大豆C2H2型锌指蛋白基因SCTF-1的克隆及功能分析

锌指蛋白是一类具有手指型结构的蛋白质,其中一些锌指蛋白是转录因子,对真核生物的生长发育及非生物逆境胁迫的耐受能力都有着重要作用。文章从大豆(Glycine max(L.)Merr.)中克隆了一个新的C2H2型锌指蛋白基因SCTF-1(GenBank登录号:JQ692081),该基因包含一个699 bp的开放阅读框,编码233个氨基酸,无内含子,有两个典型的C2H2型锌指结构。锌指结构中有植物锌指蛋白特有的保守氨基酸序列QALGGH。经软件预测分析,其等电点pI=8.33,分子量24.9 kDa。农杆菌介导的洋葱表皮细胞GFP瞬时表达实验结果表明,SCTF-1蛋白能够定位到细胞核中。通过RT-PCR检测发现该基因在大豆叶和花中的表达量较高,在茎和根的表达量相对较低。在对大豆幼苗的低温胁迫中,SCTF-1基因的表达量明显增加。将SCTF-1基因转入烟草(Nicotiana tabacum L.)中,发现SCTF-1基因的过量表达能够明显提高转基因烟草的耐冷能力。     

Overexpression of a TFIIIA-type zinc finger protein gene ZFP252 enhances drought and salt tolerance in rice (Oryza sativa L.)

We previously identified a salt and drought stress-responsive TFIIIA-type zinc finger protein gene ZFP252 from rice. Here we report the functional analysis of ZFP252 using gain- and loss-of-function strategies. We found that overexpression of ZFP252 in rice increased the amount of free proline and soluble sugars, elevated the expression of stress defense genes and enhanced rice tolerance to salt and drought stresses, as compared with ZFP252 antisense and non-transgenic plants. Our findings suggest that ZFP252 plays an important role in rice response to salt and drought stresses and is useful in engineering crop plants with enhanced tolerance to salt and drought stresses.     

A point mutation in LTT1 enhances cold tolerance at the booting stage in rice

The cold tolerance of rice at the booting stage is a main factor determining sustainability and regional adaptability. However, relatively few cold tolerance genes have been identified that can be effectively used in breeding programmes. Here, we show that a point mutation in the low-temperature tolerance 1 (LTT1) gene improves cold tolerance by maintaining tapetum degradation and pollen development, by activation of systems that metabolize reactive oxygen species (ROS). Cold-induced ROS accumulation is therefore prevented in the anthers of the ltt1 mutants allowing correct development. In contrast, exposure to cold stress dramatically increases ROS accumulation in the wild type anthers, together with the expression of genes encoding proteins associated with programmed cell death and with the accelerated degradation of the tapetum that ultimately leads to pollen abortion. These results demonstrate that appropriate ROS management is critical for the cold tolerance of rice at the booting stage. Hence, the ltt1 mutation can significantly improve the seed setting ability of cold-sensitive rice varieties under low-temperature stress conditions, with little yield penalty under optimal temperature conditions. This study highlights the importance of a valuable genetic resource that may be applied in rice breeding programmes to enhance cold tolerance.     

The Arabidopsis thaliana tandem zinc finger 1 (AtTZF1) protein in RNA binding and decay

The Arabidopsis thaliana tandem zinc finger 1 (AtTZF1) protein is characterized by two tandem‐arrayed CCCH‐type zinc fingers. We have previously found that AtTZF1 affects hormone‐mediated growth, stress and gene expression responses. While much has been learned at the genetic and physiological level, the molecular mechanisms underlying the effects of AtTZF1 on gene expression remain obscure. A human TZF protein, hTTP, is known to bind and trigger the degradation of mRNAs containing AU‐rich elements (AREs) at the 3′ untranslated regions. However, while the TZF motif of hTTP is characterized by C_X8C_X5C_X3H‐_X18‐C_X8C_X5C_X3H, AtTZF1 contains an atypical motif of C_X7C_X5C_X3H‐_X16‐C_X5C_X4C_X3H. Moreover, the TZF motif of AtTZF1 is preceded by an arginine‐rich (RR) region that is unique to plants. Using fluorescence anisotropy and electrophoretic mobility shift binding assays, we have demonstrated that AtTZF1 binds to RNA molecules with specificity and the interaction is dependent on the presence of zinc. Compared with hTTP, in which TZF is solely responsible for RNA binding, both TZF and RR regions of AtTZF1 are required to achieve high‐affinity RNA binding. Moreover, zinc finger integrity is vital for RNA binding. Using a plant protoplast transient expression analysis we have further revealed that AtTZF1 can trigger the decay of ARE‐containing mRNAs in vivo. Taken together, our results support the notion that AtTZF1 is involved in RNA turnover.     

A toolbox and procedural notes for characterizing novel zinc finger nucleases for genome editing in plant cells

The induction of double-strand breaks (DSBs) in plant genomes can lead to increased homologous recombination or site-specific mutagenesis at the repair site. This phenomenon has the potential for use in gene targeting applications in plant cells upon the induction of site-specific genomic DSBs using zinc finger nucleases (ZFNs). Zinc finger nucleases are artificial restriction enzymes, custom-designed to cleave a specific DNA sequence. The tools and methods for ZFN assembly and validation could potentially boost their application for plant gene targeting. Here we report on the design of biochemical and in planta methods for the analysis of newly designed ZFNs. Cloning begins with de novo assembly of the DNA-binding regions of new ZFNs from overlapping oligonucleotides containing modified helices responsible for DNA-triplet recognition, and the fusion of the DNA-binding domain with a Fok I endonuclease domain in a dedicated plant expression cassette. Following the transfer of fully assembled ZFNs into Escherichia coli expression vectors, bacterial lysates were found to be most suitable for in vitro digestion analysis of palindromic target sequences. A set of three in planta activity assays was also developed to confirm the nucleic acid digestion activity of ZFNs in plant cells. The assays are based on the reconstruction of GUS expression following transient or stable delivery of a mutated uidA and ZFN-expressing cassettes into target plants cells. Our tools and assays offer cloning flexibility and simple assembly of tested ZFNs and their corresponding target sites into Agrobacterium tumefaciens binary plasmids, allowing efficient implementation of ZFN-validation assays in planta .     

Insulin-like growth factor 1 ameliorates pre-eclampsia by inhibiting zinc finger E-box binding homeobox 1 by up-regulation of microRNA-183

As a common hypertensive complication of pregnancy, preeclampsia (PE) remains one of the leading causes of maternal and fetal with high morbidity and mortality worldwide. Much research has identified the vital functions of insulin-like growth factor 1 (IGF-1) in PE treatment. However, the combined roles and molecular mechanism of IGF-1 and microRNAs (miRNAs) underlying PE remain unclear. Therefore, we first measured the expression of IGF-1, zinc finger E-box binding homeobox 1 (ZEB1) and microRNA-183 (miR-183) expression in the placenta tissues of patients with PE by Western blot analysis and RT-qPCR. Interactions among IGF-1, ZEB1 and miR-183 were assessed by Western blot analysis, ChIP-PCR and dual-luciferase reporter gene assay. The effect of IGF-1 on the biological characteristics of trophoblast cells was investigated by CCK-8, colony formation assay and in vitro angiogenesis experiments after cells were transfected with si-IGF-1. Finally, a mouse eclampsia model induced by knockdown of IGF-1 was established to confirm the in vitro effect of IGF-1 on PE. We found that IGF-1, ZEB1 and miR-183 were highly expressed in the placental tissues of patients with PE. The knockdown of IGF-1 resulted in reduced proliferation and invasion of trophoblast cells and was accompanied by inhibited angiogenesis. ZEB1 was positively regulated by IGF-1 via ERK/MAPK pathway, which in turn inhibited miR-153 expression by binding to the miR-183 promoter. The in vitro experiments further confirmed that IGF-1 knockdown could induce PE. To sum up, IGF-1 knockdown elevated expression of miR-183 by downregulating ZEB1, thereby promoting deterioration of PE.     

A novel rice C2H2-type zinc finger protein lacking DLN-box/EAR-motif plays a role in salt tolerance

A cDNA for the gene ZFP182, encoding a C2H2-type zinc finger protein, was cloned from rice by RT-PCR. ZFP182 codes an 18.2 kDa protein with two C2H2-type zinc finger motifs, one nuclear localization signal and one Leu-rich domain. The DLN-box/EAR-motif, which exists in most of plant C2H2-type zinc finger proteins, does not exist in ZFP182. The expression analysis showed that ZFP182 gene was constitutively expressed in leaves, culms, roots and spikes at the adult rice plants, and markedly induced in the seedlings by cold (4 °C), 150 mM NaCl and 0.1 mM ABA treatments. The approximate 1.4 kb promoter region of ZFP182 gene was fused into GUS reporter gene and transformed into tobacco. The histochemical analysis revealed that GUS expression could not be detected in transformed tobacco seedlings under normal conditions, but strongly observed in tobacco leaf discs and the vascular tissue of roots treated with NaCl or KCl. Expression of ZFP182 in transgenic tobacco and overexpression in rice increased plant tolerance to salt stress. These results demonstrated that ZFP182 might be involved in plant responses to salt stress.     

甘蔗锌指蛋白基因ShSAP1的克隆与表达模式

植物中具有A20/AN1锌指结构域的蛋白与逆境应答密切相关,在甘蔗热带种Saccharum officinarum拔地拉Badila中克隆到一个具有A20/AN1锌指结构域的锌指蛋白基因ShSAP1。为研究ShSAP1的基因结构和表达特性,采用PCR和Southern blotting分析了ShSAP1的基因组结构,通过半定量RT-PCR对ShSAP1在甘蔗不同部位、不同胁迫和不同激素处理下的表达模式进行了分析。结果表明,ShSAP1的5'UTR区有两段内含子,大小分别为202 bp和1 052 bp,在     

异源表达蒙古沙冬青AmDREB1F基因提高转基因拟南芥的耐逆性

脱水应答元件结合蛋白(Dehydration-responsive element binding proteins,DREBs)是一类重要的植物耐逆相关转录因子.蒙古沙冬青Ammopiptanthus mongolicus是中国西北荒漠区特有的强耐逆常绿阔叶灌木.为探明其AmDREB1F基因在耐受非生物逆境中的功能和...