Transformation of insect-resistant gene into cauliflower (Brassica oleracea L.var. botrytis)

Cowpea Trypsin Inhibitor (CpTI) gene was transferred into the cotyle dons and hypocotyls of cauliflower by Agrobacterium-mediated transformation met hod. The best selective concentration of kanamycin (kan) was 15 mg L-1. The con centration of carbencillin (carb) was 500 mg L-1. 14 transgenic cauliflower pla nts were obtained. The putative transformants were assayed by PCR and Southern b lotting analysis. The results indicated that CpTI gene was transferred into caul iflower successfully.

Screening and Identifying Two Specifi c Molecular Markers in Maintainer Line of Cytoplasmic Male Sterility Cauliflower (Brassica oleracea var. botrytis)

Cytoplasmic male sterility (CMS) is a maternally inherited trait that prevents the production of function pollen, but maintains female fertility. It has been widely used in breeding programs to product F_1 hybrid seed

花椰菜(Brassica oleracea var.botrytis)抗黑腐病差异表达cDNA片段的克隆及功能的初步研究

采用花椰菜抗黑腐病近等基因系C731（感病系）和C712（抗病系）作为材料，利用cDNA—AFLP技术，研究了花椰菜黑腐病抗性在黑腐病菌侵染和非侵染条件下基因表达的情况．获得了两个阳性克隆M2和M6．Northern杂交和点杂交进一步证明M2是组成型表达的cDNA片段，只是在病菌侵染与非侵染条件下表达丰度不同．而M6是差异表达的cDNA片段．Southern杂交表明M6 cDNA片段在花椰菜基因组中是单拷贝序列．随后的序列分析发现M6cDNA片段与拟南芥1号染色体的BACF19P19中66665～66813bp有84％同源性，该片段编码拟南芥的2A6蛋白的部分序列．推测的氨基酸序列与拟南芥的2A6蛋白部分序列有91％同源性．用H2O2作为外源分子胁迫处理的初步功能分析发现：M6cDNA片段受H2O2诱导，在诱导早期16～24h高度表达，其在叶片中的积累呈逐渐上升趋势．根据序列分析和初步的功能分析的结果推测：M6cDNA片段可能就是编码花椰菜中类2A6蛋白的部分基因片段．是参与花椰菜抗病反应信号途径的相关调控基因片段．

花椰菜(Brassica oleracea var.botrytis)黑腐病抗性基因同源序列分离及克隆的研究

通过从 NBS 保守序列设计简并引物 PCR 的方法,以花椰菜(Brassica oleracea vat.botrytis)抗、感黑腐病的近等基因系为材料,分离得到 NBS-LRR 型抗性基因同源序列,并获得1个克隆,命名为 RGA330-7.Southern 杂交表明,该片段在近等基因系中存在明显的多态性,且该片段在抗黑腐病基因位点至少存在3个以上类似 RGA330-7的同源拷贝.序列分析结果认为该克隆与 NBS-LRR 型抗性基因的部分 CDSs 有很高的同源性,说明该片段属于 NBS-LRR 型.系统进化分析该序列与甘蓝型油菜的2个抗病同源序列归为一类,很可能这3个不同来源的抗性基因同源序列同属于一种抗性基因家族.因此推测该序列与花椰菜抗黑腐病基因紧密相关,为进一步克隆花椰菜抗黑腐病基因提供了可靠的候选基因,对分子标记辅助抗性育种具有重要意义。

Comparison of carotenoid,chlorophyll concentrations and their biosynthetic transcript levels in different coloured cauliflower

Carotenoids and chlorophylls are among the most widely distributed pigments in nature that play essential roles in the photosynthetic apparatus and confer diverse colours in plants.Among all vegetables,cauliflower(Brassica oleracea L.ssp.var.botrytis)is rich in phytochemicals and is an important crop grown all over the world.This study investigates carotenoid and chlorophyll concentrations in differently pigmented cultivars and elucidates the role of transcriptional regulation of carotenoid accumulation including lutein andβ-carotene.Here,we characterised changes in pigments by UHPLC-DAD-ToF-MS and changes in transcript levels of carotenoid metabolic genes by qRT-PCR in florets and leaves of orange(‘Jaffa'and‘Sunset'),purple(‘Di Sicilia Violetto'and‘Graffiti'),green(‘Trevi')and white(‘Clapton')cultivars.Transcript levels of all carotenoid metabolic genes showed different transcript level patterns in the leaves and florets.Compared to the other cultivars,the orange cultivars had the highest levels ofβ-carotene in the florets and lutein in the leaves resulting in changes lutein/β-carotene ratios.In the green cultivar,higher transcript levels were also found,especially for phytoene synthase and phytoene desaturase genes of the core biosynthesis pathway.However,no increased carotenoid concentrations were observed,possibly due to a higher carotenoid turnover induced by the carotenoid cleavage dioxygenase 4 in the green cultivar.In the white(‘Clapton')and purple(‘Di Sicilia Violetto'and‘Graffiti')cultivars the phytoene desaturase transcript levels as well as carotenoid concentrations were low.Chlorophyll concentrations changed in trend comparable to the carotenoid concentrations and were only significantly lower in the leaves of the orange cultivar‘Jaffa'.Also,the chlorophyll a/b ratio changed in‘Jaffa'.In florets the highest chlorophylls concentrations were observed for the green cultivar(‘Trevi')and the purple cultivar(‘Di Sicilia Violetto').Taken together,the study demonstrates the complex source-sink relationship of carotenoid accumulation in different coloured cauliflower.

花椰菜(Brassica oleracea var.botrytis L.)凝集素的细胞凝集和糖抑制作用的研究

花椰莱(Brassica oleracea var. botrytis L.)凝集素能凝集兔、大鼠和小鼠的红细胞,其中对兔的红细胞的凝集活性最高,最低凝集浓度为0.68μg/ml。但不凝集我们所测试的其它16种红细胞。浓度为0.1mg/ml时,花椰菜凝集素也能凝集小鼠艾氏腹水瘤细胞,S_(180)肉瘤细胞,大鼠W_(256)肿瘤细胞、人的MGC_(80-3)胃癌细胞、小鼠和大鼠的脾脏淋巴细胞、骨髓细胞以及牛精子细胞,而不凝集人的Hela细胞。该凝集素对免的红细胞的凝集活性可被L—鼠李糖和D—树胶醛糖所抑制,最低抑制浓度分别为33.3m mol/L和16.7m mol/L。

A Co-Dominant Marker BoE332 Applied to Marker-Assisted Selection of Homozygous Male-Sterile Plants in Cabbage (Brassica oleracea var.capitata L.)

The dominant genic male sterility （DGMS） gene CDMs399-3 derived from a spontaneous mutation in the line 79-399-3 of spring cabbage （Brassica oleracea var. capitata L.）, has been successfully applied in hybrid seed production of several cabbage cultivars in China. During the development of dominant male sterility lines in cabbage, the conventional identification of homozygous male-sterile plants （CDMs399-3/CDMs399-3） is a laborious and time-consuming process. For marker-assisted selection （MAS） of the gene CDMs399-3 transferred into key spring cabbage line 397, expressed sequence tag-simple sequence repeats （EST-SSR） and SSR technology were used to identify markers that were linked to CDMs399-3 based on method of bulked segregant analysis （BSA）. By screening a set of 978 EST-SSRs and 395 SSRs, a marker BoE332 linked to the CDMs399-3 at a distance of 3.6 cM in the genetic background of cabbage line 397 were identified. 7 homozygons male-sterile plants in population P1170 with 20 plants were obtained finally via MAS of BoE332. Thus, BoE332 will greatly facilitate the transferring of the gene CDMs399-3 into the key spring cabbage line 397 and improve the application of DGMS in cabbage hybrid breeding.

Effect of H_2O_2 on Growth of Collard( Brassis oleracea L. ) Seedlings Under Salt Stress

Collard variety( Brassis oleracea L. var. acephala f. tricolor Hort.) as a research material was treated with exogenous H_2O_2 and H_2O_2 scavenger dimethyl thiourea under 100 mmol/L NaC l stress. Two days later,growth rate,dry weight,fresh weight and relative water content of the plants were determined. After 6h of treatment,the activity and gene expression of three antioxidant enzymes,superoxide dismutase( SOD),catalase( CAT) and ascorbate peroxidase( APX) in plants,were measured. The results showed that the growth rate,dry weight,fresh weight,relative water content,and the activity and gene expression of the three antioxidant enzymes in collard seedlings were higher in the treatment of salt stress with the addition of 0. 05 mmol/L exogenous H_2O_2 than in the simple salt stress treatment; and when endogenous H_2O_2 was removed,the growth rate,dry weight,fresh weight,relative water content,and the activity and gene expression of the three antioxidant enzymes in plant seedlings were lower than those under simple salt stress. It is speculated that under salt stress,H_2O_2 is involved in the regulation of antioxidant defense gene expression,and it might be an important regulator of salt-induced antioxidant system in collard leaves.

青花菜快速碱化因子RALF的克隆与序列分析

以一个与甘蓝显性核不育相关的差异表达片段序列为信息探针,在NCBI与TAIR网站数据库中进行同源EST序列搜索,经人工拼接、RT-PCR克隆与序列分析验证,获得了青花菜快速碱化因子RALF(Rapid Alkalinization Factors)基因的cDNA全长序列,命名为BoRALFL1(GenBank序列登录号DQ059310)。该cDNA全长240bp,编码79个氨基酸,与电子克隆获得的序列完全相同。序列分析表明,编码蛋白存在前导信号肽与多个磷酸化位点,与同源基因RALFL8核酸序列在88bp上有82%的一致性,推导的氨基酸序列在74个氨基酸上存在56%的一致性,不同植物间氨基酸序列N-端差异大,C-端具有较高的保守性。

甘蓝LFY基因的克隆及序列分析

以甘蓝ZQ启动抽薹的茎尖为材料,分别提取DNA和RNA,以两对引物扩增并序列拼接得到甘蓝LFYZQ基因DNA序列和cDNA完整编码区,长度分别为2560、1239bp,与花椰菜、拟南芥、芥菜和萝卜同源性分别达到91%、87%、86%、87%。该基因含有3个外显子(452、394、393bp)和2个内含子(514、807bp),共编码412个氨基酸,内含子剪接位点均符合经典GT-AG法则。将LFYZQ与网上公布的12种十字花科植物LFY氨基酸序列按分子进化分成两类:甘蓝LFYZQ与花椰菜以及Jonopsidium属植物Jonopsidium acaule这3个分为一类;其余10种植物分为第二大类。LFYZQ蛋白分子量为46kD,是一个不稳定的疏水蛋白,存在N-十四(烷)酰化位点、蛋白激酶C磷酸化位点、酪蛋白激酶Ⅱ磷酸化位点、酰胺化位点共4种活性位点。

乙酰甲胺磷和NaCl交叉胁迫对花椰菜种子萌发及其幼苗生长的影响

为探究农药和盐交叉胁迫对植物生长影响的机制,试验研究了不同NaCl浓度(0.0%、0.2%、0.4%、0.6%、0.8%)下的不同浓度的乙酰甲胺磷处理液(0.00%、0.03%、0.06%、0.09%、0.12%)对花椰菜种子萌发及其幼苗生长的影响。结果表明:不同浓度乙酰甲胺磷、NaCl及二者的交叉胁迫对花椰菜种子萌发及其幼苗根长、苗高、侧根数目、鲜重和干重的增加均具有显著的抑制作用;乙酰甲胺磷加剧了NaCl对花椰菜的胁迫效应,NaCl也加剧了乙酰甲胺磷对花椰菜的胁迫效应,当乙酰甲胺磷的浓度≥0.09%、NaCl的浓度≥0.8%时,这种相互胁迫效应更加明显;花椰菜对0.2%NaCl处理具有抗性,但对0.03%乙酰甲胺磷处理非常敏感。

Obtaining and Cytological Identification of a Set of Primary Trisomics in Cabbage

Selection of primary trisomics of the cabbage （Brassica oleracea var.capitata L） forms an important basis for gene chromosome mapping and for other genetic studies. The cabbage self-fertilization line - 9601 was used as material, using the root-tip cell chromosome number and pollen mother cell chromosome number identification and karyotype analysis to select the primary trisomics from the progenies of 3x x 2x in the cabbage. Many aneuploid plants with one or two extra chromosomes were obtained and a set of primary trisomics （Tri-1, Tri-2, Tri-3, Tri-4, Tri-5, Tri-6, Tri-7, Tri-8, and Tri-9, in which the Tri-1 and Tri-4 were from 2n＋2 plants and others from 2n＋ 1 plants） was acquired from these plants. Each trisomic exhibited some unique features, such as plant height, plant type, leaf type, size of flower bud, and inflorescence. The triploid crossing by the diploid is a convenient and effective way to select trisomics in the cabbage.

高温胁迫对早熟花椰菜叶片抗氧化系统和叶绿素及其荧光参数的影响

在30～35℃高温胁迫条件下,对早熟花椰菜叶绿素含量、叶绿素荧光参数和叶片抗氧化系统进行研究。结果表明,35℃高温胁迫情况下,叶片叶绿素a、叶绿素b、总叶绿素和类胡萝卜素含量比对照下降25％以上;叶绿素荧光参数,包括原初光能转换效率(Fv/Fm)、光合电子传递量子效率(φPs Ⅱ)、光化学猝灭系数(qP)均低于对照。另一方面,抗氧化酶,包括超氧化物歧化酶(SOD)、抗坏血酸过氧化物酶(APX)、愈创木酚过氧化物酶(GPX)、过氧化氢酶(CAT)的活性以及抗坏血酸(ASA、DASA)和谷胱甘肽(GSH、GSSG)等抗氧化剂的含量在高温胁迫下明显升高。

青花菜雄性不育相关基因BoDHAR的克隆与表达分析

以一个与甘蓝显性核不育相关的差异表达片段的序列为信息探针,通过在NCBI与TAIR网站数据库中进行同源EST序列搜索,经人工拼接、RT-PCR、PCR克隆与序列分析,获得了青花菜脱氢抗坏血酸还原酶DHARdehydroascorbatereductase基因的cDNA与DNA全长序列,命名为BoDHAR。并利用双链接头介导PCR的染色体步行技术(genomewalking)克隆了其上游644bp的5′端序列。所获的BoDHAR基因全长1486bp,存在两个内含子,DNA编码区序列633bp,编码210个氨基酸;序列分析表明BoDHAR与同源基因AT1G19570.1cDNA序列有82.3%的一致性,推导的氨基酸序列有79.6%的一致性;编码的水溶性蛋白存在多个磷酸化位点;5′端上游区存在明显的转录调控序列。半定量RT-PCR结果表明BoDHAR在可育系花蕾中的表达量明显高于不育系花蕾,在花药中的表达明显高于其它部位。

遮荫处理对早熟花椰菜花球的生长和抗氧化系统的影响

以早熟花椰菜品种丰喜45天为材料,在花球开始形成期进行遮荫处理,以研究遮荫对花球生长和抗氧化系统的影响.结果表明:(1)遮荫处理使花椰菜花球纵径、横径和鲜重分别比对照减少17.97%、18.9%和38.59%.(2)除了叶片中愈创木酚过氧化物酶(G-POD)活性显著提高外,遮荫处理降低了花椰菜叶片、花蕾和花茎中超氧化物歧化酶(SOD)、过氧化物酶(CAT)、抗坏血酸过氧化物酶(APX)和G-POD的活性,但与叶片相比,花蕾和花茎中这些酶活性的下降幅度较小.(3)遮荫处理显著降低了花椰菜叶片、花蕾、花茎中脱氢抗坏血酸还原酶(DHAR)和谷胱甘肽还原酶(GR)的活性.(4)遮荫处理降低了花椰菜叶片、花蕾和花茎中抗坏血酸含量(花蕾中还原型抗坏血酸除外)和叶片中谷胱甘肽含量,但花蕾和花茎中谷胱甘肽反而有所提高(花茎中还原型谷胱甘肽除外).

结球甘蓝一套初级三体的选育及细胞学鉴定

【目的】创建甘蓝初级三体是其基因染色体定位等遗传研究的基础。【方法】以结球甘蓝自交系-9601为试材,采用根尖细胞、花粉母细胞的染色体计数及核型分析等方法,从其三倍体与二倍体的回交子代中分离和鉴定初级三体。【结果】从回交子代中鉴定分离出了多个2n+1和2n+2等非整倍体植株,经核型分析、染色体联会行为及植株外部形态的观察,初步获得了结球甘蓝一套初级三体(Tr-1～Tr-9),其中从2n+1植株中得到了Tr-2、Tr-3、Tr-5、Tr-6、Tr-7、Tr-8和Tr-9初级三体,从2n+2植株中得到了Tr-1和Tr-4初级三体,各初级三体在株高、株型、叶形、花蕾大小和开花期等特征特性上表现出一定差异。【结论】三倍体与二倍体回交分离结球甘蓝初级三体是方便快捷的有效途径。

花椰菜温敏雄性不育系GS-19花药败育的细胞学及转录组分析

【目的】对花椰菜温敏雄性不育系的花器形态、花药败育时期和败育分子机理进行研究,明确其不育特性发生的细胞学和分子机理,为进一步研究其雄性不育奠定理论基础。【方法】以花椰菜温敏雄性不育系GS-19为试验材料,不同温度(15℃和20℃)处理,采用形态学、细胞学方法及高通量测序技术(Illumina Hi Seq 2500),研究其形态特征、花药败育的细胞学及分子机理。【结果】花椰菜温敏雄性不育系GS-19的育性转换受温度控制,高温(20℃)不育,低温(15℃)育性恢复。GS-19不育株与可育株花器差异显著,不育株花器显著小于可育株。花药细胞学观察发现GS-19的花药发育过程有花粉母细胞的分化,形成正常花粉囊,不产生花粉粒或者产生微量的无生活力的花粉粒,花药发育受阻于花粉母细胞到四分体时期,形成了花粉粒外壁发育异常的拟"四分体孢子",逐渐降解,剩下花粉空壳,属于花粉母细胞败育类型。GS-19不育株和可育株花蕾转录组分析共获得67 930个Unigene,其中Nt数据库比对到相似序列数最多(52 191个),Nr数据库比对到相似序列次之(46 447个),KOG数据库比对相似序列最少(13 198个);GO注释到25 336个Unigene;KOG注释到13 198个Unigene;KEGG注释到14 778个Unigene。基因差异表达分析发现GS-19不育株花蕾和可育株花蕾中有2 170个基因差异表达,1 078个基因上调表达和1 092个基因下调表达。【结论】花椰菜温敏雄性不育系GS-19为高温不育类型,不育株花器显著小于可育株,花丝显著缩短,花药萎缩、干瘪,花药发育受阻于花粉母细胞到四分体时期,属于花粉母细胞败育类型。转录组测序获得了67 930个Unigene,差异表达基因2 170个。

花椰菜游离小孢子培养及影响因子

以80份早中熟花椰菜栽培种为试材进行游离小孢子培养,研究了影响胚胎诱导的主要因子。结果表明,有20份材料诱导出胚状体,诱导率为25％；16％蔗糖培养液能较好地保持小孢子活性；13％蔗糖是小孢子发育的最适浓度；加液培养可显著提高产胚量；取材前6d内气温在10～20℃、取盛花前期至盛花中期的花蕾、选择单核靠边期至双核期的小孢子、经33℃热激处理48h后暗静止培养的产胚量最高。

结球甘蓝对根肿病的抗性鉴定与评价

分别利用室内人工接种鉴定、田间人工接种鉴定、田间自然诱发鉴定3种方法,对19份甘蓝材料的抗性进行鉴定,并进行了综合评价,结果表明:‘日本甘蓝’、‘皱叶甘蓝’、‘大楠木’3份材料对根肿病表现为抗病,可以作为抗病育种的材料.3份材料‘天津圆球甘蓝’、‘北黑大平头’、‘小楠木’对根肿病表现为感病.

甘蓝显性雄性不育系的选育及其利用

从甘蓝原始材料７９－３９９的自然群体中获得雄性不育突变株７９－３９９－３。研究结果表明，该突变株的雄性不育受一显性不育基因ＣＤＭｓ３９９－３控制。该基因在不同的遗传背景下表现为环境敏感和环境稳定两种类型，且温度是影响不育稳定性的主要因素。环境敏感的显性雄性不育植株通过自交可以得到显性纯合的雄性不育植株。显性纯合不育植株与普通自交系或相应的姊妹系杂交获得了不育株率达到１００％、不育度达到或接近１００％的不育群体。根据ＣＤＭｓ３９９－３基因的这一遗传特点，建立了利用显性雄性不育基因配制甘蓝杂交种的新方法：利用组织培养技术保存和繁殖显性纯合雄性不育材料，然后与遗传差异较小的普通自交系或姊妹系杂交得到不育系。选择园艺性状优良、不育性稳定的不育群体作不育系，与配合力优良的自交系杂交，配制出了优良的杂交组合。试验采种结果表明。