Isolation and Expression Analysis of Two Cold-Inducible Genes Encoding Putative CBF Transcription Factors from Chinese Cabbage （Brassica pekinensis Rupr）

Two homologous genes of the Arabidopsis C-repeat/dehydration-responsive element binding factors （CBF/ DREB1） transcriptional activator were isolated by RT-PCR from Chinese cabbage （Brassica pekinensis Rupr. cv. Qinbai 5） and were designated as BcCBF1 and BcCBF2. Each encodes a putative CBF/DREB1 protein with an AP2 （Apetal2） DNA-bindlng domain, a putative nuclear localization signal, and a possible acidic activation domain. Deduced amino acid sequences show that BcCBF1 is very similar to the Arabidopsis CBF1, whereas BcCBF2 Is different in that it contains two extra regions of 24 and 20 amino acids in the acidic domain. The mRNA accumulation profiles indicated that the expression of BcCBF1 and BcCBF2 is strongly induced by cold treatment, but does not respond similarly to dehydration or abscisic acid （ABA） treatment. However, the cold-induced accumulation of BcCBF2 mRNA was rapid but short-lived compared with that of BcCBFI. The mRNA levels of both BcCBF1 and BcCBF2 were higher in leaves than in roots when plants were exposed to cold, whereas, salt stress caused higher accumulation of BcCBF2 mRNA in roots than in leaves, suggesting that the organ specificity of the gene expression of the BcCBFs is probably stress dependent. In addition, the accumulation of BcCBF1 and BcCBF2 mRNAs was greatly enhanced by light compared with darkness when seedlings were exposed to cold. It is concluded that the two BcCBF proteins may be involved in the process of plant response to cold stress through an ABA-independent pathway and that there is also a cross-talk between the light signaling conduction pathway and the cold response pathway in B. pekinensis as in Arabidopsis.

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.

覆盖地膜对土壤养分含量及娃娃菜产量和品质的影响

采用大田试验,进行双因素裂区设计,主因素为覆盖地膜(M)和不覆盖地膜(NM),副因素为施肥(不施肥CK、习惯施肥CF、减量施肥RF和改进减量施肥IRF 4个处理),同时取不同土层土样测定碱解氮、速效磷、速效钾、有效锌和有效硼含量。结果表明,与不覆盖地膜相比,覆盖地膜可显著提高娃娃菜(Brassica pekinensis)单株重、生物产量和经济产量,提高肥料利用率;施肥也能显著促进娃娃菜的生长,提高植株养分含量和吸收量。施肥显著提高了娃娃菜中硝酸盐含量,并降低可溶性糖和维生素C含量,而覆盖地膜对品质指标影响程度未达显著水平。覆盖地膜显著提高了施肥处理下土壤碱解氮和速效钾的含量,降低了土壤速效磷向下淋溶的程度,对表层土壤有效硼和有效锌含量影响显著,而对深层土壤无明显影响。

娃娃菜新品种迷您黄5号的选育

迷您黄5号是以雄性不育系CCR11268(BC9代)为母本,娃娃菜自交系CM12081为父本配制而成的小棵型大白菜(Brassica campestris L.ssp.pekinensis)一代杂交新品种,生育期75~90 d,生长势强,株型紧凑,外叶浓绿,心叶金黄,合抱,“H”型,平均株高31.2 cm,开展度54 cm,球高22 cm,球径10.5~11.3 cm,球型指数1.9,净菜率69.5%,平均产量达72757.5 kg/hm^(2)。该品种品质优良,可溶性糖含量2.31%,维生素C含量221 mg/kg,具有耐抽薹性强、丰产性好、稳产性较高等特点,适宜在云南省及相似生态区推广种植。

活性生物有机肥在露地娃娃菜种植中的肥效研究

为了验证宁夏壹加壹生物科技有限公司生产的颗粒活性生物有机肥在娃娃菜(Brassica campestris L.ssp.pekinensis Olsson)生产上的应用效果,在宁夏原州区和西吉县典型冷凉蔬菜生产条件下,开展活性生物有机肥在宁南山区娃娃菜种植中的肥效试验研究。结果表明,施用活性生物有机肥不仅增加了娃娃菜产量,提升了娃娃菜维生素C、可溶性固形物、可溶性糖和可溶性蛋白质含量,而且还可以培肥土壤,缓冲土壤偏碱环境,提升土壤肥力。

大白菜干烧心病原菌Pantoea ananatis的生物学特性及全基因组序列分析

大白菜干烧心病主要包括两种类型:细菌性干烧心和缺素(钙元素等)性干烧心。2019年,我们首次报道了泛菌P antoea ananatis能导致大白菜细菌性干烧心病的发生。本研究即对P. ananatis Y2菌株的生物学特性进行分析,并对其进行全基因组测序。结果表明,发病初期,大白菜内部球叶边缘呈水渍状腐烂,后期所有内部球叶边缘腐烂,而整个发病过程外部球叶无明显发病症状。在NB培养基上培养,P. ananatis呈圆形菌落,菌落直径0. 2~0. 3 mm,表面较为光滑,边缘整齐;培养初期为乳白色,后期变为深黄色;革兰氏染色阴性,单个菌体呈杆状,大小(0. 92~2. 87)μm×(0. 64~1. 25)μm。P. ananatis基因组大小为5. 26 Mb,鉴定到4 955个编码基因,109个散在重复序列,223个串联重复序列,111个非编码RNA,15个基因岛,6个前噬菌体和1个CRISPR,同时在GO、KEGG和COG数据库中对编码基因进行了通用功能注释。本研究有利于加快大白菜干烧心病的研究进程,对全面揭示大白菜干烧心病的分子机理及培育优质、高产、抗病大白菜品种具有重要意义。

高效液相色谱-荧光检测法测定大白菜中维生素K1含量

为准确测定样品中维生素K的含量,建立了基于高效液相色谱-荧光检测的大白菜(Brassica rapa L.ssp.pekinensis)维生素K高灵敏检测技术。采用经优化的流动相,正己烷涡旋提取待测样品,通过中性氧化铝柱净化后使用C反相色谱柱对试样进行定量分析。结果表明,在浓度为0.229~6.197μg/mL时维生素K线性关系良好,相关系数(R~2)为0.9969。此方法检出限为0.29μg/100 g,定量限为0.95μg/100 g,回收率为97.5%~101.8%。该方法出峰时间早、能有效分离杂峰、检出限高,是对大白菜中维生素K进行检测的优选方法。

大白菜受环境胁迫影响的研究进展

大白菜(Brassica rapa ssp.pekinensis)是中国种植面积较大的蔬菜作物之一,其不仅可以为人体补充维生素C和维生素E,对预防心血管疾病也有很大的帮助。大白菜在生长发育过程中受许多不利环境的影响,包括盐碱胁迫、水涝胁迫、重金属胁迫、温度胁迫等非生物胁迫,以及病虫害等生物胁迫。这些胁迫会引起大白菜发生一系列的变化,不仅会影响大白菜体内相关基因的表达,还会影响细胞的代谢和生长发育等过程。在这些胁迫下,大白菜自身能产生一定的抗逆性,但随着胁迫的增加,其自身产生的抗逆性不足以抵抗环境中较严重的非生物胁迫和生物胁迫,胁迫的影响使得大白菜不能正常生长甚至死亡,从而导致大白菜减产,造成市场供应不足的现象发生。本综述总结了近年来非生物胁迫和生物胁迫对大白菜生长的影响,并对大白菜应对胁迫而产生的抗逆性进行了概括,以期为后续的大白菜抗逆性研究提供参考。

分子标记辅助选择创制抗根肿病橙色大白菜新种质

为了获得优质抗病大白菜种质资源,以抗根肿病普通大白菜与橙色大白菜杂交的F_(2)分离群体为试材,对202个分离单株进行橙色叶球和抗根肿病分子标记鉴定。结果表明,51个单株含有纯合橙色叶球基因,37个单株含有纯合抗根肿病基因。最终筛选得到8个纯合抗根肿病橙色叶球单株,单株编号分别为8、17、24、50、107、134、155和168。本研究明确了大白菜F_(2)分离群体中橙色叶球基因和抗根肿基因聚合情况,获得了纯合抗根肿橙色叶球大白菜单株,为大白菜育种提供了科学指导和重要资源。