Cloning and characterization of a pollen-specific cDNA encoding a glutamic-acid-rich protein (GARP) from potato Solanum berthaultii

A pollen-specific cDNA was isolated from a cDNA library of in vitro germinated pollen of the diploid potato species Solanum berthaultii. The cDNA clone, designated SB401, hybridizes to a messenger RNA of 1.2 kb length in mature and germinated pollen. SB401 messenger RNA is absent from other parts of the plant, including other flower tissues. SB401 cDNA, which possesses a long stretch of AT-rich 5-untranslated leader sequence, encodes a glutamic acid-rich protein (GARP) which is hydrophilic throughout and contains six imperfect repeated motifs of the sequence V-V-E-K-K-N/E-E with the di-basic amino acid residue pair (K-K) as the core within the repeats. These repeats are spaced at irregular intervals and predicted to form an -helical structure. The SB401 protein was over-expressed in Escherichia coli and the purified protein was used for raising antiserum. Both E. coli-expressed and the endogenous SB401 proteins in pollen and pollen tubes appear much larger on SDS-polyacrylamide gels than their calculated molecular masses. Immunoblotting revealed the protein to be most abundant in germinated pollen. The structural features of SB401 protein and a possible role for the protein in pollen development, pollen germination, and pollen tube growth are discussed.     

Characterization of a pollen-specific cDNA clone from Zea mays and its expression.

A pollen-specific cDNA clone, Zmc13, has been isolated from a cDNA library constructed to poly(A) RNA from mature maize pollen. The cDNA as shown by primer extension analysis is a full-length copy of the mRNA. The cDNA has been sequenced and is 929 nucleotides in length plus a 47-nucleotide poly(A) tail. Putative polyadenylation signals are identifiable in the 3'-nontranslated region. The mRNA codes for a predicted polypeptide containing 170 amino acid residues and with a molecular mass of 18.3 kilodaltons. The hydropathy profile suggests a possible signal sequence on the amino terminus. A comparison of the nucleotide and deduced amino acid sequence with sequences in data banks has not shown homology to known molecules. In situ hybridizations using RNA probes show that the mRNA is located in the cytoplasm of the vegetative cell of the pollen grain and after germination is distributed throughout the pollen tube cytoplasm.     

Isolation and partial characterization of a novel pollen-specific cDNA with multiple polyadenylation sites from wheat

Wheat is the foremost staple food crop that offers bothcalories and proteins to a large global population. Wheat(hexaploid AABBDD genome, 16 billion bp) is a geneti-cally complex, self-pollinating plant with bisexualflowers that produce short-lived pollen. Very little is knownabout the molecular biology of its gametophyte develop-ment despite a longstanding interest in hybrid seeds. Mostof our information is from the studies on a few model andcrop plants such as Arabidopsis, tobacco, vegeta…     

BcMF11, a novel non-coding RNA gene from Brassica campestris, is required for pollen development and male fertility

Key message

BcMF11 as a non-coding RNA gene has an essential role in pollen development, and might be useful for regulating the pollen fertility of crops by antisense RNA technology.

Abstract

We previously identified a 828-bp full-length cDNA of BcMF11, a novel pollen-specific non-coding mRNA-like gene from Chinese cabbage (Brassica campestris L. ssp. chinensis Makino). However, little information is known about the function of BcMF11 in pollen development. To investigate its exact biological roles in pollen development, the BcMF11 cDNA was antisense inhibited in transgenic Chinese cabbage under the control of a tapetum-specific promoter BcA9 and a constitutive promoter CaMV 35S. Antisense RNA transgenic plants displayed decreasing expression of BcMF11 and showed distinct morphological defects. Pollen germination test in vitro and in vivo of the transgenic plants suggested that inhibition of BcMF11 decreased pollen germination efficiency and delayed the pollen tubes’ extension in the style. Under scanning electron microscopy, many shrunken and collapsed pollen grains were detected in the antisense BcMF11 transgenic Chinese cabbage. Further cytological observation revealed abnormal pollen development process in transgenic plants, including delayed degradation of tapetum, asynchronous separation of microspore, and aborted development of pollen grain. These results suggest that BcMF11, as a non-coding RNA, plays an essential role in pollen development and male fertility.     

Isolation and Characterization of Rat and Human cDNAs Encoding a Novel Putative Peroxisomal Enoyl-CoA Hydratase

We have used a PCR-based subtractive hybridization method to identify upregulated cDNAs in the livers of rats treated with a peroxisome proliferator [clofibrate or di(2-ethylhexyl) phthalate]. After four rounds of subtractive hybridization 62 differentially hybridizing clones were partially sequenced and analyzed by sequence homology searching. Of 62, 49 were identical to 14 different upregulated rat sequences in the databank (mostly genes encoding microsomal or peroxisomal enzymes), 4 of 62 were fragments of three previously unknown genes, and 9 of 62 were false positives. Two of the unknown fragments hybridized to a single novel cDNA that was found to be more than 20-fold induced by both peroxisome proliferators. The 36-kDa predicted protein product of this cDNA shows a high degree of sequence homology to enoyl-CoA hydratases of several different species and has a C-terminal peroxisomal targeting sequence. An epitope-tagged protein product of a full-length cDNA was targeted to peroxisomes in a human cell line. We named this gene, which encodes an apparent peroxisomal enoyl-CoA hydratase, ECH1. We have also identified human ECH1 cDNA and mapped its structural gene to 19q13, 3′ to the ryanodine receptor, by hybridization to somatic cell hybrid DNA and chromosome 19-specific cosmid arrays. Possible roles for the ECH1 protein product in peroxisomal β-oxidation are discussed.     

Full-Length Normalization Subtractive Hybridization: A Novel Method for Generating Differentially Expressed cDNAs

Here we present a novel method termed full-length normalization subtractive hybridization (FNSH) for efficiently generating subtracted cDNA libraries with a high degree of productivity. This method has the ability to isolate full-length differentially expressed genes from target samples. Normalization and subtraction of FNSH are performed simultaneously with efficiency equal to or even higher than that of suppression subtractive hybridization. Using FNSH, we have isolated at least 40 unique cDNAs that are expressed in terminal ampullae but not in the ovaries of the prawn Macrobrachium rosenbergii from 120 randomly picked subtracted clones. Sequence analysis shows that 37 of the 40 cDNAs are full length.     

小麦花粉特异性表达的cDNA的分离及表达特性

应用抑制差示杂交和5′/3′RACE PCR方法分离了小麦(Triticum aestivum L.)花粉特异性表达的全长cDNA(TaPSG719,GenBank:AY451238)),该基因全长1172 bp,5′非编码区序列长达329 bp,包含多个上游可译框架(uORF);该基因编码188个氨基酸的蛋白质,大小约20 kD,等电点为12.1。Northern杂交和RT-PCR分析表明该基因在成熟花粉特异表达,而在小孢子、叶片、根和未成熟的种子、幼茎和子房等组织几乎检测不到。进一步研究小麦花粉发育过程的表达水平表明,TaPSG719在单核和双核小孢子阶段不表达,在开花前5d(已完成有丝分裂)开始表达并迅速增强达到高峰,但随着花粉的成熟表达水平逐渐下降。表明TaPSG719是一个花粉中晚期特异性表达基因。经BLAST同源性分析表明,与目前已登录的基因没有显著的同源性。Southern杂交表明TaPSG719可能为一个多拷贝基因。为研究TaPSG719 cDNA 5′非编码区序列的uORF对可译框架的翻译的影响,构建不同缺失或突变的表达载体,采用麦胚体外翻译系统,结果显示含uORF的5′非编码区序列能显著抑制蛋白质的翻译水平,表明TaPSG719基因表达至少部分是在翻译水平上调控。     

小麦花粉特异性表达的cDNA的分离及表达特性

应用抑制差示杂交和5′/3′RACE PCR方法分离了小麦(Triticum aestivum L.)花粉特异性表达的全长cDNA(TaPSG719,GenBank:AY451238)),该基因全长1 172 bp,5′非编码区序列长达329 bp,包含多个上游可译框架(uORF);该基因编码1 88个氨基酸的蛋白质,大小约20 kD,等电点为12.1.Northern杂交和RT-PCR分析表明该基因在成熟花粉特异表达,而在小孢子、叶片、根和未成熟的种子、幼茎和子房等组织几乎检测不到.进一步研究小麦花粉发育过程的表达水平表明,TaPSG719在单核和双核小孢子阶段不表达,在开花前5 d(已完成有丝分裂)开始表达并迅速增强达到高峰,但随着花粉的成熟表达水平逐渐下降.表明TaPSG719是一个花粉中晚期特异性表达基因.经BLAST同源性分析表明,与目前已登录的基因没有显著的同源性.Southern杂交表明TaPSG719可能为一个多拷贝基因.为研究TaPSG719 cDNA 5′非编码区序列的uORF对可译框架的翻译的影响,构建不同缺失或突变的表达载体,采用麦胚体外翻译系统,结果显示含uORF的5′非编码区序列能显著抑制蛋白质的翻译水平,表明TaPSG719基因表达至少部分是在翻译水平上调控.     

Characterization of a gene family abundantly expressed in Oenothera organensis pollen that shows sequence similarity to polygalacturonase.

We have isolated and characterized cDNA clones of a gene family (P2) expressed in Oenothera organensis pollen. This family contains approximately six to eight family members and is expressed at high levels only in pollen. The predicted protein sequence from a near full-length cDNA clone shows that the protein products of these genes are at least 38,000 daltons. We identified the protein encoded by one of the cDNAs in this family by using antibodies to beta-galactosidase/pollen cDNA fusion proteins. Immunoblot analysis using these antibodies identifies a family of proteins of approximately 40 kilodaltons that is present in mature pollen, indicating that these mRNAs are not stored solely for translation after pollen germination. These proteins accumulate late in pollen development and are not detectable in other parts of the plant. Although not present in unpollinated or self-pollinated styles, the 40-kilodalton to 45-kilodalton antigens are detectable in extracts from cross-pollinated styles, suggesting that the proteins are present in pollen tubes growing through the style during pollination. The proteins are also present in pollen tubes growing in vitro. Both nucleotide and amino acid sequences are similar to the published sequences for cDNAs encoding the enzyme polygalacturonase, which suggests that the P2 gene family may function in depolymerizing pectin during pollen development, germination, and tube growth. Cross-hybridizing RNAs and immunoreactive proteins were detected in pollen from a wide variety of plant species, which indicates that the P2 family of polygalacturonase-like genes are conserved and may be expressed in the pollen from many angiosperms.     

Pumpkin hydroxypyruvate reductases with and without a putative C-terminal signal for targeting to microbodies may be produced by alternative splicing

Two full-length cDNAs encoding hydroxypyruvate reductase were isolated from a cDNA library constructed with poly(A)⁺ RNA from pumpkin green cotyledons. One of the cDNAs, designated HPR1, encodes a polypeptide of 386 amino acids, while the other cDNA, HPR2 encodes a polypeptide of 381 amino acids. Although the nucleotide and deduced amino acid sequences of these cDNAs are almost identical, the deduced HPR1 protein contains Ser-Lys-Leu at its carboxy-terminal end, which is known as a microbody-targeting signal, while the deduced HPR2 protein does not. Analysis of genomic DNA strongly suggests that HPR1 and HPR2 are produced by alternative splicing.     

Analysis of randomly isolated cDNAs from developing endosperm of rice (Oryza sativa L.): evaluation of expressed sequence tags,and expression levels of mRNAs

Using a cDNA library prepared from poly(A)⁺ RNA from 10-day-old rice endosperm, partial nucleotide sequences of randomly isolated clones were analyzed. A total of 153 (30.6%) out of 500 cDNA clones showed high amino acid identity to previously identified genes. There was significant redundancy in cDNAs encoding prolamine and glutelin. About 21.0% of the cDNA clones were found to code for seed storage protein genes. Consequently, 37 independent genes were identified. Using cDNA clones encoding glutelin, prolamine, seed allergen, -1,4-glucan branching enzyme, glycine-rich RNA binding protein, metallothionein, non-specific lipid-transfer protein and ubiquitin conjugating enzyme the accumulation of mRNA during rice seed development was compared. Genes associated with seed storage protein and starch biosynthesis were expressed according to expected developmental stages. Glycinerich RNA binding protein genes as well as metallothionein-like protein genes were highly expressed in developing seeds, but low in leaves of whole plants.     

Early developmentally regulated genes in the arbuscular mycorrhizal fungus Glomus mosseae: identification of GmGIN1, a novel gene with homology to the C-terminus of metazoan hedgehog proteins

The life cycle of the obligate biotrophic arbuscular mycorrhizal fungi comprises several well-defined developmental stages whose genetic determinants are still unknown. With the aim of understanding the molecular processes governing the early developmental phase of the AM fungal life cycle, a subtractive cDNA library was constructed using a suppressive subtractive hybridization technique. The library contains more than 600 clones with an average size of 500 bp. The isolated cDNAs correspond to genes up-regulated during the early development of the AM fungus Glomus mosseaeversus genes expressed in extraradical hyphae. The expression of several of the isolated genes was further confirmed by RT-PCR analysis. Among the isolated clones, a novel gene named GmGIN1 only expressed during early development in G. mosseae was found. The full-length GmGIN1 cDNA codes for a protein of 429 amino acids. The most interesting feature of the deduced protein is its two-domain structure with a putative self-splicing activity. The N-terminal domain shares sequence similarity with a novel family of GTP binding proteins while the C-terminus has a striking homology to the C-terminal part of the hedgehog protein family from metazoa. The C-terminal part of hedgehog proteins is known to participate in the covalent modification of the N-terminus by cholesterol, and in the self-splicing activity which renders the active form of the protein with signalling function. We speculate that the N-terminal part of GmGIN1, activated through a similar mechanism to the hedgehog proteins, has GTP-binding activity and participates in the signalling events prior to symbiosis formation.     

柔嫩艾美耳球虫孢子发育阶段虫体抑制性消减文库的构建

为了分离鉴定柔嫩艾美耳球虫(Eimeria tenella)孢子发育阶段虫体的差异表达基因,分别以柔嫩艾美耳球虫未孢子化卵囊和孢子化卵囊为驱动组、子孢子为实验组,或未孢子化卵囊为驱动组、孢子化卵囊为实验组,利用抑制性消减杂交(SSH)技术,构建了2个子孢子cDNA消减文库和1个孢子化卵囊cDNA消减文库。随机从3个cDNA消减文库中分别挑取50个克隆,经PCR鉴定2个子孢子cDNA消减文库的重组率都为96%,孢子化卵囊cDNA消减文库的重组率为98%。从每个文库中随机挑取50个克隆测序,并进行同源性比较分析,结果显示:从孢子化卵囊cDNA消减文库中获得了13个单一有效序列,其中8个EST与已知蛋白同源性很高;从2个子孢子cDNA消减文库中共获得了40个单一有效序列,其中9个EST与已知蛋白同源,其余可能为柔嫩艾美耳球虫的新基因。这些结果为分离柔嫩艾美耳球虫新功能基因和进一步探索防治球虫病的方法提供了理论基础。     

Promoters of two anther-specific genes confer organ-specific gene expression in a stage-specific manner in transgenic systems

Differential screening of a stage-specific cDNA library of Indica rice has been used to identify two genes expressed in pre-pollination stage panicles, namely OSIPA and OSIPK coding for proteins similar to expansins/pollen allergens and calcium-dependent protein kinases (CDPK), respectively. Northern analysis and in situ hybridizations indicate that OSIPA expresses exclusively in pollen while OSIPK expresses in pollen as well as anther wall. Promoters of these two anther-specific genes show the presence of various cis-acting elements (GTGA and AGAAA) known to confer anther/pollen-specific gene expression. Organ/tissue-specific activity and strength of their regulatory regions have been determined in transgenic systems, i.e., tobacco and Arabidopsis. A unique temporal activity of these two promoters was observed during various developmental stages of anther/pollen. Promoter of OSIPA is active during the late stages of pollen development and remains active till the anthesis, whereas, OSIPK promoter is active to a low level in developing anther till the pollen matures. OSIPK promoter activity diminishes before anthesis. Both promoters show a potential to target expression of the gene of interest in developmental stage-specific manner and can help engineer pollen-specific traits like male-sterility in plants. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. Accessions: OSIPA cDNA, AF220610; OSIPK cDNA, AF312920; OSIPA partial gene and upstream promoter region, AY166659; OSIPK gene-specific and upstream sequence, AY168440.