过表达秋茄C2H2型锌指蛋白基因KcZFP提高烟草耐盐性

基因转录调节是植物对非生物胁迫适应机制的一个重要方面,转录调节因子在胁迫信号转导途径中调节下游基因的表达,在建立植物对胁迫适应性过程中起到重要作用.锌指蛋白是功能多样的转录调节因子蛋白家族,家族成员在植物响应非生物胁迫方面扮演着重要角色.本研究以秋茄C2H2型锌指蛋白编码基因KcZFP为目的基因,在烟草中过表达KcZFP,分析C2H2型锌指蛋白在植物耐盐性中的作用.研究结果显示:转基因株系中,KcZFP表达量显著提高.过表达KcZFP的烟草植株的耐盐性明显提高,在200 mmol/L NaCl处理的条件下,KcZFP过表达烟草中脯氨酸水平远高于野生型植株.对光合作用参数比较分析显示,在KcZFP过表达植株中净光合速率受盐胁迫的影响小于野生型植株,光合系统在一定程度上得到了保护.研究结果说明KcZFP作为转录调节因子参与了植物的渗透调节,对植物的耐盐性具有贡献.     

拟南芥热激转录因子耐高温功能分析

从拟南芥基因组中克隆了热激转录因子(At Hsf A6a),构建了过量表达(over-expression,OE)和反义(anti-sense,AS)植物表达载体并转化拟南芥,获得了拟南芥纯合转基因株系。对其进行耐高温处理,结果显示:43℃处理2 h,过量表达转基因植株存活率(86%)远高于野生型(59%);而反义转基因植株存活率则只有43%,显著低于野生型。43℃处理0.5 h,过量表达转基因植株的离子渗漏水平显著低于野生型,而反义转基因植株则大幅度升高。基因表达分析证明,AtHsfA6a的表达受热胁迫诱导,并且Hsp70是受AtHsfA6a调控的下游靶基因。上述结果表明,拟南芥AtHsfA6a可能通过调节Hsp70表达,提高植物耐受高温胁迫的能力。     

毛竹MYB转录因子PeMYB2的克隆与功能分析

MYB类转录因子在调控逆境应答基因的表达起着重要的作用, 是最大的植物转录因子之一。文章通过同源基因克隆方法和RACE(Rapid-amplification of cDNA ends)技术, 以毛竹幼苗为材料, 获得一个MYB类转录因子, 命名PeMYB2。氨基酸序列分析表明, PeMYB2具有典型的R2R3-MYB特征, N端含有两个串联重复保守结构域, C端含有一个膜蛋白DUF3651; 进化树分析表明, PeMYB2与水稻OsMYB18序列相似性最高, 达到85.98%; 酵母单杂实验表明, PeMYB2具有转录激活功能。将PeMYB2转化拟南芥对其功能进行分析, 获得7株转基因纯合体植株。比较转基因和野生型拟南芥表型发现, PeMYB2的过量表达使转基因拟南芥出现矮化、晚花的现象; 非生物胁迫处理(盐胁迫、干旱胁迫、低温胁迫)结果表明, 转基因拟南芥中PeMYB2的过量表达, 导致转基因植株对盐胁迫和低温胁迫有更高的耐性, 但是对低温胁迫的耐受性没有明显的变化; 进一步通过盐胁迫信号通路相关Marker基因(NXH1、SOS1、RD29A、COR15A)的定量PCR实验验证, 发现PeMYB2对下游这些抗逆基因的表达具有调控作用。上述实验结果表明, 毛竹PeMYB2可参与非生物胁迫调控, 对毛竹盐胁迫和低温胁迫的响应起着重要的作用。     

蒙古冰草MwMYB4基因功能鉴定

MwMYB4基因是从蒙古冰草中克隆得到的MYB类转录因子家族成员之一。该研究以转MwMYB4基因的拟南芥后代为材料,通过在干旱和低温胁迫下对转基因植株进行表型分析、理化指标测试和分子鉴定,分析并验证MwMYB4基因的功能。结果显示:(1)蒙古冰草MwMYB4基因已成功整合到转基因拟南芥T_1代的基因组中并实现转录水平的表达。(2)转基因拟南芥T_2代植株在干旱胁迫条件下,转基因植株叶片枯黄程度较轻,相对电导率较野生型变化幅度低,脯氨酸含量明显高于野生型对照,且MwMYB4基因的表达量随干旱胁迫时间延长而增加。(3)在低温胁迫条件下,转基因拟南芥叶片的枯白程度明显低于野生型,且MwMYB4基因的表达量随低温胁迫时间增加而增加。研究表明,过量表达蒙古冰草MwMYB4基因能够提高转基因拟南芥对干旱和低温的耐受性,该基因可能在干旱胁迫和低温胁迫调控机制中发挥调控作用,可作为改良农作物和其他牧草抗旱、抗寒性的重要候选基因。     

过量表达棉花CBF2基因提高转基因拟南芥抗旱耐盐能力

CBF/DREB是一类植物中特有的转录因子,在植物抵抗逆境胁迫过程中发挥重要功能。本研究从陆地棉(Gossypium hirsutum L.)Coker 312中克隆获得1个棉花CBF/DREB基因,命名为Gh CBF2,该基因编码一个由216个氨基酸组成的CBF蛋白。序列分析结果显示,Gh CBF2与其他植物的CBF蛋白类似,含有AP2转录因子典型的保守结构域。干旱或高盐胁迫处理明显增加了Gh CBF2基因的表达量。亚细胞定位分析结果发现Gh CBF2定位在细胞核中。将Gh CBF2基因构建到由35S启动子调控的植物表达载体p MD上并转化拟南芥(Arabidopsis thaliana L.),结果表明,在干旱和盐胁迫条件下,过量表达Gh CBF2基因拟南芥的成活率显著高于野生型,并且游离脯氨酸和可溶性糖含量也高于野生型,说明转Gh CBF2基因提高了拟南芥的耐盐抗旱能力。采用实时荧光定量PCR方法分析胁迫相关标记基因COR15A、RD29A和ERD6的表达情况,结果显示转基因株系中的表达量显著高于野生型,说明Gh CBF2参与调控拟南芥干旱和盐胁迫相关基因的表达。     

木薯MeMYC2.2基因耐低温功能研究

MYC2（MYeloCytomatosis）转录因子是植物应对逆境胁迫过程中茉莉酸信号传导相关的核心转录因子。本研究旨在初步分析木薯MeMYC2.2基因在低温胁迫响应中的功能。利用生物信息学分析木薯MeMYC2.1和MeMYC2.2基因的结构及其编码蛋白的理化性质;通过定量PCR分析了上述2个基因在木薯组培苗叶片中对低温胁迫的响应;通过转基因拟南芥研究MeMYC2.2的抗冻功能。木薯组培苗叶片中2个MeMYC2基因的表达均在低温胁迫早期被诱导,其中,与MeMYC2.1相比,MeMYC2.2差异表达更显著。MeMYC2.2蛋白主要定位于细胞核中,且在酵母中具有明显转录自激活功能,表明该蛋白具有转录因子特性。与野生型相比,过表达MeMYC2.2的转基因拟南芥抗冻能力显著提高。在低温处理下,CBF3基因在转基因拟南芥中的表达量要明显高于其在野生型的表达量,但另外3个CBF基因在转基因拟南芥中的表达量明显下降。木薯MeMYC2.2的表达受低温和茉莉酸调控,可以提高植物的抗冻性,且可能影响CBF基因对低温的响应。本研究为进一步利用MeMYC2基因改良木薯的低温耐受性奠定了理论基础。     

过量表达星星草PtSOS_1提高拟南芥的耐盐性

将星星草中分离的质膜型Na+/H+逆向转运蛋白基因PtSOS1(GenBank登录号EF440291)构建到pGWB2植物表达载体上,转化拟南芥,获得抗卡那霉素的抗性植株.PCR和Northern检测表明,PtSOS1已整合到拟南芥基因组中并过量表达.耐盐性实验表明,PtSOS1过量表达提高了拟南芥植株的耐盐性.盐分测定表明,盐胁迫下PtSOS1转基因植株中Na+积累低于野生型的,K+含量则高于野生型的,转基因植株中K+/Na+比值高于野生型.     

转ZjAPX基因拟南芥对NaCl、干旱胁迫的耐性研究

旨在探讨枣树抗坏血酸过氧化物酶基因ZjAPX在植物渗透胁迫中的作用。将ZjAPX基因转入到模式植物拟南芥,以野生型(WT)、转ZjAPX拟南芥株系T2为试材,进行不同浓度NaCl胁迫和干旱胁迫。结果表明,转基因株系的种子萌发、植株生长均优于野生型株系;荧光定量PCR检测转基因拟南芥植株在干旱和盐胁迫处理10 d后目的基因ZjAPX的表达量显著高于野生拟南芥,表明ZjAPX的高表达明显提高了植株的抗旱和耐盐性。     

转甜瓜CmSAMDC基因拟南芥的获得及其耐盐性研究

该研究以哥伦比亚生态型野生拟南芥为材料,将甜瓜CmSAMDC基因构建到植物双元表达载体pCAMBIA1304上,采用农杆菌介导法转入拟南芥,在含有50mg/L潮霉素(Hyg)MS固体培养基上筛选转基因后代,并利用T3代转基因幼苗进行耐盐性分析。结果显示:(1)成功构建了植物超表达载体35S∷CmSAMDC,并经农杆菌介导法转化拟南芥,潮霉素抗性筛选后获得了转CmSAMDC基因拟南芥T3代植株。(2)转CmSAMDC基因拟南芥T3代幼苗在含100、150、200mmol/L NaCl培养基中,侧根长势比野生型植株更为健壮;在200mmol/L NaCl浇灌处理后,转CmSAMDC基因T3代植株仍能维持正常生长,而野生型植株的生长明显受到抑制;在400mmol/L NaCl浇灌处理后16d,野生型植株逐渐死亡,而转基因植株仍能继续存活;对盐胁迫后植株的脂质过氧化程度(MDA)测定显示,野生型植株MDA水平较转基因植株上升更为明显。研究表明,过表达甜瓜CmSAMDC基因增强了转基因拟南芥的耐盐性。     

水稻受盐抑制基因OsZFP1的转基因分析

OsZFP1(水稻锌指蛋白1)基因编码的蛋白含有3个推测的Cys2/Cys2-型锌指结构域,它的表达受盐胁迫负调控.构建了以35S为启动子的OsZFP1基因的植物表达载体,并将其转入拟南芥(Arabidopsis thaliana L.)植物和水稻(Oryza sativa L.)愈伤组织中以过量表达OsZFP1基因.转基因的拟南芥植株和水稻愈伤组织对盐处理的敏感性都比野生型要高.这一结果表明OsZFP1基因可能编码一种负调控蛋白,它可能抑制某些盐诱导基因的表达.在ABA处理下,转基因拟南芥植株比野生型植株抽苔晚,说明OsZFP1基因的作用可能受ABA调节.     

BCL2-CISD2

CISD2, an ER BCL2-associated autophagy regulator also known as NAF-1, is responsible for the human degenerative disorder Wolfram Syndrome 2. In order to interrogate the physiological role of CISD2 we generated and characterized the Cisd2 gene deletion in mice. Cisd2 null mice manifest significant degeneration in skeletal muscle tissues, which is accompanied with augmented autophagy, dysregulated Ca²⁺ homeostasis and elongated mitochondria. Our findings describe a novel role for BCL2-CISD2 in the homeostatic maintenance of skeletal muscle. It remains to be elucidated how and if the antagonism of the BECN1 autophagy-initiating complex and modulation of ER Ca²⁺ homeostasis by BCL2-CISD2 are interconnected.     

Synthesis and physicochemical properties of 2'-deoxy-2',2'-difluoro-beta-D-ribofuranosyl and 2'-deoxy-2',2'-difluoro-alpha-D-ribofuranosyl oligonucleotides

We present procedures for nucleoside and oligonucleotide synthesis, binding affinity (Tm) and structural analysis (CD spectra) of 2'-deoxy-2',2'-difluoro-alpha-D-ribofuranosyl and 2'-deoxy-2',2'-difluoro-beta-D-ribofuranosyl oligothymidylates. Possible reasons for the thermal instability of duplexes formed between these compounds and RNA or DNA targets are discussed.     

Synthesis of [11-2H2], [8-2H2], [7-2H2], [6-2H2], [5-2H2], [4-2H2] and [3-2H2] cis-9-octadecenoates

Deuterated oleates have been synthesized by semihydrogenation of acetylenic intermediates. [11-²H₂]Oleate was prepared by two-carbon chain extension of the C₁₆ alcohol obtained from [1-²H₂]octyl bromide and 7-octyn-1-ol. [8-²H₂] and [7-²H₂]oleates were both prepared from dimethyl suberate, tetradeutero intermediate C₁₆ alcohols were synthesized from [1,8-²H₄] and [2,7-²H₄]octane diols by monobromination, conversion to deuterated 9-decyn-1-ols and reaction with octyl bromide. Oxidation gave [8-²H₂]-9-octadecynoate and [2,7-²H₂]-9-octadecynoate, after semihydrogenation of the latter, deuterons at C-2 were removed by exchange with aqueous alkali. [6-²H₂] and [5-²H₂]oleates were obtained from methyl 5-tetradecynoate, semihydrogenation, deuterium exchange at C-2 and two malonate extensions gave [6-²H₂]oleate; reduction with lithium aluminum deuteride, two malonate extensions and semihydrogenation gave the [5-²H₂] ester. [4-²H₂] and [3-²H₂]oleates were both obtained from methyl 7-cis-hexadecenoate, exchange of the α protons and chain extension gave the [4-²H₂] ester and reduction with lithium aluminum deuteride and chain extension gave the [3-²H₂] ester.     

Stereospecific 2'-amination and 2'-chlorination of adenosine by Actinomadura in the biosynthesis of 2'-amino-2'-deoxyadenosine and 2'-chloro-2'-deoxycoformycin

2'-Amino-2'-deoxyadenosine and 2'-chloro-2'-deoxycoformycin (2'-CldCF) are two nucleoside antibiotics produced by Actinomadura. The biosynthesis of these two nucleoside antibiotics has been studied by the addition of [U-14C]adenosine with or without unlabeled adenine to cultures of Actinomadura. By this experimental approach, it is possible to demonstrate that adenosine is the direct precursor for the biosynthesis of 2'-amino-2'-deoxyadenosine and 2'-CldCF. These conclusions are based on the observation that the percentage distribution of 14C in the aglyconic and pentofuranosyl moieties of 2'-amino-2'-deoxyadenosine and 2'-CldCF were similar to the distribution of 14C in the adenine and ribosyl moieties of the [U-14C]adenosine (i.e., 48:52) added to cultures of Actinomadura. Experimentally, the percentage distribution of 14C in the (i) adenine:2-amino-2-deoxy-beta-D-ribofuranose of 2'-amino-2'-deoxyadenosine is 51:49; (ii) 8-(R)-3,6,7,8-tetrahydroimidazo[4,5-d]-[1,3-diazepin-8-o1]:2 -chloro-2- beta-D-ribofuranose of 2'-CldCF is 45:55; and (iii) adenine:ribose of the adenosine isolated from the RNA of Actinomadura is 42:58. Further proof that adenosine is the direct precursor for the biosynthesis 2'-amino-2'-deoxyadenosine and 2'-CldCF was demonstrated by the addition of 75 mumol of unlabeled adenine together with [U-14C]adenosine to nucleoside-producing cultures of Actinomadura. The percentage distribution of 14C in the aglycon and the sugar moieties of 2'-amino-2'-deoxyadenosine and 2'-CldCF were 46:54 and 47:53, respectively; the percentage distribution of 14C in the adenine and ribose moieties of the adenosine isolated from the RNA of Actinomadura was 51:49. These data show that the hydroxyl on C-2' of the ribosyl moiety of adenosine undergoes a replacement by a 2'-amino or a 2'-chloro group to form 2'-amino-2'-deoxyadenosine or 2'-CldCF with retention of stereconfiguration at C-2'. Finally, Actinomadura can utilize inorganic chloride from the medium as demonstrated by the isolation of [36Cl]2'-CldCF following the addition of [36Cl]chloride to the culture medium. Mechanisms for the regioselective modification of the C-2' hydroxyl group and stereospecific insertion of the amino and chloro groups are discussed.     

Stereospecific formation of alpha-hydroxycarboxylato oxo peroxo complexes of vanadium(V). Crystal structure of (NBu4)2[V2O2(O2)2(L-lact)2] x 2H2O and (NBu4)2[V2O2(O2)2(D-lact)(L-lact)] x 2H2O

An overview of structurally characterized alpha-hydroxycarboxylatodioxo- and alpha-hydroxycarboxylatooxoperoxovanadates(V) is presented and the geometric parameters of the V2O2 bridging core are discussed. The first case of a stereospecific formation of oxoperoxovanadates(V) is reported: The crystal structures of the isomeric compounds (NBu4)2[V2O2(O2)2(L-lact)2] x 2H2O and (NBu4)2[V2O2(O2)2(D-lact)(L-lact)] x 2H2O (lact = C3H4O3(2-), the anion of the lactic acid) differ mainly in the arrangement of the V2O2 core and in mutual orientation of the V=O bonds. The complexes with achiral ligands adopt the same structural type as the complexes formed from a racemic mixture of a chiral ligand, while the structure obtained using an enantiopure L,L-hydroxycarboxylate is different.     

Convenient synthesis of 2'-deoxy-2-fluoroadenosine from 2-fluoroadenine

A convenient synthesis of 2'-deoxy-2-fluoroadenosine from commercially available 2-fluoroadenine is described. The coupling reaction of silylated 2-fluoroadenine with phenyl 3,5-bis[O-(t-butyldimethylsilyl)]-2-deoxy-1-thio-D-erythro-pentofuranoside gave the corresponding 2-fluoro-2'-deoxyadenosine derivative (alpha/beta = 1:1) in good yield. The alpha- and beta-anomers were separated by chromatography, and then desilylated to give compounds 1a and 1b.