Directional Breeding of An Oval-ecotype Male Sterile Line of Chinese Cabbage(Brassica campestris L. ssp. pekinensis)

[Objective] The study aimed to explore the method for directional breeding of a male-sterile line in oval-ecotype Chinese cabbage. [Method] Based on ＂Multiple Allele Hypothesis of Genic Male Sterile Chinese Cabbage＂, an inbred line ＇06048＇ of oval ecotype was used as the receptor, and male fertile plant of ＇AB12＇ was used as the donor line. Crossing, backcross, selfing, testcross and sibling were ap- plied to transfer the multiple alleles under the directional genetic model. [Result] Segregation ratio of every generation was consistent with theoretical value. A new male sterile line with 100% male sterility and ＇06048＇ horticultural traits was ob- tained successfully, which accomplished the transfer of male sterile multiple allele and horticultural characters of receptor line at the same time. [Conclusion] The re- search verifies that the model of directional transfer is feasible, provides a theoreti- cal basis for the directional transfer of Chinese cabbage with other horticultural traits whose genotype is msms. The model can also be applied to other Brassica crops, to generate genetic male sterile lines with specific botanical traits and high-quality economic traits.

Fine mapping and cloning of the sterility gene Bra2Ms in nonheading Chinese cabbage(Brassica rapa ssp.chinensis)

The application of a male-sterile line is an ideal approach for hybrid seed production in non-heading Chinese cabbage(Brassica rapa ssp.chinensis).However,the molecular mechanisms underlying male sterility in B.rapa are still largely unclear.We previously obtained the natural male sterile line WS24-3 of non-heading Chinese cabbage and located the male sterile locus,Bra2Ms,on the A2 chromosome.Cytological observations revealed that the male sterility of WS24-3 resulted from disruption of the meiosis process during pollen formation.Fine mapping of Bra2Ms delimited the locus within a physical distance of about 129 kb on the A2 chromosome of B.rapa.The Bra039753 gene encodes a plant homeodomain(PHD)-finger protein and is considered a potential candidate gene for Bra2Ms.Bra039753 was significantly downregulated in sterile line WS24-3 compared to the fertile line at the meiotic anther stage.Sequence analysis of Bra039753 identified a 369 bp fragment insertion in the first exon in male sterile plants,which led to an amino acid insertion in the Bra039753 protein.In addition,the 369 bp fragment insertion was found to cosegregate with the male sterility trait.This study identified a novel locus related to male sterility in non-heading Chinese cabbage,and the molecular marker obtained in this study will be beneficial for the marker-assisted selection of excellent sterile lines in non-heading Chinese cabbage and other Brassica crops.

Identifying Cytoplasmic Male Sterile Types of Chinese Cabbage(Brassica campestris L.)by Molecular Markers

Different sterile cytoplasm types of nine cabbage cytoplasmic male sterile materials were identified by molecular marker in the study, in order to better use molecular marker to conduct the assisted breeding in the future. Genomic DNA was isolated from Chinese cabbage by CTAB method. The design of two pairs of specific primers was performed on conserved flanking region of orf138 gene in the GenBank. PCR was performed with genomic DNA of the nine Chinese cabbage materials. The bands were sequenced. The homologous comparison was conducted in NCBI, and finally, the type of sterile cytoplasm was determined. The results showed that the bands were amplified only in four Chinese cabbage male sterile materials with two pairs of specific primers PUPIl and PIII/PIV, while the other five materials did not obtain the relative bands. The result was consistent with the field sterility identification. And then four molecular markers of Chinese cabbage Ogura cytoplasmic male sterility （CMS） were obtained. After conducting a homologous comparative analysis with BLAST in GenBank, it was found that the homologous degree was 100% in specific segments of tbe tbree sterility materials （L1-CI, L3-CI and L3- F1 ） and Ogu orf138 gene （GenBank accession No. ： HQ149728） of the reported broccoli Ogu CMS. The homologous degree of L1-F1 was 99% with a variation point. The type of cytoplasmic male sterility of the other five materials needed further research. Four materials of the nine were identified as the radish cytoplasmic male sterility materials and four molecular markers were obtained.

Differential Expression Analysis of Genie Male Sterility A/B Lines in Chinese Cabbage-Pak-Choi (Brassica campestris ssp. chinensis Makino)

To determine differential expression of genie male sterility A/B lines in Chinese cabbage-pak-choi (Brassica campestris ssp. chinensis Makino var. communis Tsen et Lee), we used the RNA fingerprinting technique, cDNA-AFLP analysis, in different developmental stages and different tissues. While no obvious differential expressions were observed in rosette leaves, florescence leaves, and scapes, some differential expressions were found in alabstrums of A/B lines and among leaves, scapes and alabstrums. We analyzed the al-abstrums collected in different developmental stages with 10 primer combinations. We got a unique band between middle size alabstrums and large alabstrums in B line in one of the ten pair primers, and in another one pair, one band reflecting a higher gene-expression level in A line than that in B line was obtained. No unique bands were found with the other primer combinations. The bands reflecting different gene-expression level were confirmed by Northern hybridization. The results indicated that cDNA-AFLP was a suitable tool for studying differential expression of genie male sterility in plants. SDS-polyacrylamide gel electrophoresis patterns of soluble proteins further verified the difference in A/B lines.

水稻马协不育与可育花药ATPase定位(简报)

马协不育系系朱英国等用农家品种“马尾粘”的不育株与“协青早选”测交和回交选育成功的。超微结构研究表明马协不育花药单核边位期绒毡层提前解体,液泡膜破裂;不育花粉外壁基粒棒少,且分布不均匀;线粒体有大的电子透明区,二核期不育花粉中央大液泡崩溃。不育花药绒毡层提前解体可能影响花粉外壁合成及花粉营养供应,大量研究表明绒毡层发育异常与花粉败育密切相关。

光敏核不育水稻花药ATPase定位研究

光敏核不育水稻可育花粉单核中位期外壁覆盖层和外壁内层界限明显 ,ATPase定位显示覆盖层外侧和花粉核有活跃的ATPase活性。单核边位期ATPase定位于覆盖层外侧、柱状层、内壁、线粒体以及核仁上 ;二核期ATPase定位于覆盖层外侧、柱状层、内壁和核。不育花粉单核中位期外壁发育不良 ,花粉核形状不规则 ,有明显核仁 ,核仁ATPase活性较核其余部分强 ;单核边位期不育花粉仍不能形成良好的外壁 ,ATPase主要定位于核、内壁和线粒体 ,覆盖层外侧和不规则的柱状层也具有ATPase活性。二核期不育花粉ATPase定位于内壁和变形的柱状层。可育花药单核中位期绒毡层ATPase定位于核和线粒体 ,同期不育花药绒毡层ATPase定位于核和核仁上。部分不育花药药隔维管束也表现异常。基于以上结果 ,认为不育花药绒毡层、单核中位期花粉核异常可能与败育有较密切的关系。

白菜核雄性不育两用系可育和不育花药ATPase的分布

对白菜核雄性不育两用系可育花药和不育花药的ATPase做了定位分析。可育花药的花粉母细胞核中积累了大量的ATPase反应颗粒,而细胞质中ATPase反应颗粒较少,但在线粒体中特异地聚集了一些大的ATPase反应颗粒。减数分裂后,小孢子细胞质中ATPase反应颗粒明显增加。随着小孢子发育,其细胞质中ATPase反应颗粒逐渐减少,但在线粒体中又特异性地聚集了较多的AT-Pase反应颗粒。当花药发育到二胞花粉时期,花粉和绒毡层细胞中的ATPase反应颗粒已很少了。不育花药的花粉母细胞中呈现较多的ATPase,然而在线粒体中很少。异常四分体小孢子细胞质中虽然有较多的ATPase反应颗粒,但还是通过细胞质收缩和质壁分离方式退化。对可育花药的花粉母细胞线粒体中特异出现的簇状ATPase分布现象进行了分析,讨论了不育花药中花粉母细胞线粒体ATPase的异常与花粉败育的可能关系。

水稻红莲型粤泰不育花药ATPase超微结构定位

以ATPase定位研究了红莲型粤泰不育花药和可育花药。结果表明 ,单核中位期可育花粉ATPase定位于覆盖层外侧、柱状层和细胞核 ,单核边位期ATPase定位于覆盖层外侧和细胞核 ;二核期ATPase定位于柱状层、内壁、质膜以及细胞核上 ;三核期ATPase定位于柱状层、内壁、质膜生殖核和营养核的核仁上。单核中位期不育花粉ATPase定位于核仁 ,单核边位期ATPase定位于覆盖层外侧、柱状层、质膜以及细胞核上 ;二核期不育花粉ATPase定位于覆盖层外侧、内壁和核仁。单核中位期可育花药药壁发育良好 ,绒毡层吞噬泡有活跃的ATPase活性 ,单核边位期绒毡层内吞噬泡消失 ,绒毡层内含物减少 ,二核期绒毡层细胞完全解体。单核中位期不育花药药壁发育不良 ,绒毡层内吞噬泡少 ,单核边位期绒毡层出现大量吞噬泡 ,二核期绒毡层存在尚未解体的细胞质和核。大多数不育花药药隔结构及ATPase定位特征与可育花药相似。可能不育花药绒毡层发育迟缓、单核边位期不育花粉细胞质膜活跃的ATPase活性及花粉核异常与花粉败育存在较为密切的关系。

光敏核不育水稻农垦58S花粉败育过程中Ca^(2+)-ATPase的变化

运用电镜细胞化学技术(铅盐沉淀法),对长日照条件下光敏核不育水稻农垦58S和可育株系58N花药发育的不同时期进行了Ca2+-ATPase定位研究。结果表明,Ca2+-ATPase颗粒在可育与不育水稻的花药壁、花粉及药隔中的出现时间和数量具有明显差异。可育花药在花粉母细胞时期,药壁细胞内出现Ca2+-ATPase颗粒,至单核花粉后期,解体的绒毡层细胞和乌氏体表面分布大量的Ca2+-ATPase颗粒;与可育材料相比,不育花药在花粉发育的同时期,Ca2+-ATPase颗粒在药壁各层细胞内不仅出现的时间滞后,且分布的数量较少,到二核花粉时期(花粉已畸形空瘪),药壁表皮细胞的液泡膜上、绒毡层细胞质中及乌氏体表面才出现明显的Ca2+-ATPase颗粒。可育花粉单核早期,花粉细胞内线粒体膜上有少量的Ca2+-ATPase分布;单核花粉中期,花粉外壁上有少量的Ca2+-ATPase分布;到单核花粉后期,Ca2+-ATPase颗粒大量分布在花粉外壁、内壁及细胞质膜和细胞核中。而不育花粉在单核花粉发育中都未见Ca2+-ATPase的分布,到花粉败育空瘪时才出现明显的Ca2+-ATPase颗粒,但数量较可育花粉同期同部位少。可育花药药隔细胞中Ca2+-ATPase在花粉母细胞减数分裂期就有分布,而不育花药到单核花粉早期药隔中才有少量的Ca2+-ATPase分布。由此推测,水稻不育系在其花粉发育中,由于细胞壁和质膜上Ca2+-ATPase颗粒出现时间滞后和数量减少影响到细胞膜钙泵将Ca2+由胞质向胞外转运的功能,致使胞质内Ca2+过多积累,导致花粉败育。

黄芽白菜核基因雄性不育系的选育及其败育特征分析

【目的】育成黄芽白菜核基因雄性不育系,为快速培育高纯度黄芽白菜F1杂交种提供材料支撑。【方法】根据复等位基因遗传假说,以快菜核不育两用系KAB5为不育源,采用定向转育方法,经过杂交、回交、测交、自交和兄妹交将核不育基因向可育自交系H249中转育。【结果】经过连续3代定向的回交转育,获得了具有H249特征性状的黄芽白菜核基因雄性不育系HA1。进一步败育特征分析表明:不育系花小,花瓣长、花瓣宽、长雄蕊高和柱头高均极显著低于H249,花丝和花药颜色变白,花丝缩短,花药变小,小孢子能够发育形成四分小孢子,但无法进一步发育形成花粉。【结论】黄芽白菜雄性不育系雌蕊发育正常,雄蕊败育彻底,不育度高,不育株率100%,败育发生在四分体时期,不能形成花粉。

大白菜新品种龙城二宝的选育

龙城二宝是以细胞质雄性不育系12M-28-301为母本、自交系13F-06-100为父本选育而成的大白菜杂交1代新品种。2020年8月和2021年8月在山西农业大学东白试验基地开展2个周期测试,生育期80 d,株高45.0 cm,开展度48.9 cm,外叶绿色,内叶浅黄色,叶面有茸毛和泡状突起;叶球纵径31.5 cm,叶球横径21.0 cm,单株净菜质量2.6 kg,净菜率80.8%,667 m2平均产量6961.0 kg;抗逆性和抗病性强、耐贮藏。适宜在山西省及气候相似的地区秋季露地大白菜产区种植。2022年8月通过农业农村部非主要农作物品种登记。

青麻叶结球白菜雄性不育系的转育

利用核型雄性不育系 3A作为不育源 ,以青麻叶材料黑 2 2 7为目标亲本 ,经过杂交、自交、兄妹交、测交等转育手段 ,将雄性不育基因转育到青麻叶结球白菜上 ,获得了青麻叶类型雄性不育系S10 ,其不育株率和不育度均为 10 0 % ,蜜腺正常 ,结籽正常 ,农艺性状与青麻叶类型结球白菜基本相同。对育成的雄性不育系S10进行了配合力测定 。

大白菜显性核基因雄性不育性向紫菜薹的转育初报

根据复等位基因遗传假说 ,利用大白菜核不育系 9810 7 1作为不育源 ,以紫菜薹ZB3 为目标亲本 ,经过杂交、自交、兄妹交等转育手段 ,将雄性不育基因转育到紫菜薹中 ,获得紫菜薹“甲型”两用系。

大白菜新型胞质雄性不育系及其保持系花药不同发育时期内源激素动态变化的研究

利用细胞质雄性不育系制种是生产白菜一代杂交种子最经济、有效的途径之一,植物内源激素在植物体内普遍存在,并在植物生长发育的各个阶段起着重要的调节作用.大量的研究结果表明,雄性不育系的营养器官或生殖器官中内源激素含量与保持系不同,雄性败育是花器官尤其是雄蕊中激素不平衡的结果.利用酶联免疫测定技术研究大白菜新型胞质雄性不育系及其保持系不同发育时期花药组织中IAA、GA3、ABA和ZR含量的动态变化,结果表明:在花药发育过程中,不育系花药组织中ABA、IAA、GA3和ZR含量及ZR/ABA比值的变化均出现异常.在第3时期(花蕾长2.0～3.0 mm),不育系的IAA、GA3和ZR含量显著低于保持系,ABA含量显著高于保持系,ZR/ABA比值低于保持系.这一时期正好是不育系小孢子明显败育的时期.由此认为,该时期不育系花药组织中激素含量的变化及平衡的破坏可能影响了小孢子的正常发育,引起小孢子败育,导致大白菜的雄性不育.

白菜核雄性不育系可育和不育花药中Ca^(2+)的分布

研究了白菜(Brassica campestris L. ssp. chinensisMakino)细胞核雄性不育系花药中 Ca2+的分布特征。在可育花药发育过程中,减数分裂后花药壁细胞中钙颗粒明显增加。早期小孢子开始积累钙颗粒并特异性地附在小液泡膜上。小孢子分裂后,大液泡消失过程中又伴随着许多钙颗粒附在小液泡膜上,显示出Ca2+与花粉中液泡的形成和分解有关。在不育花药中,最早出现的钙颗粒异常分布是在小孢子母细胞的胼胝质壁中积累了较多的钙颗粒。然而,在小孢子细胞质中钙颗粒一直很少,也不形成大液泡,最后通过细胞质收缩的方式败育。这是首次发现Ca2+参与调控花药发育过程,其异常分布与花粉败育密切相关。

大白菜核雄性不育两用系小孢子发生的细胞形态学研究

大白菜核型雄性不育两用系小孢子发生过程的细胞形态学观察表明，雄性不育株小孢子的败育发生在四分体时期。由于绒毡层细胞异常膨大，挤压四分体，四分体不分离产生四分小孢子，从而不能形成正常的花粉粒而导致败育。

大白菜转育新型甘蓝型油菜细胞质雄性不育系的研究

用 2 6份不同大白菜株系与甘蓝型油菜细胞质雄性不育材料CMS96进行多代回交转育 ,成功地转育出 5份不同类型的大白菜细胞质雄性不育系 (包括桔红心和黄心大白菜株系 )。鉴定结果表明 ,这些不育系材料不育性稳定 ,不育度 10 0 % ,不育率 10 0 % ,蜜腺正常 ,花药白色退化 ,植株整齐一致 ,生长旺盛 ,是新型的优良大白菜细胞质雄性不育系材料。用其配制的杂交组合 。

白菜核雄性不育两用系生理生化特性的分析

白菜核隐性雄性不育两用系开花期 ,可育株群花蕾抗氰呼吸强度显著高于不育株群 ;不育株群花蕾的IAA缺乏 ,而ZT盈余 ;过氧化物同工酶带不育株群的中花蕾和大花蕾强于可育株群 ;细胞色素氧化酶同功酶可育株群中的小花蕾和中花蕾的两条带强于不育株群 ;可育株群的中花蕾可溶性蛋白电泳表现出两条特异带 ,而不育株群的中花蕾有一条特异带。

大白菜细胞质雄性不育系和其保持系的RAPD分析

利用RAPD技术对大白菜细胞质雄性不育系CMS3411-7和其保持系3411-7的基因组DNA进行了比较分析,共使用了269个随机引物,其中有163个引物在两系之间都得到了扩增产物,79个引物扩增结果在两系之间表现出了遗传多态性.找到了不育系和保持系的特异扩增条带CMSOPL01670和MOPB04600.并对这些特异片段的来源及其在细胞质雄性不育中的作用进行了讨论.

大白菜新型细胞质雄性不育生理生化机制的研究

以大白菜新型细胞质雄性不育系及其保持系为材料,对花蕾发育全过程中氨基酸、可溶性糖、蛋白质含量及同工酶谱带进行了动态比较研究。结果表明:不育系花药中可溶性糖、可溶性蛋白质含量低于其相应的保持系;其游离氨基酸总量和保持系无明显差异,但不育系的脯氨酸含量显著低于其相应的保持系;不育系花药中MDH,AAT,EST,POD,COD和PPO同工酶谱带与保持系相比存在明显差异。认为不育系花药中结构物质、营养物质、能量物质的亏损,同工酶表达的差异与小孢子败育密切相关。