Importance of the B2 domain of the Arabidopsis ABI3 protein for Em and 2S albumin gene regulation

Genetic and molecular studies have shown that the Arabidopsis ABSCISIC ACID-INSENSITIVE3 (ABI3) protein plays a prominent role in the control of seed maturation. The ABI3 protein and its orthologues from various other plant species share four domains of high sequence identity, including three basic domains designated as B1, B2 and B3. The leaky abi3-1 mutation is a single amino acid substitution within the B3 domain. A new abi3 allele, abi3-7, was generated by mutagenizing abi3-1 seeds. The abi3-7 line contains, in addition to the abi3-1 mutation, a point mutation that converts residue Ala-458 into Thr within the B2 domain of the ABI3 protein. This Ala residue is absolutely conserved in all known ABI3 orthologues. Abi3-7 seeds display reductions in dormancy and in sensitivity to abscisic acid which are intermediate between those of the leaky abi3-1 and of the severe abi3-4 and abi3-5 mutants. Accumulation and distribution of At2S1 and At2S2 albumin mRNA as well as of AtEm1 and AtEm6 late embryogenesis-abundant proteins and mRNA have been analyzed. Both At2S1 and At2S2 mRNA are reduced in abi3-7, but distribution of At2S2 is spatially restricted. Accumulation of AtEm6 protein is more sensitive to abi3-7 mutation than AtEm1. However both mRNAs are considerably reduced in this mutant. Their distribution is also differentially affected. These results provide genetic evidence for the importance of the conserved B2 domain for ABI3 function in vivo.     

OBPC Symposium: Maize 2004 &; beyond-developmental and molecular genetics of embryogenesis in plants

Summary Embryo development is a very key phase in the life cycle of seed plants. At maturity, the embryo contains the complete machinery to elaborate the entire plant body. While the embryogenic process is an innate feature of the zygote, gametic and somatic cells can undergo embryogenesis under the appropriate culture conditions. Embryogenesis is a highly regulated process and the use of mutants, especially in Arabidopsis, has allowed the identification of genes regulating pattern formation during this process. The use of such mutants has revealed the eritical roles of auxin levels and transport in the establishment of embryo axis. Root and shoot apical meristem function and integrity, have been defined by examination of genes involved in their identity and function. Further knowledge of the molecular and biochemical aspects of zygotic embryogenesis should contribute to our understanding of the underlying regulatory pathways and networks and also provide critical insights into unique totipotent features of the plant cell.     

Delay of flower senescence and abscission in Arabidopsis transformed with an FOREVER YOUNG FLOWER homolog from Oncidium orchid

The ectopic expression of FOREVER YOUNG FLOWER (FYF), a MADS box gene in Arabidopsis, caused significant delay of senescence and a deficiency of abscission in flowers of transgenic Arabidopsis. It was proposed that the function of the FYF gene was related to the regulation of senescence and abscission. This hypothesis was further supported by one line of evidence reported in this study. The evidence is the similar delay of flower senescence and abscission observed in transgenic Arabidopsis ectopically expressing OnFYF, an FYF homolog from the Oncidium orchid, a monocot. This data suggested that the function of FYF homologs in regulating flower senescence and abscission was highly conserved in both dicot and monocot plants.     

Molecular cloning and sequencing of a cDNA for an auxin-repressed mRNA: correlation between fruit growth and repression of the auxin-regulated gene

A complementary DNA (cDNA) library has been constructed in gt10 from poly(A)⁺ mRNA isolated from auxin-deprived strawberry receptacles. By differential plaque filter hybridization, a cDNA (SAR5) to an auxin-repressed mRNA has been isolated. The expression of the auxin-repressed gene is studied at various stages of normal fruit development and in fruits of variant strawberry genotype using SAR5 as a probe. Northern analyses of RNA isolated from pollinated and unpollinated fruits of various developmental stages revealed that mRNA corresponding to the SAR5 clone is repressed during normal fruit development, and the level of SAR5 mRNA is regulated by endogenous auxin. Furthermore, results with both normal and variant genotype strawberry fruit indicate that there is a positive correlation between growth of strawberry fruit and repression of mRNA corresponding to the SAR5 clone. The SAR5 cDNA has been sequenced and is 723 nucleotides in length. The deduced protein has 111 amino acid residues with a molecular mass of 12.5 kDa. The putative polypeptide starts at nucleotide position 20 and ends at 352. The molecular weight of the predicted polypeptide is in agreement with the molecular weight of the in vitro translated polypeptide of hybrid selected mRNA. A comparison of the nucleotide and deduced amino acid sequence of SAR5 with nucleotide and protein sequences in data banks has not revealed any homology to known proteins.     

植物体细胞胚发生的细胞生物学研究进展

体细胞胚发生是植物界的一个普遍现象,本文从组织细胞学、超微结构、电镜细胞化学、分子生物学等方面对体细胞胚发生发育过程中的形态建成和细胞结构,Ca2 和ATPase的动态变化,淀粉和蛋白质代谢,核糖体、线粒体等对极性变化的影响,畸形胚的发生和体胚同步化的诱导调控,基因调控等方面进行了综述,为进一步深入了解体细胞胚的发生发育规律及基因调控机制以及植物高效再生体系的建立提供参考。     

Molecular cloning of cDNAs for auxin-induced mRNAs and developmental expression of the auxin-inducible genes

By differential hybridization, two auxin-inducible cDNA clones (SAR1 and SAR2) have been isolated from a cDNA library constructed to poly(A)⁺ mRNA from auxin-treated strawberry receptacles. Both the clones have been used as probes to study the expression of the auxin-induced genes in pollinated and unpollinated fruits of various stages of development and in different organs. A high level of auxin-induced mRNAs is found in pollinated fruits as compared to unpollinated fruits of the same age, suggesting that the expression of the auxin-induced genes is developmentally regulated and the level of auxin-induced mRNAs is regulated by endogenous auxin. Furthermore, our data on the expression of SAR1 and SAR2 genes in pollinated and unpollinated fruits revealed a positive correlation between growth of strawberry fruit and the induction of mRNA corresponding to the SAR1 and SAR2 clones. Ethylene has no effect on the expression of the auxin-induced mRNAs. SAR1 mRNA is not detected in other parts of strawberry plants whereas SAR2 mRNA is present in roots. Furthermore, mRNA corresponding to SAR1 and SAR2 is not detected in other auxin-responsive plant systems such as pea epicotyls and bean explants.     

Identification of MADS genes from a brown alga,Sargassum fulvellum

The conserved region of numerous MADS genes in gulfweed (Sargassum fulvellum) was cloned by PCR with degenerate primers. Analysis of seventy individual clones resulted in the identification of nineteen types of nucleotide sequences. There sequences encode portions of the MADS domain in four distinctive groups. Six clones belong to the AGAMOUS subfamily, ten to AGL2, and two to AGL12. The remaining one clone is distinctive and appears to be diverged from an ancestor of the AGL2 and AP1 groups. There were no A or B class MADS genes. These results suggest that, as found in land plants, MADS genes also play major roles in controlling the development of algae.     

MADS-box基因对花的发育及开花早晚的影响

介绍了植物中MADS-box基因和MADS-box蛋白转录因子的组成,MADS-box基因是一类序列特异的多基因家族,所编码的蛋白即为MADS-box转录因子,它是以二聚体化的形式通过其保守结构域与特定的DNA序列相结合来调控基因的表达.主要介绍了ABC模型及MADS-box基因与花的发育,并介绍了可促进开花的4种MADS-box基因-AGL20、AGL24、CO和SOC1及抑制开花的另外4种MADS-box基因-FLC、FLM、FRI和SVP,最后提出前景和展望.     

Survival rate to term of chimeric morulae produced by aggregation of five to nine embryos in the mouse, Mus musculus

Chimeric morulae from five to nine embryos were produced by aggregation after removal of the zonae pellucidae and brief incubation in phytohemagglutinin-P. After 28 hr of in vitro culture, these aggregates were transferred to the left uterine horn of pseudopregnant recipient female mice. Each recipient also received control embryos in the right uterine horn. Genetic markers were included so that aggregate-derived offspring could be distinguished from control offspring. Aggregate-derived embryos survived to term, but at a much reduced rate. In the 25 recipients that produced litters, 6.2% (N=211) of the aggregated embryos developed into liveborn young. Survival-to-term for control embryos was 38.8% (N=387). Survival-to-term was independent of the number of embryos aggregated. The aggregate-derived embryos were apparently undergoing size regulation following implantation.     

墨兰多舌奇花MADS特异表达基因筛选及分析

以墨兰‘南菊’为代表,用抑制消减杂交和基因芯片相结合技术构建墨兰多舌与正格花舌间的差异表达基因文库,筛选与花形态建成相关的MADS差异表达基因并构建系统进化树。结果表明:在多舌瓣中筛选出32个上调表达MADS基因,包括TM6、AG、AP1、DEF1、AP3及PI基因。其中有10个基因与AGL17、AGL29、FUI聚为一类,12个基因与其他的MADS基因归为一类。这些MADS基因参与了多舌瓣发生,并可能扮演了重要角色。该研究可为从兰花多舌变化的角度阐明墨兰奇花形成的分子机理及培育中国兰花新奇优良品种提供思路和理论依据。