f and G2f) consistent with previous analysis of glycans from the conserved site at Asn-297 of the IgG protein. The galactosylation index (GI) was determined as an indicator of the glycan profile (=(G2 + 0.5* G1)/(G0 + G1 + G2)). GI values in control cultures were comparable to bcl-2 cultures during exponential growth (0.53) but declined toward the end of the culture when there was a loss in cell viability. Low dilution rates in chemostat culture were associated with reduced galactosylation of the IgG glycans in both cell lines. However, at the higher dilution rates the GI for IgG was consistently higher in the TB/C3.bcl-2 cultures. In the hollow fibre bioreactor the galactosylation of the IgG glycans was considerably lower than in suspension batch or continuous cultures with GI values averaging 0.38. Similar low galactosylation values have been found previously for high density cell cultures and these are consistent with the low values obtained when the dissolved oxygen level is maintained at a low value (10%) in controlled suspension cultures of hybridomas.     

Methyl jasmonate elicitation enhances glycyrrhizin production in Glycyrrhiza inflata hairy roots cultures

Hairy roots were induced by infecting stems and leaves of Glycyrrhiza inflata with Agrobacterium rhizogenes ATCC 15834. The optimization of growth and glycyrrhizin accumulation of G. inflata hairy roots was studied. Sucrose (6%, w/v) was optimal for growth and glycyrrhizin accumulation in G. inflata hairy roots. Effects of elicitors like chitosan, methyl jasmonate, and yeast extract on glycyrrhizin production were studied. Methyl jasmonate (100 microM) was most efficient in enhancing glycyrrhizin production up to almost 109 microg/g dry weight on day 5 of elicitation. These results indicate that application of elicitors can enhance the capacity of G. inflata hairy roots to produce glycyrrhizin.     

The role of p21cip1 in adaptation of CHO cells to suspension and protein-free culture

The up-regulation of cyclin-dependent kinase inhibitor p21 has been shown to enhance productivity of monoclonal antibodies and has been linked to various regulatory processes. To identify the potential role of p21 in adaptation to suspension and protein-free cultures, we studied the survival and growth of anchorage- and serum-dependent CHO cell lines that differed only in the period of p21-induced arrest. p21 overexpression led to rapid adaptation of cells to suspension and protein-free cultures. The period taken to achieve adaptation was correlated with the time the cells were arrested after transfer from the monolayer and serum-fed culture. Interestingly, cell aggregation associated with protein-free suspension culture was reduced in p21 culture in response to the loss of cellular adherence. The processes of adaptation to suspension and arrest did not decrease monoclonal antibody productivity. In contrast, following adaptation to protein-free growth media, an overall increase in specific productivity was observed. The ability of cells to survive in protein-free suspension cultures was due to the requirement of G1 cells to growth factors and to their relatively high resistance to the hydrodynamic forces. This improved process has the advantage of reducing the duration of critical path activity for developing CHO commercial cell lines from 72 to 36 days.     

Establishment and growth kinetics of the mutant Ehrlich-Lettré ascites cell strain HD33 in permanent suspension culture

Cells of a mutant in vivo subline of the Ehrlich-Lettré mouse ascites tumour (ELAT) were converted to growth in suspension culture. Kinetic analysis revealed the selective character of the conversion process; without a detectable adaptation period, a fraction of about 2 X 10(-5) of the explanted cells continued to grow in vitro. The resulting, mutant Ehrlich-Lettré ascites cell strain was designated HD33 and propagated uninterruptedly from 1974 on. The corresponding in vivo ELAT subline HD33 was derived from the HD33 ascites cell strain by intraperitoneal retransplantation. In HD33 cell suspension cultures, the population doubling time, the average intermitotic interval, as determined by videomonitoring, and the average duration of the cell cycle, as determined from percentage of labelled mitoses (PLM) data, were all measured at 15 hr. Cell loss and quiescent compartments were insignificant. The duration of the G1 phase was effectively zero. Both PLM data and [3H]/[14C] thymidine double-labelling measurements revealed an S-phase duration of between 11 and 12 hr. The G2 phase lasted 3-5 hr. The HD33 strain differs from comparable suspension strains of wild-type Ehrlich ascites cells in the insignificant role of density-dependent inhibition in growth, and the striking prolongation of the S phase which is associated with an excessive, cytoplasmic storage of glycogen by the mutant cells.     

青钱柳多糖对人胃癌MGC_803细胞生长的影响

本文研究青钱柳多糖(polysaccharides isolated from Cyclocarya paliurus(Batal.)Iljinskjk,PCP)对人胃癌MGC_803细胞生长的影响.采用噻唑蓝(MTT)法检测PCP对MGC_803细胞生长的影响;Annexin法检测PCP对MGC_803细胞诱导凋亡的作用.实验结果表明PCP在50、100、200、400 μg/mL浓度条件下,均可极显著性抑制人胃癌MGC_803细胞生长(P＜0.01),抑制率可达65.07%,细胞凋亡率可达25,44%.说明青钱柳多糖具有抑制人胃癌MGC_803细胞生长的生物活性.     

Influence of drought on oxidative stress and flavonoid production in cell suspension culture of Glycyrrhiza inflata Batal

The effect of water deficit on flavonoid production and physiological parameters characteristic for oxidative stress were studied in a cell suspension culture of Glycyrrhiza inflata Batal to investigate its drought tolerance. The result indicated that appropriate water deficit enhanced biomass accumulation of 27.1 g L(-1) and flavonoid production of 151.5 mg L(-1), which was about 2-fold and 1.5-fold of the control, respectively. But it decreased the water content. Drought stress led to hydrogen peroxide accumulation more than in the control. Moreover, under drought conditions, malondialdehyde content, the activities of catalase and peroxidase increased to a greater extent than the control, and each reached a maximum value of 91.3 micromol g(-1) dry weight, 85.6 U and 1951 U g(-1) dry weight per min, which was 1.5-, 1.7- and 3.7-fold of the control, respectively. All above showed that appropriate water deficit could activate the antioxidative defense enzymes system to maintain stability in plants subjected to drought stress. On the contrary, the activity of phenylalanine ammonia lyase of the control increased in company with the biosynthesis of flavonoids, which indicated that phenylalanine ammonia lyase might play an important role in the path of the biosynthesis of flavonoids.     

Growth characteristics and chemical analysis of Psychotria carthagenensis cell suspension cultures

Callus and cell suspension cultures of Psychotria carthagenensis have been established in Gamborg's B5 medium supplemented, respectively, with 3% sucrose, 0.2 mg/l kinetin, and 1.0 mg/l 2,4-D and 2% sucrose, 2.0 mg/l 2,4-D, 0.2 mg/l kinetin, and 50 mg/l cysteine. Suspension culture presented a typical growth curve with the complete cycle of ca. 18 days and the maximum specific growth rate (μ) was 0.0099 day. The presence of different secondary metabolite pathways was determined by measuring the enzyme activity of phenylalanine ammonia lyase (PAL), tryptophan decarboxylase (TDC), strictosidine synthase (STR), strictosidine-beta-glucosidase (SG), and geraniol-10-hydroxylase (G10H). Activity could only be measured for SG (14.55 pkatal/mg protein) and G10H (0.3 pkatal/mg protein). Analysis of extracts from leaves, callus and cell suspension cultures demonstrated the presence of two major triterpenes: beta-sitosterol and ursolic acid.(2)