拟南芥T-DNA插入突变体atsuc3的PCR鉴定

应用两种植物T-DNA插入突变体PCR鉴定方法,即“三引物法”和“双引物法”对拟南芥T-DNA插入突变体atsuc3（目的基因两条染色体均发生T-DNA插入的纯合突变体）进行鉴定和比较的结果表明,“三引物法”由于易产生非特异性扩增而无法得到PCR鉴定结果,从而导致鉴定失败;“双引物法”则可避免此种现象,得到可靠、有效的鉴定结果。     

拟南芥突变体uro的表型分析表明URO基因参与生长素调节的植物发育过程

在筛选拟南芥(ArabidopsisthalianaL.)叶突变体的过程中获得拟南芥uprightrosette(uro)突变体。uro为半显性突变体,因突变体在幼苗生长期莲座叶竖直生长而得名。对uro突变体的表型进行了详细的分析,结果表明uro突变不仅造成叶生长模式的改变,还出现多种其他异常表型。uro杂合和纯合突变体都表现出植物顶端优势的丧失,纯合突变体表现得更为严重。uro纯合突变体的一些二级分枝会被叶取代,这种叶的叶柄与叶片远轴面连接。突变体的花发育也有多种异常表型,主要表现为花瓣及雄蕊数目的改变、花器官的同源异型转化和不同花器官的融合。uro突变体茎软,细胞学水平分析表明突变体的内皮层组织发生增生,束间纤维发育及维管束分化受阻。顶端优势的丧失及维管组织的异常发育表明,URO基因可能参与生长素对植物发育的调节。pin1uro双突变体表型的分析表明,虽然双突变茎表型出现了两亲本表型的叠加,但双突变体的花却出现了新的表型,说明URO与PIN1基因在调节植物发育过程中具有部分遗传上的相互作用,这一结果进一步证明URO基因参与了生长素调节的植物发育过程。     

拟南芥突变体uro的表型分析表明URO基因参与生长素调节的植物发育过程

在筛选拟南芥(Arabidopsisthaliana L.)叶突变体的过程中获得拟南芥upright rosette(uro)突变体.uro为半显性突变体,因突变体在幼苗生长期莲座叶竖直生长而得名.对uro突变体的表型进行了详细的分析,结果表明:uro突变不仅造成叶生长模式的改变,还出现多种其他异常表型.uro杂合和纯合突变体都表现出植物顶端优势的丧失,纯合突变体表现得更为严重.uro纯合突变体的一些二级分枝会被叶取代,这种叶的叶柄与叶片远轴面连接.突变体的花发育也有多种异常表型,主要表现为花瓣及雄蕊数目的改变、花器官的同源异型转化和不同花器官的融合.uro突变体茎软,细胞学水平分析表明突变体的内皮层组织发生增生,束间纤维发育及维管束分化受阻.顶端优势的丧失及维管组织的异常发育表明,URO基因可能参与生长素对植物发育的调节.pin1 uro双突变体表型的分析表明,虽然双突变茎表型出现了两亲本表型的叠加,但双突变体的花却出现了新的表型,说明URO-与PIN1基因在调节植物发育过程中具有部分遗传上的相互作用,这一结果进一步证明URO基因参与了生长素调节的植物发育过程.     

第25届国际生物学奥林匹克竞赛试题 理论A-4

正遗传与进化31.野生型果蝇分别和3种隐性纯合突变体:b(黑体)、sc(亮红眼)和vg(残翅)进行正交。所获得的F1代果蝇分别与对应的纯合突变体回交,所得F2代表型和比例如下表所示:请指出下面的描述正确与否。A.将2个F2代,仅体色为黑体,其他性状正常的果蝇杂交将获得不同的翅膀表型B.b和vg基因位点的相对距离小于20 cM C.b和sc为杂合,vg为纯合的果蝇将产生等比例的4种不同基因型的配子D.如果vg和sc杂合个体进行杂交,所得后代     

拟南芥神经酰胺酶基因对氧化胁迫的响应

以拟南芥哥伦比亚生态型（Col）和神经酰胺酶突变体为实验材料,通过对突变体的一系列生理生化指标的测定,来研究拟南芥神经酰胺酶基因（AtCER）对H2O2的响应。利用PCR和Northern blot获得了9个AtCER纯合单突变体。不同浓度H2O2处理野生型和突变体后,发现突变体对H2O2的反应比野生型更加敏感。H2O2处理后突变体叶片出现比野生型更严重的黄化现象和坏死斑点,总叶绿素含量也比野生型下降的更快,电导率测定也发现突变体比野生型的电导率增加得更多。抗氧化酶活性的分析结果发现H2O2处理后,突变体的抗氧化酶活性比野生型提高了1．5～3倍。上述研究结果说明AtCER参与了H2O2诱导的氧化胁迫反应。     

拟南芥Atlg52910突变体的鉴定与初步分析

在筛选与维管发育相关的拟南芥突变体过程中,发现拟南芥DUF1218家族At1g52910基因突变体的花器官明显异常。通过基因型分析筛选到纯合突变体,TAIL-PCR分析结果表明突变体为Ds单位点插入突变,突变体后代表型出现分离现象,暗示有其它突变位点存在。     

低氮下拟南芥叶酰聚谷氨酸合成酶突变体atdfb根发育研究

利用叶酰聚谷氨酸合成酶功能缺失突变体atdfb解析叶酸在拟南芥根发育过程中的生物学功能。纯合T-DNA插入功能缺失突变体atdfb 在土壤培养条件下生长3周,与野生型表型无明显差异。在氮源充足的1/2MS培养基上,atdfb的主根显著短于野生型,互补植株的主根长度恢复到野生型水平,说明主根缩短的表型是由AtDFB基因功能缺失造成的。在1/2MS培养基生长11 d的突变体主根长度只有野生型的23%。在低氮条件下,突变体的生长发育几乎停滞,培养11 d的突变体主根长度只有野生型的4%;5-甲酰四氢叶酸(5-F-THF)可以恢复低氮条件下atdfb-3的表型,其主根长度、根毛长度及静止中心的细胞排列均得到恢复。进一步分析发现,低氮条件下培养少于3 d的atdfb-3补充充足的5-F-THF,3 d后能像野生型一样适应低氮环境。由此说明叶酸对拟南芥根部发育及对低氮环境的适应是必需的。     

拟南芥钾转运突变体atkup12鉴定及非生物胁迫的敏感性检测

[目的]鉴定获得拟南芥HAK/KUP/KT高亲和钾离子转运突变体atkup12,通过检测种萌期atkup12突变体在低钾、盐及氧化胁迫下的生长指标以初步明确拟南芥AtKUP12基因是否参与植物对非生物胁迫的响应。[方法]以拟南芥atkup12突变体基因组和总RNA反转后的cDNA为模板,通过PCR扩增确定AtKUP12基因T-DNA插入失活的纯合突变体。将野生型和atkup12突变体点种于0.5μmol/L低钾、不同NaCl浓度和1μmol/L甲基紫精的胁迫培养基,测定并比较突变体与野生型拟南芥在根长、种子萌发率及子叶绿化率间的差异。[结果]利用双引物法,结合反转录PCR,在DNA及RNA水平鉴定获得了AtKUP12基因的纯合突变体。低钾胁迫下,atkup12突变体种苗的根长比较野生型拟南芥短40%左右,较野生型受到了显著抑制;不同NaCl浓度胁迫下,atkup12突变体种子的萌发率较野生型显著降低;1μmol/L甲基紫精显著的抑制了突变体种苗的子叶绿化率。[结论]成功鉴定获得了AtKUP12基因T-DNA插入失活的纯合突变体,且AtKUP12基因的缺失会增加植物对盐、低钾及氧化等非生物胁迫的敏感性。     

斑马鱼tbx2b调控心脏房室间隔发育的功能研究*

tbx2是早期心脏发育的关键基因。为进一步探究其对房室间隔(AVC)发育的影响,研究利用CRISPR/Cas9介导的基因敲除技术,成功构建了斑马鱼tbx2b突变体。通过T7E1酶切对其F₀进行敲除效率检测,结果显示平均敲除效率约为57.5%。F₁进一步筛选获得tbx2b杂合突变体,测序结果显示突变类型为11 bp碱基缺失的移码突变。tbx2b杂合子内交获得纯合子,tbx2b纯合突变体在5 dpf死亡并出现早期心脏环化异常表型。斑马鱼整胚原位杂交实验显示在3 dpf tbx2b纯合突变体中, 心脏腔室分化特异性标志基因nppa、nppb表达上调并异位表达在AVC,而AVC发育关键基因has2的表达消失。高效构建tbx2b突变体并初探其对下游基因的影响,为后续深入研究tbx2b对心脏AVC发育的作用奠定了基础,同时加深了人们对早期心脏调控网络的认识。     

Fus在斑马鱼生长发育及两性生长异形中的功能

为研究肉瘤融合基因(fus)在鱼类中的功能, 在斑马鱼中利用CRISPR/Cas9基因突变技术使fus基因产生移码突变。fus-/-纯合突变体斑马鱼发育正常并且完全可育, 但体长和体重在幼鱼和成年阶段都小于野生型斑马鱼。此外, 相较于野生型斑马鱼, fus-/-纯合突变体斑马鱼不存在雌鱼身体比例大于雄鱼的性别异形现象。在fus-/-纯合突变体斑马鱼早期幼鱼发育阶段, 一些生长相关基因包括gh1、ghra、igf1、igf2a、stat5.1和socs6的表达水平显著低于野生型斑马鱼但其运动能力并未受到影响。因此, 不同于fus基因在哺乳动物中的功能, 它在斑马鱼中不参与运动神经元的发育, 但在调节鱼类躯体生长发育与两性生长异形方面有着重要的功能。     

Genetic complementation analysis of rice sucrose transporter genes in Arabidopsis <Emphasis Type="Italic">SUC2</Emphasis> mutant <Emphasis Type="Italic">atsuc2</Emphasis>

Sucrose transporters (SUTs) play a critical role on the phloem plasma membrane in loading sucrose into the phloem of source leaves for long-distance transport to sink organs. Rice has a small gene family of five SUTs, Oryza sativa SUT1 (OsSUT1) to OsSUT5. To identify rice SUTs that function as phloem loaders, we adopted a growth restoration assay of the severe growth retardation phenotype of atsuc2, a mutant of the best-characterized Arabidopsis phloem loader AtSUC2, by introducing OsSUTs. The rice SUT genes were expressed by two different promoters, the native phloem-specific promoter of AtSUC2 (pAtSUC2) and the constitutive Cauliflower Mosaic Virus 35S (pCaMV35S) promoter. Of all the transgenic atsuc2 plants, only pAtSUC2: OsSUT1 complemented the atsuc2 mutant phenotype in a comparable manner to wild type (WT), and consistent levels of soluble sugars and starch were recovered compared to those of WT. This suggests that OsSUT1 is a functional ortholog of the Arabidopsis AtSUC2 and functions as an apoplastic phloem loader. In addition, ossut1 mutants were produced via anther culture and their primary carbohydrate levels and growth phenotypes were indistinguishable from those of WT. This suggests that the rice phloem loader OsSUT1 function may not be essential for rice vegetative growth under normal conditions.     

P197E与ep8叠加突变对扩展青霉脂肪酶热稳定性的影响

为提高脂肪酶的热稳定性,作者利用重叠延伸PCR对扩展青霉脂肪酶(PEL)基因进行了体外定点突变,构建了P197E(即将第197位的脯氨酸突变为谷氨酸)与随机突变体ep8叠加突变的重组质粒pPIC3.5K-ep8-P197E。将该质粒电转化至毕赤酵母Pichiapastoris GS115中,进行异源表达。与野生型酶和单点突变酶PEL-ep8的酶学性质比较,结果表明:叠加突变体PEL-ep8-P197E在40°C温育处理30min后,残余酶活分别比野生型PEL和随机突变体PEL-ep8提高了42.13%和37.3%。叠加突变体PEL-ep8-P197E的Tm值为41.51°C,比野生型酶PEL提高了2.81°C,比随机突变体脂肪酶PEL-ep8提高了2.25°C。通过对脂肪酶PEL的叠加突变,提高了该酶的热稳定性,并为结构与功能的进一步研究提供了材料。     

K55R与ep8叠加突变对扩展青霉脂肪酶热稳定性的改善

利用重叠延伸PCR对扩展青霉脂肪酶(PEL)基因进行体外定点突变,构建了K55R与随机突变体ep8叠加突变的重组质粒pAO815-ep8-K55R。将该质粒电转化引入毕赤酵母(Pichia pastoris)GS115,进行异源表达。实验结果表明:该叠加突变体在毕赤酵母中获得了活性表达,得到表达产物脂肪酶PEL-ep8-K55R-GS。其表达量为508u/mL,分别约为野生型脂肪酶PEL-GS(627u/mL)的81%,随机突变脂肪酶PEL-ep8-GS(924u/mL)的55%;其比活力为2309.1u/mg,与随机突变脂肪酶PEL-ep8-GS和野生型脂肪酶PEL-GS的相仿。叠加突变脂肪酶PEL-ep8-K55R-GS的最适作用温度为37℃,与野生型脂肪酶PEL-GS和随机突变脂肪酶PEL-ep8-GS一致;其Tm值为41.0℃,比野生型脂肪酶PEL-GS提高了2.3℃,比随机突变脂肪酶PEL-ep8-GS提高了0.8℃。表明叠加突变脂肪酶PEL-ep8-K55R-GS的热稳定性有了进一步的提高。     

The effect of caffeine on repair in Chlamydomonas reinhardtii: II. Interaction of repair systems

Survival following UV-irradiation of the two repair-deficient strains of Chlamydomonas reinhardtii, UVSE5 and UVSE6, was not affected by caffeine. Since caffeine causes increased survival in strains of this organism having normal recombination, these two mutant strains are considered to be recombination-deficient. The double-mutant strains UVSE1–UVSE4, UVSE1–UVSE5, UVSE1–UVSE6, UVSE4–UVSE5, UVSE4–UVSE6 and UVSE5–UVSE6 were isolated. These strains were exposed to UV-irradiation and in all but UVSE4–UVSE5, survival of the double-mutant strain was much lower than for any single-mutant strain. These results indicate that the altered gene products in UVSE1, UVSE5 and UVSE6 mutant strains are associated with different recombination-repair mechanisms.

All double-mutant strains were treated with caffeine following UV-irradiation. In all double-mutant strains containing a mutant USVE4 gene product, recombination repair was increased by caffeine.

On the basis of the data obtained, a scheme is proposed for the involvement of multiple repair systems in repair following UV-irradiation in C. reinhardtii.     

Absence-like and tonic seizures in aspartoacylase/attractin double-mutant mice.

The Spontaneously Epileptic Rat (SER), a double-mutant for tremor and zitter mutations, shows spontaneous occurrences of absence-like and tonic seizures. Several lines of evidence suggest that the combined effect of Aspa and Atrn mutations is the most likely cause of the epileptic phenotype of the SER. To address this issue, we produced a new double-mutant mouse line carrying both homozygous Aspa-knockout and Atrn(mg-3J) mutant alleles. The Aspa/Atrn double-mutant mice exhibited absence-like and tonic seizures that were characterized by the appearance of 5-7 Hz spike-wave-like complexes and low voltage fast waves on EEGs. These results demonstrate directly that the simultaneous loss of the Aspa and Atrn gene functions causes epileptic seizures in the mouse and suggest that both Aspa and Atrn deficiencies might be responsible for epileptic seizures in the SER.     

Sequential deletion of Pichia pastoris genes by a self-excisable cassette

A rapid and convenient method is presented for unmarked gene deletions in Pichia pastoris. Cre/mutated lox system, Zeocin(?) (Invitrogen) resistance marker and homologous arms were spliced together by fusion PCR to generate the gene disruption cassettes (homologous region-lox71-Cre-ZeoR-lox66-homologous region), which could be integrated into the P. pastoris genome via homologous recombination. After transferring double-cross-over recombinants to methanol induction medium, transient expression of Cre recombinase caused the recombination of lox71-Cre-ZeoR-lox66 fragment into a double-mutant lox72 site, thus excising the Cre-ZeoR cassette from the P. pastoris genome. As the double-mutant lox72 site displays strongly reduced binding affinity for Cre recombinase, this method could be used sequentially to disrupt P. pastoris genes without introducing selectable markers. The effectiveness of this strategy was verified by introducing both single and double gene deletions into the P. pastoris genome.     

RasGRP1 and RasGRP3 regulate B cell proliferation by facilitating B cell receptor-Ras signaling

The RasGRPs are a family of Ras activators that possess diacylglycerol-binding C1 domains. In T cells, RasGRP1 links TCR signaling to Ras. B cells coexpress RasGRP1 and RasGRP3. Using Rasgrp1 and Rasgrp3 single and double null mutant mice, we analyzed the role of these proteins in signaling to Ras and Erk in B cells. RasGRP1 and RasGRP3 both contribute to BCR-induced Ras activation, although RasGRP3 alone is responsible for maintaining basal Ras-GTP levels in unstimulated cells. Surprisingly, RasGRP-mediated Ras activation is not essential for B cell development because this process occurs normally in double-mutant mice. However, RasGRP-deficient mice do exhibit humoral defects. Loss of RasGRP3 led to isotype-specific deficiencies in Ab induction in immunized young mice. As reported previously, older Rasgrp1-/- mice develop splenomegaly and antinuclear Abs as a result of a T cell defect. We find that such mice have elevated serum Ig levels of several isotypes. In contrast, Rasgrp3-/- mice exhibit hypogammaglobulinemia and show no signs of splenomegaly or autoimmunity. Double-mutant mice exhibit intermediate serum Ab titers, albeit higher than wild-type mice. Remarkably, double-mutant mice exhibit no signs of autoimmunity or splenomegaly. B cell proliferation induced by BCR ligation with or without IL-4 was found to be RasGRP1- and RasGRP3-dependent. However, the RasGRPs are not required for B cell proliferation per se, because LPS-induced proliferation is unaffected in double-mutant mice.     

Fatty acid desaturation and the regulation of adiposity in Caenorhabditis elegans

Monounsaturated fatty acids are essential components of membrane and storage lipids. Their synthesis depends on the conversion of saturated fatty acids to unsaturated fatty acids by Delta9 desaturases. Caenorhabditis elegans has three Delta9 desaturases encoded by the genes fat-5, fat-6, and fat-7. We generated nematodes that display a range of altered fatty acid compositions by constructing double-mutant strains that combine mutations in fat-5, fat-6, and fat-7. All three double-mutant combinations have reduced survival at low temperatures. The fat-5;fat-6 double mutants display relatively subtle fatty acid composition alterations under standard conditions, but extreme fatty acid composition changes and reduced survival in the absence of food. The strain with the most severe defect in the production of unsaturated fatty acids, fat-6;fat-7, exhibits slow growth and reduced fertility. Strikingly, the fat-6;fat-7 double-mutant animals have decreased fat stores and increased expression of genes involved in fatty acid oxidation. We conclude that the Delta9 desaturases, in addition to synthesizing unsaturated fatty acids for properly functioning membranes, play key roles in lipid partitioning and in the regulation of fat storage.