Construction of a Plant Transformation-ready Expression cDNA Library for Thellungiella halophila Using Recombination Cloning

Salt cress （Thellungiella halophila）, a close relative of the model plant Arabidopsis thaliana L., is an extremophile that is adapted to harsh saline environments. To mine salt-tolerance genes from this species, we constructed an entry cDNA library from the salt cress plant treated with salt-stress by using a modified cDNA synthesis and an improved recombinationassisted cDNA library construction method that is completely free of manipulations involving restriction enzymes and DNA ligase. This cDNA library construction procedure is significantly simplified and the quality of the cDNA library is improved. This entry cDNA library was subsequently shuttled into the destination binary vector pCB406 designed for plant transformation and expression via recombination-assisted cloning. The library is plant transformation ready and is used to transform Arabidopsis on a large scale in order to create a large collection of transgenic lines for functional gene mining.     

Identification of Embryoid-Abundant Genes That Are Temporally Expressed during Pollen Embryogenesis in Wheat Anther Cultures

Uninucleate microspores in anther cultures of bread wheat (Triticum aestivum cv Pavon) are capable of producing haploid pollen embryoids and plants. To gain an understanding of this alternate pathway of pollen development, we constructed a cDNA library to young pollen embryoids, isolated embryoid-specific genes, and analyzed their expression patterns during morphogenesis. Two embryoid-abundant clones, pEMB4 and 94, were expressed very early during culture, suggesting that these genes are associated with development and are not simply expressed as a consequence of differentiation. The accumulation patterns of five cloned mRNAs may indicate the activation of specific genes associated with the major morphological and physiological activities connected with the differentiation of embryoids in vitro. These results suggest that embryoid-abundant gene expression is causally related to this pathway because gene expression is spatially and temporally specific and is not observed when microspores are cultured under noninductive conditions.     

Construction of a Plant Transformation-ready Expression cDNA Library for Thellungiella halophila Using Recombination Cloning

Salt cress(Thellungiella halophila),a close relative of the model plant Arabidopsis thaliana L.,is an extremophile that isadapted to harsh saline environments.To mine salt-tolerance genes from this species,we constructed an entry cDNA libraryfrom the salt cress plant treated with salt-stress by using a modified cDNA synthesis and an improved recombination-assisted cDNA library construction method that is completely free of manipulations involving restriction enzymes andDNA ligase.This cDNA library construction procedure is significantly simplified and the quality of the cDNA library isimproved.This entry cDNA library was subsequently shuttled into the destination binary vector pCB406 designed for planttransformation and expression via recombination-assisted cloning.The library is plant transformation ready and is used totransform Arabidopsis on a large scale in order to create a large collection of transgenic lines for functional gene mining.     

通过小麦Ms2近等基因系的抑制缩减杂交分析揭示小穗和花药中差异表达基因

以Ms2近等基因系处于减数分裂期的可育小穗cDNA作为驱动因子(driver),以同一时期的不育小穗cDNA作为测验因子(tester)进行缩减杂交(SSH),将扩增后的缩减杂交产物进行克隆,构建了一个包含882个重组克隆的SSH文库.分别以可育小穗和不育小穗的cDNA为探针与SSH文库克隆进行反式Northern杂交,结果显示接近90%的克隆在不育小穗中呈上调表达.对文库中21个克隆插入片段的序列相似性分析表明其中有18个与来源于穗部或减数分裂期的花药cDNA同源.13个克隆的编码产物与已知功能的蛋白质同源,其中5个参与碳代谢活动,4个参与胞内分子的运输,2个蛋白产物参与染色体的构成及染色体的结构变化,1个是生长素抑制蛋白,1个是转录因子.用中国春缺体四体材料对9个克隆进行了染色体定位,其中一个克隆定位于第四染色体同源群,与Ms2所在的染色体同属一个同源群.通过搜索水稻的同源BAC(bacterial artificialchromosome)和PAC(P1 artificial chromosome)克隆,推测另外11个克隆的染色体位置,其中4个克隆可能位于第四染色体同源群.用RNA点杂交对11个克隆进行表达谱分析,其中8个克隆在不育株的小穗和花药中呈上调表达.     

中华蜜蜂工蜂cDNA文库的构建及ESTs测序分析

【目的】为了解中华蜜蜂Apis cerana cerana工蜂的抗逆性,构建了中华蜜蜂工蜂的cDNA文库,并对文库质量进行分析。【方法】本研究利用SMART技术构建了中华蜜蜂工蜂的全长cDNA文库。【结果】文库库容为3.6×106 cfu/m L,文库重组率为97%,插入片段长度多数分布在1 000 bp左右。挑取cDNA克隆进行EST测序,共进行了306个成功反应,软件拼接共得到234个单基因簇(Unigene),其中包括207个单拷贝(Singletons)序列及27个重叠群(Contigs)。使用Blastx将这些序列同Gen Bank等数据库进行查询、比对和注释,结果显示141条序列有相关同源性,其他序列没有明显的同源性,这也为我们发现新功能基因提供了可靠依据。【结论】此文库的构建在中华蜜蜂功能基因的分离、克隆、筛选以及基因功能研究等方面具有重要作用。     

利用SMART方法快速克隆异黄酮代谢途径多基因的研究

采用改进的酸酚法提取高质量的大豆叶片RNA,利用SMART思想和方法构建大豆叶片全长cDNA文库,直接以一级库液稀释液为模版进行PCR,快速克隆得到异黄酮代谢途径相关的5个基因。与传统的从DNA、RNA出发克隆基因,以及构建文库再进行基因筛选的克隆方法相比,该方法得到的基因均为全长基因,适用于快速、简便的进行多基因全长克隆。     

Anther-specific genes, which expressed through microsporogenesis, are temporally and spatially regulated in model legume, Lotus japonicus

Pollen germination and pollen tube elongation are important for pollination and fertilization in higher plants. To date, several pollen-specific genes have been isolated and characterized. However, there is little information about the precise spatial and temporal expression pattern of pollen-specific genes in higher plants. In our previous study, we identified 132 anther-specific genes in the model legume Lotus japonicus by using cDNA microarray analysis, though their precise expression sites in the anther tissues were not determined. In this study, by using in situ hybridization experiments, we determined the spatial and temporal expression sites of 46 anther-specific genes (ca. 35%), which were derived from two groups, cluster I-a and cluster II-a, according to flower developmental stages. In the case of the genes grouped into cluster I-a, thirteen clones were characterized. The specific hybridized signals were varied among the clones, and were observed in tapetum cells, microspores, and anther walls at the early developmental stage of anther tissues. In the case of the genes classified into cluster II-a, we used thirty three different cDNA clones encoding primary and secondary metabolism-related proteins, cell wall reconstruction-related proteins, actin reorganization-related proteins, and sugar transport-related proteins, etc., as a probe. Interestingly, all genes in these thirty three clones examined were specifically expressed in the bicellular pollen grains, though the signal intensity was varied among clones. From the data of the cluster II-a genes, the mRNAs related to pollen germination and pollen tube elongation were specifically transcribed and preserved in mature pollen grains.     

Abundance patterns of lily pollen cDNAs: characterization of three pollen-preferential cDNA clones

Twenty-five clones were randomly selected from a mature pollen cDNA library of Easter lily (Lilium longiflorum Thunb.) in order to study the abundance of pollen-expressed mRNAs and the functional roles of the proteins encoded by these mRNAs. Plaque hybridization experiments were conducted to estimate indirectly the expression level of the mRNAs. Based on the hybridization frequency in the mature pollen library, the cDNA clones were divided into three abundance groups. Eight clones belonged to a high abundance class in which each cDNA clone was present in the mature lily pollen library at a frequency between 0.3 and 3%. Six of these clones were not found in cDNA libraries made from carpel, leaf, or root, suggesting that they are preferentially expressed in pollen. Fourteen clones belonged to a medium abundance class and were present in the mature pollen library at a frequency between 0.01 and 0.08%. The remaining three clones, which were present at a frequency below 0.01%, were grouped as a low abundance class. Almost all of the cDNA clones which belong to either the medium or low abundance class were also detected in the leaf library. Northern blot hybridization with three of the highly abundant cDNA clones confirmed their preferential expression in anther. In situ hybridization experiment with one of the clones showed the pollen-specific expression of the clone in mature anther. DNA sequence analysis revealed that the clone LMP131 encodes a peptide which is highly homologous to the tomato pollen-preferential gene, LAT59, which encodes a putative pectate lyase. The clone LMP134 encodes a peptide that shows an extensive similarity to a variety of thioredoxins. The third clone LMP132 encodes a 182-residue protein that has no significant homology to known sequences.     

Molecular cloning and characterization of two complementary DNAs encoding putative peroxidases from rice (Oryza sativa L.) shoots

PCR with oligonucleotide primers that corresponded to two highly homologous regions, in terms of amino acid sequence, of plant peroxidases was used to amplify a specific DNA fragment from a mixture of rice (Oryza sativa L.) cDNAs. We then screened a cDNA library prepared from mRNAs of rice shoots utilizing the product of PCR as probe. Two cDNA clones, prxRPA and prxRPN, were isolated. They encode distinct isozymes of peroxidase. Sequence analysis indicated that the clones encode mature proteins of approximately 32 kDa, both of which possess a putative signal peptide. Comparison of the amino acid sequences of the two rice peroxidases showed that they are about 70% similar to each other but are only 40% to 50% similar to other plant peroxidases. RNA blot hybridization revealed that mRNAs that corresponded to prxRPA and prxRPN cDNAs accumulate at high levels in roots but only at low levels in stems and leaves. In various tissues of rice plants, levels of both mRNAs were stimulated by wounding and by ethephon. These results indicate that at least two isozymes of peroxidase are expressed not only in shoots but also in roots of rice plants, and that the expression of these genes is influenced by ethylene which is the simplest plant hormone.     

Enzyme-coding genes as molecular clocks: The molecular evolution of animal alpha-amylases

Summary We constructed a cDNA library for the beetle,Tribolium castaneum. This library was screened using a cloned amylase gene fromDrosophila melanogaster as a molecular probe. Beetle amylase cDNA clones were isolated from this bank, and the nucleotide sequence was obtained for a cDNA clone with a coding capacity for 228 amino acids. Both the nucleotide sequence and predicted amino acid sequence were compared to our recent results forD. melanogaster alpha-amylases, along with published sequences for other alpha-amylases. The results show that animal alpha-amylases are highly conserved over their entire length. A borader comparison, which includes plant and microbial alpha-amylase sequences, indicates that parts of the gene are conserved between prokaryotes, plants, and animals. We discuss the potential importance of this and other enzyme-coding genes for the construction of molecular phylogenies and for the study of the general question of molecular clocks in evolution.     

Method for systematic targeted isolation of homologous cDNA fragments in a multiplex format

In this study, a two-step method for systematic multiplex cloning of homologous cDNAs from related species was developed. The first step, called MUCH (multiplex cloning of homologous genes), is cloning of partial but authentic cDNA fragments of homologous cDNAs by hybridization to arrayed cRNA probes of specified genes on a nylon membrane, followed by PCR amplification of the hybridized fragments. The second step is PCR-based screening of a library that contains longer cDNA inserts based on the sequences obtained in the first step. To evaluate this method, we tried to isolate mouse counterparts of 53 human large cDNAs by MUCH and could successfully isolate 32 mouse counterpart cDNAs from a single library. Complete sequencing of two mouse cDNAs isolated by PCR-based screening further demonstrated that this method enabled us to isolate multiple homologous cDNAs in parallel. We thus expect that this method could be applied to high-throughput cloning of homologous cDNAs in related species.     

Generation of full-length cDNA libraries enriched for differentially expressed genes for functional genomics

Here, we describe the application of a RecA-based cloning technology to generate full-length cDNA libraries enriched for genes that are differentially expressed between tumor and normal tissue samples. First, we show that the RecA-based method can be used to enrich cDNA libraries for several target genes in a single reaction. Then, we demonstrate that this method can be extended to enrich a cDNA library for many full-length cDNA clones using fragments derived from a subtracted cDNA population. The results of these studies show that this RecA-mediated cloning technology can be used to convert subtracted cDNAs or a mixture of several cDNA fragments corresponding to differentially expressed genes into a full-length library in a single reaction. This procedure yields a population of expression-ready clones that can be used for further high-throughput functional screening.     

Molecular signals in the interactions between plants and microbes.

The field of plant-microbe interactions has witnessed several recent breakthroughs, such as the molecular details of vir gene induction, identification of Nod factors, and the cloning and characterization of avr genes. Other breakthroughs, such as the cloning and characterization of R genes, appear imminent. Parallels to mammalian systems are emerging in the world of plant-microbe interactions, for example, ion channels formed by Rhizobium proteins, similarities of hrp genes to pathogenicity genes of mammalian pathogens, and plant signal transduction via calcium and protein phosphorylation. We remain, however, largely ignorant of many facets of signaling in plant-microbe interactions. We know little about how microbial signals are perceived by plants or how subsequent signal transduction occurs within plant cells and are probably unaware of many of the microbe-generated signals to which plants respond or of plant-generated signals to which bacteria and fungi respond. Contributions from those working on the genetics, molecular biology, and physiology of bacteria, fungi, and plants will be required to address these questions. The many nonpathogenic plant-microbe interactions in addition to the Rhizobium-plant interaction remain relatively unexplored. Genetic and molecular approaches are being initiated to investigate the signaling that is likely to underlie interactions such as those between mycorrhizal fungi and plant roots and between epiphytic bacteria and plant leaf surfaces. The importance of these interactions to plant growth and development makes it likely that they will figure more prominently at future symposia.(ABSTRACT TRUNCATED AT 250 WORDS)     

cDNA cloning by amplification of circularized first strand cDNAs reveals non-IRE-regulated iron-responsive mRNAs

Currently, the rapid amplification of cDNA ends (RACE) is the most common method for PCR cloning of cDNA. Because RACE uses a gene specific primer and one adaptor primer that is shared by all cDNAs may result in numerous nonspecific products that can hinder the cloning process. Here we report a new method that uses circularized first strand cDNA from mRNA and two gene specific primers to amplify both the 5' and 3' cDNA ends in one reaction. A cDNA band of correct size can be obtained on the first pass in this approach. If the correct size is not obtained on the first pass, amplification of cDNA ends can be repeated until the correct size of the cDNA is obtained. We tested this new method on eight mRNAs that we have previously shown to respond to cellular iron levels. We obtained sequences for six mRNAs that were 43 bp to 1324 bp longer than that reported in GenBank and obtained the same length sequence for the other two mRNAs. RNA folding program shows no iron responsive elements (IRE) on these mRNA. In conclusion, our cloning approach offers a more efficient method for cloning full-length cDNA and it may be used to replace the existing method of 5' end cDNA extension. The data enabled us to exclude the possibility that the expression of these iron responsive genes are regulated by IREs.     

Molecular characterization of an Arabidopsis thaliana cDNA coding for a monofunctional aspartate kinase

A cDNA clone encoding a monofunctional aspartate kinase (AK, ATP:L-aspartate 4-phosphotransferase, EC 2.7.2.4) has been isolated from an Arabidopsis thaliana cell suspension cDNA library using a homologous PCR fragment as hybridizing probe. Amplification of the PCR fragment was done using a degenerate primer designed from a conserved region between bacterial monofunctional AK sequences and a primer identical to a region of the A. thaliana bifunctional aspartate kinase-homoserine dehydrogenase (AK-HSDH). By comparing the deduced amino acid sequence of the fragment with the bacterial and yeast corresponding gene products, the highest identity score was found with the Escherichia coli AKIII enzyme that is feedback-inhibited by lysine (encoded by lysC). The absence of HSDH-encoding sequence at the COOH end of the peptide further implies that this new cDNA is a plant lysC homologue. The presence of two homologous genes in A. thaliana is supported by PCR product sequences, Southern blot analysis and by the independent cloning of the corresponding second cDNA (see Tang et al., Plant Molecular Biology 34, pp. 287–294 [this issue]). This work is the first report of cloning a plant putative lysine-sensitive monofunctional AK cDNA. The presence of at least two genes is discussed in relation to possible different physiological roles of their respective product.