大肠杆菌表达的重组细胞色素P—450nor的分离纯化

用ＤＥ－５２纤维素柱色谱法和ＦＰＬＣ法分离纯化了大肠杆菌表达的重组缣孢菌色素Ｐ－４５０ｎｏｒ，经梯度洗脱ＭｏｎｏＱ纯化后的ｆＲ．Ｐ－４５０ｎｏｒ为单一色谱峰，比活达５５．２０Ｕ／ｍｇ、纯化倍数约为１１００倍，ＳＤＳ－ＰＡＧＥ检测为单一谱带。     

亚洲棉GAE6—3A上游序列的分离及其在烟草中的表达

根据Ｅ６基因保守域设计引物,ＰＣＲ扩增出亚洲棉（Ｇａｓｓｙｐｉｕｍ ａｒｂｏｒｅｕｍ Ｌ．）ＧＡＥ６基因长约４００ｂｐ片段,序列分析表明该片段与海棉（Ｇ．ｂａｒｇｂａｄｅｎｓｅ）Ｅ６基因同源性达９６．８％。进一步合成２个反向引物协助进行ＰＣＲ－９６孔板筛库分离到亚洲板棉ＧＡＥ６－３Ａ克隆。酶切鉴定其插入片段长约８．０ｋｂ,序列测定及分析结果表明其上游和约１．５ｋｂ,将ＧＡＥ６－３Ａ上游序列克 含有     

亚洲棉种内群体异常偏分离的分子标记检测

利用3个形态标记、20个SSR和11个SRAP多态性标记,研究它们在“如东鸡脚桠果”与“美国中棉971”杂交的F2群体中的分离情况。结果表明,77.42%的分子标记表现为偏分离,所有的偏分离标记都偏向母本“如东鸡角桠果”;如此高的偏分离比例以及偏分离标记都偏向一个亲本,这种现象在棉花中是比较罕见的。3种类型的SSR标记和非物种特异性的SRAP标记都表现偏分离,而形态标记则表现为正常分离,这表明该异常偏分离现象是由材料本身的遗传特性所决定的。通过分析偏分离的共显性标记的等位基因频率(p=q)以及各种基因型频率(p2:2pq:q2)的F2分布,发现大多数标记的等位基因频率差异显著而F2基因型频率分布正常,表明这些标记产生偏分离可能是配子体选择的结果。     

棉酚和烟碱对棉铃虫的生长和细胞色素P—450单加氧酶活性的影响

以人工饲料添加测定了0．5％的棉酚和烟碱对棉铃虫的生长和细胞色素P－450单加氧酶（简称P－450酶系）活性的影响。研究结果显示,在测定浓度下,高龄棉铃虫短期取食含棉酚和烟碱的人工饲料后,对幼虫的生长没有显著影响,由此表明,棉铃虫对其主要寄主植物中的次生物质棉酚和烟碱具有很好的适应能力。与此同时,棉铃虫中肠微粒体P－450酶系的蛋白组成和酶活性发生了不同的变化,有升有降,有的没有变化。棉铃虫可能通过调整P－450酶系的各种蛋白含量和酶的活力水平,来适应对植物次生物质的代谢解毒的需要。另外,棉铃虫取食棉酚和烟碱后,细胞色素B5含量均显著提高,而细胞色素P－450含量均显著降低,细胞色素B5在棉铃虫对棉酚和烟碱的解毒代谢中可能发挥着更为重要的作用。     

亚洲棉(+)-δ-杜松烯合成酶基因CAD1-A的分离及其在幼苗中的表达特征分析

棉花倍半萜环化酶, 即(+)-δ-杜松烯合成酶(CAD), 由一个基因家族编码. 该基因家族可分为两个亚族: CAD1-A和CAD1-C. 分离了亚洲棉CAD1-A基因. 对亚洲棉7天龄幼苗的mRNA原位杂交表明, CAD1-A和CAD1-C的转录子主要分布在侧根原基、顶端分生组织和新生侧根的维管组织中, 在幼苗下胚轴的原形成层和部分表皮、下表皮细胞中也有分布. CAD1-A启动子在转基因烟草中表现出相似的活性. 组织化学实验发现, 倍半萜醛类分布于侧根根尖的外层细胞以及地上部分的色素腺体中. CAD1基因在亚洲棉幼苗中的表达特征, 以及倍半萜醛类的分布特征, 组成了棉花幼苗的化学防御体系.     

大肠杆菌表达的重组细胞色素P-450nor的分离纯化

用DE－52纤维素柱色谱法和FPLC法（fastProteinliquidchromatography）分离纯化了大肠杆菌表达的重组缣孢菌细胞色素P－450nor（recombinant　fusariumoxvsporumcytochromeP－450nor,rF．P－450nor）．经梯度洗脱MonoQ纯化后的rF．P－450nor为单一色谱峰,比活达55．20U／mg,纯化倍数约为1100倍,SDSPAGE检测为单一谱带．     

亚洲棉GAE6-3A上游序列的分离及其在烟草中的表达

根据E6基因保守域设计引物 ,PCR扩增出亚洲棉 (GossypiumarboreumL .)GAE6基因长约 40 0bp片段 ,序列分析表明该片段与海岛棉 (G .barbadense)E6基因同源性达 96 .8%。进一步合成 2个反向引物协助进行PCR 96孔板筛库分离到亚洲棉GAE6 3A克隆。酶切鉴定其插入片段长约 8.0kb ,序列测定及分析结果表明其上游长约 1.5kb。将GAE6 3A上游序列克隆至含有内含子的GUS基因前 ,构建了植物表达载体。三亲杂交后农杆菌介导转化烟草 ,组织化学分析显示GUS基因在转基因烟草植株的根、茎、叶的表皮 (包括表皮毛 )及维管组织表达较强     

亚洲玉米螟滞育关联蛋白的分离和纯化

用6%聚丙烯酰胺凝胶电泳, 在亚洲玉米螟Ostrinia furnacalis河南种群滞育幼虫血淋巴中发现了2种滞育关联蛋白, 它们的等电点分别为5.3和4.7; 而在亚洲玉米螟上海种群滞育幼虫血淋巴中发现了1种滞育关联蛋白,等电点为4.7。亚洲玉米螟河南种群滞育关联蛋白仅在滞育幼虫血淋巴中存在。亚洲玉米螟上海种群滞育关联蛋白在滞育和非滞育幼虫血淋巴中均存在,只是它们在滞育幼虫血淋巴中的含量明显高于非滞育幼虫血淋巴中的含量。用30%～50%丙酮沉淀、SephaDex G-100凝胶过滤和MONOQ RH 5/5阴离子交换快速液相法,纯化到了高纯度(≥98%)亚洲玉米螟上海种群滞育幼虫血淋巴中的滞育关联蛋白。     

Isolation and characterization of a sterile-dwarf mutant in Asian cotton （Gossypium arboreum L.）

Plant height is an important trait in cotton. To elucidate the molecular mechanisms of the dwarf phenotype, a sterile-dwarf mutant derived from Gossypium arboreum L. cv. Jinhuazhongmian was developed by ^60Co y-ray irradiation. The results demonstrated that the steriledwarf mutant phenotype was controlled by a pair of recessive gene, which was designated sd^a. Plants carrying the sd^a gene contained lower levels of indole-3-acetic acid （IAA） and abscisic acid （ABA） compared with wild-type （WT） plants. The chlorophyll content and net photosynthetic rate in mutant leaves were markedly decreased. However, it was possible that ABA biosynthesis or signaling was involved in governing the sd^a phenotype. Semi-quantitative RT-PCR analysis detected 13 differentially expressed ESTs, and the steriledwarf mutant exhibited decreased expression levels relative to the WT. The role of nine potential hormone biosynthetic genes in the synthesis of IAA, ABA, polyamines （PAs） and jasmonic acid （JA） were discussed.     

Genetic Diversity of Landraces in Gossypium arboreum L. Race sinense Assessed with Simple Sequence Repeat Markers

Asiatic cotton (Gossypium arboreum L.) is an "Old World" cultivated cotton species, the sinense race of which is planted extensively in China. This species is still used in the current tetraploid cotton breeding program as an elite germplasm line, and is also used as a model for genomic research in Gossypium. In the present study, 60 cotton microsatellite markers, averaging 4.6 markers for each A-genome chromosome,were chosen to assess the genetic diversity of 109 accessions. These included 106 G. arboreum landraces,collected from 18 provinces throughout four Asiatic cotton-growing regions in China. A total of 128 alleles were detected, with an average of 2.13 alleles per locus. The largest number of alleles, as well as the maximum number of polymorphic loci, was detected in the A03 linkage group. No polymorphic alleles were detected on chromosome 10. The polymorphism information content for the 22 polymorphic microsatellite loci varied from 0.52 to 0.98, with an average of 0.89. Genetic diversity analysis revealed that the landraces in the Southern region had more genetic variability than those from the other two regions, and no significant difference was detected between landraces in the Yangtze and the Yellow River Valley regions. These findings are consistent with the history of sinense introduction, with the Southern region being the presumed center of origin for Chinese Asiatic cotton, and with subsequent northeastward extension to the Yangtze and Yellow River Valleys. Cluster analysis, based on simple sequence repeat data for 60 microsatellite loci, clearly differentiated Vietnamese and G. herbaceum landraces from the sinense landrace. No relationship between inter-variety similarity and geographical ecological region was observed. The present findings indicate that the Southern region landraces may have been directly introduced into the provinces in the middle and lower Yangtze River Valley, where Asiatic cotton was most extensively grown, and further race sinense crops were subsequently produced.     

Genetic modification of Gossypium arboreum universal stress protein (GUSP1) improves drought tolerance in transgenic cotton (Gossypium hirsutum)

Cotton crop suffers shortage of irrigation water at reproductive stage which reduces the yield and fibre quality. Universal stress proteins belong to Pfam00582 which enables several plants to cope with multiple stresses via ATP binding. GUSP1 (Gossypium arboreum USP) is one of such proteins; its amino acids were mutated after in silico simulations including homology modeling and molecular docking analysis. Transgenic cotton plants were developed through Agrobacterium mediated genetic transformation by using mutated pmGP1 and non mutated pGP1 constructs under CaMV35S promoter. PCR and semi-quantitative PCR analyses confirmed the amplification and expression of transgene in transgenic plants. It was revealed that leaf relative water content, total chlorophyll content, CO₂ assimilation as net photosynthesis, stomatal conductance, total soluble sugars and proline content was significantly increased at P ≤ 0.0001 and P ≤ 0.001 in both the pmGP1 and pGP1 transgenic plants as compared to non transgenic control plants. Moreover, relative membrane permeability and the transpiration rate were reduced significantly at P ≤ 0.0001 and P ≤ 0.001 respectively in transgenic plants under drought stress. Furthermore, the T1 transgenic seedlings containing pmGP1 mutated construct showed longer roots under desiccation stress imposed by 5% PEG. Transgene inheritance into the T1 progeny plants was confirmed by amplification through PCR and integration through Southern blot. Hence, our results pave the way to utilize the mutagenized known genes for increasing endurance of plants under drought stress. This will help to increase our understanding of drought tolerance/ sensitivity in cotton plants at the molecular level.Supplementary Information The online version contains supplementary material available at 10.1007/s12298-021-01048-5.     

棉花Gh4CL1基因克隆及表达

根据棉花纤维特异表达cDNA文库分析得到的4-香豆酸辅酶A连接酶基因EST序列设计引物,采用RT-PCR技术从棉花中克隆了1个4CL基因,命名为Gh4CL1(GenBank登录号为FJ479707).结果表明:Gh4CL1基因cDNA全长2 331 bp,具有1个1 722 bp的开放阅读框,5′非编码区为64 bp,3′非编码区为445 bp,编码573个氨基酸,预测分子量约为61.951 kD,等电点为5.70.氨基酸同源性分析发现,Gh4CL1与来自白杨、大豆和紫草的4CL同源性较高.半定量RT-PCR检测表明,Gh4CL1基因在不同发育阶段的棉纤维中均有表达,在开花后20 d的棉纤维中表达量最大,说明该基因可能参与调控棉纤维细胞的伸长和次生壁的增厚.Gh4CL1基因在棉花花瓣中表达量最高,在其他组织中低水平表达或不表达.     

小麦中两个肉桂酰辅酶A还原酶基因的分离和表达分析

肉桂酰辅酶A还原酶（CCR）负责催化木质素单体生物合成中最重要的代谢反应,它将类苯丙酸类代谢物转移到木质素的合成途径中,为了更好地了解木质素在小麦生长发育中的作用,从小麦（Triticum aestivum L.ev,H4564)中克隆了两个肉桂酰辅酶A还原酶的cDNA,相似性和进化关系的分析表明这两个cDNA片段分别属于不同的肉桂酰辅酶A还原酶,这两个cDNA片段分别命名为W－cr6和W-cr19,RT-PCR和Northen杂交结果证明,W－cr6基因主要在小麦的茎和叶中表达,W－cr19基因主要在根和茎中表达,上述结果表明在小麦的基因组中至少存在两类肉桂酰辅酶A还原酶基因。     

Cloning and Expression Analysis of Two Wheat cDNAs Encoding Cinnamoyl-CoA Reductase

Cinnamoyl-CoA reductase (CCR) is responsible for the first committed reaction in monolignol biosynthesis, which diverts phenylpropanoid-derived metabolites into the biosynthesis of lignin. To gain a better understanding of the lignin biosynthesis in wheat development, two cDNAs encoding CCR were identified from wheat ( Triticum aestivum L. cv. H4564). DNA sequence analyses indicated that the two cDNAs represent two classes of CCR. RT-PCR and Northern blot hybridization demonstrated that one of them, W-cr6, was expressed actively in stem and leaf tissue, the other one, W-cr19, was expressed in root and stem tissue. The results suggested that there are at least two genes encoded for CCR existing in wheat genome.     

棉花4-香豆酸辅酶A连接酶基因克隆及原核表达

本研究从棉花中克隆了一个4CL基因,命名为Gh4CL2(GenBank登录号为FJ848870)。研究结果表明:Gh4CL2基因cDNA全长2332bp,具有一个1725bp的开放阅读框,5′非编码区为64bp,3′非编码区为543bp,编码574个氨基酸,预测分子量约为62.106kD,等电点为5.94。氨基酸同源性分析发现,Gh4CL2与来自白杨、大豆和紫草的4CL一致性较高。进一步研究Gh4CL2基因的功能,构建了该基因的原核表达载体pET-28a-4CL2,经酶切鉴定后转化到大肠杆菌BL21(DE3)中。SDS-PAGE分析表明,最佳诱导表达条件为0.5mmol/LIPTG在37℃下诱导4h,重组蛋白主要以包涵体形式出现。