Isolation of Carrot Argonaute1 from Subtractive Somatic Embryogenesis cDNA Library

Carrot Argonaute1 (C-Ago1) was isolated from a subtractive cDNA library to obtain somatic embryogenesis related genes. C-Ago1 has three conserved domains, which are found in all other Argonautes. C-Ago1 has specific expression during somatic embryogenesis, which indicates that microRNA gene expression controlling system is required for somatic embryogenesis.     

Isolation of putative glycoprotein gene from early somatic embryo of carrot and its possible involvement in somatic embryo development

Somatic embryogenesis is a unique process in plant cells. For example, embryogenic cells (EC) of carrot (Daucus carota) maintained in a medium containing 2,4-dichlorophenoxyacetic acid (2,4-D) regenerate whole plants via somatic embryogenesis after the depletion of 2,4-D. Although some genes such as C-ABI3 and C-LEC1 have been found to be involved in somatic embryogenesis, the critical molecular and cellular mechanisms for somatic embryogenesis are unknown. To characterize the early mechanism in the induction of somatic embryogenesis, we isolated genes expressed during the early stage of somatic embryogenesis after 2,4-D depletion. Subtractive hybridization screening and subsequent RNA gel blot analysis suggested a candidate gene, Carrot Early Somatic Embryogenesis 1 (C-ESE1). C-ESE1 encodes a protein that has agglutinin and S-locus-glycoprotein domains and its expression is highly specific to primordial cells of somatic embryo. Transgenic carrot cells with reduced expression of C-ESE1 had wide intercellular space and decreased polysaccharides on the cell surface and showed delayed development in somatic embryogenesis. The importance of cell-to-cell attachment in somatic embryogenesis is discussed.     

利用mRNA差别显示技术分析枸杞体细胞胚发生早期基因的差别表达

本研究选用枸杞体细胞胚发生体系中的继代愈伤组织(对照)、胚性愈伤组织和早期胚体为实验材料,提取细胞总RNA,在12种锚定真核生物mRNA3'末端的OligodT12VN中,随机选用OligodT12GA为引物合成了以上三种材料的cDNA第一链,以此cDNA为模板,用随机引物进行PCR扩增,选择差别表达的片段。我们选用了OPA、OPH、OPK和OPB四组的60个随机引物对所得的c DNA进行了PCR扩增,得到了三个在体细胞胚发生早期组织中基因特异表达的片段。结果表明,在体细胞胚发生早期有胚胎发生特异性基因的表达,而且这种特异表达的基因在继代愈伤组织中没有表达,说明植物的体细胞胚发生过程就是细胞内基因差别表达的结果。 Abstract:Embryogenic calli and early embryo can be obtained from both auxin and auxin-free medium.The analysis of differential gene expression in early somatic embryogenesis has been hindered by above-mentioned material.The modifications of the recently described mRNA differential display method were reported and differential gene expression in early slmatic embryogenesis was analyzed.We have obtained three differential bands of cDNA in early somatic embryogenesis.The results indicate that gene expression has temperal and spalil order in early somatic embryogenesis of Lycium barbarum L.Plant somatic embryogenesis is the results of differential gene expression in cell.     

Cloning and molecular characterisation of a potato SERK gene transcriptionally induced during initiation of somatic embryogenesis

Somatic embryogenesis offers great potential in plant propagation, long-term germplasm conservation, and as a suitable model system for deciphering early events during embryogenesis. The up-regulation and ectopic expression of a SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE (SERK) gene has been shown to mark and enhance embryogenic competence in somatic cells of model plant species. We have cloned and characterised a SERK gene (StSERK1) from potato (Solanum tuberosum L.), an important crop plant. Sequence analysis of StSERK1 revealed high levels of similarity to other plant SERKs, as well as a conserved intron/exon structure which is unique to members of the SERK family. Furthermore, StSERK clustered most closely with SERK gene family members such as MtSERK1, CuSERK1, AtSERK1, and DcSERK, implicated in evoking somatic embryogenesis. Monitoring of SERK expression during progression of potato somatic embryogenesis revealed increased StSERK expression during the induction phase. Subsequently, during the embryo transition phases, StSERK expression was unchanged and did not vary among embryo-forming and inhibitory conditions. However, in isolated somatic embryos StSERK expression was again up-regulated. In other plant parts (leaves, true potato seeds, microtubers and flower buds), StSERK showed different levels of expression. Expression analysis suggests that the isolated StSERK could be a functional SERK orthologue. The possible role of SERK as a marker of pluripotency, rather than embryogenesis alone, is discussed.     

Changes in protein pattern during different developmental stages of somatic embryos in chickpea

Mature embryonic axes were used for chickpea (Cicer arietinum L.) regeneration via somatic embryogenesis. Qualitative and quantitative estimation of protein profile during somatic embryogenesis by SDS-PAGE and densitometric analysis showed differential expression of various storage proteins at different stages of somatic embryo development, which was compared with the profile of developing seeds. Total protein content in somatic embryos of chickpea increased from globular stage [2.9 μg mg⁻¹(f.m.)] to cotyledonary stage [4.8 μg mg⁻¹(f.m.)] and then started decreasing during onset of maturation and germination [up to 1.5 μg mg⁻¹(f.m.)]. Differential expression of seed storage proteins, late embryogenesis abundant (LEA) proteins and proteins related with stress response were documented at different stages of somatic embryogenesis. Germinating somatic embryos showed degradation products of several seed storage proteins and the appearance of new polypeptides (76.8, 67.6, 49.9 and 34.2 kDa), which were absent during differentiation of somatic embryos. A low molecular mass (17.7 kDa) polypeptide was uniformly present during all stages of somatic embryogenesis and it may belong to a group of stress-related proteins. This study describes the expression of true seed storage proteins like legumin, vicilin, convicilin and their subunits at different stages of somatic embryogenesis, which may serve as excellent markers for embryogenic pathway of regeneration in chickpea.     

Auxin-induced WUS expression is essential for embryonic stem cell renewal during somatic embryogenesis in Arabidopsis

Somatic embryogenesis requires auxin and establishment of the shoot apical meristem (SAM). WUSCHEL ( WUS ) is critical for stem cell fate determination in the SAM of higher plants. However, regulation of WUS expression by auxin during somatic embryogenesis is poorly understood. Here, we show that expression of several regulatory genes important in zygotic embryogenesis were up-regulated during somatic embryogenesis of Arabidopsis. Interestingly, WUS expression was induced within the embryonic callus at a time when somatic embryos could not be identified morphologically or molecularly. Correct WUS expression, regulated by a defined critical level of exogenous auxin, is essential for somatic embryo induction. Furthermore, it was found that auxin gradients were established in specific regions that could then give rise to somatic embryos. The establishment of auxin gradients was correlated with the induced WUS expression. Moreover, the auxin gradients appear to activate PIN1 polar localization within the embryonic callus. Polarized PIN1 is probably responsible for the observed polar auxin transport and auxin accumulation in the SAM and somatic embryo. Suppression of WUS and PIN1 indicated that both genes are necessary for embryo induction through their regulation of downstream gene expression. Our results reveal that establishment of auxin gradients and PIN1-mediated polar auxin transport are essential for WUS induction and somatic embryogenesis. This study sheds new light on how auxin regulates stem cell formation during somatic embryogenesis.     

Similarity of expression patterns of knotted1 and ZmLEC1 during somatic and zygotic embryogenesis in maize ( Zea mays L.)

Expression of knotted1 ( kn1) and ZmLEC1, a maize homologue of the Arabidopsis LEAFY COTYLEDON1 ( LEC1) was studied using in situ hybridization during in vitro somatic embryogenesis of maize ( Zea mays L.) genotype Hi-II. Expression of kn1 was initially detected in a small group of cells (5-10) in the somatic embryo proper at the globular stage, in a specific region where the shoot meristem is initiating at the scutellar stage, and specifically in the shoot meristem at the coleoptilar stage. Expression of ZmLEC1 was strongly detected in the entire somatic embryo proper at the globular stage, gradually less in the differentiating scutellum at the scutellar and coleoptilar stages. The results of analyses show that the expression pattern of kn1 during in vitro somatic embryogenesis of maize is similar to that of kn1 observed during zygotic embryo development in maize. The expression pattern of ZmLEC1 in maize during in vitro development is similar to that of LEC1 in Arabidopsis during zygotic embryo development. These observations indicate that in vitro somatic embryogenesis likely proceeds through similar developmental pathways as zygotic embryo development, after somatic cells acquire competence to form embryos. In addition, based on the ZmLEC1 expression pattern, we suggest that expression of ZmLEC1 can be used as a reliable molecular marker for detecting early-stage in vitro somatic embryogenesis in maize.     

龙眼体胚发生相关未知蛋白DlUP-3基因的克隆与表达分析

在龙眼体胚发生早期的蛋白质组学研究中,发现1个体胚发生相关未知蛋白DlUP-3,通过简并引物结合RACE技术进行其基因全长序列克隆。结果显示:(1)克隆到的龙眼体胚发生相关未知蛋白基因DlUP-3的全长cDNA序列为1 681bp,开放阅读框由1 017个核苷酸组成,编码338个氨基酸(GenBank登录号为GQ167202)。(2)生物信息学分析发现,该基因推导蛋白分子量为36 854.2Da,pI为9.05;该蛋白为Ras蛋白质家族成员,具有ATP/GTP-binding site motif A(P-loop)结合位点和1个典型的Ras_like_GTPase superfamily组件,无典型信号肽结构,但有跨膜螺旋的亲水性蛋白;不规则卷曲是其最大量的结构元件,散布于整个蛋白质中。(3)实时荧光定量PCR分析显示,该基因在龙眼体胚发生过程中均有表达,其中以胚性愈伤组织阶段表达量最低,而球形胚阶段最高。研究表明,DlUP-3基因在龙眼体胚发生过程尤其是球形胚阶段有重要的作用,为进一步研究该基因在龙眼体胚发生过程中的功能奠定了基础。     

2004 SIVB Congress Symposium Proceeding: Mechanisms of somatic embryogenesis in carrot suspension cultures—Morphology,physiology, biochemistry,and molecular biology

Summary Various aspects of somatic embryogenesis in carrot suspension cultures were reviewed on the basis of results obtained in our laboratory. We have established high-frequency and synchronous somatic embryogenesis systems needed for biochemical and molecular analysis. Using these systems, four phases of somatic embryogenesis were identified. The importance of expression of polarities in these phases, particularly from single cells to embryogenic cell clusters, in determining somatic embryogenesis, is emphasized. At the molecular level, genes expressed during somatic embryogenesis were described, and they were classified into three categories: (1) genes involved in cell division, (2) genes involved in organ formation and (3) genes specific for the process of somatic embryogenesis. From the results obtained, it is concluded that discrete developmental phases in carrot somatic embryogenesis are characterized by distinct biochemical and molecular events, but much remains to be understood.     

脱落酸在植物体细胞胚胎发生中的调控作用

脱落酸是一种具有全面生理功能的植物激素,在植物体细胞胚胎发生发育过程中具有重要的作用。根据国内外最新的研究文献,从脱落酸对植物体细胞胚胎发生的影响、植物体细胞胚胎发生过程中内源脱落酸含量的变化、脱落酸对体细胞胚胎发生过程中基因表达、信号转导的调控和转基因的表达调控入手,概述了脱落酸在植物体细胞胚胎发生中的调控作用。     

植物钙信号系统与体细胞胚发生

植物细胞离体培养中的体细胞胚发生受多种内外因素的调控,其中激素对细胞分化,发育和形态建成起着关键的作用。大量研究表明,在激素的作用过程中,Ca^2 信号系统可能是重要的介导者之一。Ca^2 和CaM在植物合子胚和体细胞胚发生中都具有重要作用,其作用机理可能是植物激素通过Ca^2 第二信号系统直接或间接地调控基因表达而实现的。     

A carrot G-box binding factor-type basic region/leucine zipper factor DcBZ1 is involved in abscisic acid signal transduction in somatic embryogenesis.

Carrot (Daucus carota) somatic embryogenesis has been extensively used as an experimental system for studying embryogenesis. In maturing zygotic embryos, abscisic acid (ABA) is involved in acquisition of desiccation tolerance and dormancy. On the other hand, somatic embryos contain low levels of endogenous ABA and show desiccation intolerance and lack dormancy, but tolerance and dormancy can be induced by exogenous application of ABA. In ABA-treated carrot embryos, some ABA-inducible genes are expressed. We isolated the Daucus carota bZIP1 (DcBZ1) gene encoding a G-box binding factor-type basic region/leucine zipper (GBF-type bZIP) factor from carrot somatic embryos. The expression of DcBZ1 was detected in embryogenic cells, non-embryogenic cells, somatic embryos, developing seeds, seedlings, and true leaves. Notably, higher expression was detected in embryogenic cells, true leaves, and seedlings. The expression of DcBZ1 increased in seedlings and true leaves after ABA treatment, whereas expression was not affected by differences in light conditions. During the development of zygotic and somatic embryos, increased expression of DcBZ1 was commonly detected in the later phase of development. The recombinant DcBZ1 protein showed specific binding activity to the two ABA-responsive element-like motifs (motif X and motif Y) in the promoter region of the carrot ABA-inducible gene according to results from an electrophoretic mobility shift assay. Our findings suggest that the carrot GBF-type bZIP factor, DcBZ1, is involved in ABA signal transduction in embryogenesis and other vegetative tissues.     

云杉属树种的体细胞胚胎发生

综述了云杉属树种体细胞胚胎发生的研究现状,其中包括：（１）影响云杉属树种体细胞胚胎发生及其植株再生的因素;（２）云杉属树种体细胞胚胎发生的形态学和细胞组织学研究。并展望了云杉属树种体细胞胚胎发生的应用前景及研究方向。     

细胞信号转导与植物体细胞胚发生

细胞信号转导主要是指胞间通讯的激素以及外界环境因子等作用于细胞表面（或胞内受体）后,如何跨膜传递形成胞内第二信使,以及其后的信息分子级联传递、诱导基因表达和引起生理反应的过程。植物体细胞胚发生的本质是基因的判别表达,因此细胞信号转导在此起关键作用。在植物组织培养过程中,外加的激素等因子通过细胞信号转导诱导基因差别表达,使体细胞转入胚胎发生过程,最终生长发育成完整植株。     

云杉属树种的体细胞胚胎发生

综述了云杉属树种体细胞胚胎发生的研究现状,其中包括：（1）影响云杉属树种体细胞胚胎发生及其植株再生的因素;（2）云杉属树种体细胞胚胎发生的形态学和细胞组织学研究。并展望了云杉属树种体细胞胚胎发生的应用前景及研究方向。