Chlororespiration is involved in the adaptation of Brassica plants to heat and high light intensity

Two species of Brassica were used to study their acclimation to heat and high illumination during the first stages of development. One, Brassica fruticulosa, is a wild species from south-east Spain and is adapted to both heat and high light intensity in its natural habitat, while the other, Brassica oleracea, is an agricultural species that is widely cultivated throughout the world. Growing Brassica plants under high irradiance and moderate heat was seen to affect the growth parameters and the functioning of the photosynthetic apparatus. The photosystem II (PSII) quantum yields and the capacity of photosynthetic electron transport, which were lower in B. fruticulosa than in B. oleracea, decreased in B. oleracea plants when grown under stress conditions, indicating inhibition of PSII. However, in B. fruticulosa, the values of these parameters were similar to the values of control plants. Photosystem I (PSI) activity was higher in B. fruticulosa than in B. oleracea, and in both species this activity increased in plants exposed to heat and high illumination. Immunoblot analysis of thylakoid membranes using specific antibodies raised against the NDH-K subunit of the thylakoidal NADH dehydrogenase complex (NADH DH) and against plastid terminal oxidase (PTOX) revealed a higher amount of both proteins in B. fruticulosa than in B. oleracea. In addition, PTOX activity in plastoquinone oxidation, and NADH DH activity in thylakoid membranes were higher in the wild species (B. fruticulosa) than in the agricultural species (B. oleracea). The results indicate that tolerance to high illumination and heat of the photosynthetic activity was higher in the wild species than in the agricultural species, suggesting that plant adaptation to these stresses in natural conditions favours subsequent acclimation, and that the chlororespiration process is involved in adaptation to heat and high illumination in Brassica.     

Spontaneous gene flow from rapeseed (Brassica napus) to wild Brassica oleracea

Research on the environmental risks of gene flow from genetically modified (GM) crops to wild relatives has traditionally emphasized recipients yielding most hybrids. For GM rapeseed (Brassica napus), interest has centred on the 'frequently hybridizing' Brassica rapa over relatives such as Brassica oleracea, where spontaneous hybrids are unreported in the wild. In two sites, where rapeseed and wild B. oleracea grow together, we used flow cytometry and crop-specific microsatellite markers to identify one triploid F1 hybrid, together with nine diploid and two near triploid introgressants. Given the newly discovered capacity for spontaneous introgression into B. oleracea, we then surveyed associated flora and fauna to evaluate the capacity of both recipients to harm cohabitant species with acknowledged conservational importance. Only B. oleracea occupies rich communities containing species afforded legislative protection; these include one rare micromoth species that feeds on B. oleracea and warrants further assessment. We conclude that increased attention should now focus on B. oleracea and similar species that yield few crop-hybrids, but possess scope to affect rare or endangered associates.     

Characterization of seedling proteomes and development of markers to distinguish the Brassica A and C genomes

The diploid species Brassica rapa(genome AA)and B.oleracea(genome CC)were compared by fuU-seale proteome analyses of seedling.A total of 28.2% of the proteins was common to both species,indicating the existence of a basal or ubiquitous proteome.How-ever,a number of discriminating proteins(32.0%)and specific proteins(39.8%)of the Brassica A and C genomes,respectively,were identified,which could represent potentially species-specific functions.Based on these A or C genome-specific proteins,a number of PCR-based markers to distinguish B.rapa and B.oleracea species were also developed.     

Chloroplast and nuclear DNA studies in a few members of the <Emphasis Type="Italic">Brassica oleracea</Emphasis> L. group using PCR-RFLP and ISSR-PCR markers: a population genetic analysis

A population genetic analysis of chloroplast and nuclear DNA was performed covering nine wild populations of Brassica oleracea. Three members of the n = 9 group, all close to B. oleracea, Brassica alboglabra Bailey, Brassica bourgeaui (Webb) O. Kuntze and Brassica montana Pourret, were also studied to better understand their relationship with B. oleracea. Chloroplast DNA was analysed using the PCR-RFLP (polymerase chain reaction - restriction fragment length polymorphism) method. The ISSR-PCR (inter-simple sequence repeat - polymerase chain reaction) technique was adopted to study nuclear DNA. Twelve primer pairs of chloroplast DNA showed very good amplification. The amplified product of each primer pair, digested by three restriction enzymes, revealed no variation of cpDNA among the taxa studied. This indicates they may have the same chloroplast genotype. Seven selected ISSR primers have detected genetic variation, both within and among the populations/taxa surveyed. The information obtained on the intra- and inter-populational genetic diversity of wild populations of B. oleracea neatly defined the individual plants. It could provide important guidelines for backing management and conservation strategies in this species. The study confirms a close relationship between B. alboglabra, B. bourgeaui and B. montana, which is parallel to their morphological similitude.     

Comparative electrophoretic studies of proteins and enzymes of some Brassica species

Summary A considerable amount of variation with respect to soluble proteins and esterase isoenzyme pattern was observed between different species of Brassica. Naturally occurring amphidiploids had comparable proteins and isoenzyme patterns to either one or both of the parental species. The species relationship based on percentage homology of protein and esterase bands revealed that B. nigra and B. campestris are the parental species of B. carinata and not B. nigra and B. oleracea, as suggested on the basis of cytological studies. Elimination of a pair of chromosomes might have resulted into 2n=34 in the case of B. carinata. Further studies are needed to confirm this view. The peroxidase and catalase isoenzyme patterns did not show much variation in different species and amphidiploids.     

Phylogenetic analysis of <Emphasis Type="Italic">Brassiceae</Emphasis> based on the nucleotide sequences of the <Emphasis Type="Italic">S</Emphasis>-locus related gene, <Emphasis Type="Italic">SLR1</Emphasis>

Nucleotide sequences of orthologs of the S-locus related gene, SLR1, in 20 species of Brassicaceae were determined and compared with the previously reported SLR1 sequences of six species. Identities of deduced amino-acid sequences with Brassica oleracea SLR1 ranged from 66.0% to 97.6%, and those with B. oleracea SRK and SLR2 were less than 62% and 55%, respectively. In multiple alignment of deduced amino-acid sequences, the 180-190th amino-acid residues from the initial methionine were highly variable, this variable region corresponding to hypervariable region I of SLG and SRK. A phylogenetic tree based on the deduced amino-acid sequences showed a close relationship of SLR1 orthologs of species in the Brassicinae and Raphaninae. Brassica nigra SLR1 was found to belong to the same clade as Sinapis arvensis and Diplotaxis siifolia, while the sequences of the other Brassica species belonged to another clade together with B. oleracea and Brassica rapa. The phylogenetic tree was similar to previously reported trees constructed using the data of electrophoretic band patterns of chloroplast DNA, though minor differences were found. Based on synonymous substitution rates in SLR1, the diversification time of SLR1 orthologs between species in the Brassicinae was estimated. The evolution and function of SLR1 and the phylogenetic relationship of Brassiceae plants are discussed.     

不同类型甘蓝的可交配性研究

野生甘蓝是改良栽培甘蓝的重要资源,在漫长进化中,部分野生甘蓝类型间,以及与栽培甘蓝间杂交存在一定的生殖障碍。本研究选用8个栽培变种和7个野生类型品种,共35份甘蓝材料进行随机杂交,不同类型甘蓝的可交配性存在显著差异,甘蓝间的遗传差异、杂交方向以及生活习性等因素对甘蓝类植物可交配性存在显著影响。研究数据表明,以野生甘蓝为母本可以显著提高与栽培甘蓝杂交的效率。     

Physical mapping of rDNA loci in Brassica species.

The number of major rDNA loci (the genes coding for 18S-5.8S-26S rRNA) was investigated in the economically important Brassica species and their wild relatives by in situ hybridization of an rDNA probe to metaphase chromosomes and interphase nuclei. The diploid species B. nigra (B genome) has two major pairs of rDNA loci, B. oleracea (C genome) has two major pairs and one minor pair of loci, while B. campestris (A genome) has five pairs of loci. Among the three tetraploid species arising from these three diploid ancestors, B. carinata (BBCC genomes) has four loci, B. juncea (AABB genomes) has five major pairs and one minor pair of loci, and B. napus (AACC genomes) has six pairs of loci, indicating that the number of loci has been reduced during evolution. The complexity of the known rDNA restriction fragment length polymorphism patterns gave little indication of number of rDNA loci. It is probable that chromosome rearrangements have occurred during evolution of the amphidiploid species. The data will be useful for physical mapping of genes relative to rDNA loci, micro- and macro-evolutionary studies and analysis of aneuploids including addition and substitution lines used in Brassica breeding programs.     

Characterization of seedling proteomes and development of markers to distinguish the Brassica A and C genomes

The diploid species Brassica rapa(genome AA)and B.oleracea(genome CC)were compared by full-scale proteome analyses of seedling.A total of 28.2% of the proteins was common to both species,indicating the existence of a basal or ubiquitous proteome.However,a number of discriminating proteins(32.0%)and specific proteins(39.8%)of the Brassica A and C genomes,respectively,were identified,which could represent potentially species-specific functions.Based on these A or C genome-specific proteins,a number of PCR-bas...     

芸苔属（Brassica）植物中microRNAs的生物信息学预测与分析

MicroRNA (miRNA) 是一类调控基因转录后表达的非编码的小分子RNA．它在生物的发育、细胞增殖、凋亡以及胁迫响应等生物过程中发挥着重要的调控作用．目前,分离和鉴定miRNA的方法主要包括实验方法（遗传筛选、直接克隆）和生物信息学方法．MiRNA存在表达丰度低,表达组织特异性,以及受特殊诱导等问题,用传统的实验法常难发现和鉴定miRNA．通过生物信息学方法在已有的各种基因库中寻找未知miRNA,大大提高了人们发现miRNA及其靶基因的效率．芸苔属（Brassica）的成员包括油菜、芜青、甘蓝等,是世界各国主要油料和食用作物．目前,油菜的miRNA的分离和鉴定工作已有文献报道,而其它的尚属空白．本文将拟南芥、水稻等植物已知的miRNA分别与芜青、甘蓝、野芥菜、黑芥菜、埃塞俄比亚芥的GSS和EST数据库进行比对搜索,采用一系列标准进行筛选,最后分别在芜青和甘蓝中预测到67个和95个miRNA．再把这些预测得到的miRNA分别与芜青和甘蓝的mRNA数据库进行比对搜索,分别找到120个和111个靶基因,除去未知功能及功能不详的,各有62个和48个靶基因．分析结果表明,上述大多数靶基因编码的产物为转录因子及重要代谢酶类,涉及植物的生长发育调控,信号转导及胁迫响应等方面．     

Chromosomal localization and characterization of rDNA loci in the Brassica A and C genomes.

Using fluorescence in situ hybridization, we located ribosomal DNA loci on prometaphase chromosomes of the diploid species Brassica rapa and Brassica oleracea and their amphidiploid Brassica napus. Based on comparisons of chromosome morphology and hybridization patterns, we characterized the individual B. napus rDNA loci according to their presumed origins in the Brassica A and C genomes. As reported in other studies, the sum of rDNA loci observed on B. rapa (AA genome) and B. oleracea (CC genome) chromosomes was one greater than the total number of loci seen in their amphidiploid B. napus (AACC). Evidence is presented that this reduction in B. napus rDNA locus number results from the loss of the smallest A genome rDNA site in the amphidiploid.     

Variation and selection at the CAULIFLOWER floral homeotic gene accompanying the evolution of domesticated Brassica oleracea

The evolution of plant morphologies during domestication events provides clues to the origin of crop species and the evolutionary genetics of structural diversification. The CAULIFLOWER gene, a floral regulatory locus, has been implicated in the cauliflower phenotype in both Arabidopsis thaliana and Brassica oleracea. Molecular population genetic analysis indicates that alleles carrying a nonsense mutation in exon 5 of the B. oleracea CAULIFLOWER (BoCAL) gene are segregating in both wild and domesticated B. oleracea subspecies. Alleles carrying this nonsense mutation are nearly fixed in B. oleracea ssp. botrytis (domestic cauliflower) and B. oleracea ssp. italica (broccoli), both of which show evolutionary modifications of inflorescence structures. Tests for selection indicate that the pattern of variation at this locus is consistent with positive selection at BoCAL in these two subspecies. This nonsense polymorphism, however, is also present in both B. oleracea ssp. acephala (kale) and B. oleracea ssp. oleracea (wild cabbage). These results indicate that specific alleles of BoCAL were selected by early farmers during the domestication of modified inflorescence structures in B. oleracea.     

Relationships of wild Brassica species with chromosome number 2n = 18, based on RFLP studies.

An array of 10 wild Brassica species with chromosome number 2n = 18 represented by 34 populations was analyzed for genome similarity using genomic and cDNA clones. Species studied included B. bourgeaui (Webb) O. Kuntze, B. cretica Lam., B. hilarionis G.E. Post, B. incana Ten., B. insularis Moris, B. macrocarpa (Guss.) Caruel, B. montana Pourret, B. oleracea L., B. rupestris Rafin., and B. villosa Biv. The RFLP data were used to calculate similarities between populations that were subsequently treated in a cluster analysis. Most populations of a species were grouped together and were separate from populations of other species. The previously identified B. incana - B. rupestris - B. villosa complex was verified, and genetic similarity between the species B. montana and B. oleracea was evident. An interesting association between B. insularis and B. macrocarpa was observed. The UPGMA analysis showed that the species tended to cluster according to geographic region: B. cretica and B. hilarionis comprise a cluster that could be called Eastern Mediterranean; B. oleracea, B. bourgeaui, and B. montana define an Atlantic - Western Mediterranean cluster; B. incana, B. rupestris, and B. villosa form an Italian group; and a B. insularis - B. macrocarpa association may be called Central Mediterranean.     

Screening and evaluation of resistance to downy mildew (Peronospora parasitica) and clubroot (Plasmodiophora brassicae) in genetic resources of Brassica oleracea

52 entries including landraces, old cultivars and wild accessions of B. oleracea and closely related Brassica species were screened for resistance against downy mildew and clubroot. Several accessions resistant to downy mildew and a few to clubroot were found. Genetic inheritance of the resistance in downy mildew was investigated by screening F1 and BC1F1 offspring from three resistant landrace accessions crossed with both a resistant and a susceptible father. The seedling resistance against downy mildew was found to be inherited recessively. This is a bit surprising as earlier papers mostly report of inheritance controlled by a single dominant gene. Previous screenings of B. oleracea resistance against downy mildew at the cotyledon stage have been done with P. parasitica isolated from B. oleracea as the original host plant. The recessive nature of the cotyledon resistance found in this screening might be due to the fact that the P. parasitica isolate was collected from B. napus fields. The clubroot seedling resistance was found to be controlled by recessive inheritance after screening the F1 offspring, this in agreement with earlier results/reports.     

芥蓝与芸苔属几个常见种花粉形态的比较

本文通过对芸苔属(Brassica L.)几个常见种芥蓝(B. alboglabra Bailey)、芥菜(B.juncea(L. )Coss.)、油菜(B. campestris L.)和花椰菜(B. oleracea var. botrytis L.)等花粉形态的光学显微镜和扫描电镜的观察比较,得知它们的花粉形态特征比较一致。而与杨萍等关于芥蓝的花粉形态特征——无极,具散孔这一报道截然不同;亦与黄增泉(Huang Tseng-chieng)关于芥菜的花粉特征——不具萌发孔的报道不同。作者的研究表明,上述几个种的花粉均具3沟,沟长而明显。外壁具网状纹饰,网眼较粗。但种与种间其花粉大小有所不同。作者不同意杨萍等关于“由于芥蓝的花粉形态与芸苔属其它种的花粉明显区别,说明芥蓝与芸苔属其它种不很亲缘”的观点,而认为,从花粉形态看,芥蓝与芸苔属其它种是基本一致的,把它们置于同一自然类群是合理的。     

Immunopurification and Immunocharacterization of the Glucosinolate Biosynthetic Enzyme Thiohydroximate S-Glucosyltransferase

Preparing homogeneous UDP-glucose:thiohydroximate S-glucosyltransferase (S-GT), the penultimate biosynthetic enzyme of glucosinolates, by standard chromatographic methods has yielded too little protein for adequate purity evaluation, identity verification, and structural analysis. The low yields were apparently due to low abundance in source tissues, aggravated by enzyme instability. Here we describe an immunological method for purification of workable quantities from florets of Brassica oleracea ssp. botrytis (cauliflower). Florets that had undergone browning due to exposure to sunlight contained higher S-GT activities than are normally found in Brassica tissues. S-GT was adsorbed from crude tissue extracts onto an agarose-monoclonal antibody complex. Elution from the complex required harsh alkaline conditions (pH 11.5), giving extremely variable activity recoveries (maximum 20%). The eluate contained two proteins that could be separated readily by preparative polyacrylamide gel electrophoresis or anion-exchange chromatography. The overall S-GT protein recovery was estimated at less than 200 [mu]g/kg of cauliflower tissue. Molecular weight determinations with homogeneous cauliflower S-GT gave relative molecular weight (Mr) values of 55,500 as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and 57,600 by gel chromatography; isoenzymes with isoelectric point values of 4.80 and 4.95 were identified. A polyclonal antibody raised against denatured enzyme showed broad cross-reactivity in immunoblots with S-GT from a number of Brassica species and other crucifers. The monoclonal antibody that was used in the immunopurification was much more specific; it exclusively precipitated S-GT isoenzymes that had their genomic origin in the primary diploids B. oleracea and Brassica campestris. Thus, all of the S-GT was precipitated from the amphidiploid Brassica napus, which is a hybrid of B. orleracea and B. campestris. About half of the S-GT was precipitated from the amphidiploids Brassica carinata and Brassica juncea, which have B. oleracea and B. campestris as one of their parents, respectively. It was shown that the S-GT isoenzymes of B. juncea with Mr 55,500 and about 57,000 originate from the parents B. campestris and B. nigra, respectively.     

Genetic investigation of the origination of allopolyploid with virtually synthesized lines: application to the C subgenome of Brassica napus

Although there are a number of different allopolyploids in the plant kingdom, the exact ancestral parents of some allopolyploids have not been well characterized. We propose a strategy in which virtual allopolyploid lines derived from different types of parental species are used to investigate the progenitors of an allopolyploid. The genotypes of the parental lines and the natural allopolyploid were established using a set of DNA molecular markers. The genotypes of the virtual lines were then derived from those of the parental lines, and compared extensively with that of the natural allopolyploid. We applied this strategy to investigate the progenitors of the C subgenome of Brassica napus (rapeseed, AACC). A total of 39 accessions from 10 wild and 7 cultivated types of the B. oleracea cytodeme (CC), and 4 accessions of B. rapa (AA) were used to construct 156 virtual rapeseed lines. Genetic structure was compared among natural rapeseed, virtual rapeseed lines, and their parental lines by principal component analysis and analysis of ancestry. Our data showed that the C subgenome of natural rapeseed was related closely to the genome of cultivated B. oleracea and its related wild types, such as B. incana, B. bourgeaui, B. montana, B. oleracea ssp. oleracea and B. cretica. This finding indicated that these types or their progeny might be ancestral donors of the C subgenome of rapeseed. The successful application of the strategy of virtual allopolyploidy in rapeseed demonstrates that it can possibly be used to identify the progenitors of an allopolyploid species.     

Fractionation by centrifugation of leaf proteins from Brassica napus, Brassica oleracea, Helianthus annuus and Atriplex hortensis as a function of pH and temperature

Chlorophyll-free leaf protein concentrates for human consumption can be produced after separation of the chlorophyll-associated protein from the rest of the leaf protein. This protein separation was studied in four plant species using heat fractiona-tion. Press juice was prepared on a laboratory scale from field grown Atriplex hortensis, Brassica napus. Brassica oleracea and Helianthus annuus. Some further experiments were made with greenhouse grown plant material. After adjustment of pH to values between 4.0 and 8.0 the press juice was heated in water baths at 20, 35, 40, 45, 50, 55 and 60°C with or without 20 min holding time at appropriate temperature. Thereafter the juices were briefly centrifuged at 2500g. The protein content of the sediment was determined and the colour of the supernatant was observed. The species showed different protein sedimentation patterns, especially at neutral and weakly alkaline pH. Brassica napus had rapidly sedimenting proteins, low temperature was sufficient for complete sedimentation of chlorophyll-associated proteins and gave a high percentage of the total press juice protein as chlorophyll-free protein. Atriplex hortensis had slowly sedimenting proteins irrespective of temperature, required high temperature for complete sedimentation of chlorophyll-associated proteins and gave a low percentage chlorophyll-free proteins. Brassica oleracea and Helianthus annuus showed intermediated properties. Reasons for these differences among the species are discussed.     

Seed coat microsculpturing changes during seed development in diploid and amphidiploid Brassica species

BACKGROUND AND AIMS: Seed coat morphology is known to be an excellent character for taxonomic and evolutionary studies, thus understanding its structure and development has been an important goal for biologists. This research aimed to identify the developmental differences of seed coats between amphidiploids and their putative parents in Brassica. METHODS: Scanning electron microscope (SEM) studies were carried out on six species (12 accessions), three amphidiploids and their three diploid parents. KEY RESULTS: Twelve types of basic ornamentation patterns were recognized during the whole developmental process of the seed coat. Six types of seed coat patterns appeared in three accessions of Brassica rapa, five types in B. oleracea, B. nigra and B. carinata, seven types in B. napus, and eight types in B. juncea. There was less difference among seed coat patterns of the three accessions of B. rapa. The reticulate and blister types were two of the most common patterns during the development of seeds in the six species, the blister-pimple and the pimple-foveate patterns were characteristic of B. rapa, and the ruminate of B. oleracea and B. nigra. The development of seed coat pattern in amphidiploids varied complicatedly. Some accessions showed intermediate patterns between the two putative parents, while others resembled only one of the two parents. CONCLUSIONS: The variation in the patterns of seed coat development could be used to provide a new and more effective way to analyse the close relationship among amphidiploids and their ancestral parents.