Effect of Combined Use of Boron and Manganese Fertilizers on the Nutritional Quality and Physiological Indices of Brassica campestris L.ssp.chinensis L.var.utilis

[Objective] The purpose of this study is to determine the effects of com-bined use of boron and manganese fertilizers on the nutritional quality and physio-logical indices of Brassica campestris. [Method] In the nutrient solutions for growing B. campestris by hydroponics, boric acid and manganese sulfate were added at 0.5, 2.5, and 7.5 mg/L respectively. Another treatment without boron and manganese was prepared as the control. Quality and physiological indices of B. campestris in the 10 treatments were measured. [Result] Boron and manganese shared obvious in-teraction in improving the quality and physiological indices of B. campestris. To cul-tivate B. campestris with high quality and strong resistance, the optimum concentra-tions of boron and manganese in the nutrient solution should be 2.5 mg/L boric acid and 2.5-7.5 mg/L manganese sulfate. [Conclusion] The findings wil provide refer-ence for studying effects of trace elements on nutrient composition of vegetables.

Effects of Different Cadmium Levels on Active Oxygen Metabolism and H_2O_2-Scavenging System in Brassica campestris L.ssp.chinensis

The effects of different Cd (Cadmium) levels on generation of active oxygen speceies(AOS) and H2O2-scavenging system in the leaves of Brassica campestris L. ssp. chinensiswere studied. The results showed that generation rate, and H2O2 content were enhancedand malondialdehyde (MDA) content increased with the increase of Cd concentrations inthe growth medium. The activities of ascorbate peroxidase (APX), dehydroascorbatereductase (DR) and glutathione reductase (GR) were promoted by the addition of Cd.Exposed to Cd also increased the contents of ascorbate (AsA) and glutathione (GSH) in theleaves.

A Genetic Linkage Map of Brassica campestris L.ssp. pekinensis (syn. B. rapa L. ssp. pekinensis)

A molecular genetic map of Chinese cabbage was constructed with a 102 recombinant inbred (RI) population from a cross of two cultivated Chinese cabbage lines 177 and 276, using AFLP and RAPD markers. 352 markers including 265 AFLP markers and 87 RAPD markers were integrated into 17 linkage groups. It covered a total of 2 665. 7 cM with an average interval of 7. 6 cM. AFLP marker is efficient for map construction while it easily forms clusters to cause big gaps in map. A total of 13.92 % abnormal segregation markers distributed in the map. The molecular genetic map is fundamental for gene localization, comparative genomics, and QTL mapping of important agronomic traits.

Effects of Nitrogen Fertilizer with Nitrification Inhibitor DMPP (3,4-Dimethylpyrazole phosphate) on Nitrate Accumulation and Quality of Cabbage(Brassica campastris L.ssp. pekinesis)

To assess the effects of N fertilizer ammonium sulphate nitrate [(NH4)2SO4 plus NH4NO3;ASN] with the new nitrification inhibitor (NI) 3, 4-dimethylpyrazole phosphate (DMPP)(ASN+DMPP) on yield, nitrate accumulation, and quality of cabbage (Brassica campastrisL. ssp. pekinesis), two field trials were carried out under various soil-climaticconditions in Jinhua City and Xinchang County, Zhejiang Province of China in 2002.Results showed that DMPP could increase the mean yield by+2.0tha-1 in Jinhua, +5.5tha-1 inXinchang, decrease NO3--N content by -9.4% in Jinhua, -7.3% in Xinchang and improvenutritional quality by increasing vitamin C (VC), soluble sugar, K, Fe, Zn contentssignificantly.

Effect of the Antisense BcMF12 Driven by the BcA9 Promoter on Gene Silencing in Brassica campestris L.ssp.chinensis

The study analyzed the silencing of BcMF12 gene regulated by BcA9 promoter in the transgenic pakchoi and confirmed the effect of antisense BcMF12 gene on the pollen development. A conserved BcMF12 gene fragment was amplified from the cDNA of flower buds in pakchoi （Brassica campestris L. ssp. chinensis, syn. B. rapa L. ssp. chinensis） and was fused to the anther specific BcA9 promoter. The plant antisense expression vector was constructed and then introduced into pakchoi via Agrobacterium-mediated transformation. The transgenic plants were screened by antibiotics and molecular analysis. PCR and Southern blot revealed that the antisense BcMF12-GUS fusion gene regulated by BcA9 promoter was integrated into transgenic plants. Northern blot suggested that the expression of BcMF12 gene was down-regulated significantly. The pollen germination rate of transgenic plants with antisense BcMF12 gene decreased as compared with that of the control plants. The expression of the gene BcMF12 related to the pollen development was inhibited by the antisense BcMF12 driven by BcA9 promoter, which consequently affected the pollen development in pakchoi.

TWO NEW NEOLIGNANS FROM MESSERSCHMIDIA SIBIRICA L.SSP.

From the aerial parts of Messerschmidia sibirica L.ssp.,two new neolignans were isolated and elucidated as messerschmidin and its acetate.

中国沙棘(Hippophae rhamnoides L．ssp．sinensis Rousi)的开花特性及风媒传粉距离的检测

连续两年对雌雄异株的中国沙棘（Hippophae rhamnoides L．ssp．sinensis Rousi）的花期物候、开花式样进行了观察，检测了柱头可授性、花粉活力和花粉一胚珠比，并进行厂人工授粉、套袋实验，检测结实率。结果显示中国沙棘风媒传粉发生在4月下旬或5月上旬，单花花期约7d；传粉盛期在第3天到第5大，柱头的可授性从第2天到第4天或第5天。中国沙棘花先叶开放、花小、无花冠、花药成熟时萼片从两个侧向的纵缝中裂开，形成有利于化粉散布的对流风洞。花粉活力和花粉．胚珠比都很高，具有典型的适应风媒传粉的花部特征和性状。中国沙棘花粉的传播距离受外界环境影响较大，通过重力玻片法检测可以看出，在风速小于3m／s时，主要集中在15-25m之间，当风速大于3m／s时，顺风向可超过85m以外。传粉效率对结实率的影响较大。

白菜雄性不育相关新基因BcMF1的分离及特征分析

【目的】筛选与白菜雄性不育性状相关的新基因,为研究植物雄性不育的分子机制提供依据。【方法】利用cDNA-AFLP技术分析白菜核雄性不育两用系‘ZUBajh97-01AB’的表达差异,在可育株群中扩增出1条特异条带BcMF-A15T17,通过RACE和PCR技术扩增得到该基因的cDNA和DNA全长序列,并用Northern杂交验证了该基因的表达特征。【结果】该基因被命名为BcMF1,它的cDNA全长为1684bp,基因全长为1985bp,BcMF1基因仅在两用系可育株群的中、大花蕾中特异表达。推测的BcMF1蛋白含有471个氨基酸,与拟南芥未知功能蛋白家族DUF1216成员的相似性较高,预测该蛋白是一个定位在胞外的分泌蛋白。【结论】BcMF1基因是一个与白菜细胞核雄性不育相关的新基因。

白菜抽薹性状相关基因的cDNA-AFLP分析

先期抽薹严重制约着我国春大白菜及高原或高海拔地区的春夏白菜栽培,给生产造成重大损失,因而研究白菜作物低温春化途径抽薹和开花的相关基因对白菜育种具有重要意义。文章选取极早抽薹株系DH-54和极晚抽薹株系DH-43为材料,利用256对引物组合进行cDNA-AFLP分析,筛选到与抽薹开花相关的差异表达的转录衍生片段(Transcript-derived fragment,TDF)191条,对其中82个TDF进行克隆测序。结果表明:52个TDF与NCBI或TIGR已有序列同源,功能涉及代谢、胁迫及逆境应答、信号转导、转录调控等等;22个TDF在NCBI或TIGR找到同源序列,但功能未知;有8个TDF在NCBI或TIGR找不到同源序列,可能是一些新基因。

白菜核雄性不育两用系AFLP扩增特异片段的克隆及序列分析

利用AFLP技术从白菜核不育两用系"矮脚黄"可育系DNA中得到一个特异扩增片段MF-14.Southern杂交结果证实不育系也存在该片段的同源序列;回收该特异扩增片段并将其克隆到pGEM-TEasy载体进行序列测定.测序结果表明,该片段全长289bp,其碱基组成为A+T=46.02%.与白菜RAPD特异片段S107及其他育性相关基因核苷酸序列比较,同源性均低于50%.表明该片段为一新的序列.

正交设计优化菜薹ISSR反应体系研究

菜薹原产中国,是华南地区重要的特产蔬菜之一。目前,分子标记技术已广泛应用于多种作物研究,但在菜薹上的应用研究刚刚起步。ISSR主要是由单一引物且以重复序列为主要引物序列的PCR标记,其反应条件受模板DNA、Taq DNA聚合酶、Mg2+、dNTP和引物等因素的影响。正交试验设计能明确各因素间的互作效应,建立最优化的反应体系。本研究利用正交试验设计,从Taq DNA聚合酶、dNTP、引物、Mg2+4种因素3个水平对菜薹ISSR反应体系进行了优化,确立了适合菜薹的ISSR反应体系并在7个菜薹品种中进行了验证。在20μl反应体系中,含Taq DNA聚合酶1U、dNTP250μmol/L、引物0.25μmol/L、1×PCRbuffer、Mg2+2.5mmol/L、模板DNA30ng。通过梯度PCR测验,确定了适宜的退火温度。这一体系的建立为今后利用ISSR技术进行菜薹种质资源分类、遗传图谱构建和基因定位奠定了技术基础。

白菜低温要求型晚抽薹性的相关序列克隆与分析

为了阐明低温要求型晚抽薹的分子机制,本研究利用易抽薹大白菜BY和晚抽薹芜菁"M.M"杂交获得的81个DH系群体为试材,从中选择了6个极早抽薹和6个极晚抽薹的株系分别组成早抽薹池和晚抽薹池。以两池和双亲为样本,以无低温和3～5℃处理25d后获得的mRNA为模板,反转录为cDNA,利用256对AFLP引物组合进行cDNA-AFLP分析,筛选与晚抽薹性相关的特异片段。对其中3条差异表达、且丰度较高的cDNA片段进行了克隆测序。序列测定和Blast分析表明,p65m47cDNA片段与C2结构域蛋白基因有80%的同源性,期望值为7e-17,C2结构域蛋白在细胞的信号转导中起着很重要的作用;p66m55cDNAⅠ片段与拟南芥AT1G32530cDNA有85%的同源性,期望值为5e-36,它编码蛋白结合位点/泛素连接酶/锌指结合蛋白;p66m55cDNAⅡ片段与拟南芥AT1G65590cDNA有87%的同源性,期望值为4e-37,它编码β-N-乙酰已糖胺水解酶。

与大白菜霜霉病抗性主效QTL连锁的分子标记开发

霜霉病是危害大白菜的三大病害之一,该病的发生会严重影响大白菜的产量及品质,因而研究与霜霉病抗性QTL紧密连锁的分子标记对大白菜抗病新品种培育具有重要意义。该研究在前期工作的基础上,选用高感霜霉病株系91-112、高抗霜霉病株系T12-19以及由二者为双亲构建的DH群体为实验材料,针对大白菜霜霉病抗性主效QTL——BrDW所在的标记区间,利用已有的大白菜基因组信息发展与抗性QTL紧密连锁的分子标记,通过Blast和IMap分析,将与BrDW连锁的RAPD标记K14-1030定位于大白菜KBrB058M10上(位于Contig214上),根据KBrB058M10附近的BAC及BAC-end序列设计引物,结合限制性内切酶酶切及HRM分析方法,筛选得到5个与BrDW连锁的分子标记,包括1个Indel标记Brb062-Indel230,3个CAPS标记Brb094-DraⅠ787、Brb094-AatⅡ666和Brb043-BglⅡ715,1个SNP标记Brh019-SNP137;同时,通过筛选与目标区域具有同源性的Unigene序列得到了1个与BrDW紧密连锁的SSR标记bru1209。标记Brb062-Indel230、Brb094-DraⅠ787、Brb094-AatⅡ666、Brb043-BglⅡ715、Brh019-SNP137和bru1209与RAPD标记K14-1030之间的遗传距离分别为4.3 cM、1.7 cM、5.9 cM、5.9 cM、4.6 cM和0.8 cM,在对DH群体中的抗性株系选择上准确率分别为69.7%、70.9%、72.4%、72.4%、58.3%和74.2%,可应用于分子标记辅助选择,为霜霉病抗性分子育种奠定了良好基础。

氮肥种类及用量对包心菜硝酸盐累积和营养品质的影响

本文在田间试验条件下探讨了氮肥品种、用量及不同基肥种类对包心菜硝酸盐累积及品质的影响。结果表明:含硝化抑制剂DMPP(3,4-二甲基吡唑磷酸盐)的硫硝铵肥料(简称ASN+DMPP)与硫硝铵(ASN)、尿素(urea)相比,不仅可以提高包心菜的产量,降低NO3--N含量,还可以提高Vc、氨基酸、可溶性糖和矿质营养元素(P、K、Ca、Fe、Zn)含量。ASN+DMPP与urea相比,在金华、新昌试验点,N O3--N含量分别降低了6.1%、16.5%,而与ASN相比N O3-N鄄含量分别降低了9.4%、7.3%。适当降低氮肥用量包心菜不会减产,还可降低硝酸盐含量。A SN 80%用量水平(360kg/hm2)与100%用量水平(450 kg/hm 2)相比,包心菜NO3-N鄄含量分别降低了5.0%(新昌)、18.7%(金华)。用硫基复合肥(NPK15-15-15S)作基肥与用氯基复合肥(NPK16-16-16Cl)相比,包心菜产量、NO3--N含量没有显著差别。

添加碳调节剂对次盐渍化土壤水溶性盐含量及白菜根系生长的影响

研究碳调节剂与次生盐渍化土壤在混合培养过程中水溶性盐含量变化。结果表明:碳调节剂与盐渍化土壤混合物中水溶性盐含量在培养第7天后基本趋于稳定;过量添加碳调节剂会导致土壤水溶性盐含量过低,影响作物根系生长;T4处理效果最好,植株根系生长最佳;加入碳调节剂过少无法改变土壤盐分对植株生长的影响;土壤碳调节剂添加量为33.75 g/kg时(T3处理),即可达到显著降低次生盐渍化土壤水溶性盐含量的效果。

一种红菜薹新病害的病原鉴定及生物学特性研究

2010-2011年在湖北省红菜薹(Brassica campestris L.ssp.chinensis L.var.utilis Tsen et Lee)栽培中发现一种新病害,并从该红菜薹新病害发病叶片分离得到了病原菌hctyk1,观察该病原菌的孢子形态,分析了病原菌的ITS序列,研究了病原菌的生物学特性。结果表明,该病原菌为链格孢[Alternaria alternata(Fr.:Fr.)Keissler],病原菌r DNA-ITS区序列已在Gen Bank上登录(登录号:JQ885954)。该菌菌丝生长致死温度为50℃;适宜pH为8;在供试的几种碳源、氮源中,最适的碳源是葡萄糖,最适的氮源是酵母浸出液。

红菜薹废弃物还田对四季豆产量和养分累积的影响

通过田间试验研究了红菜薹(Brassica campestris L. ssp. chinensis var. utili Tsen et Lee)废弃物还田以及化肥减施对四季豆产量和养分累积的影响。结果表明,在常规施肥的基础上,红菜薹废弃物半量和全量还田四季豆产量分别增加了13.41%和29.43%,与红菜薹废弃物全部还田相比,全部还田+化肥用量减施30%使得四季豆产量降低了25.41%;与单施化肥相比,全部还田+化肥用量减施30%处理四季豆生物量增加了9.38%。红菜薹还田氮素、磷素和钾素累积量分别较单施化肥处理增加了18.72%~32.55%、6.35%~38.22%和5.73%~41.87%,且富集的氮、钾主要存在茎、叶片和果实中。

苋菜-小白菜混作对小白菜镉与硝酸盐复合污染的影响

采用酸性黄棕壤和石灰性潮土进行连续两季盆栽试验,研究了镉与硝酸盐复合污染条件下苋菜(Amaranthus mangostanus L.)与小白菜[Brassica campestris L.ssp.chinensis(L.)Makino.var.communis Tsen et Lee]混作对小白菜品质及产量的影响。结果表明,在Cd 2.0 mg/kg与N 0.2 g/kg的交互作用下,苋菜-小白菜混作显著降低(P<0.05)了小白菜镉与硝酸盐的含量,黄棕壤第一季、第二季及潮土第一季、第二季收获的小白菜硝酸盐含量分别降低了19.87%、17.31%、27.00%、32.45%;小白菜的镉含量分别降低了23.33%、22.58%、5.82%、7.69%。同时,苋菜-小白菜混作也能提高小白菜的品质及产量,黄棕壤第一季、第二季及潮土第一季、第二季与对照相比,小白菜的维生素C含量分别提高了47.92%、22.66%、29.66%、92.26%,差异均达显著水平(P<0.05);可溶性蛋白质含量分别提高了27.44%、45.29%、39.50%、50.00%,差异均达显著水平(P<0.05);叶绿素含量分别提高了11.68%、19.38%、1.18%、7.47%;可溶性糖含量分别提高了1.34%、31.05%、321.05%、154.55%;小白菜的产量分别提高了2.26%、3.48%、1.89%、19.53%。对小白菜品质及产量而言,均有不同程度的提高,尽管有的差异不显著,但仍有提高的趋势,这对于试验范围内的植物修复而言,均有积极意义。

白菜BcMF2基因在大肠杆菌中的高效表达

通过PCR方法扩增BcMF2 cDNA完整的编码区序列,构建pET-BcMF2重组质粒,转化大肠杆菌BL21(DE3),IPTG诱导融合蛋白高效表达;SDS-PAGE电泳检测发现在70 kD处有一条蛋白质特异条带,与预期的目的产物蛋白带大小一致,同时发现,其阳性克隆在30℃和IPTG终浓度为0.4～1.0 mmol·L^(-1)时诱导6 h,均能获得较高的表达量。

籼稻胚乳特异性启动子Gt1的克隆及其功能验证

从籼稻(Oryzasativa L.ssp.indica)品种谷秆两用稻‘东南201’中克隆获得胚乳特异性启动子Gt1;序列全长为929 bp;含胚乳中特异表达所必需的正调控元件GCN4 motif(TGAGTCA)与Skn-1 motif(GT-CAT)等。与已报道的粳稻品种‘日本晴’的序列相比,籼稻‘东南201’Gt1启动子序列仅在-507 bp处发生一个碱基突变,在-268、-267、-194、-193 bp位置处分别缺失1个碱基;但在已知功能motif,两者没有任何差异。用Gt1替代35SCa MV启动子驱动GUS基因转化水稻‘台粳9号’,结果表明GUS基因仅在胚乳中特异表达,而在其它组织中未表达。克隆的籼稻谷蛋白基因Gt1的启动子序列,可为进一步开展水稻品质分子改良提供必要手段。