Effects of metabolic inhibitors on cell lethality and mutation induction in Chinese hamster cells. I. Inhibitors of de novo purine synthesis and a comparison with the effects of caffeine

The effect of pre- and posttreatment incubation of UV-irradiated and ethyl methanesulphonate (EMS) treated cells with non-toxic concentrations of inhibitors of de novo purine synthesis (dnPS) on expression of potentially lethal and premutational damage at the hypoxanthine-guanine phosphoribosyl transferase (HGPRT) locus in V79 cells has been examined. The concentrations of inhibitors used were shown to profoundly perturb de novo DNA synthesis, by measurements of [¹⁴C]formate uptake, and cell cycle progression by flow cytofluorimetry. Postincubation in 6-methyl mercaptopurine ribonucleoside (MMPR) usually but not invariably potentiated the cytotoxic effects of UV and EMS but azaserine (AZS) and methotrexate (MTX) were without effect. No effects on mutant frequencies were observed on posttreatment with any of these agents. Caffeine produced the least effect on dnPS, but invariably potentiated lethal damage. This potentiation of lethal damage is not mediated by dnPS inhibition as has been suggested for Chinese hamster ovary (CHO) cells.     

Hydroxyurea inhibits ODC induction, but not the G1 to S phase transition.

Chinese hamster ovary cells, selected in mitosis and plated into medium containing hydroxyurea, can progress through G₁ and enter S phase although bulk DNA synthesis is prevented. As the cells progress through G₁ in the presence of hydroxyurea, ornithine decarboxylase activity remains low while general protein synthesis appears unaffected. After hydroxyurea is removed, ornithine decarboxylase activity increases, but only after approximately 20% of the DNA has been replicated. These results suggest that ornithine decarboxylase induction is not essential for cellular progression into S phase but is required for the completion of DNA synthesis.     

Cycloheximide resistance in Chinese hamster cells. II. Induction of Chm resistance in Chinese hamster cells by N-nitrosomethylurea.

Mutant Chinese hamster ovarian (CHO) cells with a resistance to 7-10(-7) and 8-10(-7) M cycloheximide (CHM) were induced at mutation rates of 1.9-5.2-10(-3) and 1.6-1.8-10(-3) respectively after treatment with N-nitrosomethylurea (NMU) at 100 mug/ml. The induced mutation rates differed by two orders of magnitude from the spontaneous rate of mutation to CHM resistance.     

Changes in soil properties and resistance to concentrated flow across a 25‐year passive restoration chronosequence of grasslands on the Chinese Loess Plateau

Revegetation represents an effective measure for preventing soil erosion on the Loess Plateau. However, the effects of revegetation‐induced changes in soil and root properties on soil resistance to concentrated flow erosion (SRC) remain unclear. This study sampled soils and roots across a 25‐year chronosequence from farmland to grasslands of different ages (3, 7, 10, 18, and 25 years) to quantify variations in soil and root properties (soil bulk density, SBD; soil disintegration rate, SDR; saturated hydraulic conductivity, SHC; organic matter content, OMC; water‐stable aggregate, WSA; mean weight diameter, MWD; root mass density, RMD; root length density, RLD; and root surface area density, RSAD) and their effects on SRC. Farmland and grassland SRCs were obtained using a hydraulic flume. Soil properties and root density gradually improved with restoration time. In terms of the comprehensive soil property index calculated via principal component analysis, grassland values were 0.66 to 1.94 times greater than farmland values. Grassland SRCs increased and gradually stabilized (>18 years) over time and were 1.60 to 8.26 times greater than farmland SRC. SRC improvement was significantly related to increases in OMC, SHC, WSA, and MWD and decreases in SBD and SDR over time. SRC was effectively simulated by the Hill curve of RMD, RLD, and RSAD. SDR, SHC, and RMD (0.5–1.0 mm) affected SRC the most. This study scientifically describes how revegetation improves soil quality and soil resistance to flow erosion, and suggests that vegetations rich in 0.5–1.0 mm roots should be preferred during revegetation.     

Improvement of Intracellular Traffic System by Overexpression of KDEL Receptor 1 in Antibody‐Producing CHO Cells

The localization of soluble endoplasmic reticulum (ER) chaperones in the cell organelle is mediated by the C‐terminal KDEL (lysine, aspartic acid, glutamic acid and leucine) motif. This motif is recognized by the KDEL receptor, a seven‐transmembrane protein that cycles between the ER and cis‐Golgi to capture missorted KDEL chaperones from post‐ER compartments in a pH‐dependent manner. The KDEL receptor's target chaperones have a substantial role in protein folding and assembly. In this study, the gene expression level of KDEL receptor 1 shows a moderate upregulation during either ER stress or growth of Chinese hamster ovary (CHO) cells in batch culture, while the ER chaperones show higher upregulation. This might indicate the possibility of saturation of the ER retention machinery or at least hindered retention during late stage batch culture in recombinant CHO cells. KDELR1 is overexpressed in a monoclonal antibody‐producing CHO cell line to improve the intracellular chaperone retention rate in the ER. An increase in the specific productivity of IgG1 by 13.2% during the exponential phase, and 23.8% in the deceleration phase of batch culture is observed. This is the first study to focus on the ER retention system as a cell engineering target for enhancing recombinant protein production.     

大白菜BrCML49基因的分离鉴定及表达特征分析

类钙调蛋白(Calmodulin like protein,CML)是植物细胞中一类非常重要的钙感受蛋白,且CML蛋白在花粉萌发和花粉管生长中起到重要作用。该研究以大白菜自交不亲和系‘91 125’自花授粉后柱头为材料,克隆获得大白菜BrCML49基因cDNA全长序列1 046 bp,包括960 bp开放阅读框,编码319个氨基酸,包含2个EF hand保守结构域。序列分析发现,BrCML49蛋白为稳定的亲水蛋白,没有跨膜区。实时荧光定量(qRT PCR)表达分析显示,BrCML49基因的表达量在‘91 125’的花药中最高,其次是全花和花瓣,在其他组织中表达量较低;BrCML49基因在大白菜自交亲和系‘14S23’的全花和柱头中表达量较高,在其他组织中表达量较低。亚细胞定位分析发现BrCML49主要定位于烟草叶片的细胞膜和细胞核中。该研究结果可为进一步研究大白菜BrCML49基因的功能奠定基础,并为阐明大白菜BrCML49基因参与自交不亲和花粉萌发及花粉管生长的信号机制提供理论依据。     

消痰化瘀利窍中药组方对改善慢性间歇性低氧大鼠心肌纤维化的作用及其机制*

目的: 探讨转化生长因子-β(TGF-β)信号通路在消痰化瘀利窍中药组方(XC)对改善慢性间歇性低氧(CIH)大鼠心肌纤维化中的作用。方法: 40只SD 大鼠,随机分为常氧组(Normoxia)、常氧+中药干预组(TCMC)、慢性间歇性低氧模型组(CIH)、CIH +中药干预组(TCMC+CIH),每组10只。通过向舱内充入氮气,使舱内氧体积分数在90 s内从21%下降到9%,随后90 s再充氧气使舱内氧体积分数逐渐上升到21%为一循环建立CIH模型。CIH 与 TCMC+CIH 组大鼠置于CIH装置, Normoxia 和TCMC组大鼠置于正常氧舱。此外TCMC+CIH 与 TCMC 组大鼠于每日XC生药(24 g/kg)煎制灌胃,而 CIH 组与 Normoxia 组大鼠给予等体积生理盐水。造模结束后,天狼星红染色观察大鼠心肌间质内胶原沉积情况;Western blot 法检测大鼠心肌间质中 CollagenⅠ、Collagen Ⅲ、Fibronectin、TGF-β、p-Smad2、p-Smad3的蛋白表达水平。采用Q-PCR法检测基质金属蛋白酶2(MMP-2)和基质金属蛋白酶抑制因子 2 (TIMP-2) 的 mRNA表达水平。结果: 与正常组比较,CIH大鼠心肌组织出现明显胶原的沉积,CollagenⅠ、Collagen Ⅲ和Fibronectin蛋白表达明显增多(P均＜0.01),TGF-β、p-Smad2、p-Smad3蛋白表达水平也明显增高(P均＜0.01);CIH大鼠心肌组织TIMP-2 mRNA上调导致MMP-2 mRNA明显减少(P均＜0.01)。给予XC干预后,CIH大鼠心肌组织胶原沉积明显减少,CollagenⅠ、Collagen Ⅲ和Fibronectin蛋白表达明显降低(P＜0.05,P＜ 0.01,P＜0.05);CIH大鼠心肌组织中TGF-β、p-Smad2、p-Smad3蛋白表达水平明显降低(P＜0.01,P＜0.05,P＜ 0.01)。心肌组织中TIMP-2明显基因减少致MMP-2增多(P均＜0.05)。 结论: 消痰化瘀利窍中药组方可抑制CIH大鼠心肌纤维化的形成,进而改善CIH大鼠心肌功能。其机制与该中药组方下调TGF-β/ Smad2/3信号通路及下调TIMP-2mRNA有关。     

杉木采伐迹地营造阔叶树种对土壤微生物生态化学计量特征的影响

研究土壤微生物生物量及其生态化学计量特征对造林树种转换的响应,对深入了解森林生态系统土壤养分循环和有效性具有重要意义。本研究以1993年春在二代杉木采伐迹地上营造的26年生米老排和杉木人工林为对象,采用氯仿熏蒸法测定了0～40 cm土层土壤微生物生物量碳(MBC)、氮(MBN)、磷(MBP)的变化。结果表明: 与杉木人工林相比,米老排人工林0～10 cm土层MBC和0～20 cm土层MBN和MBP均显著提高, 0～20 cm土层MBC/MBP和10～20 cm土层MBN/MBP显著降低。两种人工林所有土层MBC/MBN均无差异。相关分析显示,土壤含水率、总有机碳、总氮、全磷、有效磷与MBC、MBN和MBP呈显著正相关,而与MBC/MBP和MBN/MBP呈显著负相关。逐步线性回归分析表明,MBN和MBP主要受土壤总氮和有效磷的影响,而MBC/MBP和MBN/MBP主要受有机碳和有效磷的驱动。研究表明,造林树种从杉木转换成米老排能够增加表层土壤微生物生物量,加速氮磷养分周转,增加土壤氮磷养分供应能力。米老排人工林土壤MBP的增加可能在一定程度上缓解了树木生长的磷限制。     

凋落物添加和移除对杉木人工林土壤水解酶活性及其化学计量比的影响

土壤生态酶化学计量比可用于评估微生物碳(C)、氮(N)和磷(P)养分的需求状况。以往从凋落物输入量变化对生态酶化学计量比的角度来探讨杉木人工林土壤养分状况的研究较少。以亚热带杉木人工林为研究对象,采用随机区组实验设计,对12块杉木人工林样地进行3种凋落物处理(凋落物添加(LA);凋落物移除(LR);对照(CK)),通过测定土壤C、N和P水解酶(β-葡糖苷酶(BG)、半纤维素酶(CB)、β-乙酰葡糖胺糖苷酶(NAG)、亮氨酸氨基肽酶(LAP)和酸性磷酸酶(AP))的活性及土壤理化性质,探讨凋落物添加和移除对杉木人工林土壤养分状况的影响。结果表明:LR显著抑制了AP、BG、CB、NAG和LAP活性,同时降低了土壤含水量(SMC)、有机碳(SOC)、总氮(TN)、总磷(TP)和有效氮含量;而LA对以上指标均存在显著的正效应,表明凋落物输入量变化主要是通过改变土壤水分和养分状况来影响水解酶的活性。LR和CK处理下土壤酶活性比ln(BG+CB):ln(AP)和ln(NAG+LAP):ln(AP)均低于全球尺度上土壤酶活性比ln(BG+CB):ln(AP)(0.62)和ln(NAG+LAP):ln(AP)(0.44),表明亚热带地区杉木人工林土壤微生物生长受磷限制;LA处理的土壤的ln(BG+CB):ln(AP)和ln(NAG+LAP):ln(AP)均高于全球尺度,表明LA在一定程度上缓解了土壤磷限制,生态酶化学计量比响应的差异表明磷可能是驱动亚热带杉木人工林土壤生态酶化学计量比内在联系的关键因子。相关分析表明SMC、SOC和有效氮含量与土壤酶活性及其化学计量比呈极显著正相关关系,因此,生态酶化学计量比可作为表征土壤当前养分有效性状况的重要指标,该研究可为亚热带杉木人工林土壤养分管理和可持续性经营提供科学的基础理论。