339 resultados para Rt-Pcr
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蓝氏贾第鞭毛虫(简称贾第虫)是一种低等的单细胞原生动物,因在全世界引起肠道疾病,并被认为是目前已知的最原始的真核细胞而备受关注。它具有两个左右对称的细胞核,在形态和大小上都很相似,至少都为二倍体。长期以来一直都未有其进行减数分裂或有性生殖的报道,因此被认为是无性繁殖的。目前仅发现其存在有丝分裂过程,而且滋养体的两个细胞核在复制分离等遗传活动方面保持各自独立的状态,分别将子代核传递到子代细胞中。综合以上情形,随着长期传代培养,贾第虫两个细胞核之间及单个核内等位基因之间应该会逐渐积累较大的差异(allelic sequence heterozygosity,ASH)。但事实是贾第虫具有极低的等位基因差异,是什么原因和机制所导致的呢?本文对此进行了如下两方面的研究。其一,采用单细胞PCR技术对fenI和pdi两个基因进行了长期的跟踪观察。研究结果表明,除了极少数的位点突变(在测序结果中表现为“套峰”)外,每次的测序结果几乎完全一致,这说明贾第虫两核间和一核内的等位基因是高度一致的,其等位基因差异性非常低。对套峰位置进行统计后我们发现,pdi基因中数个位点间歇性的出现套峰,暗示了突变发生而后又被修复的过程,这提示贾第虫中肯定存在一种生物学机制,能够修复等位基因的突变,我们推测这种机制很可能是基因转换(gene conversion)。其二,本文对基因转换的基本情况进行了系统的调查。根据已有的理论模型,总结出基因转换过程的主要步骤,以及与各步骤相关的基因;之后,利用同源搜索的方法,在贾第虫基因组中搜索上述基因的同源物。调查结果表明,基因转换过程的主要步骤对应的基因在贾第虫中都存在同源物,这提示在贾第虫中确实存在发生基因转换的可能性。然后,对上述在贾第虫基因组中找到的同源基因进行了荧光原位杂交(FISH)实验和RT-PCR实验。FISH定位实验结果显示,这些基因在两个细胞核中都有杂交信号,表明这些基因在两个细胞核中都存在。 RT-PCR实验结果进一步表明,这些基因在贾第虫中都是活跃转录的。根据以上结果,本文认为贾第虫中确实存在一个维持其极低的等位基因差异的机制,该机制极可能是基因转换。
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迄今为止,卡尔文循环是真核生物中唯一的二氧化碳固定途径。卡尔文循环利用NADPH和ATP将CO2转变成有机物,是自然界中有机物的主要来源。虽然,卡尔文循环中的酶促反应过程早在1956年就已经阐明,多数参与光合真核生物卡尔文循环的酶/基因的起源也有了较多的研究。但是,循环的5个关键酶中FBPase和SBPase的起源问题依然存在争议。本文首先对处于光合真核生物进化的关键地位的两种绿藻——衣藻和团藻中的FBPase进行了研究,进而对真核FBPase和SBPase进行了分子系统分析,以探讨光合真核生物中卡尔文循环的起源。 本研究发现:不同于一般光合真核生物中FBPase具有“胞质型”和“叶绿体型”两种亚型(分别参与糖异生途径和卡尔文循环),衣藻和团藻的基因组中只有一个编码叶绿体定位的FBPase (FBPase1)基因;多序列比对结果显示,FBPase1具有叶绿体型FBPase特有的参与光调节的氨基酸片段插入。再结合别人的“衣藻中的FBPase1的酶活性受光调节”的实验证据,本文认为该FBPase1为叶绿体型FBPase。有意思的是,通过搜索衣藻和团藻的基因组,本文发现了一个新型的FBPase酶基因(fbp2)。RT-PCR结果和EST数据均显示该基因在这两种绿藻中具转录活性。通过组装EST序列,获得了衣藻fbp2的cDNA和相应的蛋白序列。分析显示两种绿藻fbp2编码的氨基酸序列包含Li+-敏感磷酸酶基序(motif)和II类FBPase特有的FBPase_glpX结构域(domain)。这表明,该基因编码的蛋白(FBPase2)是II类FBPase。这是第一次在真核生物中鉴定得到这种原核型II类FBPase。分子系统分析进一步揭示了衣藻和团藻的共同祖先可能通过一次古老的水平基因转移事件,从放线杆菌亚纲的共同祖先中获得了该基因。由于放线杆菌亚纲II类FBPase具有胞质型FBPase的重要特征,因此推测所发现的FBPase2具有胞质型FBPase的特征。软件预测该FBPase2具有约20aa的信号肽,为叶绿体定位。再加上有研究表明衣藻的糖异生途径主要发生在叶绿体中。因此本文认为衣藻和团藻中也有两个FBPase同功酶;但与其它光合真核生物不同的是,胞质型FBPase发生了丢失,取而代之的是原核型II类FBPase参与其叶绿体中的糖异生途径。这种FBPase的不同情形很可能与这两种绿藻中独特的代谢途径区室化有关。 I 在细菌中,果糖-1,6-二磷酸和景天庚酮糖-1,7-二磷酸的去磷酸化是由果糖-1,6-/景天庚酮糖-1,7-二磷酸酶(F/SBPase)双功能酶催化的;但是,在光合真核生物中却是由底物特异的叶绿体型FBPase和SBPase分别催化的。通过结构域分析,本文发现细菌F/SBPase双功能酶可以划分为进化关系很远的两类(I类和II类)。通过选取来自更多细菌类群的代表序列,与真核FBPase和SBPase一起进行分子系统分析。结果显示,FBPase和SBPase既不是起源于I类F/SBPase双功能酶,也不是起源于II类F/SBPase双功能酶;而是分别起源于不同的真细菌I类FBPase。真核FBPase并没有与α-变形菌或蓝细菌FBPase聚在一起,却与不同类群细菌FBPase形成的clade形成姐妹枝。因此,尚不能明确真核FBPase起源于那类真细菌。真核SBPase形成的clade与ε-变形菌FBPase形成的clade在一起形成姐妹枝,表明SBPase很可能是通过一种未知机制起源于ε-变形菌的FBPase。 最后,基于上述研究结果并结合其它研究事实,本文还对光合真核生物中卡尔文循环的起源进行了探讨。
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糖酵解作为细胞的基本能量代谢途径广泛存在于各类生物中。真核生物的糖 酵解一般都在细胞质中进行。然而,有报道发现少数物种如原生生物的动基体类、 少数藻类(如硅藻)中糖酵解途径却并非发生在胞质中,而是分别发生在糖酵解 体和线粒体中。在处于关键进化地位的单细胞绿藻—衣藻中,其糖酵解途径的亚 细胞定位一直存在争议。本文针对衣藻糖酵解途径的亚细胞定位问题开展了如下 两方面的研究工作,获得了一些重要结果: 1 衣藻糖酵解途径亚细胞定位的实验研究 本实验室曾利用生物信息学方法 对衣藻糖酵解途径的酶进行了鉴定和定位预测的理论分析,结果发现该途径的前 7 步主要发生在叶绿体,后3 步则主要发生在胞质。据此,本文选取了糖酵解途 径中具有代表性的几个酶(PFKa、PFKb、NAD+-GAPDH 和TIM)进行了GFP 定 位实验,以期通过实验验证该结论。结果表明,参与糖酵解途径第3、5、6 步反 应的酶(分别为PFK、TIM 和NAD+-GAPDH)确实定位到叶绿体。本文的研究 结果在一定程度上证实了以往的生物信息学理论分析结果--衣藻糖酵解途径的 前七步发生在叶绿体中。 2 衣藻叶绿体内糖酵解与卡尔文循环二者之间协调机制的研究 既然衣藻糖 酵解途径发生在叶绿体中,这势必与同样发生在叶绿体中的卡尔文循环途径发生 冲突。因为这两个途径有五步反应是逆向重叠的,它们之间是如何协调的呢?为 了探讨这一问题,本文开展了如下研究:首先,我们利用生物信息学方法对衣藻 全基因组中参与上述五步逆向重叠反应的酶进行了鉴定,并对它们的定位进行了 预测。结果发现,第一步有两个定位到叶绿体的PFK 催化糖酵解途径的反应, 其逆向反应则是由FBP 来催化;第四步在叶绿体中有两个利用不同辅酶(NAD+ 和NADP+)的GAPDH;第二步有两个拷贝的FBA(FBAa 和FBAb)定位到叶 绿体;而参与第三步与第五步的TIM 和PGK 仅有一个拷贝且是叶绿体定位。其 次,我们对这些参与五步逆向重叠反应且定位到叶绿体的酶进行了real time RT-PCR 实验,得到了它们的转录表达谱。PFK、FBAb 和NAD+-GAPDH 在整个 光照和黑暗中均表达恒定波动不大,但相对于PFK 和NAD+-GAPDH,FBAb 的 表达量却极低;而FBP、FBAa 和NADP+-GAPDH 在黑暗条件下表达量低且恒定, 而进入光照后表达量急剧增长,1 小时之后即能达到最高,表明这些酶的表达是 受光调节的;PGK 的转录表达情况则与FBP、FBAa 和NADP+-GAPDH 类似,也 是光照条件下表达量剧增,说明它也是受光调节的;TIM 在光照条件下也是有上 调趋势的,只是幅度较小,推测可能与其作为异构酶催化效率高有关。因此我们 认为PFK、FBAb 和NAD+-GAPDH 是专职参与糖酵解途径的,而FBP、FBAa 和 NADP+-GAPDH 是专职催化卡尔文循环反应的,通过光对它们表达的调节而 来协调它们各自参与的反应;而TIM 和PGK 则是两个代谢途径所共有的,它们 是通过光照、底物浓度等综合因素来调节它们所参与的反应方向进而达到两个途 径之间的协调。 该研究工作不仅对衣藻糖酵解途径的亚细胞定位进行了实验验证,还首次揭 示了衣藻同处叶绿体中的糖酵解与卡尔文循环两个途径之间的协调机制。
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蛇毒去整合素蛋白(disintegrin)家族一般具有分子量低、富含半胧氨酸和含有RGD三肽等结构特点,因其能与配基竞争结合细胞表面的整合素受体,干扰整合素的正常功能而呈现出多方面的生物学活性,如抑制血小板聚集、抑制肿瘤转移和诱导细胞凋亡等。本论文用凝胶过滤、反向高压液相等层析技术从我国云南产菜花烙铁头(Trimeresurusjerdonii)蛇毒中分离纯化到两个新的去整合素蛋白,分别命名为jerdonin和Jerdonatin。MALDI-TOF-MS测定jerdonin分子量为7483Da,jerdonatin分子量为80llDa,二者均属第二类去整合素。分别测定了其N末端25个氨基酸序列,发现与其它蛇毒来源的去整合素具有很高的相似性。提取菜花烙铁头毒腺总mRNA,通过反转录PCR(RT-PCR)扩增到两个去整合素cDNA序列,分别命名为TJDIS-1和TJDIS-2。TJDIS-1全长1528bp,TJDIS-2全长16O3bp,二者均包含编码信号肚区、前肤区、金属蛋白酶区、间隔肤区和去整合素区一属于P一H型金属蛋白酶家族。经推导的氨基酸序列和MALDI一TOF一MS分析,可确定TJDIS-1去整合素区编码jerdonin,TJDIS-2去整合素区编码jerdonotin。jerdonin全长71个氨基酸,jerdonatin全长72个氨基酸,二者均含12个半眺氨酸,且在C末端附近均含有去整合素家族的典型特征三肤序列一RGD。氨基酸序列比较分析显示,jerdon加与来源于侏响尾蛇(Sistrurusm.tergeminus)的去整合素tergeminin序列相似性最高,为82.2%。而jertionatin与来源于黄绿烙铁头(Trimeresurusflavoviridis)的去整合素CTF-I序列相似性最高,为97.2%,仅在RGD附近有两个氨基酸不同。jerdonin与jerdonatin序列相似性为67.6%。本论文还研究了jedonin和jerdonatin的生物学活性。二者均能强烈抑制ADP、胶原、凝血酶诱导的人血小板的聚集,IC50为100-300nM。jerdonin和jerdonatin还能够抑制B16肿瘤细胞增生,研究表明,jerdonin不仅能显著抑制肿块的生长,还能延长荷瘤小鼠的寿命。平均肿块体积由对照的5260.33枷,降低至2086.65mm3,小鼠平均寿命由对照的24.8天延长至30.5天,提高了22.98%。本论文也研究了jerdonin和jedonatin对小鼠精卵受精过程的影响,结果表明jordonotin能够呈剂量关系抑制精卵结合,但对精卵融合无影响。当jerdonatin用量为10.0μg/毗时,单个卵子的精子结合数由对照的95.31降为21.83。菜花烙铁头蛇毒去整合素蛋白的结构和活性鉴定,为去整合素家族的生物多样性研究提供了丰富的素材,同时也为血栓、肿瘤、生殖等生理或病理过程的研究提供了一个有力的工具。
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在本研究中我们首次从雨蛙皮肤分泌液中分离得到了一种神经毒素(命名为Anntoxin)和一种干细胞自我更新支持因子(命名为AnSF)。随后,我们通过构建雨蛙皮肤cDNA 文库,利用特异引物筛选到Anntoxin 和AnSF 的cDNA 编码序列,前者的Gene Bank 登录号为FJ598043,后者还在等待分配登录号。Anntoxin 具有60 个氨基酸,是一种Kunitz 类型的丝氨酸蛋白酶抑制剂,构建Anntoxin 的3D-NMR 溶液结构,证实Anntoxin 不同于有三对二硫键(键组合模式:1-6,2-4,3-5)的Kunitz 类型丝氨酸蛋白酶抑制剂,它只有两对二硫键(组合模式:1-4,2-3)。AnSF 具有123 个氨基酸,在C 端具有和Calmadolin 同源的两个EF 手指结构,能够支持人类胚胎干细胞(hESC)和猴神经干细胞(rNSC)的自我更新。为了进行Anntoxin 的生物活性和结构分析,我们在体外成功表达了 Anntoxin,获得了大量的重组Anntoxin(rAnntoxin)。经过生物活性分析, rAnntoxin 和天然分离到的Anntoxin 生物活性相当,都具有很强的胰蛋白酶抑制剂活性。Anntoxin 是一种Kunitz 类型的丝氨酸蛋白酶抑制剂,和来源于芋螺(Cone Snail)的神经毒素Conkunitzin-S1,黑色眼镜蛇毒液(black cobra, Dendroaspis polylepis polylepis)的树突毒素δ-DaTX 或蛋白酶抑制剂K 分别具有32.8%和36.7%的相同序列,和鱼类(fish)来源的Stonustoxin 也有一定的同源性。利用膜片钳技术分别检测Anntoxin 对大鼠背根神经节(rat DRG)上Na+通道,K+通道,Ca2+通道的作用,结果证明Anntoxin 对河豚毒素敏感(TTX-S)的钠离子通道(Nav)有较强的抑制活性,对 K+通道,Ca2+通道作用不明显。随后我们在非洲爪蟾卵母细胞上表达几种典型和常用于测试对亚型K+通道作用的Kv1.1,Kv1.2,Kv1.3,Kv2.1 和 Kv4.2,Kv4.3,Anntoxin 对这些亚型K+通道上的K+电流都没有明显影响。我们成功构建了Anntoxin 的3D-NMR 溶液结构(NMR 号:PDB ID 2KCR, BMRB ID 16094),证实Anntoxin 具有典型的Kunitz 结构,由反向平行的 β–折叠片和α–螺旋及转角组成梨形结构。利用RT-PCR,WesternBlot 以及 ELISA 技术,发现在皮肤、脑、肝、胃和肠中都能检测Anntoxin mRNA 转录,但只在皮肤、脑、肝和胃中有蛋白表达,表达量分别为29.5、5.39、 4.80 和2.02 微克/克鲜重,可以看出Anntoxin 在皮肤中大量表达,是皮肤分泌液中非常重要的组成部分。因为皮肤是雨蛙接触外界的第一屏障,雨蛙的生存环境中存在很多潜在威胁,比如微生物、吸血昆虫、鸟类、爬行动物、哺乳动物等,所以Anntoxin 有可能是雨蛙适应环境的重要化学武器,于是我们测试了Anntoxin 对甜菜夜蛾幼虫(Laphygma exigua Hubner)、水蛇(Enhydris plumbea)、鹌鹑(Coturnix coturnix)、昆明小鼠(Kunming mice)的急性毒性,其LD50 分别为50,450,2500 和3000 微克/千克体重,说明在华西雨蛙皮肤中大量表达的Anntoxin 对几类潜在天敌确实有较强的杀灭作用。为了检测AnSF 的生物学活性,我们在体外成功表达了AnSF,获得了大量rAnSF。设计三个浓度梯度10、100 和500ng/ml,把AnSF 和hESC 共培养,发现在10~100 ng/ml 浓度时对hESC 的自我更新有支持作用;设计三个浓度梯度10、100 和500ng/ml,把AnSF 和rNSC 共培养,发现在 10ng/ml 时对rNSC 的自我更新有较强的支持作用。在超过500ng/ml 高浓度时,AnSF 对hESC 和rNSC 都有明显的细胞毒性作用,对rNSC 的毒性作用更明显。利用RT-PCR 技术,我们检测了雨蛙的皮肤、肌肉、肝脏、胰脏、胃、肠、心脏和脑,AnSF 只在皮肤中有少量表达。这表明AnSF 可能只参与雨蛙皮肤干细胞库的维持,保持皮肤内环境稳定,因为蛙类的皮肤细胞要负责产生大量活性物质参与先天免疫和抗氧化等重要的生理活动,需要经常更新,而AnSF 的存在可能保证雨蛙皮肤干细胞库容量稳定,不断分化出各种成熟的皮肤细胞来使皮肤能够得到足够和及时的更新,保证其功能的正常行使。所以AnSF 是维持华西雨蛙皮肤内环境稳定的重要物质。
Resumo:
Cathelicidins是动物体内一个具有多功能的抗菌肽家族,目前仅在哺乳类、鸟类、爬行类和鱼类中有发现。Cathelicidins具有广谱的抗微生物活性,不但对普通革兰氏阳性细菌、革兰氏阴性细菌、真菌以及病毒具有非常强的活性,而且对许多临床耐药微生物同样具有作用。除此之外,cathelicidins具有许多其他生物学活性,如对多种免疫细胞具有趋化作用、诱导肥大细胞脱粒和组织胺释放、调节巨噬细胞转录、促进伤口愈合、诱导血管发生、诱导变异细胞系细胞凋亡和淋巴细胞活化等。 金环蛇(Bungarus fasciatus)属于眼镜蛇科(Elapinae)环蛇属(Bungarus),是一种具有前沟牙的毒蛇,广泛分布于我国广东、广西、福建、江西、海南及云南南部。 在本论文中,我们对金环蛇体内cathelicidins家族抗菌肽cathelicidin-BF进行了一系列研究。 通过凝胶过滤、阳离子交换和反相高压液相三步从金环蛇蛇毒冻干粉中分离纯化得到金环蛇cathelicidins家族抗菌肽,命名为cathelicidin-BF。Edman降解法测定其氨基酸序列为KFFRKLKKSVKKRAKEFFKKPRVIGVSIPF,由30个氨基酸残基组成,ESI-MS测得其分子量为3637.5 Da。 构建了金环蛇毒腺cDNA文库,从中克隆得到了编码cathelicidin-BF前体的cDNA序列。该cDNA序列长度为750 bp,由此推断出的cathelicidin-BF前体由191个氨基酸残基组成,包括信号肽区、保守的cathelin区和成熟肽区三部分。用RT-PCR的方法对cathelicidin-BF的组织表达情况进行了研究,结果表明cathelicidin-BF在金环蛇胃、气管、皮肤、肌肉、心脏、肾脏、肺、脑、小肠、脾脏、肝脏、卵巢、毒腺中均有表达,但各组织表达量存在差异。进化分析表明,金环蛇cathelicidin-BF与鸭嘴兽CATH-3在系统进化树中独立成簇,表明金环蛇与鸭嘴兽有着一定的亲缘关系,这为鸭嘴兽在动物进化中分类地位的确定提供了参考资料。 对cathelicidin-BF可能具有的各种生物学活性进行了研究。Cathelicidin-BF具有广谱的抗微生物活性,对革兰氏阳性细菌、革兰氏阴性细菌和真菌均有活性,Cathelicidins是动物体内一个具有多功能的抗菌肽家族,目前仅在哺乳类、鸟类、爬行类和鱼类中有发现。Cathelicidins具有广谱的抗微生物活性,不但对普通革兰氏阳性细菌、革兰氏阴性细菌、真菌以及病毒具有非常强的活性,而且对许多临床耐药微生物同样具有作用。除此之外,cathelicidins具有许多其他生物学活性,如对多种免疫细胞具有趋化作用、诱导肥大细胞脱粒和组织胺释放、调节巨噬细胞转录、促进伤口愈合、诱导血管发生、诱导变异细胞系细胞凋亡和淋巴细胞活化等。 金环蛇(Bungarus fasciatus)属于眼镜蛇科(Elapinae)环蛇属(Bungarus),是一种具有前沟牙的毒蛇,广泛分布于我国广东、广西、福建、江西、海南及云南南部。 在本论文中,我们对金环蛇体内cathelicidins家族抗菌肽cathelicidin-BF进行了一系列研究。 通过凝胶过滤、阳离子交换和反相高压液相三步从金环蛇蛇毒冻干粉中分离纯化得到金环蛇cathelicidins家族抗菌肽,命名为cathelicidin-BF。Edman降解法测定其氨基酸序列为KFFRKLKKSVKKRAKEFFKKPRVIGVSIPF,由30个氨基酸残基组成,ESI-MS测得其分子量为3637.5 Da。 构建了金环蛇毒腺cDNA文库,从中克隆得到了编码cathelicidin-BF前体的cDNA序列。该cDNA序列长度为750 bp,由此推断出的cathelicidin-BF前体由191个氨基酸残基组成,包括信号肽区、保守的cathelin区和成熟肽区三部分。用RT-PCR的方法对cathelicidin-BF的组织表达情况进行了研究,结果表明cathelicidin-BF在金环蛇胃、气管、皮肤、肌肉、心脏、肾脏、肺、脑、小肠、脾脏、肝脏、卵巢、毒腺中均有表达,但各组织表达量存在差异。进化分析表明,金环蛇cathelicidin-BF与鸭嘴兽CATH-3在系统进化树中独立成簇,表明金环蛇与鸭嘴兽有着一定的亲缘关系,这为鸭嘴兽在动物进化中分类地位的确定提供了参考资料。 对cathelicidin-BF可能具有的各种生物学活性进行了研究。Cathelicidin-BF具有广谱的抗微生物活性,对革兰氏阳性细菌、革兰氏阴性细菌和真菌均有活性,Cathelicidins是动物体内一个具有多功能的抗菌肽家族,目前仅在哺乳类、鸟类、爬行类和鱼类中有发现。Cathelicidins具有广谱的抗微生物活性,不但对普通革兰氏阳性细菌、革兰氏阴性细菌、真菌以及病毒具有非常强的活性,而且对许多临床耐药微生物同样具有作用。除此之外,cathelicidins具有许多其他生物学活性,如对多种免疫细胞具有趋化作用、诱导肥大细胞脱粒和组织胺释放、调节巨噬细胞转录、促进伤口愈合、诱导血管发生、诱导变异细胞系细胞凋亡和淋巴细胞活化等。 金环蛇(Bungarus fasciatus)属于眼镜蛇科(Elapinae)环蛇属(Bungarus),是一种具有前沟牙的毒蛇,广泛分布于我国广东、广西、福建、江西、海南及云南南部。 在本论文中,我们对金环蛇体内cathelicidins家族抗菌肽cathelicidin-BF进行了一系列研究。 通过凝胶过滤、阳离子交换和反相高压液相三步从金环蛇蛇毒冻干粉中分离纯化得到金环蛇cathelicidins家族抗菌肽,命名为cathelicidin-BF。Edman降解法测定其氨基酸序列为KFFRKLKKSVKKRAKEFFKKPRVIGVSIPF,由30个氨基酸残基组成,ESI-MS测得其分子量为3637.5 Da。 构建了金环蛇毒腺cDNA文库,从中克隆得到了编码cathelicidin-BF前体的cDNA序列。该cDNA序列长度为750 bp,由此推断出的cathelicidin-BF前体由191个氨基酸残基组成,包括信号肽区、保守的cathelin区和成熟肽区三部分。用RT-PCR的方法对cathelicidin-BF的组织表达情况进行了研究,结果表明cathelicidin-BF在金环蛇胃、气管、皮肤、肌肉、心脏、肾脏、肺、脑、小肠、脾脏、肝脏、卵巢、毒腺中均有表达,但各组织表达量存在差异。进化分析表明,金环蛇cathelicidin-BF与鸭嘴兽CATH-3在系统进化树中独立成簇,表明金环蛇与鸭嘴兽有着一定的亲缘关系,这为鸭嘴兽在动物进化中分类地位的确定提供了参考资料。 对cathelicidin-BF可能具有的各种生物学活性进行了研究。Cathelicidin-BF具有广谱的抗微生物活性,对革兰氏阳性细菌、革兰氏阴性细菌和真菌均有活性,Cathelicidins是动物体内一个具有多功能的抗菌肽家族,目前仅在哺乳类、鸟类、爬行类和鱼类中有发现。Cathelicidins具有广谱的抗微生物活性,不但对普通革兰氏阳性细菌、革兰氏阴性细菌、真菌以及病毒具有非常强的活性,而且对许多临床耐药微生物同样具有作用。除此之外,cathelicidins具有许多其他生物学活性,如对多种免疫细胞具有趋化作用、诱导肥大细胞脱粒和组织胺释放、调节巨噬细胞转录、促进伤口愈合、诱导血管发生、诱导变异细胞系细胞凋亡和淋巴细胞活化等。 金环蛇(Bungarus fasciatus)属于眼镜蛇科(Elapinae)环蛇属(Bungarus),是一种具有前沟牙的毒蛇,广泛分布于我国广东、广西、福建、江西、海南及云南南部。 在本论文中,我们对金环蛇体内cathelicidins家族抗菌肽cathelicidin-BF进行了一系列研究。 通过凝胶过滤、阳离子交换和反相高压液相三步从金环蛇蛇毒冻干粉中分离纯化得到金环蛇cathelicidins家族抗菌肽,命名为cathelicidin-BF。Edman降解法测定其氨基酸序列为KFFRKLKKSVKKRAKEFFKKPRVIGVSIPF,由30个氨基酸残基组成,ESI-MS测得其分子量为3637.5 Da。 构建了金环蛇毒腺cDNA文库,从中克隆得到了编码cathelicidin-BF前体的cDNA序列。该cDNA序列长度为750 bp,由此推断出的cathelicidin-BF前体由191个氨基酸残基组成,包括信号肽区、保守的cathelin区和成熟肽区三部分。用RT-PCR的方法对cathelicidin-BF的组织表达情况进行了研究,结果表明cathelicidin-BF在金环蛇胃、气管、皮肤、肌肉、心脏、肾脏、肺、脑、小肠、脾脏、肝脏、卵巢、毒腺中均有表达,但各组织表达量存在差异。进化分析表明,金环蛇cathelicidin-BF与鸭嘴兽CATH-3在系统进化树中独立成簇,表明金环蛇与鸭嘴兽有着一定的亲缘关系,这为鸭嘴兽在动物进化中分类地位的确定提供了参考资料。 对cathelicidin-BF可能具有的各种生物学活性进行了研究。Cathelicidin-BF具有广谱的抗微生物活性,对革兰氏阳性细菌、革兰氏阴性细菌和真菌均有活性,Cathelicidins是动物体内一个具有多功能的抗菌肽家族,目前仅在哺乳类、鸟类、爬行类和鱼类中有发现。Cathelicidins具有广谱的抗微生物活性,不但对普通革兰氏阳性细菌、革兰氏阴性细菌、真菌以及病毒具有非常强的活性,而且对许多临床耐药微生物同样具有作用。除此之外,cathelicidins具有许多其他生物学活性,如对多种免疫细胞具有趋化作用、诱导肥大细胞脱粒和组织胺释放、调节巨噬细胞转录、促进伤口愈合、诱导血管发生、诱导变异细胞系细胞凋亡和淋巴细胞活化等。 金环蛇(Bungarus fasciatus)属于眼镜蛇科(Elapinae)环蛇属(Bungarus),是一种具有前沟牙的毒蛇,广泛分布于我国广东、广西、福建、江西、海南及云南南部。 在本论文中,我们对金环蛇体内cathelicidins家族抗菌肽cathelicidin-BF进行了一系列研究。 通过凝胶过滤、阳离子交换和反相高压液相三步从金环蛇蛇毒冻干粉中分离纯化得到金环蛇cathelicidins家族抗菌肽,命名为cathelicidin-BF。Edman降解法测定其氨基酸序列为KFFRKLKKSVKKRAKEFFKKPRVIGVSIPF,由30个氨基酸残基组成,ESI-MS测得其分子量为3637.5 Da。 构建了金环蛇毒腺cDNA文库,从中克隆得到了编码cathelicidin-BF前体的cDNA序列。该cDNA序列长度为750 bp,由此推断出的cathelicidin-BF前体由191个氨基酸残基组成,包括信号肽区、保守的cathelin区和成熟肽区三部分。用RT-PCR的方法对cathelicidin-BF的组织表达情况进行了研究,结果表明cathelicidin-BF在金环蛇胃、气管、皮肤、肌肉、心脏、肾脏、肺、脑、小肠、脾脏、肝脏、卵巢、毒腺中均有表达,但各组织表达量存在差异。进化分析表明,金环蛇cathelicidin-BF与鸭嘴兽CATH-3在系统进化树中独立成簇,表明金环蛇与鸭嘴兽有着一定的亲缘关系,这为鸭嘴兽在动物进化中分类地位的确定提供了参考资料。 对cathelicidin-BF可能具有的各种生物学活性进行了研究。Cathelicidin-BF具有广谱的抗微生物活性,对革兰氏阳性细菌、革兰氏阴性细菌和真菌均有活性,Cathelicidins是动物体内一个具有多功能的抗菌肽家族,目前仅在哺乳类、鸟类、爬行类和鱼类中有发现。Cathelicidins具有广谱的抗微生物活性,不但对普通革兰氏阳性细菌、革兰氏阴性细菌、真菌以及病毒具有非常强的活性,而且对许多临床耐药微生物同样具有作用。除此之外,cathelicidins具有许多其他生物学活性,如对多种免疫细胞具有趋化作用、诱导肥大细胞脱粒和组织胺释放、调节巨噬细胞转录、促进伤口愈合、诱导血管发生、诱导变异细胞系细胞凋亡和淋巴细胞活化等。 金环蛇(Bungarus fasciatus)属于眼镜蛇科(Elapinae)环蛇属(Bungarus),是一种具有前沟牙的毒蛇,广泛分布于我国广东、广西、福建、江西、海南及云南南部。 在本论文中,我们对金环蛇体内cathelicidins家族抗菌肽cathelicidin-BF进行了一系列研究。 通过凝胶过滤、阳离子交换和反相高压液相三步从金环蛇蛇毒冻干粉中分离纯化得到金环蛇cathelicidins家族抗菌肽,命名为cathelicidin-BF。Edman降解法测定其氨基酸序列为KFFRKLKKSVKKRAKEFFKKPRVIGVSIPF,由30个氨基酸残基组成,ESI-MS测得其分子量为3637.5 Da。 构建了金环蛇毒腺cDNA文库,从中克隆得到了编码cathelicidin-BF前体的cDNA序列。该cDNA序列长度为750 bp,由此推断出的cathelicidin-BF前体由191个氨基酸残基组成,包括信号肽区、保守的cathelin区和成熟肽区三部分。用RT-PCR的方法对cathelicidin-BF的组织表达情况进行了研究,结果表明cathelicidin-BF在金环蛇胃、气管、皮肤、肌肉、心脏、肾脏、肺、脑、小肠、脾脏、肝脏、卵巢、毒腺中均有表达,但各组织表达量存在差异。进化分析表明,金环蛇cathelicidin-BF与鸭嘴兽CATH-3在系统进化树中独立成簇,表明金环蛇与鸭嘴兽有着一定的亲缘关系,这为鸭嘴兽在动物进化中分类地位的确定提供了参考资料。 对cathelicidin-BF可能具有的各种生物学活性进行了研究。Cathelicidin-BF具有广谱的抗微生物活性,对革兰氏阳性细菌、革兰氏阴性细菌和真菌均有活性,其中包括大量临床分离耐药菌株。Cathelicidin-BF对革兰氏阴性细菌的活性要强于革兰氏阳性细菌,此外对白色念珠菌、毕赤酵母和一些腐生性真菌也具有活性。Cathelicidin-BF的抗氧化活性、溶血活性、凝集素活性、丝氨酸蛋白酶和丝氨酸蛋白酶抑制剂活性、细胞毒性、抗肿瘤活性均不明显。Cathelicidin-BF具有很强的肥大细胞脱颗粒活性。以上结果表明cathelicidin-BF在金环蛇抵御外界病原微生物侵袭的先天免疫反应中可能发挥了重要作用。 利用多种实验方法对cathelicidin-BF的结构和抗菌机理进行了研究。CD和NMR的实验结果表明,在亲水环境中,cathelicidin-BF为无规卷曲的构象;在疏水或模拟细菌细胞质膜的环境中,cathelicidin-BF的N-末端区域具有典型的两亲性α-螺旋构象。杀菌动力学实验结果表明,cathelicidin-BF杀菌作用极其迅速,在浓度大于1×MIC时,在1 min内即可杀死所有细菌,且其杀菌作用是致死性的。扫描电镜结果表明,经过cathelicidin-BF处理的细菌细胞形状发生明显改变,细胞膨胀变形,表面出现大量囊泡状结构。大量细菌细胞破裂溶解,内容物外泄。综合以上结果我们推测:cathelicidin-BF在亲水的环境中为无规卷曲的结构,当通过静电相互作用吸附到细菌细胞质膜上后,由于环境疏水性的增加其N-端转变为两亲性的α-螺旋构象。Cathelicidin-BF的疏水侧插入到细菌细胞质膜内部,亲水侧暴露于细菌细胞质膜表面。随着结合到细菌细胞质膜上的cathelicidin-BF分子不断增加,细菌细胞质膜内陷,最终在细菌细胞质膜上形成孔洞。细菌细胞内容物大量外流,最终导致细菌细胞的死亡。 通过体外和体内多个实验对cathelicidin-BF进行了初步的药理学和药效学研究。Cathelicidin-BF在血清中稳定性较差,容易被血清中各种蛋白酶降解。一定浓度的盐离子能够增强cathelicidin-BF的抗菌活性。动物模型实验表明,cathelicidin-BF对多种细菌引起的小鼠皮肤感染具有很好的治疗效果。Cathelicidin-BF本身所具有的特点及动物模型实验中表现出的极佳的治疗效果使其成为外用抗菌药物开发的优良模板。
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土壤重金属污染问题已成为影响我国持续农业和生态环境质量的重要因素,引起了人们的广泛关注。由于传统污染诊断方法的缺点,急需建立土壤污染生态毒理学诊断方法,生物标记物技术则是其中的研究热点之一。本文采用营养液培养的方法,以模式植物拟南芥为试材,采用半定量反转录聚合酶链式反应(RT-PCR)技术,结合传统分析方法研究了Cd、Cu在不同胁迫水平下对拟南芥幼苗的形态、生理及分子水平的毒性效应,并在此基础上,比较和分析不同测试指标对Cd、Cu胁迫响应的敏感性,进而筛选对Cd、Cu胁迫响应敏感的生物标记物。主要结果如下: 1 不同浓度Cd和Cu污染胁迫下,拟南芥幼苗生长均受到不同程度的影响 幼苗初生根伸长均受到明显抑制,而地上部叶片数、地上部鲜重却没有显著的变化。重金属首先作用于植物的根系,根系的生长对胁迫响应的敏感性高于地上部。 2 幼苗地上部的可溶性蛋白含量受到不同程度干扰,而在不同浓度的Cd、 Cu处理下,叶绿素含量变化不明显,表明幼苗地上部可溶性蛋白质含量对胁迫的敏感性高于叶绿素含量的变化。 3 幼苗地上部错配修复(MMR)和增殖细胞核抗原(PCNA)基因都明显 地出现了表达诱导或表达抑制,表明MMR和PCNA基因表达的变化对Cd、Cu胁迫表现出较高的敏感性。 4 幼苗地上部的可溶性蛋白质含量及幼苗地上部MMR和PCNA基因表达 均对Cd和Cu污染胁迫具有较高的敏感性,两者均可用于指示Cd和Cu污染的敏感生物标记物。基因表达变化图谱虽然对污染胁迫响应比较敏感,是一种污染胁迫响应敏感的生物标记物,但其在生态毒理诊断中的应用还需进一步的实验对其予以证明。
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土壤重金属污染是影响农业可持续发展和生态环境的重要问题,而通过生物标记物方式对污染土壤进行早期诊断已成为环境科学领域的研究热点。本文以M&S营养液为培养介质,以拟南芥为供试材料,以错配修复基因MutS 2 homolog (atMSH2),atMSH3,atMSH7,细胞增殖核抗原1 和2 (atPCNA1和atPCNA2)为检测目的基因,分别采用半定量反转录-聚合酶链式反应(RT-PCR)技术、克隆及测序技术研究了Cd在不同胁迫水平(0,0.125,0.25,1.0,3.0 mg•L-1 )上对上述错配修复相关基因表达和atMSH2基因突变的影响,并与拟南芥幼苗形态、生理指标的毒性效应进行比较分析,筛选出对Cd污染胁迫敏感的生物标记物。主要结果如下: 1. 不同浓度(0,0.125,0.25,1.0,3.0 mg•L-1 )Cd处理7天后,拟南芥幼苗叶片数、地上部鲜重变化与对照相比差异均不显著;而根长随Cd胁迫强度的增加明显降低; 2. 不同浓度(0,0.125,0.25,1.0,3.0 mg•L-1 )Cd处理7天后,叶绿素含量变化与对照相比差异均不显著; 地上部可溶性蛋白含量随Cd浓度的增加变化明显,0.125 mg•L-1 Cd处理下,地上部可溶性蛋白含量显著增加,而在0.25,1.0和3.0 mg•L-1 Cd时降低,但仍高于对照; 3. 地上部atMSH2,atPCNA1,atPCNA2基因表达量的变化与Cd胁迫浓度呈明显的倒U字型关系,分别在0.125mg•L-1,0.25mg•L-1和0.125mg•L-1 Cd时达到最大值。地上部可溶性蛋白含量变化趋势与atMSH2,atPCNA1,atPCNA2基因表达量的变化相似,均可作为对Cd污染胁迫敏感的潜在生物标记物。 4. 对不同浓度(0,0.125,0.25,1.0,3.0 mg•L-1 )Cd处理7天后,拟南芥atMSH2基因PCR后的扩增产物进行回收、纯化、克隆和测序。测序结果表明,0.25 mg•L-1 Cd处理拟南芥atMSH2基因在第8个和第9个外显子之间的内含子有一个碱基转换;在1.0 mg•L-1 Cd处理下,拟南芥在第10个外显子有一个碱基转换。
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雌激素是人体内重要的激素之一,具有广泛的生理功能。雌激素缺乏与许多疾病相关,如卵巢功能低下,更年期综合征以及骨质疏松等;雌激素过剩也将导致某些疾病,如乳腺癌、卵巢癌、子宫内膜癌等。目前,如何降低肿瘤组织中的雌激素水平而达到治疗肿瘤的目的,已经得到广泛的研究,但促雌激素生成或调节卵巢功能药物或其相关研究则很少。 本实验室前期的研究发现,瓦山安息香属植物果实中的乙醇提取物具有促雌激素生成作用,通过活性追踪和结构鉴定,确认促E2 生成的主要成分为苯并呋喃类化合物。苯并呋喃类化合物的作用与芳香酶有关,但其确切的作用机理有待证实和深入研究。 为了探讨安息香苯并呋喃类化合物的促雌激素合成的作用机理,拟采用如下的实验方案: 1、细胞学方面,对小鼠3T3-L1 前脂肪细胞、人乳腺癌细胞MCF-7、MDA-MB-231 以及人卵巢癌细胞OVCAR-3、OVCAR-4、OVCAR-5、OVCAR-8、IGROV1 等细胞株,采用RT-PCR 和ELISA 方法研究芳香酶Aro基因的表达和雌二醇E2 的生成,芳香酶抑制剂Formestane 作为阳性对照,研究时效曲线和量效曲线,确定安息香苯并呋喃类化合物SP25 的有效浓度和作用时间。 2、RNAi 方面,设计合成了针对人芳香酶Aro基因的3 对RNAi 序列,转染入细胞,芳香酶促进剂Forskolin 和地塞米松、芳香酶抑制剂Formestane 作为阳性对照,采用实时定量PCR 技术,研究RNA 干扰后,安息香苯并呋喃类化合物SP25 对人芳香酶Aro基因表达水平瓦山安息香苯并呋喃促雌激素合成的机理研究的影响。 3、雌激素受体方面,设计一段ERE 的雌激素调控元件,构建重组荧光素酶报告基因载体,瞬时转染人乳腺癌细胞株MDA-MB-231,建立针对雌激素受体的报告基因筛选模型,观察安息香苯并呋喃类化合物SP25 对雌激素受体的选择性和亲和力,从受体水平考察安息香苯并呋喃类化合物SP25 促进雌激素生成的药理学机理。 实验结果显示: 1、分化后的小鼠3T3-L1 前脂肪细胞、人乳腺癌细胞MCF-7 、MDA-MB-231 以及人卵巢癌细胞OVCAR-3、OVCAR-4、OVCAR-8 等细胞株具有芳香酶基因的表达。睾酮向雌二醇的转化能够被芳香酶抑制剂Formestane 所阻断,其中OVCAR-3 最适合进行下一步的RNAi研究。 2、RNAi 实验结果显示,设计的3 对RNAi 序列中R2 的干扰效果最强,相应的阴性对照C2 与R2 的表达量相差118 倍(24 小时)和19 倍(48 小时),显示R2/C2 这组序列可用于进一步的RNAi 试验。以R2 干扰OVCAR-3 细胞株,药物作用24、48 小时后,芳香酶抑制剂Formestane 与R2 相对表达量相比分别为0.83 倍和0.04 倍;芳香酶促进剂Forskolin 与R2 相对表达量相比分别为3.61 和1.84 倍;芳香酶促进剂地塞米松与R2 相对表达量相比分别为5.76 倍和3.49倍;苯并呋喃类化合物SP25 与R2 相对表达量相比分别为8.13 倍和4.59 倍。实验证实安息香苯并呋喃类化合物SP25 能够促进因RNAi 而发生基因沉默的人芳香酶Aro表达水平的上调。 3、雌激素受体实验结果显示,构建成功重组pERE-pGL3-promoter 荧光素酶报告基因载体和基于报告基因系统的雌激素受体激动剂或拮抗剂的细胞筛选模型。实验结果表明安息香苯并呋喃类化合物SP25 与雌激素受体ERα和ERβ亲和力选择性之比约为3:1 ,SP25通过与雌激素受体ERα结合作用其受体,刺激芳香酶的表达。 本课题通过RNA 干扰、ELISA、荧光实时定量PCR、报告基因筛选模型等技术手段,从细胞水平、蛋白酶水平和基因表达水平、雌激素受体水平等方面系统地研究了从瓦山安息香属植物果实中提取的苯并呋喃SP25 促进促雌激素生成的机理研究。试验结果显示苯并呋喃类化合物SP25 促雌激素生成的主要作用机制是直接促进芳香酶基因表达水平,以及与雌激素受体a 结合,刺激芳香酶活性。 Estrogen is an important hormone that has versatile physiologicalfunctions. Lack of estrogen will lead to many diseases such as lower ovarianfunction, climacteric syndrome and osteoporosis. Excessive estrogen alsoinduces breast carcinoma, oophoroma and endometrial carcinoma and otherdiseases. To depress the estrogen level in tumor tissue to cure carcinomawas widely studied, but there is only few studies reported on the induction ofestrogen and on the regulation of ovary function. We found that the extracts from seeds of Styrax perkinsiae couldpromote the synthesis of estrogen. The active compounds benzofurans wereidentified. Effect of benzofurans may be related to aromatase, but the mechanism was not clear. To reveal the mechanism of these benzofurans to promote estrogensynthesis, the following protocols were adopted: 1 Cytology: 3T3-L1 preadipocytes,human ovary carcinoma celllines OVCAR-3,OVCAR-4,OVCAR-5,OVCAR-8,IGROV1 andbreast carcinoma cell lines MCF-7 and MDA-MB-231 were usedto determine Aro gene expression and estrogen production withRT-PCR AND ELISA methods. Formestane, an aromataseinhibitor, was used as positive control. And dose-curve,time-curve and the effective concentration of SP25 were also studied. 2 Designed 3 pairs of RNAi for human aromatase gene, andtransfected into cell. Aromatase inducer Forskolin andDexamethasone, and aromatase inhibitor Formestane were usedas positive controls. We studied the change of Aro expressionlevel with SP25 by using real-time PCR after RNA interfering. 3 Estrogen Receptor: We constructed the recombined Luciferasereport vector and establish a screening system for estrogenagonist and antagon. With this system, we studied the affinity ofSP25 and estrogen receptor. Results: 1 Differentiated 3T3-L1 preadipocytes¡¢human ovary carcinomacell lines:OVCAR-3, OVCAR-4, OVCAR-8 and breast carcinomacell lines MCF-7, MDA-MB-231 had detected aromatase geneexpression.And OVCAR-3 is more suitable for further aromatasegene function research. 2 In RNAi assay, R2 has a strong interfering effcet in OVCAR-3 cellline, and ratio of C2 (the negative control) to R2 were 118 times(24 hours) and 19 times (48 hours). This means sucessful inRNA interfering. After R2 acted on OVCAR-3 cell line, the ratiosof formestane to R2 were 0.83 and 0.04 times, 5.76 and 3.49times (Dex), 3.61 and 1.84 times (forskolin) and 8.13 and 4.59times (sp25) after drug treated 24 or 48 hours respectively.These results indicated that SP25 can directly induce aromatasegene up-regulation. 3 We had constructed pERE-pGL3-promoter recombined vectorand the Luciferase report gene screening system. Luciferasereport gene assay showed that sp25 had a higher affinity with strogen receptor alpha than estrogen receptor beta, this indicated that SP25 can act on estrogen receptor and induce aromatase. Our results revealed that the mechanisms of benzofuran to promoteestrogen were the upregulation aromatase gene expression and promotion ofaromatase activity and have partially elective affinity with estrogen receptoralpha.
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杨树具有分布广、适应性强,在生态环境治理和解决木材短缺方面均占有重要位置。青杨(Populus cathayana Rehd.)是青杨派树种的重要成员之一,也是我国的特有种。本研究通过对不同水分梯度的干旱胁迫下青杨形态和生理生化的反应,不同pH值盐碱胁迫下不同海拔和不同气候地区的四个青杨种群在生理生态上的反应差异,以及在干旱和低温胁迫下青杨lea2, lea3组基因表达差异的研究,从形态、生理、生化和分子生物学水平系统地研究了青杨在不同逆境胁迫下的反应和青杨不同种群在盐碱胁迫下的反应差异。主要研究结果如下: 1. 青杨在干旱胁迫下的反应机制:中度和重度干旱胁迫下植株的生长受到明显抑制。表现在光合系统上青杨的净光合同化速率(A)下降,主要原因是气孔导度(gs),胞间二氧化碳浓度(Ci)下降。另外最大量子产量(Fv/Fm)、光化学猝灭效率(qP)降低反应了干旱胁迫下光合系统II(PSII)受到严重损伤, 而且非光化学猝灭效率(qN)上升,导致可利用化学能产量下降,叶绿体产生淀粉的量减少。qP降低qN上升导致产生的过量电子对光合系统的伤害造成活性氧以及丙二醛(MDA)的含量增加。超微解剖结构显示,干旱胁迫增强时,叶绿体内淀粉粒的数目减少,而且叶绿体、线粒体等细胞器中嗜锇颗粒的数目增加。为清除细胞内的活性氧,植物一般的反应是抗氧化系统酶活性增加,对青杨来讲超氧化物歧化酶(SOD), 抗坏血酸过氧化物酶(APx)活性的增加远大于过氧化物酶(POD),这显示了在青杨中SOD、APx酶在清除活性氧的作用上大于POD。另外同工酶研究结果显示这些酶活性的升高主要是由于各条同工酶带表达量的增加,而不是诱导新酶带的产生。另外,75% FC水分处理下有些指标非但没有下降,像A和有效光量子产量(Y)的值都略有增加,而且gs同时增加。另外,100% FC比75% FC细胞内淀粉粒的数目少一些,但有少量的嗜锇颗粒。这证明100% FC土壤水分也许并非最适合青杨生长。 2. 盐碱胁迫对不同海拔地区青杨种群的反应差异:青杨高海拔和低海拔种群的各种生理特性随着pH值上升都受到了很大的影响。两种群叶和根中Na+、K+ 含量, Na+/K+比率随着pH值的上升影响显著。在pH值高于10.4时高海拔种群叶和根中Na+/K+比率急剧下降但是低海拔种群中却一直维持在较高水平。两种群中MDA、脯氨酸(Proline)的含量,抗氧化系统酶的活性都受到了严重的影响,证明两个种群都属于盐碱胁迫敏感类型但是高海拔的种群对盐碱胁迫的耐性要高于低海拔。这主要是由于高海拔种群一般具有耐干旱、低温胁迫的能力,而植物的抗逆机制一般都有共通之处。 3. 盐碱胁迫对不同气候地区青杨种群的反应差异:盐碱胁迫下两种群的光合作用受到明显的抑制,具体表现在叶绿素的含量和A 显著下降。净光合速率的下降主要是由于叶片gs,Ci 值降低引起的。与湿润地区的种群相比盐碱胁迫增强时,干旱地区的种群叶绿素含量和光合能力的升高与K+离子含量增加有关。植物维持细胞质高K+/Na+值对植物的抗盐性有很重要的作用。为清除盐碱胁迫产生的活性氧,抗氧化系统酶活性增加。盐碱胁迫下干旱地区的种群在SOD、CAT 和谷胱甘肽还原酶(GR)等酶的活性均显著上升,而湿润地区种群只有谷胱甘肽氧化酶(GST)的活性明显增加,说明干旱种群的抗氧化酶系统在较高盐碱胁迫下的保护作用要强于湿润种群。这主要是由于植物抗盐碱胁迫与抗干旱胁迫在一些方面的机制是一致的,抗旱种群一般也能抵抗一定程度的盐碱胁迫。 4. 青杨lea2、lea3 基因在干旱和低温胁迫下的表达差异:通过荧光定量PCR 分析,lea2、lea3 组基因在干旱和低温胁迫下在mRNA 水平的瞬时表达量明显升高,说明了两基因在青杨耐干旱和低温胁迫上都起显著的作用。而且两基因在干旱胁迫下,表达量的升高和降低的时间近乎同步,表明两基因在干旱胁迫下对植物应急保护机制的启动都发挥着重要的作用。低温胁迫下lea3 基因在mRNA 水平上表达量显著上升的时间要早于lea2,而且lea3 基因的持续作用时间明显长于lea2 组基因,说明了低温胁迫开始时lea3基因在植物应对逆境的作用上要大于lea2 基因。 Poplars play an important role in lumber supply, and are important components of ecosystems due to their wide distribution and well adaptation. Populus cathayana Rehd., which belongs to Populus Sect. Tacamahaca Spach, is one of the most important resources of poplars and is specialist to china. In this study, different altitudes and climates populations of P. cathayana were used as experiment materials to investigate the adaptability to drought and salt-alkali stresses. And the cultures of P. cathayana were used to analyze the lea2 and 3 group genes expression when exposed to drought and low temperature stresses. The results are as follows: 1. A large set of parallel responses to drought stress: Drought stress caused pronounced growth inhibition. A decreased significantly and was mainly the result of gs and Ci down. Besides, Fv/Fm, qP decreased and that reflected the harmful effects to PSII of drought stress. In accordance with qN increasing, decreased useful energy production caused the starch numbers reduction in chloroplast. The qP up and qN down improved the levels of ROS and MDA. Starch numbers in chloroplast reduced and plastoglobuli numbers increased when soil water content decreased. To reduce ROS, the activities of SOD, APX, CAT and PPO were activated. The isozymes results show that the rising activities of the antioxidant enzymes resulted from certain isoform content increased, and not from the new band produced. Interestingly, morphological results show 100%FC maybe wasn’t the favorite water content for P. cathayana growth. 2. Effect of salt-alkali stress on morphological and physiological changes in two different altitudes populations of P. cathayana: We compared the physiological responses of two populations of Populus cathayana Rehder, originating from altitudes 2,840 m and 1,450 m. Our results demonstated that Na+ and K+ contents, and Na+/K+ ratios in leaves and roots are greatly affected by pH values. At pH 10.4, the Na+/K+ ratios in both leaves and roots sharply dropped in the higher altitude population but were always maintained at higher levels in the lower altitude population. The pH values causing maximum malondialdehyde (MDA) level, free proline content and antioxidant enzyme activities were significantly different in two populations. These results indicated that the higher altitude population exhibits greater tolerance to alkalinity stress than does the lower altitude population. 3. Morphological and physiological changes in two different climates populations of P. cathayana when exposed to salt-alkali stress. Salt-alkali stress caused pronounced inhibition of the growth and especially in photosystem. Pigments content and A decreased significantly and at the same time gs and Ci decreased too. Compared with wet climate population, the Chlorophyll content and A increased in drought climate population as pH value rising was related to the K+ content increasing. It is important to resist salt-alkali stress that the K+/Na+ ratio matained at high level in cytoplasm. To reduce ROS content, the SOD, CAT and GR activities rised significantly in drought population but only GST increased in wet population. The drought population showed higher salt-alkali tolerance than the wet population mainly resulted from the fact that drought tolerance was in accordance with salt-alkali tolerance to some extent. 4. The different expressional model of lea2 and lea3 gene when P. cathayana was exposed to drought and cold stress. RT-PCR results show both lea2 and lea3 suddenly expressed significantly in mRNA level under drought and cold stress. The expression level of two genes reached optimal level at the same time. But under cold stress, the earlier significantly rising expressional time and the longer maintained higher level time in lea3 than lea2 elucidated that lea3 may be more important than lea2 in resisting cold stress in short time in P. cathayana.
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作物的抗旱性是一个多基因控制的、极为复杂的数量性状,植物对干旱在分子水平上的差异反应通过植物组织生理和细胞生物学水平,最终表现为植物抗旱性的不同。在我国,旱地农业超过耕地面积的50%,但水资源短缺,因此培育和选育抗旱高产作物是发展节水型农业最有效的途径。 青藏高原气候恶劣、年均降雨量少,也是世界大麦初生起源中心,因而蕴藏了十分丰富的与抗逆相关的种质资源材料,从这些特殊的资源材料克隆抗旱基因,不仅对培育抗旱、优质、高产大麦新品种具有重要理论意义和经济价值,而且对整个作物抗旱基础和育种应用研究都具重大促进作用。 为了筛选青稞(裸大麦,Hordeum vulgare ssp. vulgare)抗旱性材料,本研究选用来自青藏高原不同地区的84份青稞为材料,在叶片失水率(water loss rate, WLR)检测分析的基础上,选择失水率值差异显著的12个品种,通过相对含水量(relative water content, RWC)和反复干旱法评价其抗旱性,并通过植株对干旱胁迫下的丙二醛(MDA)含量和游离脯氨酸(free-proline)含量变化,了解不同抗旱性材料的生理反应特性。选择抗旱性强弱不同的品种各两份进行LEA2蛋白基因(Dhn6基因)、LEA3蛋白基因(HVA1基因)的克隆,比较LEA蛋白结构差异与作物抗旱性之间的关系。同时,对抗旱性不同的青稞品种受到干旱时间不同的失水变化率(dynamics water loss rate, DWLR)进行了检测;对抗旱性不同的青稞对照材料进行2 h、4 h、8 h和12 h的快速干旱处理,通过SYBR Green实时荧光定量RT-PCR技术对Dhn6基因、Dhn11基因、Dhn13基因和HVA1基因在不同抗旱性材料受到不同干旱时间处理后的相对表达水平进行了检测。本研究对LEA蛋白基因在抗旱性不同的青稞材料中的干旱胁迫分子水平上的差异反应进行了研究,也对植物的抗旱机理进行了初步探讨。主要研究结果如下: 1. 青稞苗期进行离体叶片失水率测定结果表明,来自青藏高原的84份青稞材料的WLR在0.086~0.205gh-1g-1DW之间。选择WLR低于0.1gh-1g-1DW和WLR高于0.18gh-1g-1DW的品种各6份,并对苗期分别进行未干旱及干旱12小时的处理。相对含水量检测结果表明,低失水率青稞材料干旱后的具有更高的相对含水量,盆栽缺水试验也显示叶片失水率低的材料耐旱能力强于失水率高的材料。通过水合茚三酮法测定离体叶片游离脯氨酸的含量,结果表明,所有品种未干旱处理时,游离脯氨酸含量差异不大(17.10~25.74 µgg-1FW);干旱12小时后,低失水率的品种游离脯氨酸含量明显增高(32.99~53.45µgg-1FW),高失水率品种的游离脯氨酸含量与干旱前变化不明显(P<0.05)。硫代巴比妥酸法测定离体叶片丙二醛(MDA)含量,结果显示,12份所选对照品种中,丙二醛的含量在0.97~2.74nmolg-1FW,干旱12小时后丙二醛的含量显著上升(1.46~4.74nmolg-1FW),高失水率的6个品种的丙二醛含量在未干旱和干旱处理时都明显高于低WLR品种。本研究结果表明青稞的低失水率、低丙二醛含量、高相对含水量和高脯氨酸含量具相关性(P<0.05)。综上研究,我们认为作物失水率的测定可以作为快速检测作物抗旱性的指标之一,因此,强抗旱品种喜玛拉10号(TR1)、品比14号(TR2)和弱抗旱品种冬青8号(TS1)、QB24 (TS2)被选作抗旱基因克隆和表达分析的研究材料。 2. 高等植物胚胎发育晚期丰富蛋白(late embryogenesis abundant proteins, LEA proteins)与植物耐脱水性密切相关,为了探讨青稞LEA蛋白结构差异性与植物抗旱性的关系,本研究以强抗旱品种(喜玛拉10号、品比14号)和弱抗旱品种(冬青8号、QB24)为材料,利用同源克隆法,通过RT-PCR,分别克隆了与抗旱性密切相关的Dhn6基因和HVA1基因。Dhn6基因序列分析结果表明,强抗旱品种品比14号和弱抗旱品种冬青8号Dhn6基因所克隆到的序列为1026bp,它们之间只有5个碱基的差异;喜玛拉10号和QB24克隆到的序列长963bp。在强弱不同的抗旱品种中有22个核苷酸易突变位点,相应的脱水素氨基酸序列推导结果表明,22个核苷酸突变位点中,仅有8个位点导致相应的氨基酸残基的改变,其余的位点系同义突变,另外,21个富含甘氨酸序列的缺失并没有联系作物抗旱性特征。推测这些同义突变位点的氨基酸残基对维持青稞DHN6蛋白的正常结构和功能起着非常重要的作用,也可能DHN6蛋白对青稞长期适应逆境胁迫和遗传进化的结果。对HVA1基因的序列分析结果表明,冬青8号、QB24、品比14号和喜玛拉10号的目的基因核苷酸序列全长分别为661bp、697bp、694bp和691bp,它们都包含1个完整的开放阅读框。相应的LEA3蛋白氨基酸序列结果表明,11个高度保守的氨基酸残基组成基元重复序列的拷贝数与青稞抗旱性之间没有必然关系,在强抗旱品种(喜玛拉10号、品比14号)中三个共同的氨基酸突变位点Gln32、Arg33和Ala195可能对抗旱蛋白的结构和功能有影响;另外,强抗旱青稞品种LEA3蛋白质中11-氨基酸保守基元序列拷贝数和极性氨基酸占蛋白的比例更高,推测LEA3蛋白中基元序列拷贝数和极性氨基酸占蛋白的比例对该蛋白的结构和功能影响更大。 3. LEA蛋白基因的表达水平的上调与植物的耐脱水性密切相关,我们对强抗旱性材料(喜玛拉10号、品比14号)和弱抗旱材料(冬青8号、QB24)进行干旱处理2 h、4 h、6 h、8 h和10 h的失水变化率进行测定,结果表明弱抗旱品种在2~4小时之间失水率变化最明显,而四个对照品种的失水率在8小时后和24小时的失水率值变化不大。进一步提取青稞苗期进行2 h、4 h、8 h和12 h的干旱处理后的总RNA,通过SYBR Green实时荧光定量RT-PCR技术对青稞脱水素基因(Dhn6、Dhn11和Dhn13)和LEA3蛋白基因(HVA1)的相对表达水平受干旱时间和作物抗旱性的影响进行了检测。研究发现,抗旱性不同的青稞品种随干旱处理的时间延长,Dhn6、Dhn11、Dhn13和HVA1基因的相对表达水平不同。 Dhn6基因的相对表达水平在强抗旱青稞品种干旱8小时后快速上升,但在弱抗旱青稞品种干旱处理12小时后检测到更高表达量;Dhn11基因在对照青稞抗旱品种的表达累积水平随干旱时间的延长持续下降;整个干旱过程中,Dhn13基因的相对表达水平在弱抗旱品种持续上升,在强抗旱品种中干旱处理8小时快速上升并达到最高,干旱12小时后降低。与脱水素基因相比较,强抗旱青稞品种在干旱2小时后HVA1基因的相对表达水平显著升高,相对表达量随干旱处理的时间持续上升,在干旱12小时后达到最高;与之相比较,在整个干旱过程中,弱抗旱品种的相对表达水平显著低于强抗旱品种,在干旱8小时之前弱抗旱品种的相对表达水平变化不明显;在干旱8~12小时后却显著上升。上述结果表明,不同的LEA蛋白在植物耐脱水过程中的干旱表达累积水平不同;干旱不是诱导高等植物Dhn11基因表达的主要因素;植物的抗旱性不同,不同LEA蛋白基因对干旱的反应有差异。推测某些LEA蛋白基因的干旱胁迫早期表达累积程度与植物的抗旱性直接相关;其中,Dhn11基因和Dhn12基因不同的表达模式可能与干旱调控表达顺式作用成分(dehydration responsive element, DRE)的有无或结构上的差异有关。 本研究结果认为,(1)失水率和相对含水量可作为植物抗旱性检测的指标之一;(2) DHN6同义突变位点的氨基酸残基对维持该蛋白的正常结构和功能起着重要作用;(3) 11-氨基酸保守基元序列拷贝数和极性氨基酸的比例对LEA3蛋白结构和功能有重要影响;(4)LEA蛋白表达随着干旱胁迫程度而增加,但Dhn11基因并不受干旱诱导表达;(5)作物的抗旱性不同,LEA蛋白对干旱的累积反应并不相同,干旱早期LEA蛋白的累积程度可能会影响植物的抗旱性。 Drought resistance was a complex trait which involved multiple physiological and biochemical mechanisms and regulation of numerous genes. Because its complex traits, it is difficult to understand the mechanisms of drought resistance in plants. Plants respond to water stress through multiple physiological mechanisms at the cellular, tissue, and whole-plant levels. Tibetan hulless barley, a pure line, is a selfing annual plant that has predominantly penetrated into the Qinghai-Tibetan Plateau and remains stable populations there. The wide ecological range of Tibetan hulless barley differs in water availability, temperature, soil type and vegetation, which makes it possess a high potential of adaptive diversity to abiotic stresses. This adaptive genetic diversity indicates that the potential of Tibetan hulless barley serves as a good source for drought resistance alleles for breeding purposes. 12 contrasting drought-tolerant genotypes were selected to measure relative water content (RWC), maldondialdehyde (MDA) and proline content, based on values of water loss rate (WLR) and repeated drought methods from Tibetan populations of cultivated hulless barley. As a result of the screening, sensitive and tolerant genotypes were identified to clarify relationships between characteristics of LEA2/LEA3 genes sequences and expression and drought-tolerant genotypes, associated with resistance to water deficit. In addition, dynamics water loss rate (DWLR) was measured to observe the changes on diffrential drought-tolerant genotypes. Real-time quantitative RT-PCR was applied to detect relative expression levels of Dhn6, Dhn11, Dhn13 and HVA1 genes in sensitive and tolerant genotypes with 2 h, 4 h, 8h and 12 h of dehydration. In the present study, differential sequences and expression of LEA2/LEA3 genes were explored in Tibetan hulless barley, associated with phenotypically diverse drought-tolerant genotypes. 1. The assessments of WLR and RWC were considered as an alternative measure of plant water statues reflecting the metabolic activity in plants, and the parameters of MDA and proline contents were usually consistent with the resistance to water stress. The values of detached leaf WLR of the tested genotypes were highly variable among 84 genotypes, ranging from 0.086 to 0.205 g/h.g DW. The 12 most contrasting genotypes (6 genotypes with the lowest values of WLR and 6 genotypes with the highest values of WLR) were further validated by measuring RWC, MDA and free-proline contents, which were well watered and dehydrated for 12 h. Results of RWC indicated that the values of 12 contrasting genotypes RWC ranged from 89.94% to 93.38% under condition of well water, without significant differences, but 6 genotypes with lower WLR had higher RWC suffered from 12 h dehydration. The results indicated that lower MDA contents, lower scores of WLR and higher proline contents were associated with drought-tolerant genotypes in hulless barley. Remarkably, proline amounts were increased more notable in 6 tolerant genotypes than 6 sensitive genotypes after excised leaves were dehydrated for 12 h, with control to slight changes under condition of well water. Results of MDA contents showed that six 6 tolerant genotypes had lower MDA contents than the 6 sensitive genotypes under both stressed and non-stressed conditions. As a result of that screening, drought- resistant genotypes (Ximala 10 and Pinbi 14) and drought-sensitive genotypes (Dongqing 8 and QB 24) were chosen for comparing the differential characteristics of LEA2/LEA3 genes and their expression analysis. It was conclusion that measurements of WLR could be considered an alternative index as screening of drought-tolerant genotypes in crops. 2. Late embryogenesis abundant (LEA) proteins were thought to protect against water stress in plants. To explore the relationships between configuration of LEA proteins and phenotypically diverse drought-tolerant genotypes, sequences of LEA genes and their deduced proteins were compared in Tibetan hulless barley. Results of comparing Dhn6 gene in Ximala 10 and QB24 indicated that absence of 63bp was found, except that only 5 mutant nucleotides were found. While 22 mutant sites were taken place in Dhn6 gene between sensitive and tolerant lines, 14 synonymous mutation sites appeared in the contrasting genotypes. The additional/absent polypeptide of 21 polar amino acid residues was not consistent with phenotypically drought-tolerant genotypes in hulless barley. It was deduced that synonymous mutation sites would play important roles in holding out right configurations and functions on DHN6 protein. The sequencing analysis results indicated that each cloned HVA1 gene from four selected genotypes contained an entire open reading frame. The whole sequence of HVA1 gene from Dongqing 8, QB24, Pinbi 14 and Ximala 10 was respectively 661bp, 697bp, 694bp and 691bp. Results of DNA sequence analyses showed that the differences in nucleotides of HVA1 gene in sensitive genotypes were not consistent with that of tolerant genotypes, except for absence of 33 nucleotides from +154 to +186 (numbering from ATG) in QB24. Database searches using deduced amino acid sequences showed a high homology in LEA3 proteins in the selected genotypes. Multiple sequence alignments revealed that LEA3 protein from Dongqing 8 was composed of 8 repeats of an 11 amino acid motif, less the fourth motif than Pinbi 14, Ximala 10 and QB24. Consistent mutant amino acid residues appeared in contrasting genotypes by aligning and comparing the coding sequence region, including Gln32, Arg33 and Ala195 in tolerant genotypes as compared to Asp32, Glu33 and Thr195 (Thr184 in Dongqing 8) in sensitive lines. It was concluded that consistent appearance of Gln32, Arg33 and Ala195 would contributed to functions of LEA3 protein in crops, as well as higher proportion of 11-amino-repeating motifs and polar amino acid residues. 3. Most of the LEA genes are up-regulated by dehydration, salinity, or low temperature, are also induced by application of exogenous ABA, which increases in concentration in plants under various stress conditions and acts as a mobile stress signal. Higher levels of proteins of LEA group 3 accumulated was correlated well with high level of desiccation tolerance in severely dehydrated plant seedlings. Dehydrins (DHNs), members of LEA2 protein, are an immunologically distinct protein family, and Dhn genes expression is associated with plant response to dehydration. Dynamic water loss rate was measured between sensitive genotypes and tolerant genotypes after they were dehydrated for 2 h, 4 h, 6h and 8 h. Detailed measurements of WLR at the early stage of dehydration (2, 4, 6, and 8 h) showed that WLR was stabilizing after 8 h, and there were no significant changes between these values and WLR after 24 h. Drought stress was applied to 10-day-old seedlings by draining the solution from the container for defined dehydration periods. Leaf tissues of the selected genotypes were harvested from control plants (time 0); and after 2, 4, 8, and 12 h of dehydration. Differential expression trends of Dhn6, Dhn11, Dhn13 and HVA1 genes were detected in phenotypically diverse drought-tolerant hulless barleys, related to different time of dehydration. Results of quantitative real-time PCR indicated that relative level of HVA1 expression was always higher in tolerant genotypes, rapidly increasing at the earlier stages (after 2-4 h of dehydration). However, HVA1 expressions of sensitive genotypes had a fast increase from 8 h to 12 h of stress. Significant differences in expression trends of dehydrin genes between tolerant genotypes and sensitive lines were detected, mainly in Dhn6 and Dhn13 gene, depending on the duration of the dehydration stress. The relative expression levels of Dhn6 gene were significantly higher in tolerant genotypes after 8 h dehydration, by control with notable higher expression levels after 12 h water stress in sensitive ones. The relative expression levels of Dhn13 gene tended to ascend during exposure to dehydration in drought-sensitive genotypes. However, fluctuate trends of Dhn13 expression level were detected in drought-resistant lines, including in lower expression levels of 12 h dehydration as compared to 8 h water stress. It was conclusion that (1) diverse LEA proteins would play variable roles in resisting water stress in plants; (2) expression of Dhn11 gene was not induced by dehydrated signals because of the trends of expression descended in contrasting genotypes suffered from water deficit and (3) variable accumulations on LEA proteins would be appear in diverse drought-tolerant genotypes during dehydrations. It is deduced that higher accumulations of Dhn6 and Dhn13 expression in 8 h dehydration are related to diverse drought-tolerant lines in crops. The present results indicated that different dehydrin genes would play variable functional roles in resisting water stress when plants were suffered from water deficit. The authors suggest physiologically different reactions between resistant and sensitive genotypes may be the results of differential expression of drought-resistant genes and related signal genes in plants. In addition, contrarily induced expression of Dhn11 and Dhn12 was related to dehydration responsive element (DRE) in barleys. The present study indicated that (1) measurements of WLR and RWC could be considered as one index of drought-tolerant screenings; (2) synonymous mutation sites would play important roles in holding out right configurations and functions on DHN6 protein, (3) higher proportion of 11-amino-repeating motifs and polar amino acid residues would contribute to functions on LEA3 protein, (4) the longer drought, the more accumulation on LEA proteins, except for Dhn11 gene in crops and (5) differential responses on expression of LEA protein genes would result in physiological traits of drought tolerance in plants.
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株高是农作物的重要农艺性状之一,适度矮化有利于农作物的耐肥、抗倒、高产等。20世纪50年代,以日本的赤小麦为矮源的半矮秆小麦的培育和推广,使得世界粮食产量显著增长,被誉为“绿色革命”。迄今为止,已报到的麦类矮秆、半矮秆基因已达70多个,但由于某些矮源极度矮化或者矮化的同时伴随不利的农艺性状,使得真正运用于育种实践的矮源较少。因此,发掘和鉴定新的控制麦类作物株高的基因,开展株高基因定位、克隆及作用机理等方面的研究,对实现麦类作物株高的定向改良,具有重要的理论意义和应用价值。簇毛麦(Dasypyrum villosum,2n=14,VV)是禾本科簇毛麦属一年生二倍体异花授粉植物,为栽培小麦的近缘属。本课题组在不同来源的簇毛麦杂交后代中发现了一株自然突变产生的矮秆突变体。观察分析了该突变体的生物学特性,对矮秆性状进行了遗传分析,对茎节细胞长度、花粉的活力进行了细胞学观察,考察了该突变体内源赤霉素含量及不同浓度外施赤霉素对突变体的作用,分析了赤霉素生物合成途径中的内根贝壳杉烯氧化酶(KO)和赤霉素20氧化酶(GA20ox)的转录水平,对赤霉素20氧化酶和赤霉素3-β羟化酶(GA3ox)进行了克隆和序列分析,并对GA20ox进行了原核表达和表达的组织特异性研究。主要研究结果如下:1. 该突变体与对照植株在苗期无差异,在拔节后期才表现出植株矮小,相对对照植株,节间伸长明显受到抑制,叶鞘长度基本不变。在成熟期,对照植株的平均株高为110cm,而突变株的平均株高为32cm,仅为对照植株的1/3 左右。除了株高变矮以外,在成熟后期,突变株还表现一定程度的早衰和雄性不育。I2-KI染色法观察花粉活力结果表明,对照植株花粉90%以上都是有活力的,而突变植株的花粉仅20%左右有活力。2. 突变株与对照植株的杂交F1代均表现正常株高,表明该突变性状为隐性突变。F1代植株相互授粉得到的168株F2代植株中,株高出现分离,正常株高(株高高于80cm)与矮秆植株(株高矮于40cm)的株数比为130:38,经卡方检验,其分离比符合3:1的分离比,因此推测该突变体属于单基因的隐性突变。3. 用ELISA方法检测突变株和对照植株的幼嫩种子中内源性生物活性赤霉素(GA1+3)含量,结果表明突变株的赤霉素含量为36 ng/ml,而对照植株的赤霉素含量为900 ng/ml。对突变株外施赤霉素,发现矮秆突变株的株高和花粉育性均可得到恢复。这些结果表明该突变株为赤霉素缺陷型突变。4. 用荧光定量PCR方法比较突变株与对照植株中内根贝壳杉烯氧化酶和赤霉素20氧化酶的转录水平,结果表明突变株的KO转录水平比对照植株分别提高了6倍(苗期)和16倍(成熟期),突变株的GA20ox转录水平与对照植株在苗期无明显差异,在成熟期突变株较对照植株则提高了10倍左右。这些结果表明该矮秆突变体与赤霉素的生物合成途径密切相关,而且极有可能在赤霉素的生物合成途径早期就发生了改变。5. 以簇毛麦总基因组为模板,同源克隆了GenBank登录号为EU142950,RT-PCR分离克隆了簇毛麦的GA3ox基因cDNA全长序列,分析结果表明该cDNA全长1206bp,含完整编码区1104bp,推测该序列编码蛋白含368个氨基酸残基,分子量为40.063KD,等电点为6.27。预测的氨基酸序列含有双加氧酶的活性结构,在酶活性中心2个Fe离子结合的氨基酸残基非常保守。该序列与小麦、大麦和水稻的GA3ox基因一致性分别为98%、96%、86%。基因组序列与cDNA序列在外显子部分一致,在478-715bp和879-1019bp处分别含238bp和140bp的内含子。6. 通过RT-PCR技术克隆了簇毛麦的GA20ox基因全长,命名为DvGA20ox,GenBank登录号为EU142949。该基因全长1080个碱基,编码359个氨基酸,具有典型的植物GA20ox基因结构。该基因编码的蛋白质与小麦、大麦、黑麦草等GA20ox蛋白的同源性分别为98%,97% 和91%。该序列重组到原核表达载体pET-32a(+)上,将获得的重组子pET-32a(+)-DvGA20ox转化大肠杆菌BL21pLysS后用IPTG进行诱导表达。SDS-PAGE分析表明,DvGA20ox基因在大肠杆菌中获得了高效表达,融合蛋白分子量为55kDa。定量PCR分析表明,该基因在簇毛麦不同器官中的表达差异明显:叶片中表达水平最高,根部表达水平次之,茎部和穗中表达较弱。在外施赤霉素后,该基因的表达水平在两小时以后急剧下降,表明该基因的表达受自身的反馈调节。本研究结果认为,(1)该簇毛麦矮秆突变体为单基因的隐性突变;(2)该矮秆突变体为赤霉素敏感突变,内源赤霉素含量检测表明突变体的内源性赤霉素含量仅为对照植株的1/30;(3)荧光定量PCR结果表明突变株的赤霉素生物合成途径的关键酶基因表达水平比对照植株高,而且突变植株的赤霉素生物合成改变很可能发生在赤霉素生物合成途径的早期;(4)GA20ox有表达的组织特异性,且受到自身产物的反馈调节。 Plant height is an impotrant agronomic trait of triticeae crops.Semi-dwarf cropcultivars, including those of wheat, maize and rice, have significantly increased grainproduction that has been known as “green revolution”. The new dwarf varieties couldraise the harvest Index at the expense of straw biomass, and, at the sametime, improvelodging resistance and responsiveness to nitrogen fertilizer. Moreover, dwarf traits ofplant are crucial for elucidating mechanisms for plant growth and development aswell. In many plant species, various dwarf mutants have been isolated and theirmodles of inheritance and physiology also have been widely investigated.The causesfor their dwarf phenotypes were found to be associated with plant hormones,especially, gibberellins GAs.Dasypyrum villosum Candargy (syn.Haynaldia villosa) is a cross-pollinating,diploid (2n = 2x = 14) annual species that belongs to the tribe Triticeae. It is native toSouthern Europe and West Asia, especially the Caucasuses, and grows underconditions unfavorable to most cultivated crops. The genome of D. villosum,designated V by Sears, is considered an important donor of genes to wheat for improving powdery mildew resistance, take-all, eyespot, and plant and seed storageprotein content. A spontaneous dwarf mutant was found in D. villosum populations.The biological character and modles of inheritance of this dwarf mutant are studied.The cell length of stem cell is observed. The influence of extraneous gibberellin tothe dwarf mutant is also examined; the transcript level of key enzyme of gibberellinbiosynthesis pathway in mutant and control plants is compared. GA3ox and GA20oxare cloned and its expression pattern is researched.1. The dwarf mutant showed no difference with control plants at seedlingstage.At mature stage, the average height of control plants were 110cm and the dwarfplants were 33cm. The height of the mutant plant was only one third of the normalplants due to the shortened internodes. Cytology observation showed that theelongation of stem epidermal and the parenchyma cells were reduced. The dwarfmutant also shows partly male sterile. Pollen viability test indicates that more than80% of the pollen of the mutant is not viable.2. The inheritance modle of this dwarf mutant is studied. All The F1 plantsshowed normal phenotype indicating that the dwarfism is controlled by recessivealleles. Among the 168 F2 plants, there are 130 normal plants and 30 dwarf plants, thesegregation proportion accord with Mendel’s 3:1 segregation. We therefore proposethat this dwarf phenotype is controlled by a single recessive gene.3. Quantitative analyses of endogenous GA1+3 in the young seeds indicated thatthe content of GA1+3 was 36ng/ml in mutant plants and 900ng/ml in normal plants.The endogenous bioactive GA1+3 in mutant plants are only about 1/30 of that innormal plants. In addition, exogenously supplied GA3 could considerably restore themutant plant to normal phenotype. These results showed that this mutant wasdefective in the GA biosynthesis.4. More than ten enzymes are involved in GA biosynthesis. KO catalyzes thefirst cytochrome P450-mediated step in the gibberellin biosynthetic pathway and themutant of KO lead to a gibberellin-responsive dwarf mutant. GA20ox catalyze therate-limited steps so that their transcript level will influence the endogenous GAbiosynthesis and modifies plant architecture. The relative expression levels of genesencoding KO and GA20ox were quantified by real time PCR to assess whether thechanges in GA content correlated with the expression of GA metabolism genes andwhere the mutant occurred during the GA biosynthesis pathway. In mutant plants,the transcript levels of KO increased about 6-fold and 16-fold at the seedling stage and elongating stage respectively comparing with the normal plants. For theseedlings, there was no notable difference in the expression of GA20ox betweenmutant and normal plants. At the elongating stage, GA20ox transcript increased 10times in mutant plants, suggesting that the GA biosynthesis pathway in mutant plantshad changed from the early steps rather than the late steps.5. A full length cDNA of D. villosum gibberellin 3β-hydroxylase homology(designated as DvGA3ox) was isolated and consisted of 1206bp containing an openreading frame of 1104bp encoding 368 predicted amino acid residues. Identityanalysis showed that the gibberellin 3β-hydroxylase nucleotide sequence shared 98%,96% and 86% homology with that of wheat, barley and rice. The predicted peptidecontained the active-site Fe of known gibberellin 3β-hydroxylase and the regionhomologous to wheat, barley and Arabidopsis. The genomic clone of gibberellin3β-hydroxylase has two introns.6. The full-length cDNA of D. villosum gibberellin 20 oxidase (designated asDvGA20ox) was isolated and consisted of 1080-bp and encoded 359 amino acidresidues with a calculated mol wt of 42.46 KD. Comparative and bio-informaticsanalyses revealed that DvGA20ox had close similarity with GA20ox from otherspecies and contained a conserved LPWKET and NYYPXCQKP regions. Tissueexpression pattern analysis revealed DvGA20ox expressed in all the tissues that wereexamined and the highest expression of DvGA20ox in expanding leaves followed byroots. Heterologous expression of this cDNA clone in Escherichia coli gave a fusionprotein that about 55KD. Transcript levels of DvGA20ox dramatically reduced twohours after application of biologically active GA3, suggesting that the biosynthesis ofthis enzymes might be under feedback control.
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赤霉素是一种高效能的广谱植物生长调节剂,为五大植物激素之一,具有重要的生物学功能。目前利用赤霉素突变体研究生物合成途径和信号转导已经成为热点。 GA 20-氧化酶是GA生物合成中的一类关键酶,它位于GA合成途径的中心位置。本研究根据烟草(Nicotiana tabacum)GA 20-氧化酶基因序列,设计2对分别含有特定酶切位点的特异引物,以烟草基因组DNA为模板,扩增目的基因(约250 bp)片段。将正、反向目的片段分别插入中间载体的内含子两侧,再经BamH I和Sac I双酶切回收约700 bp的目的片段,插入到双元载体质粒p2355中,成功构建了含GA 20-氧化酶基因片段反向重复序列的植物表达载体p23700。分别将p2355质粒和p23700质粒导入根癌农杆菌(Agrobacterium tumefaciens)EHA105中并转化烟草叶片细胞,经卡那霉素选择培养,PCR及GUS组织染色鉴定,获得转基因烟草植株。以EHA105-p2355转化的烟草,获得41株转基因植株,均没有矮化表型;而以EHA105-p23700转化的烟草,获得转基因植株14株,其中具有矮化表型的烟草10株,表明反向重复序列转录产物能形成发夹RNA(hpRNA),产生小分子干扰RNA(small interferring RNA,简称siRNA),干扰目的基因的表达。 赤霉素含量测定表明矮化植株中赤霉素合成途径的最终产物GA3总含量明显低于野生型烟草植株。荧光定量PCR结果表明,矮化转基因烟草的GA 20-氧化酶基因表达量受到明显抑制,表达量明显低于野生型对照。同时对上游内根-贝壳杉合成酶(Ent-kaurene synthase,KS)基因,下游的GA-3β羟化酶基因进行了RT-PCR分析,结果显示上游基因的表达没有规律性变化,而下游基因表达量亦降低。上述结果表明,GA 20-氧化酶基因的表达被有效地干扰了,表达受到抑制,从而影响植株体内GA3的合成,影响植株的生长发育,导致植株矮化。并推测,GA 20-氧化酶基因受到抑制,可能影响下游基因的表达。并且通过干旱胁迫测试,发现矮化植株相对于野生型植株及不含干扰片段的转基因植株,对干旱的耐受力有了很大的提高,具有更强的耐受力。 研究结果为进一步进行相关研究奠定基础。 Gibberellin(GA) is an efficient plant growth regulator. As one of five major plant hormones, it plays an important biological function. Using GA mutant for investigating biosynthetic pathways and signal transduction has become high lights. GA 20-oxidase is a crucial enzyme involved in gibberellin biosynthesis. According to tobacco (Nicotiana tabacum) GA 20-oxidase enzyme gene sequence and based on binary vector p2355, we constructed a plant expression vector p23700, which habors an inverted repeat DNA fragment of GA 20-oxidase gene drivered by Cauliflower mosaic virus promtor (CaMV 35Sp). Binary plasmid p2355 had no inverted repeat DNA fragment of GA 20-oxidase gene. The vector p2355 and p23700 were introduced into Agrobacterium tumefaciens EHA105 and tobacco leaf transformation was conducted. After selected by kanamycin and characterized by PCR and GUS hischemical reaction, transsgenic plants were obtained. Fourtheen transgenic plants, which were transformed by EHA105-p23700, were obtained. Among them, 10 were dwarf mutants. However, 41 transgenic plants with the same normal phenotype as wild type,which were transformed by EHA105-p2355, were obtained. Analysis of Gibberellin contents showed that it was lower in dwarf mutants than in normal phenotype plants. Moreover, comparing to normal phenotype plants including wild type and transgenic plants with no interference fragment, the drought tolerance of dwarf plants have greatly increased. And their proline content increased obviously after drought test. Fluorescence quantitative real time PCR (RT-PCR) showed that GA 20-oxidase gene expression was significantly inhibited in dwarf transgenic tobacco. Meanwhile, the expression of the upstream gene ent-kaurene synthase (KS) gene and downstream gene GA-3β hydroxylase gene was also detected by RT-PCR. The results presented that KS gene expression had no regular change while GA-3β hydroxylase gene expression reduced. It implied that inhibiting GA 20-oxidase gene probably reduce the expression of downstream genes. The results showed that the transcriptional products of the foreign inverted repeat fragment can form hairpin RNA (hpRNA) to induce RNAi. It presented that GA 20-oxidase gene expression was effectively interfered, resulting in reducing GA3 synthesis and inhibiting plant growth and development, then dwarf plants were produced. However, the dwarf plants had higher tolerance of drought.
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目的用Polyfect转染试剂将重组质粒pEgr-TNFα转染人肝癌细胞SMMC-7721,研究该重组质粒经12C6+离子作用后在细胞中的表达。方法用ELISA方法检测TNFα的蛋白表达,用RT-PCR方法检测TNFα转录水平的变化。结果转染pEgr-TNFα后在SMMC-7721细胞中TNFα的蛋白表达量为2·06ng/ml,2Gy12C6+离子照射后,表达量增高为2·11ng/ml,明显高于未转染组和转染空载体组;RNA转录水平也明显增高,2Gy12C6+离子照射后增高更明显。结论12C6+离子联合重组质粒pEgr-TNFα,在被转染的SMMC-7721细胞中表达量明显增高。
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研究低剂量辐射结合腺病毒(AdCMV)载体介导的p53基因转导对人黑色素瘤A375细胞系基因转移效率和辐射敏感性的影响。用复制缺陷的重组腺病毒载体(AdCMV-p53)介导人p53基因转染1GyX-射线预辐照的A375细胞系,RT-PCR检测mRNA水平,流式细胞仪测定细胞周期阻滞及外源性P53蛋白表达情况,克隆形成率测定辐射后细胞存活率。用携带报道基因的复制缺陷重组腺病毒载体AdCMV-GFP作为对照。实验结果表明,1GyX-射线辐照可较高地增加AdCMV-p53对A375细胞的基因转导效率,转导的外源性野生型p53可在A375(wtp53)细胞中高效表达,并诱导细胞周期G1期阻滞;单纯转导p53对A375细胞无明显诱导凋亡和生长抑制效应;而转导p53后给予X-射线辐射,当剂量达到4Gy及其以上时,48h后AdCMV-p53感染组细胞开始出现明显形态改变,克隆存活率明显低于AdCMV-GFP感染组和未感染组,显示存活曲线下移,4Gy时细胞存活率就减少了1个量级。小剂量辐射既可有效增加AdCMV-p53介导的p53转导,又不会对患者产生明显副作用;转导野生型p53的人黑色素瘤A375细胞系显示P53过表达;过表达的P53蛋白虽然对A375细胞无明显生长抑制及凋亡诱导作用,但可明显增加其辐射敏感性。这表明p53是基因治疗黑色素瘤较好的侯选基因,也为临床上放疗联合基因治疗黑色素瘤提供了实验室依据,即减轻临床上对于辐射敏感性差的肿瘤单纯大剂量照射或单纯基因疗法中rAd-p53制品用量过大而给病人造成的毒副作用。
