Genetics of Fertility Restoration in Cytoplasmic Male Sterile Pepper

Pepper hybrid seeds production using male sterility could lower cost by reducing time and labour, and increase the genetic purity of the F1 seeds. To investigate the genetics of fertility restoration of the Peterson cytoplasmic sterility in pepper, a doubled haploid population of 115 pepper lines obtained from anther culture of the F1 hybrid between Yolo Wonder （sterility maintainer line） and Perennial （fertility restorer line） and the parental lines were test-crossed by 77013A （a strict cytoplasmic-genic male sterile line）. The fertility of the test-crossed lines was assessed in greenhouse and open field with the following three criteria： pollen index （PI, visual estimation of pollen amount per flower）, pollen number （PN, pollen counting under microscope）, and seed number （SN, the number of seeds per fruit in open pollination）. Correlations between the each couple of criteria within, as well as between the cultivation methods ranged from 0.55 to 0.84. Analysis of variance showed that the genotype （DH line） and environment were the significant sources of variation of the fertility. Narrow sense of heritance of fertility restoration ranged from 0.38 to 0.92, depending on the criteria and environment. The distribution of the progeny was continuous between the parental genotypes indicating the quantitative inheritance of fertility restoration. Inferred from segregation according to Snape et al.（1984）, the number of segregating genes was estimated to be that three to four genetic factors were involved in pollen traits （PI and PN） and five to eight genetic factors in seed production （SN）. The heredity analysis of the CMS will be helpful for understanding of the genetic mechanism of the fertility restoration and the exploitation of the CMS in hybrid seed production.

Application of Molecular Markers Linking to Cytoplasmic Male Sterile Loci to Assist Maintainer Line Selection and Their Selection Efficiency in Welsh Onion (Allium fistulosum L.)

Cytoplasmic male sterility exists widely in most natural populations of welsh onion （Alliumfistulosum L.）, which makes it possible to breed out many male sterile lines for heterosis utilization. Unfortunately, the breeding of cytoplasmic male sterility in welsh onion has a little progress due to the limitation of its biological characteristic and traditional selection approach. To study the feasibility and the efficiency of utilizing marker assisted selection for male sterile lines in welsh onion, one SCAR marker, SCS13, and one RAPD marker, S2002400, which could distinguish between N and S cytoplasm in several welsh onion cultivars, were identified. The two markers were then confirmed by Southern blotting, and used to screen the N or S cytoplasm of individual plants in seven welsh onion cultivars in this study. Male sterile and fertile plants were evaluated by aceto-carmine dying. The frequency of N-cytoplasmic plants and maintainer genotype was calculated in the seven open populations of welsh onion. The minimum number of plants needed to identify a maintainer was evaluated to be 95% reliable. Results showed that 20 to 80% decrease of crosses and self-crosses for identifying a maintainer genotype could be achieved by the marker-assisted selection compared with traditional selection method. It was proved that the molecular markers could precisely identify cytoplasmic types individually, performed by one generation of cross and two generations of testcrosses and self-crosses. Finally, several maintainer genotype plants were selected with the help of the two markers in the seven cultivars. The screened markers could assist and accelerate sterile and maintainer lines selection with less labor and cost.

Influence of Soil Moisture and Air Temperature on the Stability of Cytoplasmic Male Sterility (CMS) in Maize (Zea mays L.)

Cytoplasmic male sterility (CMS) is a maternally inherited trait that suppresses the production of viable pollen. CMS is a useful biological tool for confinement strategies to facilitate coexistence of genetically modified (GM) and non-GM crops in case where it is required. The trait is reversible and can be restored to fertility in the presence of nuclear restorer genes (Rf genes) and by environmental impacts. The aim of this study was to investigate the influence of the level of irrigation on the stability of CMS maize hybrids under defined greenhouse conditions. Additionally the combination of irrigation and air temperature was studied. Three CMS maize hybrids were grown with different levels of irrigation and in different temperature regimes. Tassel characteristics, pollen production and fertility were assessed. The CMS stability was high in hot air temperatures and decreased in lower temperatures. The level of irrigation had no major effect on the level of sterility. The extent of these phenomena was depending on the genotype of CMS maize and should be known before using CMS for coexistence purposes.

Studies of the Energy Release of Mitochondria from Sporophyte Cytoplasmic Male Sterile Rice by Differential Scanning Calorimetry

The differential scanning calorimetric (DSC)curves of the mitochondria isolated from two varieties of sporophyte cytoplasmic male sterile and their fertile lines of Yie Bai and Ma Xie type rice have been determined. The curves show that the energy is released continuously as temperature rise to 70℃. Some thermodynamic and kinetic parameters of the energy release of the mitochondria have been obtained. The presented results showed that the mitochondria from cytoplasmic male sterile rice released more heat and they had higher energy barrier, less rate, and more complicated mechanism than that of their fertile lines in the energy release process.

Abortive Process of a Novel Rapeseed Cytoplasmic Male Sterility Line Derived from Somatic Hybrids Between Brassica napus and Sinapis alba

Somatic hybridization is performed to obtain significant cytoplasmic male sterility （CMS） lines, whose CMS genes are derived either from the transfer of sterile genes from the mitochondrial genome of donor parent to the counterpart of receptor or production of new sterile genes caused by mitochondrial genome recombination of the biparent during protoplast fusion. In this study, a novel male sterile line, SaNa-IA, was obtained from the somatic hybridization between Brassica napus and Sinapis alba. The normal anther development of the maintainer line, SaNa-IB, and the abortive process of SaNa-IA were described through phenotypic observations and microtome sections. The floral organ of the sterile line SaNa-IA was sterile with a shortened filament and deflated anther. No detectable pollen grains were found on the surface of the sterile anthers. Semi-thin sections indicated that SaNa-IA aborted in the pollen mother cell （PMC） stage when vacuolization of the tapetum and PMCs began. The tapetum radically elongated and became highly vacuolated, occupying the entire locule together with the vacuolated microspores. Therefore, SaNa-IA is different from other CMS lines, such as ogu CMS, pol CMS and nap CMS as shown by the abortive process of the anther.

Mitochondrial comparative proteomic analysis of sterile line and its maintain line of purple cytoplasmic rice (Oryza sativa)

CMS/Rf systems in rice (Oryza sativa) have long been exploited for hybrid breeding to enhance productivity. Ying xiang CMS/Rf system is a new type. In this study, a mitochondrial comparative proteomic analysis of Ying xiang Sterile Line and its Maintain Line was started for a comprehensive investigation of the mitochondrial proteins’ functions in rice cytoplasmic male sterility. Mitochondria were prepared from rice shoots grown in the dark. Proteins were analyzed by two-dimensional electrophoresis and MALDI-TOF/ MS. Using Mascot, it was found that 7 proteins were not described previously for plant mitochondria, indicating novel mitochondrial functions. 3 of them were characterized.

AFLP Analysis of Mitochondrial DNA from a Cytoplasmic Male Sterility Line and its Maintainer in Pepper (Capsicum annuum L.)

Cytoplasmic male sterility (CMS) is a maternally inherited trait characterized by the inability of a plant to produce functional pollen, which is widespread among higher plants. CMS system is a valuable tool for plant

DIA-based proteome profiling with PRM verification reveals the involvement of ER-associated protein processing in pollen abortion in Ogura CMS cabbage

Ogura cytoplasmic male sterility(Ogura CMS)is extensively applied in hybrid seed production in cruciferous crops.However,the posttranscriptional molecular basis of Ogura CMS in cruciferous crops remains elusive.Here,a data-independent acquisition-based proteomic approach coupled with a parallel reaction monitoring-based targeted proteomic assay was used to analyze the proteome dynamics of Ogura CMS cabbage line RM and its maintainer line RF during floral bud development to obtain insights into the mechanism underlying Ogura CMS in cruciferous crops.A total of 9162 proteins corresponding to 61464 peptides were identified in RM and RF floral buds.The proteomic fluctuation of RM was weaker than that of RF.Differences in protein expression between RM and RF gradually enlarged with floral bud development.Fifteen continually up-regulated and eight continually down-regulated proteins were found in RM relative to RF throughout floral bud development.Differentially expressed proteins between RM and RF during floral bud development were implicated in the endoplasmic reticulum(ER)-associated protein processing pathway,in which most of them exhibited down-regulated expression in RM.These data suggest that ER-associated protein processing may be involved in pollen abortion in Ogura CMS cabbage by inhibiting the expression of critical factors.Our findings not only deepen the understanding of the molecular mechanisms of Ogura CMS in cruciferous crops but also provide better guidance for applying Ogura CMS in the hybrid breeding of cruciferous crops.

甘蓝型油菜PolCMS育性恢复基因的RAPD标记

采用恢、保回交群体和集团分离分析 ( BSA) ,筛选了 860个 10 mer随机引物 ,找到了与甘蓝型油菜波里马细胞质雄性不育系 ( Pol cms)育性恢复基因 ( Rf)连锁的两个 RAPD标记 AH19690 和 AI1683 0 。它们位于 Rf 的一侧 ,与该基因的遗传图距分别为 5.9c M和 13.6c M,两标记间的遗传图距为 7.8c M。这两个 RAPD标记的发掘 ,为进一步利用分子标记辅助选育 Pol

甘蓝型油菜细胞质雄性不育系Polima A和陕2A的研究进展

Polima A和陕2A是两个经典实用的甘蓝型油菜细胞质雄性不育(cytoplasmic malesterility,CMS)系,这两个著名的不育系在中国乃至世界油菜杂种优势的研究和利用中发挥了重要作用。有关这两个不育系的研究,过去主要集中在形态解剖学、细胞学、生理生化、遗传学以及杂种优势的利用等方面,近年来,主要集中在分子生物学方面。本文从以上方面对Polima A和陕2A的国内外研究状况进行了综述,介绍了近年来这两个不育系的最新研究进展,以及两个不育系在生产实践中的应用、存在的问题和解决的途径。随着分子生物学技术的不断发展,对这两个不育系的研究将会更加广泛和深入。有关Polima A和陕2A的深入研究,对进一步探索油菜CMS的分子机理,更好地利用这两个不育系为我国油菜科研和生产服务有重要意义。

甘蓝型油菜pol CMS育性恢复基因对orf224/atp6的转录调控(英文)

用 10个线粒体基因探针对波里马细胞质雄性不育 (polimaCMS)三系 1141A(pol) ,1141B(nap)和 1141R(pol)的花蕾线粒体RNA进行了Northern检测。结果表明 ,只有 3个探针atp6、orf2 2 4和orf2 2 2检测到转录本的差异。atp6在可育的 1141B中只转录产生一个丰度很高的 1 1kb转录本 ,在雄性不育的 1141A和pol胞质恢复系 1141R中 ,这个转录本的丰度明显减少并出现了分子量较大的 2个转录本 2 2kb、1 9kb转录本。与 1141A相比 ,恢复系1141R的 2 2kb和 1 9kb转录本丰度明显减少 ,并伴随着两个新的转录本 1 4kb和 1 3kb。表明orf2 2 4 atp6的表达与polCMS有关 ,并且其转录受到恢复基因Rfp的调控。同时通过对杂种F1 ( 1141A× 1141R)与另一个恢复系RS35 (pol)的比较证实 ,Rfp对orf2 2 4 atp6的调控与Rfp纯合与否无关。orf2 2 4 atp6在 1141A的苗期叶片中还转录产生育性恢复特异的 1 4kb转录本 ,这可能与细胞核基因型和相对低温条件有关。

甘蓝型油菜Pol CMS育性恢复基因的PCR标记(英文)

采用恢、保回交群体和集团混合分析法，筛选了１０４０个１０—ｍｅｒ随机引物，找到了与甘蓝型油菜波里马细胞质雄性不育系（Ｐｏｌ ＣＭＳ）育性恢复基因（Ｒｆｐ）连锁的两个ＲＡＰＤ标记Ｓ１０１９７２０和Ｓ１０３６８１０。它们位于Ｒｆｐ的一侧，与该基因的遗传图距分别为 ５．８ｃＭ和 １２．３ｃＭ。随后，克隆并测序这 ２个多态性片段，根据其 ２端序列设计了２对２０～２４－ｍｅｒ的特异引物，它们在１３８株的回交群体中ＰＣＲ分离分析的结果与原来各自的ＲＡＰＤ标记相同。这２个ＳＣＡＲ标记将被用于分子标记辅助选育Ｐｏｌ

水稻新质源(CMS-FA)雄性不育恢复基因的遗传

发掘水稻新型雄性不育细胞质源CMS-FA,育成系列优质米不育系和系列新质源恢复系,在组配成强优势杂交稻组合的基础上,研究新质源雄性不育恢复系的恢复基因遗传。采用新质源(CMS-FA)不育系金农1A与恢复系金恢3号杂交获得杂交F1和F2代种子。用F1分别与不育系或保持系回交,获得(不育系//不育系/恢复系和不育系/恢复系//保持系)2个测交群体。同时种植P1、P2、P3、F1、F2、B1F1和B2F1等群体,考察花粉染色率、套袋结实率和自然结实率,卡平方测验遗传分离适合度。结果表明,不育系与恢复系杂交F1代正常可育,育性恢复(可育)基因为显性遗传。F2代分离出可育︰不育适合3︰1,育性恢复(可育)基因为1对显性基因控制。B1F1和B2F1代2个测交群体的可育︰不育都适合1︰1分离规律,验证了F2代育性恢复(可育)单基因的遗传模式。暂时确定新质源(CMS-FA)核质互作三系的基因型为不育系S(SS)、保持系F(SS)和恢复系S(FF)。

烟草线粒体基因coxⅡ的SNP检测及其与CMS的相关性分析

对烟草胞质雄性不育性(CMS)的分子机理进行了研究。以7个CMS系及其相应的保持系为材料,利用特异引物PCR法扩增其线粒体细胞色素氧化酶亚基Ⅱ(coxⅡ),通过直接测序和比对,检测到coxⅡ中有3个核苷酸位点存在碱基变异,分别是:C-770G、G-772A和G-773C,其中第770位碱基的变化导致了相应位点编码氨基酸的改变,第772和773位碱基的变化共同导致了1个编码氨基酸的改变。对coxⅡ基因中第770位C→G的突变进行了240个烟草植株个体的PCR-RFLP检测及分析,结果表明,所有保持系单株的线粒体coxⅡ基因片段都可以被HapⅡ酶切,酶切后出现2种条带;而全部雄性不育系单株的线粒体coxⅡ基因片段由于第770位C→G的突变都不能被HapⅡ酶切,电泳图中仅有1条未被切开的条带。说明coxⅡ基因第770位的SNP位点与烟草CMS特性存在极显著的相关性。

烟草CMS相关基因orf25的生物信息学分析

线粒体基因orf25异常可能导致烟草细胞质雄性不育(CMS)。为探讨orf25基因导致CMS的可能机理,本文采用生物信息学方法,分析烟草雄性不育系‘MS革新3号’及其保持系中的orf25基因在其编码蛋白各结构层次上存在的差异。结果显示,不育系中orf25基因因碱基改变提前出现终止子从而导致其编码蛋白缺失结构域,这极可能成为干扰线粒体F(0)F(1)-ATP合成酶功能的关键因素,从而成为导致烟草‘革新3号’CMS的根本原因之一。

结球甘蓝细胞质雄性不育(CMS)类型的分子鉴定

本研究以高代回交转育获得的6个不育率和不育度均达100%且遗传稳定的结球甘蓝胞质雄性不育系为材料,通过对orf138与orf222基因的特异扩增发现,所鉴定的24个株系64个单株结球甘蓝CMS植株中59个单株既含有orf138基因,也有orf222基因。两种基因共存的结果暗示,该类CMS可能是ogura和nap两种类型的杂合体。进一步的序列分析结果表明,6个结球甘蓝CMS中所扩增获得的orf138基因与来自萝卜CMS的orf138基因序列完全相同;而除Bo134-2CMS的orf222基因与甘蓝型油菜CMSorf222基因相比对有2个核苷酸差异外,其余5个CMS的orf222基因与甘蓝型油菜napCMSorf222基因的相似性均为100%。其中,Bo134-2CMS的orf222基因第191bp的变异导致第64位氨基酸由精氨酸(R)突变成了赖氨酸(K)。

洋葱CMS-T型育性分子标记的筛选与鉴定

为筛选便于鉴定洋葱细胞质雄性不育类型及育性相关基因型的分子标记,采用cob(s)、cob(n)、orfA501、Cpp1和orf725共5个与CMS相关分子标记,jnurf13、AcSKP1、DNF-566、RNS-357、OPT和PsaO共6个与育性Ms位点相关分子标记分别对洋葱CMS类型和育性基因型筛选与鉴定。在洋葱不育类型分子标记鉴定中,Cpp1标记不适合本材料CMS分类,cob(s)、cob(n)和orfA501 3个标记联合鉴定洋葱CMS-T类型,筛选出orf725标记适合区分不育株及其不育类型;在34份洋葱育性相关基因型鉴定中,DNF-566、RNS-357、OPT和PsaO4个标记鉴定结果与表型不一致,筛选出jnurf13和AcSKP1 2个分子标记能够鉴定洋葱保持系基因型msms、不育系基因型msms、育性恢复基因型MsMs及杂合子(Msms)。结果表明洋葱CMS-T材料由单核基因Ms位点控制,并且首次报道AcSKP1标记用于CMS-T材料验证,但AcSKP1标记采用混合PCR,鉴定成本相对较高。所以,orf725和jnurf13标记适合田间筛选洋葱不育株类型和育性相关基因型。

Transcriptional Regulation of 10 Mitochondrial Genes in Different Tissues of NCa CMS System in Brassica napus L. and Their Relationship with Sterility

Northern blot analysis was conducted with mitochondrial RNA from seedling leaves, floral buds, and developing seeds of NCa CMS, maintainer line and fertile F1 using ten mitochondrial genes as probes. The results revealed that 9 out of the 10 mitochondrial genes, except for atp6, showed no difference in different tissues of the corresponding materials of NCα CMS system and that they might be constitutively expressed genes. Eight genes, such as orf139, orf222, atpl, cox1, cox2, cob, rm5S, and rm26S, showed no difference among the three tissues of all the materials detected. So the expression of these eight genes was not regulated by nuclear genes and was not tissue-specific. The transcripts of atp9 were identical among different tissues, but diverse among different materials, indicating that transcription of atp9 was neither controlled by nuclear gene nor tissue-specific. Gene atp6 displayed similar transcripts with the same size among different tissues of all the materials but differed in abundance among tissues of corresponding materials and its expression might be tissue-specific under regulation of nuclear gene. Moreover, three transcripts of orf222 were detected in the floral buds of NCa cms and fertile F1, but no transcript was detected in floral buds of the maintainer line.The transcription of orf139 was similar to that of orf222 but only two transcripts of 0.8 kb and 0.6 kb were produced. The atp9 probe detected a single transcript of 0.6 kb in NCa cms and in maintainer line and an additional transcript of 1.2 kb in fertile F1. The relationship of expression of orf222, orf139, and atp9 with NCa sterility was discussed.

辣椒CMS型雄性不育系与保持系花期叶片蛋白质组分析

采用双向凝胶电泳和计算机辅助分析方法,比较辣椒细胞质雄性不育系W9A与保持系W9B花期叶片蛋白质组,发现不育系与保持系花期叶片存在蛋白质(多肽)的差异,可能与细胞质雄性不育的形成有关。

甜椒CMS不育基因ISSR的分子标记

运用ISSR技术对甜椒CMST6A及其相应的保持系T6B基因组DNA进行了比较分析,共使用了44条随机引物,其中33条引物在两系之中都获得了扩增产物。在不育系中获得了1条稳定扩增的特异片段ISSR-81400。通过随机抽取群体的不育和可育单株对ISSR引物进行鉴定,初步认为ISSR-81400可能是与甜椒CMS不育基因连锁的分子标记。