Cauliflower (Brassica oleracea L.) Seed Vigour: Imbibition Effects

By means of a machine vision facility, the process of water-imbibitionin a small seeded brassica species was recorded as the visibleincrease in seed volume. Dry cauliflower seed (Brassica oleracea)showed an immediate rapid phase of imbibition upon the additionof water. This initial phase was associated with the reductionin seedling root growth resulting from the imbibition of coldwater, and the rate of uptake of water at 20?C was negativelycorrelated with subsequent seedling growth. Damage to the testaof dry seed resulted in an increased rate of imbibition anda corresponding decrease in seedling root growth measured onslant boards. This showed that the intact testa of cauliflowerseed is capable of acting as a barrier to water influx and thata high rate of water uptake is damaging to the embryo. Testadamage reduced percentage soil emergence of seeds, as did raisingthe soil moisture content during the imbibition period by wateringimmediately after sowing. Both these treatments were believedto increase imbibition rate. Conditions which encouraged a lowrate of water uptake also improved the rate and uniformity ofemergence. Correlation of mean imbibition rates (measured ina laboratory test) with soil-emergence indicated that the sensitivityto imbibition damage varied between seed lots and interactedwith the absolute rate of water influx to determine the finalpercentage emergence. This factor prevented reliable predictionof seedling performance from the ranked-order of measured imbibitionrates. The significance of these findings to the seed productionand modular transplant raising industries is discussed. Key words: Machine vision, imbibition rate, testa, soil moisture, vigour     

Subcellular Distribution of O-Acetylserine(thiol)lyase in Cauliflower (Brassica oleracea L.) Inflorescence

The subcellular localization of O-acetyiserine(thiol)lyase (EC 4.2.99.8) in nongreen tissue from higher plants has been studied using purified proplastids, mitochondria, and protoplasts from cauliflower (Brassica oleracea L.) buds as a source of subcellular fractions. O-Acetylserine(thiol)lyase has been detected in both organelles (proplastids and mitochondria) and a cytosolic extract obtained by protoplast fractionation. We confirmed these observations, demonstrating that a form of the enzyme different in global charge and separated from others by anion-exchange chromatography corresponded to each subcellular location. Our observations are consistent with the need for cysteine biosynthesis in each subcellular compartment where the synthesis of proteins occurs.     

Modelling Nitrogen Content and Distribution in Cauliflower (Brassica oleracea L.botrytis )

A model of nitrogen uptake and distribution is presented whichdescribes these processes in relation to the amount of availablesoil nitrate and the rate of plant growth. Nitrogen uptake iseither sink or source limited. Sink limitation is based on maximumN-concentrations of plant compartments. The N-uptake model iscombined with a photosynthesis model based on the productivity-nitrogenrelationship at the single-leaf level. The model is parameterizedusing cauliflower as an example crop. Applied to an independentdata set, the combined model was able to predict leaf, stemand inflorescence nitrogen concentrations with correlation coefficientsbetween predicted and simulated values of 0.89, 0.66 and 0.86,respectively. The influence of nitrogen supply and light intensityon leaf nitrate-N could also be predicted with good accuracy(r² = 0.87). Dry matter production based on the productivity-Nrelationship and the partitioning into leaf, stem and inflorescencewas also reproduced satisfactorily (r² = 0.91, 0.93 and 0.92,respectively). Copyright 2000 Annals of Botany Company Brassica oleracea L. botrytis, cauliflower, nitrogen, nitrate, nitrogen supply, nitrogen uptake, nitrogen distribution, model     

Serine Transhydroxymethylase of Cauliflower (Brassica oleracea var. botrytis L.): Partial Purification and Properties

Serine transhydroxymethylase (EC 2.1.2.1) has been purified 46-fold from cauliflower (Brassica oleracea var. botrytis L.). The enzyme was completely dependent on the presence of tetrahydrofolic acid for the conversion of serine to glycine. The addition of pyridoxal phosphate gave a large increase in the reaction rate. A double pH optimum was observed with maxima at 7.5 and 9.5. The enzyme is specific for l-serine. The d-isomer is neither a substrate nor an inhibitor. The Michaelis constants for l-serine, tetrahydrofolic acid, and pyridoxal phosphate were 300 μm, 760 μm, and 24 μm, respectively. The addition of K⁺ also stimulated the reaction rate considerably. The effect was quite specific since all other metal ions tested either had very little: influence or were extremely inhibitory.     

Conservation of S-locus for self-incompatibility in Brassica napus (L.) and Brassica oleracea (L.)

 Self-incompatibility (SI) in Brassica is a sporophytic system, genetically determined by alleles at the S-locus, which prevents self-fertilization and encourages outbreeding. This system occurs naturally in diploid Brassica species but is introduced into amphidiploid Brassica species by interspecific breeding, so that in both cases there is a potential for yield increase due to heterosis and the combination of desirable characteristics from both parental lines. Using a polymerase chain reaction (PCR) based analysis specific for the alleles of the SLG (S-locus glycoprotein gene) located on the S-locus, we genetically mapped the S-locus of B. oleracea for SI using a F₂ population from a cross between a rapid-cycling B. oleracea line (CrGC-85) and a cabbage line (86-16-5). The linkage map contained both RFLP (restriction fragment length polymorphism) and RAPD (random amplified polymorphic DNA) markers. Similarly, the S-loci were mapped in B. napus using two different crosses (91-SN-5263×87-DHS-002; 90-DHW-1855-4×87-DHS-002) where the common male parent was self-compatible, while the S-alleles introgressed in the two different SI female parents had not been characterized. The linkage group with the S-locus in B. oleracea showed remarkable homology to the corresponding linkage group in B. napus except that in the latter there was an additional locus present, which might have been introgressed from B. rapa. The S-allele in the rapid-cycling Brassica was identified as the S₂₉ allele, the S-allele of the cabbage was the S ₅ allele. These same alleles were present in our two B. napus SI lines, but there was evidence that it might not be the active or major SI allele that caused self-incompatibility in these two B. napus crosses. Received: 7 June 1996/Accepted: 6 September 1996     

Modification of Phospholipid Catabolism in Microsomal Membranes of [gamma]-Irradiated Cauliflower (Brassica oleracea L.)

Acceleration of membrane deterioration has been observed recently during storage of [gamma]-irradiated cauliflower (Brassica oleracea L., Botrytis group). In the present study, the activity of microsome-associated lipolytic enzymes was investigated in cauliflower florets exposed to 0 or 4 kilograys of [gamma] radiation and stored for 8 d at 13[deg]C. Radiolabeled breakdown products obtained from the metabolism of (16:0/18:2*)-phosphatidylcholine and (16:0/16:0)-phosphatidyl-[N-methyl-3H]choline by microsomal membranes indicated that phospholipase D (EC 3.1.4.4), phosphatidic acid phosphatase (EC 3.1.3.4), and lipolytic acyl hydrolase were associated with the membranes. The rate of phosphatidylcholine catabolism by the membranes increased slowly in control cauliflower during storage. [gamma] irradiation caused an immediate rise in phosphatidylcholine catabolism that remained higher than that of the controls during subsequent storage. Collectively, the data suggest that enhancement of membrane lipolytic activity results from free-radical-induced stress. Rapid increase of the membrane-associated phospholipase D activity may be a key event leading to accelerated membrane deterioration following [gamma] irradiation.     

Physiological Evaluation of Drought Stress Tolerance and Recovery in Cauliflower (Brassica oleracea L.) Seedlings Treated with Methyl Jasmonate and Coronatine

Coronatine (COR) is a chlorosis-inducing phytotoxin that mimics some biological activities of methyl jasmonate (MeJA). Although MeJA has been reported to alleviate drought stress, it is unclear if COR has the same ability. Our objective was to determine the influence of exogenously applied MeJA and COR on the growth and metabolism of cauliflower seedlings under drought stress and recovery. Both MeJA and COR enhanced the growth and accumulation of dry matter in cauliflower seedlings during drought-stressed and rewatering conditions. Treatment with MeJA or COR enhanced tolerance of drought stress through increased accumulation of chlorophyll and net photosynthetic rate. Enzymatic (superoxide dismutase, peroxidase, catalase, ascorbate peroxidase, and glutathione reductase) and nonenzymatic antioxidant (proline and soluble sugar) systems were activated, and lipid peroxidant (malondialdehyde and hydrogen peroxide) was suppressed by MeJA and COR under drought stress. MeJA and COR also increased leaf relative water content and endogenous abscisic acid level under drought-stressed conditions. After rewatering, the contents of leaf water, chlorophyll, abscisic acid, and photosynthetic characteristics as well as enzymatic and nonenzymatic antioxidant systems showed nearly complete recovery. Both MeJA and COR can alleviate the adverse effects of drought stress and enhance the ability for water stress resistance through promotion of defense-related metabolism in cauliflower seedlings.     

Purification and Characterization of Microsomal Cytochrome b(5) and NADH Cytochrome b(5) Reductase from Pisum sativum

In this communication we document the reproducible protocols for the purification of milligram quantities of cytochrome b₅ and NADH-cytochrome b₅ reductase from the microsomal fraction of Pisum sativum. The cytochrome b₅ component of this NADH linked electron transport chain was found to have a molecular mass of 16,400 daltons and the reductase a molecular mass of 34,500 daltons. These components could be reconstituted into a functional NADH oxidase activity active in the reduction of exogenous cytochrome c or ferricyanide. In the latter assay the purified reductase exhibited a turnover number of 22,000 per minute. The amino-terminal amino acid sequence of the cytochrome b₅ component was determined by sequential Edmund degredation, thus providing crucial information for the efficient cloning of this central protein of plant microsomal electron transfer.     

花椰菜BobACT基因的克隆及其作为内参基因的研究

实时荧光定量PCR技术是探索植物基因功能和调节机理的有效手段。选择合适的内参基因是获得实时荧光定量PCR准确性数据的必备条件。ACT基因高度保守且表达稳定,常作为内参基因被广泛应用。为了获得花椰菜ACT基因,以转录组测序和RT-PCR方法为手段克隆得到花椰菜肌动蛋白基因Actin。该基因等电点为5.395,理论分子量为41.77 kD;其cDNA开放阅读框长1134 bp,编码氨基酸377个,GenBank登录号为MG598643。Wolf Psort分析发现,BobActin蛋白亚细胞定位于细胞质基质中。Motif Scan分析显示,BobActin蛋白质的氨基酸序列4～377位为Actin保守结构域。进化分析表明,同源序列基因编码的蛋白质与同为十字花科的甘蓝、芜菁和油菜同源蛋白的相似性达到90%以上,具有高度的保守性。在此基础上,设计了1对荧光定量PCR引物,分析显示,该引物具有较高的特异性和扩增效率,在花椰菜根、茎、花、花球、叶片等不同组织和低温、高温、盐处理、干旱处理、ABA处理等胁迫处理下均能稳定表达,适合在花椰菜基因表达研究中作为内参基因,为开展花椰菜重要功能基因的挖掘、表达模式以及调控机理的研究提供参考。花椰菜在内参基因方面的研究还处于初步阶段,今后可继续克隆其他内参基因,丰富花椰菜的内参基因库,从而进一步提高花椰菜基因表达分析研究的稳定性、重复性和准确性。     

Plant regeneration from cotyledonary protoplasts of cauliflower (Brassica oleracea L. var.botrytis L.)

Summary Protoplasts isolated enzymatically from precultured cotyledonary leaves ofB. oleracea var.botrytis and cultured in KM8p medium (Kao andMichayluk 1975) underwent sustained divisions in about 0.1% population to eventually produce callus, whereas mesophyll protoplasts from either field grown orin vitro raised plants failed to divide. The callus readily differentiated on Murashige-Skoog medium as modified for shoot culture (Binding 1974) to give rise to shoot and roots.     

激活标签转化结球甘蓝的研究

以'夏光'甘蓝下胚轴为材料,采用含激活标签pSKI015的农杆菌GV3101进行遗传转化研究,对预培养时间、侵染时间和共培养时间等转化条件进行优化.结果表明,预培养2 d,侵染6 min,共培养1 d是遗传转化的较优组合.采用GV3101转化下胚轴结合glufosinate筛选,获得了2株表型变异植株:一株叶片中心绿色,边缘黄化;另一株叶片卷曲.PCR检测显示这2株植株均含有pSKI015增强子序列,Southern blot结果显示这2株植株具有明显的杂交信号,说明这2株植株为激活标签突变体.     

GA_3对老化花椰菜种子活力和几种相关生理生化性状的影响

用10、50、100、150和200mg·L-15种浓度赤霉素（GA3）溶液处理于10℃冰箱中贮藏5年的花椰菜老化种子。结果表明,100mg·L-1GA3浸种22h的效果最佳,老化种子的发芽率、发芽势、活力指数、根长均有提高,畸形苗率下降;过氧化物酶（POD）、过氧化氢酶（CAT）和脱氢酶活性提高,可溶性蛋白和叶绿素含量也提高,种子浸出液的电导率和丙二醛（MDA）含量则下降。另外,100mg·L-1GA3处理后的种子在温度为25℃条件下贮藏时间不宜超过25d。     

Structure of a cDNA for Ciona Cytochrome b(5) and the ubiquitous expression of mRNA in embryonic tissues

A cDNA clone for cytochrome b(5) was isolated from a cDNA library of an ascidian, Ciona savignyi, by a plaque hybridization method using a digoxigenin-labeled cDNA for the soluble form of human cytochrome b(5). The cDNA is composed of 5'- and 3'-noncoding sequences, and a 396-base pair coding sequence. The 3'-noncoding sequence contains polyadenylation signal sequences. The amino acid sequence of 132 residues deduced from the nucleotide sequence of the cDNA showed 61% identity and 82% similarity to the cytochrome b(5) of another ascidian species, Polyandrocarpa misakiensis, which we previously cloned. The amino-terminal hydrophilic domain of 98 residues contains well-conserved structures around two histidine residues for heme binding. A cDNA expression system was constructed to prepare a putative soluble form of Ciona cytochrome b(5). The recombinant soluble cytochrome b(5) showed an asymmetrical absorption spectrum at 560 nm as is shown by mammalian cytochromes b(5) upon reduction with NADH and NADH-cytochrome b(5) reductase. The recombinant Ciona cytochrome b(5) is reduced by NADH-cytochrome b(5) reductase with an apparent K(m) value of 3.3 microM. This value is similar to that of the cytochrome b(5) of Polyandrocarpa misakiensis. The expression of Ciona cytochrome b(5) mRNA during development was examined by an in situ hybridization method and ubiquitous expression in embryonic tissues was observed. The results indicate that cytochrome b(5) plays important roles in various metabolic processes during development.     

Effects of temperature and irradiance on vegetative growth of cauliflower (Brassica oleracea L. botrytis) and broccoli (Brassica oleracea L. italica)

Cauliflower (Brassica oleracea L. botrytis) and broccoli (Brassicaoleracea L. italica) plants were grown in large pots in growthchambers for a range of temperatures (mean air temperaturesfrom 7.0-25.3 C) and irradi-ances (from 9.3-50.8 mol m^–2d^–1 or 4.7-25.4 MJ m^–2 d^–1). The extinctioncoefficient for PAR decreased with plant size reaching a valueof 0.55 in cauliflower and 0.45 in broccoli at plant leaf areasof 0.235 m² and 0.227 m², respectively. The leaf area expansionrate was unaffected by irradiance when compared at identicalleaf surface temperatures. The response of expansion rate tosurface temperature was fitted to a broken stick model witha base temperature of –0.7C and an optimum temperatureof 21.0C. The radiation conversion coefficient increased withair temperature below 13.8C and remained constant above this.The estimated radiation conversion coefficient above 13.8Cand for a PPFD of 20 mol m^–2 d^–1 was 0.77 g mol^–1in cauliflower and 0.87 g mol^–1 in broccoli. The radiationconversion coefficient declined with increasing irradiance levelfrom a maximum of 1.89 g mol^–1 at near nil irradiancein cauliflower. Key words: Leaf area, dry matter, radiation use efficiency, extinction coefficient     

Gamma irradiation of the female gametophyte in cabbage (Brassica oleracea L.)

Summary We examined the prospects for using the female gametophyte irradiation technique in cabbage to reduce the number of generations needed for cytoplasm transfer. Three different crosses were used with one nuclear and two cytoplasmic male-sterile lines as female parents. The doses applied ranged from 100 to 700 Gy. Differences between the genotypes were observed only in embryo and plant production with varying dose. Several plants derived from the various experiments exhibited one or two recessive paternal markers and an aneuploid number of chromosomes, which shows an irradiation-induced loss of maternal chromosomes. However, no androgenetic haploid plant was obtained. The aneuploid plants could sometimes be backcrossed, and in one case a shift in the segregation ratio towards the paternal (non-irradiated) phenotype was observed. We concluded that while the female gametophyte irradiation technique could reduce the number of generations necessary for cytoplasm transfer, the damage induced seems too restricted for this technique to be applied in cabbage breeding at present.     

Genotypic differences in nitrogen efficiency of white cabbage (Brassica oleracea L.)

In vegetable production, N balance surpluses are especially high which increases the risk of environmental pollution. The cultivation of N-efficient cultivars may contribute to alleviate the problem. A 2-year field experiment was conducted with eight white cabbage cultivars of three different maturity groups at two N fertilization levels. Genotypes differed both in N efficiency (head fresh weight at low N supply) and in yield at high N supply. These differences were not related to N uptake but to N utilization efficiency. At low N supply, harvest index was the main determining factor for genotypic yield differences. For earlier maturing cultivars a slower leaf emergence was responsible for the low harvest index. The response of the cultivars to low N supply was dependent on the weather conditions, particularly temperature, (highly significant year × cultivar × N supply interaction) at early growing stages. This suggests that breeding of cultivars with generally low-temperature tolerance could contribute to enhancing N utilization. Especially at high N supply, a high N harvest index was important for yield formation due to its effect on head water accumulation. For late cultivars, a high N retranslocation from leaves to the heads was related to yield both at low and high N supply. The study suggests that breeding of N-efficient cultivars may reduce N release to the environment by reducing the necessary N input and reducing the N content remaining in the crop residues.