小米psbA基因5''末端非编码区的结构特征

以小米(Setaria italica)为材料,克隆了含有叶绿体psbA基因的2.2kb EcoRⅠ片段,测定了该基因5＇末端非编码区的核苷酸序列。序列分析显示psbA基因5＇末端非编码区存在着与原核类似的启动子结构,其“-10”区的序列为TATACT,与原核生物“-10”共有基序(Consensus motif)仅相差一个核苷酸;其“-35”区的序列为TTGACA,与原核生物“-35”共有基序完全相同。另外,在“-10”区和“-35”区之间还存在着一个类似真核启动子结构的“TATATA”保守序列。这些结果表明小米psbA基因的启动子既具有原核的特征又具有真核的特征。小米psbA基因的mRNA前导序列长87bp,与高粱完全一致,而比水稻多出了“CTATTTT”7个核苷酸,比小麦、大麦和黑麦多出了“TTTT”4个核苷酸。因此推测在禾本科的C_3和C_4植物之间,psbA基因mRNA前导序列区的差异可能具有普遍性。计算机分析结果显示,以上6种植物的psbA基因mRNA前导序列区内均能形成小的茎环结构,而且这段“CTATTTT”额外序列恰好位于茎环结构中,造成了6种植物间茎环大小的差异。这一小的二级结构可能对psbA基因的表达调控有一定的影响。     

水稻(Oryza sativa L.)核基因组存在叶绿体psbA基因的同源片段

序列比较说明,重复DNA顺序pRRD9与水稻叶绿体基因组中编码QB蛋白的psbA基因存在高度的同源。用pRRD9亚克隆片段pRRD9R和片段pRRD9L对水稻的叶绿体和核DNA进行Southern杂交分析,揭示了psbA基因同源片段在某个进化时期由叶绿体基因组转移到水稻核基因组,而且两者在水稻进化过程中的变异程度存在明显的差异。利用它们对野生稻和栽培稻总DNA的Southern杂交分析,显示亚洲栽培稻与AA基因组型的野生稻有较近的亲缘关系,以及在部分野生稻产生特异的杂交带谱,说明它可以作为一种分子探针来研究水稻的进化问题。     

Differential DNA rearrangements of plastid genes, psbA and psbD, in two species of the dinoflagellate Alexandrium

Plastomes of the peridinin-containing dinoflagellates are composed of a limited number of genes, which are carried individually on small circular molecules, termed 'minicircles'. Although the prevalent plastid chromosome of most algae and plants has only a single copy of each gene, our previous study showed that low copy numbers of multiple variants of the gene psbA co-exist with the 'ordinary' gene encoding the D1 protein in minicircles of Alexandrium tamarense. Although none of the psbA variants encoded the entire protein, they persisted in culture. In this study, we compared the distribution and structure of psbA and psbD variants in two species of Alexandrium to characterize DNA rearrangement within these genes. In addition to four previously reported psbA variants, three psbD variants were found in A. tamarense minicircles. The ordinary psbA and psbD genes also co-existed with variants in another species, A. catenella. The sequences of the ordinary genes were virtually identical in the two species. All the variants comprised insertion or deletion mutations, with no base substitutions being identified. Duplicated parts of the coding sequences were contained in most of the insertions. Short direct repeats (4-14?bp) and/or adenine?+?thymine-rich motifs were present in all mutation regions, although the position and/or the sequence of each DNA rearrangement was unique to each variant. The results indicated that replication-based repeat-mediated recombination was responsible for generation of the variants.     

Chloroplast gene for Mr 32000 polypeptide of photosystem II in Euglena gracilis is interrupted by four introns with conserved boundary sequences

The gene for the Mr 32000 herbicide binding polypeptide of photosystem II has previously been mapped to the 5 kbp EcoRI fragment Eco I of Euglena gracilis chloroplast DNA. The nucleotide sequence of 3324 bp of Eco I, containing the psbA locus, has been determined. This locus encodes a polypeptide of 345 amino acids which is co-linear with, and has 86% derived amino acid sequence homology to sequences derived from four higher plants chloroplast psbA loci. The Euglena psbA gene contains four introns of size 435, 443, 434, and 617 bp. The four introns have conserved boundary sequences of the type previously described in the Euglena chloroplast gene (rbcL) for the large subunit of ribulose-1,5-bisphosphate carboxylase (Koller et al., Cell 36, 545-553, 1984).     

Testing for endemism, genotypic diversity and species concepts in Antarctic terrestrial microalgae of the Tribonemataceae (Stramenopiles, Xanthophyceae)

The genetic diversity of all available culture strains of the Tribonemataceae ( Stramenopiles , Xanthophyceae ) from Antarctica was assessed using the chloroplast-encoded psbA /rbcL spacer region sequences, a highly variable molecular marker, to test for endemism when compared with their closest temperate relatives. There was no species endemic for Antarctica, and no phylogenetic clade corresponded to a limited geographical region. However, species of the Tribonemataceae may have Antarctic populations that are distinct from those of other regions because the Antarctic strain spacer sequences were not identical to sequences from temperate regions. Spacer sequences from five new Antarctic isolates were identical to one or more previously available Antarctic strains, indicating that the Tribonemataceae diversity in Antarctic may be rather limited. Direct comparisons of the spacer sequences and phylogenetic analyses of the more conserved rbcL gene revealed that current morphospecies were inadequate to describe the actual biodiversity of the group. For example, the genus Xanthonema , as currently circumscribed, was paraphyletic. Fortunately, the presence of distinctive sequence regions within the psbA/rbcL spacer, together with differences in the rbcL phylogeny, provided significant autoapomorphic criteria to re-define the Tribonemataceae species.     

Structural feature of sorghum chloroplast psbA gene and regulation effects of its 5'-noncoding region*

Comparative analysis reveals remarkable homology between the sequences of both psbA gene nucleotides and the inferred amino acids of sorghum, a C_4 plant, and those of rice, a C_3 plant. The 5'-noncoding region of sorghum psbA gene contains the conservative promoter elements, "-35" element and "-10" element, like the prokaryote and the promoter element, TATA box, like the eukaryote. As compared with that of the rice, an extra sequence of 7 bp is found in the leader sequence of the mRNA in the former. Using an in vitro system, it has been demonstrated that protein factor exists in sorghum chloroplast protein extract which specifically binds to the 5'-noncoding region of psbA gene. Measurement of the expression of luciferase shows a 2—5 time greater reaction of the expression plasmids pALqs which contain leader region of sorghum psbA gene than that of the expression plasmids pALqr which contain leader region of rice psbA gene in E. coli.     

Isolation and molecular characterization of atrazine tolerant barley mutants

Two atrazine-tolerant barley mutants were isolated from atrazine-selection experiments performed on barley chloroplast-mutator plants. Genetic analysis demonstrated that atrazine tolerance was maternally inherited. Molecular characterization of the mutants was performed by PCR amplification of an internal fragment of the chloroplast gene psbA. The BstXI restriction patterns of the amplified fragments showed two bands in both tolerant barley mutants and only one in the atrazine-sensitive control. The 277-bp amplified fragments from the parental line and both atrazine-tolerant mutants were cloned and sequenced. Sequence analysis showed a single nucleotide substitution in both barley atrazine-tolerant mutants, i.e. A to G at the +790 position of the psbA gene-coding sequence. This point mutation corresponds to an amino-acid change of serine- to -glycine and creates a BstXI restriction site. Our results confirmed the conservative variability involved in atrazine tolerance which was previously reported for several other species. To our knowledge this is the first report on the obtention of atrazine-tolerant barley. This finding provides support to the hypothesis that, in addition to a wide variety of chlorophyll deficiencies, the barley chloroplast mutator genotype induces variability in other traits, which could include agronomically valuable mutants.     

Isolation and characterisation of components of the <Emphasis Type="Italic">Dunaliella tertiolecta</Emphasis> chloroplast genome

Three chloroplast genes, psbA, psbB and rbcL, of the microalgae Dunaliella tertiolecta were targeted with the view to using these components in the construction of a chloroplast transformation vector. The three genes and surrounding genomic regions were isolated by screening libraries and using degenerate primers to amplify by PCR conserved coding regions and unknown flanking sequences. The putative Dunaliella psbA, psbB and rbcL proteins show high levels of sequence conservation sharing approximately 87, 92 and 97% similarity to the homologues of Chlamydomonas reinhardtii. Interestingly, four of the five introns of the psbA gene contain long open-reading frames which have sequence similarity to the H-N-H and GIY-YIG site-specific homing endonucleases suggesting that, like other microalgae, the Dunaliella gene contains group I introns. Putative promoter regions of the psbB and rbcL genes were isolated and found to contain the required signals necessary for gene expression.     

Molecular diversity of dinoflagellate symbionts of Cnidaria: the psbA minicircle of Symbiodinium

Dinoflagellate algae of the genus Symbiodinium are important symbionts within corals and other benthic marine animals. The molecular diversity of Symbiodinium has been described mainly by use of ribosomal DNA sequence data. We tested whether minicircle sequences, which appear to form the chloroplast genome in many dinoflagellates, could be used as a marker for molecular diversity among symbionts found in corals and sea anemones. Partial and full-length sequences for psbA were obtained from environmental samples of coral and sea anemones of wide-ranging geographical distribution. Phylogenetic trees constructed with partial psbA sequences were consistent with the known phylotypes of the isolates. Further sequencing suggested that the psbA gene is present on a minicircle in all Symbiodinium phylotypes. The length and DNA sequence of the non-coding portion of the minicircles varied considerably among Symbiodinium phylotypes. In two Symbiodinium isolates from different phylotypes an elaborate pattern of repeat sequences of unknown function was found in the non-coding region. Phylogenetic analysis of the non-coding region of the psbA minicircle indicates that minicircle sequences could be a useful chloroplast-derived marker for differentiating both closely related and distantly related Symbiodinium isolates.     

Study on the DNA Barcoding of Genus Ligularia Cass. (Asteraceae)

DNA barcoding is a new technology which can identify species rapidly based on short and standardized DNA sequences. Ligularia, a genus of Asteraceae with about 140 species, exhibits high morphological and ecological diversity, which makes the classification and species delimitation difficult, especially in the cases of closely related taxa. In this study, we tested four DNA core barcoding regions (ITS, matK, psbA trnH and rbcL) in 144 samples representing 35 species of Ligularia. The results revealed that the chloroplast regions (matK, psbA trnH and rbcL) have extremely low species identification rate due to low interspecific variation. Conversely, ITS sequence showed higher species identification rate (60%) and could discriminate the species which are difficult to identify. The combination of these four gene fragments did not improve the ability of species discrimination.     

Large intraspecific haplotype variability at the Rph7 locus results from rapid and recent divergence in the barley genome

To study genome evolution and diversity in barley (Hordeum vulgare), we have sequenced and compared more than 300 kb of sequence spanning the Rph7 leaf rust disease resistance gene in two barley cultivars. Colinearity was restricted to five genic and two intergenic regions representing <35% of the two sequences. In each interval separating the seven conserved regions, the number and type of repetitive elements were completely different between the two homologous sequences, and a single gene was absent in one cultivar. In both cultivars, the nonconserved regions consisted of approximately 53% repetitive sequences mainly represented by long-terminal repeat retrotransposons that have inserted <1 million years ago. PCR-based analysis of intergenic regions at the Rph7 locus and at three other independent loci in 41 H. vulgare lines indicated large haplotype variability in the cultivated barley gene pool. Together, our data indicate rapid and recent divergence at homologous loci in the genome of H. vulgare, possibly providing the molecular mechanism for the generation of high diversity in the barley gene pool. Finally, comparative analysis of the gene composition in barley, wheat (Triticum aestivum), rice (Oryza sativa), and sorghum (Sorghum bicolor) suggested massive gene movements at the Rph7 locus in the Triticeae lineage.     

Photosystem II of rye. Cloning and determination of the nucleotide sequence of chloroplast DNA fragments, comprising the psbA gene coding for D1 proteins

EcoRI and BamHI fragments of rye chloroplast DNA comprising psbA gene were cloned and a 2729 bp region was sequenced. Cloning of EcoRI fragment into pTZ19R plasmid led to a single nucleotide deletion in the coding region of psbA gene. A scheme of full-length psbA gene cloning is proposed, allowing one to escape the damage effect of the psbA gene expression product on the host cell. The differences between monocot and dicot in nucleotide sequences of DNA downstream of psbA genes are discussed. Gene rps19 is located 131 bp downstream from psbA gene on the complementary strand. The amino acid sequences of D1 and S19 proteins of different species are compared.     

A serine-to-threonine substitution in the triazine herbicide-binding protein in potato cells results in atrazine resistance without impairing productivity.

A mutation of the psbA gene was identified in photoautotrophic potato (Solanum tuberosum L. cv Superior x U.S. Department of Agriculture line 66-142) cells selected for resistance to 6-chloro-N-ethyl-N'-(1-methylethyl)-1,3,5-triazine-2,4-diamine (atrazine). Photoaffinity labeling with 6-azido-N-ethyl-N'-(1-methylethyl)-1,3,5-triazine-2,4-diamine detected a thylakoid membrane protein with a M(r) of 32,000 in susceptible, but not in resistant, cells. This protein was identified as the secondary quinone acceptor of photosystem II (QB) protein. Atrazine resistance in selected cells was attributable to a mutation from AGT (serine) to ACT (threonine) in codon 264 of the psbA gene that encodes the QB protein. Although the mutant cells exhibited extreme levels of resistance to atrazine, no concomitant reductions in photosynthetic electron transport or cell growth rates compared to the unselected cells were detected. This is in contrast with the losses in productivity observed in atrazine-resistant mutants that contain a glycine-264 alteration.     

Sequencing of 15 622 gene‐bearing BACs clarifies the gene‐dense regions of the barley genome

Barley (Hordeum vulgare L.) possesses a large and highly repetitive genome of 5.1 Gb that has hindered the development of a complete sequence. In 2012, the International Barley Sequencing Consortium released a resource integrating whole‐genome shotgun sequences with a physical and genetic framework. However, because only 6278 bacterial artificial chromosome (BACs) in the physical map were sequenced, fine structure was limited. To gain access to the gene‐containing portion of the barley genome at high resolution, we identified and sequenced 15 622 BACs representing the minimal tiling path of 72 052 physical‐mapped gene‐bearing BACs. This generated ~1.7 Gb of genomic sequence containing an estimated 2/3 of all Morex barley genes. Exploration of these sequenced BACs revealed that although distal ends of chromosomes contain most of the gene‐enriched BACs and are characterized by high recombination rates, there are also gene‐dense regions with suppressed recombination. We made use of published map‐anchored sequence data from Aegilops tauschii to develop a synteny viewer between barley and the ancestor of the wheat D‐genome. Except for some notable inversions, there is a high level of collinearity between the two species. The software HarvEST:Barley provides facile access to BAC sequences and their annotations, along with the barley–Ae. tauschii synteny viewer. These BAC sequences constitute a resource to improve the efficiency of marker development, map‐based cloning, and comparative genomics in barley and related crops. Additional knowledge about regions of the barley genome that are gene‐dense but low recombination is particularly relevant.     

A phylogenetic approach to detect selection on the target site of the antifouling compound irgarol in tolerant periphyton communities

Using DNA sequence data for phylogenetic assessment of toxicant targets is a new and promising approach to study toxicant-induced selection in communities. Irgarol 1051 is a photosystem (PS) II inhibitor used in antifouling paint. It inhibits photosynthesis through binding to the D1 protein in PS II, which is encoded by the psbA gene found in genomes of chloroplasts, cyanobacteria and cyanophages. psbA mutations that alter the target protein can confer tolerance to PS II inhibitors. We have previously shown that irgarol induces community tolerance in natural marine periphyton communities and suggested a novel tolerance mechanism, involving the amino acid sequence of a turnover-regulating domain of D1, as contributive to this tolerance. Here we use a large number of psbA sequences of known identity to assess the taxonomic affinities of psbA sequences from these differentially tolerant communities, by performing phylogenetic analysis. We show that periphyton communities have high psbA diversity and that this diversity is adversely affected by irgarol. Moreover, we suggest that within tolerant periphyton the novel tolerance mechanism is present among diatoms only, whereas some groups of irgarol-tolerant cyanobacteria seem to have other tolerance mechanisms. However, it proved difficult to identify periphyton psbA haplotypes to the species or genus level, which indicates that the genomic pool of the attached, periphytic life forms is poorly studied and inadequately represented in international sequence databases.