大麦HvLEC1基因的克隆及其表达特征分析

植物LEC蛋白是NF-Y转录因子的一类B亚基,在植物胚状体形成过程中起重要作用。为了研究大麦小孢子体外培养形成胚状体的机理,本研究利用RACE技术在大麦中克隆了一个新的LEC基因,该基因cDNA全长为1004 bp,开放阅读框全长为597 bp,编码198个氨基酸,其蛋白1~59位氨基酸含有LEC结构域,命名为HvLEC1。HvLEC1在大麦的根、茎、叶和小孢子培养过程中均能表达,其中小孢子培养7 d时表达量最高,且HvLEC1在大麦品系BI04中的表达量比基19高,BI04愈伤产量也比基19高,表明HvLEC1表达量和愈伤产量有相关性,受盐胁迫后HvLEC1在大麦的根中快速上调表达,提示HvLEC1可能不仅参与小孢子胚状体发生,而且参与盐胁迫响应。     

A novel stress-related gene in developing pepper anthers

To study gene expression patterns and to find genes related with microspore embryogenesis during pepper (Capsicum annuum L.) anther development, mRNA expression patterns were investigated at four developmental stages distinguished according to the size of flower bud, the color of anthers, and the cytological feature of microspores. Through GeneFishing using 120 random primers, 81 genes were found to be differentially expressed as anthers develop. We directly sequenced seven of them, which were either up- or down-regulated at stage 2, since microspores at stage 2 are known to be responsive to the induction signals for microspore embryogenesis. Nucleotide sequence analysis of the isolated differentially expressed genes (DEGs) and the comparison of these sequences with the GenBank data indicate that DEG13 is a novel gene, which is highly homologous to a stress-related gene of potato, POACT88 (≈91%) and to alcohol dehydrogenase gene of Arabidopsis (≈70%), whose expression is also tightly related to stresses. In vitro data also showed that DEG13 was more abundantly expressed in heat-treated microspores than in untreated microspores. Here, we report developmental stage-specific gene expression patterns during anther development and a novel stress-related gene, DEG13, which may be involved in microspore embryogenesis in response to heat treatment.     

Isolation and characterization of four somatic embryogenesis receptor-like kinase (<Emphasis Type="Italic">RhSERK</Emphasis>) genes from miniature potted rose (<Emphasis Type="Italic">Rosa hybrida</Emphasis> cv. Linda)

The isolation and expression analysis of four partial gene sequences from rose (Rosa hybrida cv. Linda) belonging to the receptor-like kinase gene superfamily are reported. These genes have been designated RhSERK1 to RhSERK4 (Accession No. EF631967 to EF631970) as they exhibit high sequence identities with genes from the somatic embryogenesis receptor-like kinase (SERK) family in other plant species. The RhSERK genes are differentially expressed in non-embryogenic callus, embryogenic callus, mature somatic embryos and a range of tissues from intact plants, indicating a broad role in plant growth and development. However, the expressions of RhSERK3 and RhSERK4 were approximately fivefold higher in embryogenic callus than in non-embryogenic callus, and they are even higher when compared to tissues from intact plants. In addition, RhSERK4 expression was approximately eightfold higher in somatic embryos than in embryogenic callus. These results suggest that the expression pattern of RhSERK3 and RhSERK4 may be used as a marker of somatic embryogenesis.     

Rice <Emphasis Type="Italic">SERK1</Emphasis> gene positively regulates somatic embryogenesis of cultured cell and host defense response against fungal infection

Here we report on the isolation and characterization of a somatic embryogenesis receptor-like kinase (OsSERK1) gene in rice (Oryza sativa). The OsSERK1 gene belongs to a small subfamily of receptor-like kinase genes in rice and shares a highly conserved gene structure and extensive sequence homology with previously reported plant SERK genes. Though it has a basal level of expression in various rice organs/tissues, as high expression level was detected in rice callus during somatic embryogenesis. Suppression of OsSERK1 expression in transgenic calli by RNA interference resulted in a significant reduction of shoot regeneration rate (from 72% to 14% in the japonica rice Zhonghua11). Overexpression of OsSERK1, however, increased the shoot regeneration rate (from 72% to 86%). Interestingly, OsSERK1 is significantly activated by the rice blast fungus, particularly during the incompatible interaction, and is associated with host cell death in Sekigushi lesion mimic mutants. This gene is also inducible by defense signaling molecules such as salicylic acid, jasmonic acid, and abscisic acid. Furthermore, constitutive overexpression of OsSERK1 in two rice cultivars led to an increase in host resistance to the blast fungus. Our data suggest that OsSERK1 may partially mediate defense signal transduction in addition to its basic role in somatic embryogenesis.     

Genome-wide identification of <Emphasis Type="Italic">SERK</Emphasis> genes in apple and analyses of their role in stress responses and growth

Background

Somatic embryogenesis receptor-like kinases (SERKs) are leucine-rich repeat receptor-like kinases associated with various signaling pathways. These kinases have a relationship with stress signals, and they are also believed to be important for regulating plant growth. However, information about this protein family in apple is limited.

Results

Twelve apple SERK genes distributed across eight chromosomes were identified. These genes clustered into three distinct groups in a phylogenetic analysis. All of the encoded proteins contained typical SERK domains. The chromosomal locations, gene/protein structures, synteny, promoter sequences, protein–protein interactions, and physicochemical characteristics of MdSERK genes were analyzed. Bioinformatics analyses demonstrated that gene duplications have likely contributed to the expansion and evolution of SERK genes in the apple genome. Six homologs of SERK genes were identified between apple and Arabidopsis. Quantitative real-time PCR analyses revealed that the MdSERK genes showed different expression patterns in various tissues. Eight MdSERK genes were responsive to stress signals, such as methyl jasmonate, salicylic acid, abscisic acid, and salt (NaCl). The application of exogenous brassinosteroid and auxin increased the growth and endogenous hormone contents of Malus hupehensis seedlings. The expression levels of seven MdSERK genes were significantly upregulated by brassinosteroid and auxin. In addition, several MdSERK genes showed higher expression levels in standard trees of ‘Nagafu 2’ (CF)/CF than in dwarf trees of CF/‘Malling 9’ (M.9), and in CF than in the spur-type bud mutation “Yanfu 6” (YF).

Conclusion

This study represents the first comprehensive investigation of the apple SERK gene family. These data indicate that apple SERKs may function in adaptation to adverse environmental conditions and may also play roles in controlling apple tree growth.

     

Sources of powdery mildew resistance in barley landraces from morocco

A total of forty eight accessions of barley landraces from Morocco were screened for resistance to powdery mildew. Twenty two (46%) of tested landraces showed resistance reactions and thirty four single plant lines were selected. Eleven of these lines were tested in seedling stage with seventeen and another twenty three lines with twenty three isolates of powdery mildew respectively. The isolates were chosen according to the virulence spectra observed on the ‘Pallas’ isolines differential set. Line 229–2–2 was identified with resistance to all prevalent in Europe powdery mildew virulence genes. Lines 230–1–1, 248–1–3 showed susceptible reaction for only one and lines 221–3–2, 227–1–1, 244–3–4 for only two isolates respectively. Three different resistance alleles (Mlat, Mla6, and MLA14) were postulated to be present in tested lines alone or in combination. In thirty (88%) tested lines it was impossible to determine which specific gene or genes for resistance were present. Most probably these lines possessed alleles not represented in the ‘Pallas’ isolines differential set. The distribution of reaction type indicated that about 71% of all reaction types observed were classified as powdery mildew resistance (scores 0, 1 and 2). Majority (79%) of resistance reaction types observed in tested lines was intermediate resistance reaction type two and twenty three lines (68%) showed this reaction for inoculation with more than 50% isolates used. The use of new effective sources of resistance from Moroccan barley landraces for diversification of resistance genes for powdery mildew in barley cultivars was discussed.     

Characterisation of the legume SERK-NIK gene superfamily including splice variants: Implications for development and defence

Background  

SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE (SERK) genes are part of the regulation of diverse signalling events in plants. Current evidence shows SERK proteins function both in developmental and defence signalling pathways, which occur in response to both peptide and steroid ligands. SERKs are generally present as small gene families in plants, with five SERK genes in Arabidopsis. Knowledge gained primarily through work on Arabidopsis SERKs indicates that these proteins probably interact with a wide range of other receptor kinases and form a fundamental part of many essential signalling pathways. The SERK1 gene of the model legume, Medicago truncatula functions in somatic and zygotic embryogenesis, and during many phases of plant development, including nodule and lateral root formation. However, other SERK genes in M. truncatula and other legumes are largely unidentified and their functions unknown.     

Enhancement of microspore culture efficiency of recalcitrant barley genotypes

The culture response of isolated microspores of seven recalcitrant cultivars of barley has been largely improved by identifying an appropriate pretreatment and utilizing ovary co-cultivation. After comparison of three pretreatment media, medium B was shown to be most efficient for inducing microspore embryogenesis, while 0.3 M mannitol frequently used for the responsive cv. Igri was found to be ineffective for recalcitrant genotypes. A further significant improvement of embryogenesis was achieved by using ovary co-culture, which resulted in an overall 2.1-fold increase in embryo formation and 2.4-fold increase in green plant regeneration from all cultivars compared with the control. Optimal co-culture conditions were identified as 5 ovaries/ml medium kept over 20 days in induction culture. Microspore plating densities in cultures with and without co-culture were found to be optimal at 4᎒⁴/ml and 8-12᎒⁴/ml, respectively. The most effective and reproducible method for culturing microspores of recalcitrant genotypes appeared to be the combination of medium B pretreatment with ovary co-culture. By using this procedure, the genotypic difference in microspore embryogenesis could be reduced. It was found that medium B mainly enhanced percent live embryogenic microspores, and ovary co-culture subsequently improved cell division and embryogenic development. The method described here is important for the application of the microspore culture technique to barley breeding and biotechnology.     

Genetic manipulation of microspores and microspore-derived embryos

Summary Recent advances in plant cell and molecular biology have furthered the genetic manipulation of many plant species and advanced the options for crop improvement. Among the many targets for genetic manipulation, microspores offer several unique advantages: they are haploid, single-celled, and highly synchronized. In many plant species microspores develop into haploid embryos, and eventually haploid and doubled haploid plants, after in vitro anther or microspore culture. This induced in vitro developmental pathway of microspores, termed microspore embryogenesis, can be used to recover individual homozygous plants from microspores and microspore-derived embryos after genetic manipulation such as mutagenesis and gene transfer. The highly efficient microspore embryogenesis system inBrassica napus has been used successfully to obtain various mutants after microspore mutagenesis, and to achieve gene transfer mediated byAgrobacterium tumefaciens. Presented in the Session-in-Depth In Vitro Gametophyte Biology at the 1991 World Congress on Cell and Tissue Culture held in Anaheim, California, June 16–20, 1991.     

Molecular characterisation of two novel maize LRR receptor-like kinases, which belong to the SERK gene family

Genes encoding two novel members of the leucine-rich repeat receptor-like kinase (LRR-RLK) superfamily have been isolated from maize (Zea mays L.). These genes have been named ZmSERK1 and ZmSERK2 since features such as a putative leucine zipper (ZIP) and five leucine rich repeats in the extracellular domain, a proline-rich region (SPP) just upstream of the transmembrane domain and a C-terminal extension (C) after the kinase domain identify them as members of the SERK (omatic mbryogenesis eceptor-like inase) family. ZmSERK1 and ZmSERK2 are single-copy genes and show 79% identity among each other in their nucleotide sequences. They share a conserved intron/exon structure with other members of the SERK family. In the maize genome, ZmSERK1 maps to position 76.9 on chromosome arm 10L and ZmSERK2 to position 143.5 on chromosome arm 5L, in regions generally not involved in duplications. ZmSERK1 is preferentially expressed in male and female reproductive tissues with strongest expression in microspores. In contrast, ZmSERK2 expression is relatively uniform in all tissues investigated. Both genes are expressed in embryogenic and non-embryogenic callus cultures. Received: 20 June 2000 / Accepted: 25 September 2000     

The transfer of a powdery mildew resistance gene from Hordeum bulbosum L to barley (H. vulgare L.) chromosome 2 (2I)

Hordeum bulbosum L. is a source of disease resistance genes that would be worthwhile transferring to barley (H. vulgare L.). To achieve this objective, selfed seed from a tetraploid H. vulgare x H. bulbosum hybrid was irradiated. Subsequently, a powdery mildew-resistant selection of barley phenotype (81882/83) was identified among field-grown progeny. Using molecular analyses, we have established that the H. bulbosum DNA containing the powdery mildew resistance gene had been introgressed into 81882/83 and is located on chromosome 2 (2I). Resistant plants have been backcrossed to barley to remove the adverse effects of a linked factor conditioning triploid seed formation, but there remains an association between powdery mildew resistance and non-pathogenic necrotic leaf blotching. The dominant resistance gene is allelic to a gene transferred from H. bulbosum by co-workers in Germany, but non-allelic to all other known powdery mildew resistance genes in barley. We propose Mlhb as a gene symbol for this resistance.     

Effect of various exogenous and endogenous factors on microspore embryogenesis in Indian mustard (<Emphasis Type="Italic">Brassica juncea</Emphasis> (L.) Czern and Coss)

Summary The influence of donor plant growth environment, microspore development stage, culture media and incubation conditions on microspore embryogenesis was studied in three Indian B. juncea varieties. The donor plants were grown under varying environments: field conditions, controlled conditions, or a combination of the two. The correlation analysis between the bud size and microspore development stage revealed that the bud size is an accurate marker for donor plants grown under controlled conditions, however, the same does not hold true for the field-grown plants. The buds containing late uninucleate microspores collected from plants grown under normal field conditions up to bolting stage and then transferred to controlled environment were observed to be most responsive with genotypic variability ranging from 10 to 35 embryos per Petri dish, irrespective of the other factors. NLN medium containing 13% sucrose was found to be most suitable for induction of embryogenesis The fortification of this medium with activated charcoal, polyvinylpyrrolidone, colchicine, or growth regulators (6-benzylaminopurine and 1-naphthaleneacetic acid) was observed to be antagonistic for microspore embryogenesis, while silver nitrate (10 μM) had a significant synergistic effect. A post-culture high-temperature incubation of microspores at 32.5±1°C for 10–15 d was found most suitable for high-frequency production of microspore embryos. The highest frequency of microspore embryogenesis (78 embryos per Petri dish) was observed from the late uninucleate microspores (contained in bud sizes 3.1–3.5 nm irrespective of genotype) cultured on NLN medium containing 13% sucrose and silver nitrate (10 μM), and incubated at 32.5°C for 10–15 d.     

源于小孢子培养的大麦耐盐变异体获取

以大麦品种‘花30’作为供试材料,比较了甲基磺酸乙酯（EMS）和平阳霉素处理小孢子60Co γ-射线辐照处理离体穗和干种子,对300mg·L-1NaCl胁迫培养下游离小孢子的愈伤组织产量和愈伤组织在0.3％NaCl胁迫筛选下的绿苗产量的影响。结果表明,EMS处理离体小孢子和60Co γ-射线辐照千种子的愈伤组织产量和绿苗产量明显优于平阳霉素处理小孢子和60Co γ-射线辐照离体穗。以16份源于种子辐照处理的再生植株自交一代种子为供试材料,比较了在0．3％NaCl胁迫下种子的发芽率和幼苗的成活率以及植株的分蘖数、株高和单株产量。结果表明,‘花30’发芽率为0,供试的16份耐盐变异体中,有14份材料在NaCl胁迫下的发芽率优于‘花30’,鉴定出4份耐盐性明显优于‘花30’的变异体材料。选择耐盐变异体作为供试材料,测定了变异体中Na＋／H＋逆向转运蛋白基因NHXl、NHX2和NHX3和编码甜菜碱醛脱氢酶（BADH）的两个同工酶基因曰肋,和BBD2的表达模式和表达量,结果表明变异体耐盐性的提高与这些基因的表达量存在联系。