高等植物种子活力的生物学研究进展

种子活力是种子质量的重要指标和种用价值的重要组成部分。该文从种子活力概念的演变与延伸、种子活力的遗传分析、种子活力测定方法、与种子活力相关的miRNA和蛋白质组学以及引发提高种子活力的机理等方面对高等植物种子活力的最新研究进展进行了综述,并提出了种子活力未来的研究方向。     

植物细胞工程技术生产紫杉醇研究进展

紫杉醇是一种二萜类生物碱,主要从红豆杉树皮中分离提取。目前采用植物细胞工程技术是提高紫杉醇产率、保护稀缺资源红豆杉、解决紫杉醇药源紧缺的一种最有效方法。该文对近十年来国内外有关采用植物细胞工程技术生产紫杉醇的研究进展,包括红豆杉细胞系的建立、悬浮培养条件的研究、生物反应器培养以及紫杉醇合成代谢调控方面的最新研究进展进行综述。并重点论述了前体、诱导子和代谢支路抑制剂对红豆杉细胞悬浮培养生产紫杉醇的影响,为植物细胞工程技术生产紫杉醇提供借鉴和参考。     

不同水分处理对甘蒙柽柳幼苗根系生长特性的影响

以1年生甘蒙柽柳幼苗为对象,采用人工壕沟挖掘法,对柽柳幼苗在不同水分处理条件下(干旱处理、适度灌溉、充分灌溉)根系生态学特征的季节变化进行了研究.结果表明,不同水分处理对柽柳幼苗根系生长影响显著,垂直根扎根深度和生长速率随着灌溉量的减小而增加.地面灌溉量的增加会导致根系分布的浅表化和根系消弱系数的减小,根系生物量与土壤深度呈显著负对数关系.不同水分处理条件下,7-10月的根/冠比平均值分别为0.43、0.60、0.90、1.12,其根、冠间存在典型的异速生长关系.根/冠比随土壤水分的减小而增加,且生长季后期大于初期.     

Tetanic contraction induces enhancement of fatigability and sarcomeric damage in atrophic skeletal muscle and its underlying molecular mechanisms

Muscle unloading due to long-term exposure of weightlessness or simulated weightlessness causes atrophy, loss of functional capacity, impaired locomotor coordination, and decreased resistance to fatigue in the antigravity muscles of the lower limbs. Besides reducing astronauts＇ mobility in space and on returning to a gravity environment, the molecular mechanisms for the adaptation of skeletal muscle to unloading also play an important medical role in conditions such as disuse and paralysis. The tail-suspended rat model was used to simulate the effects of weightlessness on skeletal muscles and to induce muscle unloading in the rat hindlimb. Our series studies have shown that the maximum of twitch tension and the twitch duration decreased significantly in the atrophic soleus muscles, the maximal tension of high-frequency tetanic contraction was significantly reduced in 2-week unloaded soleus muscles, however, the fatigability of high- frequency tetanic contraction increased after one week of unloading. The maximal isometric tension of intermittent tetanic contraction at optimal stimulating frequency did not alter in 1- and 2-week unloaded soleus, but significantly decreased in 4-week unloaded soleus. The 1-week unloaded soleus, but not extensor digitorum Iongus （EDL）, was more susceptible to fatigue during intermittent tetanic contraction than the synchronous controls. The changes in K＋ channel characteristics may increase the fatigability during high-frequency tetanic contraction in atrophic soleus muscles. High fatigability of intermittent tetanic contraction may be involved in enhanced activity of sarcoplasmic reticulum Ca2＋-ATPase （SERCA） and switching from slow to fast isoform of myosin heavy chain, tropomyosin, troponin I and T subunit in atrophic soleus muscles. Unloaded soleus muscle also showed a decreased protein level of neuronal nitric oxide synthase （nNOS）, and the reduction in nNOS-derived NO increased frequency of calcium sparks and elevated intracellular resting Ca2＋ concentration （[Ca2＋]i） in unloaded soleus muscles. High [Ca2＋]i activated calpain-1 which induced a higher degradation of desmin. Desmin degradation may loose connections between adjacent myofibrils and further misaligned Z-disc during repeated tetanic contractions. Passive stretch in unloaded muscle could preserve the stability of sarcoplasmic reticulum Ca2＋ release channels by means of keeping nNOS activity, and decrease the enhanced protein level and activity of calpain to control levels in unloaded soleus muscles. Therefore, passive stretch restored normal appearance of Z-disc and resisted in part atrophy of unloaded soleus muscles. The above results indicate that enhanced fatigability of high-frequency tetanic contraction is associated to the alteration in K＋ channel characteristics, and elevated SERCA activity and slow to fast transition of myosin heavy chain （MHC） isoforms increases fatigability of intermittent tetanic contraction in atrophic soleus muscle. The sarcomeric damage induced by tetanic contraction can be retarded by stretch in atrophic soleus muscles.     

中亚热带主要树种凋落叶在杉木人工林中分解及氮磷释放过程

采用分解网袋法研究了马尾松(Pinus massoniana)、桤木(Alnus cremastogyne)、木荷(Schima superba)、青冈(Cycloblanopsis glauca)等树种凋落叶在21年生杉木人工林内的分解速率和养分释放过程。经过13个月的分解实验,4种供试凋落叶以青冈分解最快,质量失重率为33.5%,其次为桤木和木荷,马尾松分解最慢,其质量失重率仅为29.9%。4种凋落叶分解50%和95%所需要的时间分别为21～26个月和94～112个月。在凋落叶分解过程中,除桤木凋落叶中氮含量下降外,其他3种凋落叶的氮含量均增加,但凋落叶的C/N均降低;在凋落叶分解的前3个月,凋落物中磷含量快速下降,此后变化很小,C/P呈增加趋势。在凋落叶分解过程中,马尾松凋落叶对氮素表现为固持作用,而其他3种凋落叶对氮素表现为净释放,4种凋落叶的磷素均表现为净释放。4种供试材料中桤木较适合与杉木混交种植。     

下辽河平原杨树连栽对土壤养分、微生物生物量和酶活性的影响

以下辽河平原地区农田和不同退耕年限杨树林(一代10年生林,二代6年生林,二代15年生林)为对象,开展了退耕还林对土壤养分含量、微生物生物量和酶活性的研究.结果表明:1)土壤退耕还林后,除pH表现出一直上升趋势外,大部分养分含量和微生物生物量均在退耕初期表现出下降趋势,但随着退耕年限延长又逐渐恢复并呈现升高趋势.2)土壤基础呼吸和土壤过氧化氢酶活性均表现为林地显著大于农田水平,而磷酸酶和脲酶表现出相反趋势;3)垂直方向上,除了pH表现为表层低于下层外,其他大部分指标均为表层高于下层.结果表明,退耕还林初期,土壤肥力呈下降态势,但随着退耕年限的延长有恢复的趋势.该研究可为中国东北地区退耕还林工程提供参考.     

圈养山魈总能和粗蛋白摄入的初步研究

为了探明圈养山魈总能、粗蛋白的摄入量,选用成都动物园健康山魈20只,分成成年组(4个重复)和幼年组,分别在春季(4月)、夏季(7月)、秋季(9月)进行了三期饲养试验,每期4周。结果表明,季节间山魈每天的总能和粗蛋白的摄入差异不显著(P>0.05);成年山魈每天摄入总能和粗蛋白分别为6544.47kJ、44.54g;幼年山魈每天摄入总能和粗蛋白分别为3401.37kJ、23.52g,成年山魈每天总能和粗蛋白摄入显著高于幼年山魈(P<0.05);成年山魈每天单位体重(kg)总能和粗蛋白的摄入为291.40kJ、1.97g。     

苦丁茶防晒组分萃取工艺的可视化分析

对采用超声辅助法萃取苦丁茶防晒组分进行了较为系统的研究。选择萃取时间、萃取剂体积分数、萃取温度、样品细度4个主要影响因素,运用多因素多水平可视化设计法安排实验。以防晒光区的紫外吸收面积值作为防晒组分萃取含量的实验评定指标。用自主提出的多因素多水平实验结果可视化分析方法对多维空间实验数据进行分析。得出当ρ(苦丁茶)=0.20 g/L时,最佳工艺范围为萃取时间30～60 min、萃取剂体积分数φ(C2H5OH)为50%～70%、萃取温度50～65℃、萃取样品细度140～160目。     

稳定干扰核糖体蛋白RPS7基因表达的宫颈癌HeLa细胞株的建立

目的建立稳定抑制RPS7基因表达的宫颈癌HeLa细胞株。方法设计并合成靶向人RPS7基因的shRNA寡核苷酸片段,克隆到逆转录病毒载体pSIREN中,构建重组质粒pSIREN-RPS7-shRNA,转染293T细胞,将包装产生的重组逆转录病毒感染宫颈癌HeLa细胞,经嘌呤霉素筛选获得稳定的细胞克隆,用real-timePCR和Western印迹检测细胞中RPS7mRNA和蛋白表达水平。结果获得了经测序鉴定正确的重组逆转录病毒质粒,逆转录病毒感染HeLa细胞后用嘌呤霉素筛选出的稳定细胞中,RPS7mRNA和蛋白水平均显著低于干扰对照细胞。结论成功构建了靶向人RPS7基因的shRNA逆转录病毒载体,建立了稳定抑制RPS7基因表达的宫颈癌HeLa细胞株．为进一步研究RPS7在宫颈癌中的生物学功能和作用机制提供了可靠的细胞模型。