Phylogenetic Analysis of Brassica rapa MATH-Domain Proteins

The MATH (meprin and TRAF-C homology) domain is a fold of seven anti-parallel β-helices involved in protein-protein interaction. Here, we report the identification and characterization of 90 MATH-domain proteins from the Brassica rapa genome. By sequence analysis together with MATH-domain proteins from other species, the B. rapa MATH-domain proteins can be grouped into 6 classes. Class-I protein has one or several MATH domains without any other recognizable domain; Class-II protein contains a MATH domain together with a conserved BTB (Broad Complex, Tramtrack, and Bric-a-Brac ) domain; Class-III protein belongs to the MATH/Filament domain family; Class-IV protein contains a MATH domain frequently combined with some other domains; Class-V protein has a relative long sequence but contains only one MATH domain; Class-VI protein is characterized by the presence of Peptidase and UBQ (Ubiquitinylation) domains together with one MATH domain. As part of our study regarding seed development of B. rapa, six genes are screened by SSH (Suppression Subtractive Hybridization) and their expression levels are analyzed in combination with seed developmental stages, and expression patterns suggested that Bra001786, Bra03578 and Bra036572 may be seed development specific genes, while Bra001787, Bra020541 and Bra040904 may be involved in seed and flower organ development. This study provides the first characterization of the MATH domain proteins in B. rapa     

扫帚菜-白菜轮作对白菜镉吸收的影响

通过盆栽和大田试验研究扫帚菜Kochia scoparia对土壤中镉(Cd)的富集效率,并利用盆栽试验将其与4个白菜品种进行轮作试验,验证扫帚菜对土壤Cd污染的修复效果。结果表明,扫帚菜各部位富集能力表现为叶>根>茎,富集系数分别为15.07、5.44和2.96;种植扫帚菜后土壤总Cd降低6.02%-13.60%;土壤脲酶和酸性磷酸酶活性也有所提高。盆栽轮作结果表明,扫帚菜-白菜轮作系统中白菜地上部Cd含量与未轮作的对照组相比平均降低17.21%,生物量有略微增加,地上部对Cd的转运系数无明显变化。结果显示,通过扫帚菜与白菜轮作不仅可以增加白菜产量,而且可以有效降低白菜可食部Cd含量,实现边生产边治理的绿色农业理念。     

白菜型油菜自交亲和性变异分析

对不同来源的85份白菜型油菜品种的自交亲和指数研究表明,白菜型油菜的自交亲和性存在较大幅度的变异,自交亲和指数在0．00～9．28之间,这种变异不仅存在于品种间,而且存在于品种内不同个体间。85份参试材料中,自交亲和指数小于1的有50个品种;35个品种自交亲和指数大于1,自交亲和指数在1．00～9．28之间,其中亲和指数大于4的材料有28、44、45、55x、75、119、123、139号品种等。依据自交亲和指数,可将参试材料分为4种类型:高自交亲和类型(自交亲和指数>4．00);自交亲和类型(自交亲和指数1．00～3．99);自交不亲和类型(0．00< 自交亲和指数<1．00);高自交不亲和类型(自交亲和指数=0．00)。自交亲和性因地区而异,一般西部地区的品种自交亲和性高于其它地区的品种。     

Anthocyanin biosynthetic genes in Brassica rapa

Background

Anthocyanins are a group of flavonoid compounds. As a group of important secondary metabolites, they perform several key biological functions in plants. Anthocyanins also play beneficial health roles as potentially protective factors against cancer and heart disease. To elucidate the anthocyanin biosynthetic pathway in Brassica rapa, we conducted comparative genomic analyses between Arabidopsis thaliana and B. rapa on a genome-wide level.

Results

In total, we identified 73 genes in B. rapa as orthologs of 41 anthocyanin biosynthetic genes in A. thaliana. In B. rapa, the anthocyanin biosynthetic genes (ABGs) have expanded and most genes exist in more than one copy. The anthocyanin biosynthetic structural genes have expanded through whole genome and tandem duplication in B. rapa. More structural genes located upstream of the anthocyanin biosynthetic pathway have been retained than downstream. More negative regulatory genes are retained in the anthocyanin biosynthesis regulatory system of B. rapa.

Conclusions

These results will promote an understanding of the genetic mechanism of anthocyanin biosynthesis, as well as help the improvement of the nutritional quality of B. rapa through the breeding of high anthocyanin content varieties.

Electronic supplementary material

The online version of this article (doi: 10.1186/1471-2164-15-426) contains supplementary material, which is available to authorized users.     

Glucosinolate biosynthetic genes in Brassica rapa

Glucosinolates (GS) are a group of amino acid-derived secondary metabolites found throughout the Cruciferae family. Glucosinolates and their degradation products play important roles in pathogen and insect interactions, as well as in human health. In order to elucidate the glucosinolate biosynthetic pathway in Brassica rapa, we conducted comparative genomic analyses of Arabidopsis thaliana and B. rapa on a genome-wide level. We identified 102 putative genes in B. rapa as the orthologs of 52 GS genes in A. thaliana. All but one gene was successfully mapped on 10 chromosomes. Most GS genes exist in more than one copy in B. rapa. A high co-linearity in the glucosinolate biosynthetic pathway between A. thaliana and B. rapa was also established. The homologous GS genes in B. rapa and A. thaliana share 59-91% nucleotide sequence identity and 93% of the GS genes exhibit synteny between B. rapa and A. thaliana. Moreover, the structure and arrangement of the B. rapa GS (BrGS) genes correspond with the known evolutionary divergence of B. rapa, and may help explain the profiles and accumulation of GS in B. rapa.     

Transposon variation by order during allopolyploidisation between Brassica oleracea and Brassica rapa

Although many studies have shown that transposable element (TE) activation is induced by hybridisation and polyploidisation in plants, much less is known on how different types of TE respond to hybridisation, and the impact of TE‐associated sequences on gene function. We investigated the frequency and regularity of putative transposon activation for different types of TE, and determined the impact of TE‐associated sequence variation on the genome during allopolyploidisation. We designed different types of TE primers and adopted the Inter‐Retrotransposon Amplified Polymorphism (IRAP) method to detect variation in TE‐associated sequences during the process of allopolyploidisation between Brassica rapa (AA) and Brassica oleracea (CC), and in successive generations of self‐pollinated progeny. In addition, fragments with TE insertions were used to perform Blast2GO analysis to characterise the putative functions of the fragments with TE insertions. Ninety‐two primers amplifying 548 loci were used to detect variation in sequences associated with four different orders of TE sequences. TEs could be classed in ascending frequency into LTR‐REs, TIRs, LINEs, SINEs and unknown TEs. The frequency of novel variation (putative activation) detected for the four orders of TEs was highest from the F₁ to F₂ generations, and lowest from the F₂ to F₃ generations. Functional annotation of sequences with TE insertions showed that genes with TE insertions were mainly involved in metabolic processes and binding, and preferentially functioned in organelles. TE variation in our study severely disturbed the genetic compositions of the different generations, resulting in inconsistencies in genetic clustering. Different types of TE showed different patterns of variation during the process of allopolyploidisation.     

西藏白菜型油菜遗传多样性的RAPD分析

通过利用22个10bp随机引物对来自西藏高原地区107份白菜型油菜种质资源材料的PAPD分析,探讨了西藏白菜型油菜品种之间的遗传分化关系,结果表明：（1）供试的107份材料共产生236条谱带,其中210条谱带有多态性,占88．98％,说明白菜型油菜在西藏高原地区具有较丰富的遗传多样性;（2）根据引物扩增出的DNA指纹图谱,运用UPGMA分析法,在遗传距离为0．078处,可将供试的107份白菜型油菜划分为11个类群,发现来自于同一地区或气候相似区的品种往往聚在一起,表明西藏高原白菜型油菜品种的相似性与其原产地的地理,气候背景密切相关,并在此基础上,结合西藏高原农业发展历史,气候背景以及地形地貌特点和植物地理学,植物区系学,植物进化论等方面的综合分析,提出西藏高原是世界白菜型油菜起源地的观点。     

Characterization of simple sequence repeat markers derived in silico from Brassica rapa bacterial artificial chromosome sequences and their application in Brassica napus

A collaborative Brassica rapa genome sequencing project is currently in progress to aid the identification of agronomically important traits in Brassica species. As an initial stage, the ends of over 110 000 bacterial artificial chromosome clones were sequenced and mined for simple sequence repeats (SSRs). We present the characterization of 40 of these SSRs and their application in Brassica napus. The markers were screened against six Brassica species and Arabidopsis, and demonstrated reliable amplification, genome specificity, cross‐amplification and significant polymorphism. These SSRs will be useful for genetic analysis of Brassica germplasm.     

Comparative sequence analysis for Brassica oleracea with similar sequences in B. rapa and Arabidopsis thaliana

We sequenced five BAC clones of Brassica oleracea doubled haploid ‘Early Big' broccoli containing major genes in the aliphatic glucosinolate pathway, and comparatively analyzed them with similar sequences in A. thaliana and B. rapa. Additionally, we included in the analysis published sequences from three other B. oleracea BAC clones and a contig of this species corresponding to segments in A. thaliana chromosomes IV and V. A total of 2,946 kb of B. oleracea, 1,069 kb of B. rapa sequence and 2,607 kb of A. thaliana sequence were compared and analyzed. We found conserved collinearity for gene order and content restricted to specific chromosomal segments, but breaks in collinearity were frequent resulting in gene absence likely not due to gene loss but rearrangements. B. oleracea has the lowest gene density of the three species, followed by B. rapa. The genome expansion of the Brassica species, B. oleracea in particular, is due to larger introns and gene spacers resulting from frequent insertion of DNA transposons and retrotransposons. These findings are discussed in relation to the possible origin and evolution of the Brassica genomes. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

芜菁SSR引物的开发及多态性分析

目的:用于芜菁的简单序列重复(SSR)标记数量有限,初步探索多态性较好SSR的结构特性,开发更多的SSR引物,有助于芜菁的研究。方法:开发680对新的SSR引物,以2个芜菁品种为模板进行多态性扩增,筛选出多态性较好的引物。结果:565(83.1%)对引物在2种芜菁之间能够有效扩增,有多态性的引物有141对(20.7%);SSR的长度与其多态性水平之间没有直接的线性关系,但SSR基序碱基数与重复次数和多态性水平之间存在一定的联系,即3碱基为基序、7次重复的SSR多态性较好。结论:SSR的类型与引物的多态性之间有一定的联系。     

Metal ion-inducing metabolite accumulation in Brassica rapa

Plants face a number of biotic and abiotic environmental stress factors during growth. Among the abiotic factors, in particular, a great deal of attention has been paid to metals not only because of their increasing amounts in the environment due to rapid industrial development but also because of the variation of metal composition in soil. Cultivation of crops close to industrial areas or irrigation with contaminated water may result in both growth inhibition and tissue accumulation of metals. Brassica species are well known as metal accumulators and are being used for phytoremediation of contaminated soils. However, the metal tolerance mechanism in the plant still remains unclear. In order to investigate the metabolomic changes induced by metal ions in Brassica, plants were subjected to concentrations 50, 100, 250 and 500mmol of copper (Cu), iron (Fe) and manganese (Mn) in separate treatments. (1)H NMR and two-dimensional NMR spectra coupled with principal component analysis (PCA) and partial least square-discriminant analysis (PLS-DA) were applied to investigate the metabolic change in Brassica rapa (var. Raapstelen). The (1)H-NMR analysis followed by the application of chemometric methods revealed a number of metabolic consequences. Among the metabolites that showed variation, glucosinolates and hydroxycinnamic acids conjugated with malates were found to be the discriminating metabolites as were primary metabolites like carbohydrates and amino acids. This study shows that the effects of Cu and Fe on plant metabolism were larger than those of Mn and that the metabolomic changes varied not only according to the type of metal but also according to its concentration.     

Wall-associated kinase BrWAK1 confers resistance to downy mildew in Brassica rapa

The plant cell wall is the first line of defence against physical damage and pathogen attack. Wall-associated kinase (WAK) has the ability to perceive the changes in the cell wall matrix and transform signals into the cytoplasm, being involved in plant development and the defence response. Downy mildew, caused by Hyaloperonospora brassicae, can result in a massive loss in Chinese cabbage (Brassica rapa L. ssp. pekinensis) production. Herein, we identified a candidate resistant WAK gene, BrWAK1, in a major resistant quantitative trait locus, using a double haploid population derived from resistant inbred line T12–19 and the susceptible line 91–112. The expression of BrWAK1 could be induced by salicylic acid and pathogen inoculation. Expression of BrWAK1 in 91–112 could significantly enhance resistance to the pathogen, while truncating BrWAK1 in T12–19 increased disease susceptibility. Variation in the extracellular galacturonan binding (GUB) domain of BrWAK1 was found to mainly confer resistance to downy mildew in T12–19. Moreover, BrWAK1 was proved to interact with BrBAK1 (brassinosteroid insensitive 1 associated kinase), resulting in the activation of the downstream mitogen-activated protein kinase (MAPK) cascade to trigger the defence response. BrWAK1 is the first identified and thoroughly characterized WAK gene conferring disease resistance in Chinese cabbage, and the plant biomass is not significantly influenced by BrWAK1, which will greatly accelerate Chinese cabbage breeding for downy mildew resistance.     

Genome-wide discovery of DNA polymorphism in Brassica rapa

Single nucleotide polymorphisms (SNPs) and/or insertion/deletions (InDels) are frequent sequence variations in the plant genome, which can be developed as molecular markers for genetic studies on crop improvement. The ongoing Brassica rapa genome sequencing project has generated vast amounts of sequence data useful in genetic research. Here, we report a genome-wide survey of DNA polymorphisms in the B. rapa genome based on the 557 bacterial artificial clone sequences of B. rapa ssp. pekinensis cv. Chiifu. We identified and characterized 21,311 SNPs and 6,753 InDels in the gene space of the B. rapa genome by re-sequencing 1,398 sequence-tagged sites (STSs) in eight genotypes. Comparison of our findings with a B. rapa genetic linkage map confirmed that STS loci were distributed randomly over the B. rapa whole genome. In the 1.4 Mb of aligned sequences, mean nucleotide polymorphism and diversity were θ = 0.00890 and π = 0.00917, respectively. Additionally, the nucleotide diversity in introns was almost three times greater than that in exons, and the frequency of observed InDel was almost 17 times higher in introns than in exons. Information regarding SNPs/InDels obtained here will provide an important resource for genetic studies and breeding programs of B. rapa.     

State of Brassica rapa photosynthetic membranes in microgravity

The structural characteristics of the photosynthetic apparatus of Brassica rapa plants grown on board the space shuttle Columbia (STS-87) for 15 days were examined using the methods of transmission electron microscopy and statistic programme STAT. Maintaining of the same growth conditions for control plants was realized with great accuracy using the Orbiter Environmental simulator in Kennedy Space Center. A grana number per a medial section 1.8 times decreased in microgravity. Considerable changes were also revealed in the grana structure in microgravity in comparison with th ground control, namely: 1/a greater diversity in the thylakoid length with granae and 2/ lateral shifting of the thylakoids lateral shifting of the thylakoids relative one to another. The previous mentioned pheomenon was found for 64% of the invested granae. Shifting of the thylakoids in the granae in microgravity led to increasing of the grana thylakoid surface exposed to a stroma. In addition, the volume of stromal thylakoids increased. The peculiarities in the photosynthetic apparatus structure in microgravity are supposed to be an evidence of decreasing in the light harvesting complex amount of photosystem II (PSII).     

Genetic analysis of interspecific incompatibility in Brassica rapa

In interspecific pollination of Brassica rapa stigmas with Brassica oleracea pollen grains, pollen tubes cannot penetrate stigma tissues. This trait, called interspecific incompatibility, is similar to self-incompatibility in pollen tube behaviors of rejected pollen grains. Since some B. rapa lines have no interspecific incompatibility, genetic analysis of interspecific incompatibility was performed using two F₂ populations. Analysis with an F₂ population between an interspecific-incompatible line and a self-compatible cultivar ‘Yellow sarson’ having non-functional alleles of S-locus genes and MLPK, the stigmas of which are compatible with B. oleracea pollen grains, revealed no involvement of the S locus and MLPK in the difference of their interspecific incompatibility phenotypes. In QTL analysis of the strength of interspecific incompatibility, three peaks of LOD scores were found, but their LOD scores were as high as the threshold value, and the variance explained by each QTL was small. QTL analysis using another F₂ population derived from selected parents having the highest and lowest levels of interspecific incompatibility revealed five QTLs with high LOD scores, which did not correspond to those found in the former population. The QTL having the highest LOD score was found in linkage group A02. The effect of this QTL on interspecific incompatibility was confirmed by analyzing backcrossed progeny. Based on synteny of this QTL region with Arabidopsis thaliana chromosome 5, a possible candidate gene, which might be involved in interspecific incompatibility, is discussed.     

Gravity independence of seed-to-seed cycling in Brassica rapa

 Growth of higher plants in the microgravity environment of orbital platforms has been problematic. Plants typically developed more slowly in space and often failed at the reproductive phase. Short-duration experiments on the Space Shuttle showed that early stages in the reproductive process could occur normally in microgravity, so we sought a long-duration opportunity to test gravity's role throughout the complete life cycle. During a 122-d opportunity on the Mir space station, full life cycles were completed in microgravity with Brassica rapa L. in a series of three experiments in the Svet greenhouse. Plant material was preserved in space by chemical fixation, freezing, and drying, and then compared to material preserved in the same way during a high-fidelity ground control. At sampling times 13 d after planting, plants on Mir were the same size and had the same number of flower buds as ground control plants. Following hand-pollination of the flowers by the astronaut, siliques formed. In microgravity, siliques ripened basipetally and contained smaller seeds with less than 20% of the cotyledon cells found in the seeds harvested from the ground control. Cytochemical localization of storage reserves in the mature embryos showed that starch was retained in the spaceflight material, whereas protein and lipid were the primary storage reserves in the ground control seeds. While these successful seed-to-seed cycles show that gravity is not absolutely required for any step in the plant life cycle, seed quality in Brassica is compromised by development in microgravity. Received: 3 August 1999 / Accepted: 27 August 1999     

Characterization of DNA methyltransferase genes in Brassica rapa

DNA methylation is essential for normal development and plays important roles in regulating gene expression in plants. Analysis of the key enzymes catalyzing DNA methylation is important to understand epigenetic phenomena. In this study, three putative methyltransferase genes, BrMET1a, BrMET1b, and BrCMT, were isolated from a genome library of Brassica rapa. Structural conservation of the amino acid sequence between BrMET1a/BrMET1b and AtMET1 and that between BrCMT and AtCMT3 suggests that they may function as DNA methyltransferase. BrMET1a was expressed in vegetative and reproductive organs, while BrMET1b was expressed only in pistils, indicating that these two genes have different functions. BrCMT was expressed especially in stamens at the stage of 2-4 days before anthesis. We isolated three DNA methyltransferase genes in Brassica rapa and indicated differences of expression patterns of these DNA methyltransferase genes and expression levels in different tissues and developmental stages, suggesting that these genes might play important roles in epigenetic gene regulation in B. rapa.     

白菜型油菜黄子资源的初步遗传研究

对随机选取的国内外22份黄子白菜型油菜和22份褐子白菜型油菜进行了种皮色泽的显隐性关系鉴定、黄子性状的等位性测验以及遗传多样性分析。结果表明,黄子白菜型油菜与褐子白菜型油菜配组的杂交组合中,部分组合的F1种皮色泽呈现父本的种皮色泽,表现出花粉直感现象;自然界中存在多种白菜型油菜黄子类型,鉴定出的3种黄子白菜型油菜与褐色白菜型油菜的F2种皮色泽均为褐色,表明黄子性状对于褐子性状为隐性;分子标记方差分析结果显示,白菜型油菜的生长习性所解释的遗传变异大于种皮颜色所解释的遗传变异,表明国外不同生长习性的黄子白菜型油菜资源可用于国内黄子白菜型油菜遗传基础的拓宽。