植物细胞质雄性不育及其育性恢复的分子生物学研究进展

植物细胞质雄性不育（CMS）和恢复系统在作物杂交种子生产中具有重要的意义。综述了目前已发现的与植物CMS相关的线粒体DNA位点,育性恢复基因对CMS相关DNA位点表达的影响,育性恢复基因的分子标记定位、克隆,及育性恢复分子机理等方面的研究进展,并讨论了恢复基因在植物分子育种上的应用。     

水稻线粒体atpA基因的克隆及其与细胞质雄性不育的关系

本研究以水稻BT型细胞质雄性不育系秋光和相应的保持系秋光为材料,提取线粒体DNA,用限制性内切酶完全酶解,以玉米线粒体atpA基因和波菜叶绿体atpA基因作为探针,进行分子杂交,将保持系线粒体atpA基因定位在3.5kb的Bam HI酶切片段上,并且以pBR322为载体,克隆了这一片段,另外,在Bam HI完全酶解普带的杂交结果中,不育系线粒体基因组中有两条阳性杂交带,分别是3.5kb和2.9kb,而保持系线粒体基因组中只有3.5kb一条阳性杂交带,因而认为水稻不育系线粒体基因组中可能有两个atpA基因拷贝,而相应的保持系线粒体基因组中只有一个atpA基因拷贝。     

水稻线粒体atpA基因的克隆及其与细胞质雄性不育的关系

本研究以水稻BT型细胞质雄性不育系秋光和相应的保持系秋光为材料，提取线粒体DNA，用限制性内切酶完全酶解，以玉米线粒体atpA基因和波菜叶绿体atpA基因作为探针，进行分子杂交，将保持系线粒体atpA基因定位在3.5kb的Bam HI酶切片段上，并且以pBR322为载体，克隆了这一片段，另外，在Bam HI完全酶解普带的杂交结果中，不育系线粒体基因组中有两条阳性杂交带，分别是3.5kb和2.9kb，而保持系线粒体基因组中只有3.5kb一条阳性杂交带，因而认为水稻不育系线粒体基因组中可能有两个atpA基因拷贝，而相应的保持系线粒体基因组中只有一个atpA基因拷贝。     

与油菜细胞质雄性不育相关的DNA位点和育性恢复基因的研究进展

细胞质雄性不育(cytoplasmic male sterility,CMS)在油菜杂交种子生产中具有重要的意义.文章主要从目前已发现的与油菜CMS相关的线粒体DNA位点,育性恢复基因对CMS相关DNA位点表达的影响,育性恢复基因的分子标记定位和育性恢复基因的克隆4个方面综述了近年来油菜CMS的研究进展.并就该领域今后的研究方向进行了探讨.     

植物细胞质雄性不育与线粒体

细胞质雄性不育(cytoplasmic male sterility, CMS)是由于核基因组与细胞质基因组之间不协调互作导致的一种雄性器官异常而雌器官可以接受外来花粉正常结实的自然现象。在生产上,CMS是植物杂交制种的有力工具和杂种优势利用的重要途径。对CMS分子机制的解析是其有效利用的基础,一直以来都是研究的热点,然而其机制研究却相对滞后。该文从线粒体嵌合基因(orfs)形成、特征及分类,基因转录后修饰(RNA编辑)的特点及与CMS的关系,基因翻译产物特征、分类及其与CMS的关系等3个方面综述了近年来植物胞质雄性不育的机制研究进展,以期为进一步深入解析其分子机制提供理论参考。     

甘蓝型油菜新型不育系花器特征及mtDNA的RAPD分析

对新选育的甘蓝型油菜PL CMS不育系和Pol CMS及Ogu CMS不育系材料花器形态进行比较,并对3种不育系10份材料mtDNA进行RAPD分析.结果表明,新选育的PL CMS不育系与Pol CMS、Ogu CMS在花瓣长和宽、花冠直径、雄蕊大小等形态特征方面有极显著差异;mtDNA分析结果表明,新发现的细胞质雄性不育材料L04-02A、L04-05A、L04-01A为同一类型的细胞质雄性不育系,它们与Pol CMS及Ogu CMS不育材料有很大差异,由此推知PL CMS不育系是一种新型甘蓝型油菜不育系.     

粘类小麦细胞质雄性不育系的RAPD分析

利用250条10-聚寡核苷酸随机引物对具粘果山羊草(Aegilops kotschyi)、易变山羊草(Ae.variabilis)、偏凸山羊草(Ae.ventricosa)和二角山羊草(Ae．bicornis)细胞质不育系及其保持系5-1的总DNA进行了RAPD多态性分析,其中31条引物对4种不育系及其保持系总DNA均无扩增,217条引物扩增条带完全相同。有2条随机引物在2种不育系之间有特异的扩增片段,其中引物S22在偏凸山羊草细胞质雄性不育系基因组DNA中扩增出分子量约为1600bp的特异带,引物S202在粘果山羊草细胞质雄性不育系基因组DNA中扩增出约1300bp特异带。线粒体基因组DNA的RAPD分析表明,4种不育系及其保持系mtDNA存在明显的差异。证明了S22—1600为偏凸山羊草细胞质不育系及其mtDNA基因组DNA的RAPD特异片段．S202—1300可能为粘果山羊草细胞质不育系及其ctDNA基因组DNA的RAPD特异片段。     

油菜细胞质雄性不育与育性恢复机理的研究进展

油菜细胞质雄性不育不仅是研究核质互作的理想材料,同时也是杂种优势利用的最有效方式之一。目前对油菜细胞质雄性不育的研究主要包括不育基因的来源、不育基因的结构特征、不育基因的作用机理以及育性恢复的分子机制等。对目前国际上主要的油菜细胞质雄性不育类型(pol CMS、nap CMS、kos CMS、ogu CMS和tour CMS)在分子水平上的研究进展进行了综述。包括线粒体不育基因相关区域的确定和结构特点,不育形成的分子机理以及恢复基因的定位和作用机制等。     

植物线粒体与细胞质雄性不育研究进展

本文从能量代谢与植物细胞质雄性不育(CMS)、线粒体的结构和数量与CMS、线粒体DNA多态性与CMS、线粒体基因转录与CMS、线粒体多肽差异与CMS几个方面介绍了植物线粒体与CMS的关系。并介绍了与CMS相关的线粒体基因研究进展并对CMS形成的分子机制进行了探讨。     

植物线粒体与细胞质雄性不育研究进展

本文从能量代谢与植物细胞质雄性不育(CMS)、线粒体的结构和数量与CMS、线粒体DNA多态性与CMS、线粒体基因转录与CMS、线粒体多肽差异与CMS几个方面介绍了植物线粒体与CMS的关系。并介绍了与CMS相关的线粒体基因研究进展并对CMS形成的分子机制进行了探讨。     

苎麻atp6和atp9基因的克隆表达及与细胞质雄性不育的相关性

摘要: 根据GenBank报道的双子叶植物线粒体atp6和atp9基因编码区保守序列设计简并引物, 通过PCR技术从苎麻细胞质雄性不育系、保持系和恢复系(简称“三系”) mtDNA中扩增目的基因片段, 发现所得序列开放阅读框虽不完整, 但与GenBank报道的其他植物线粒体atp6和atp9基因同源性分别高于94%和85%。采用DNA Walking步移法分别从3′端和5′端扩增两个基因片段的未知侧翼序列, 分离出完整的苎麻线粒体atp6和atp9基因, 包含了完整的开放阅读框。其中“三系”的atp6基因在mtDNA水平、转录和翻译调控水平、蛋白质水平上均无差异。不育系atp9基因在编码区3′端与保持系和恢复系相比存在若干个碱基的差异和缺失; RT-PCR分析还表明, 不育系atp9基因在现蕾期和盛花期的表达量很高。推测不育系atp9基因的结构变异和/或异常表达与苎麻细胞质雄性不育(CMS)的关系密切。     

红麻线粒体中细胞质雄性不育候选基因cox3的克隆与分析

目的:比较红麻不育系和保持系线粒体基因组的差异,并克隆红麻细胞质雄性不育候选基因cox3,揭示红麻细胞质雄性不育的分子机理。方法:用Southern印迹方法研究红麻保持系和不育系线粒体基因组的差异;用同源克隆的方法克隆cox3基因。结果:不育系和保持系基因组存在较大差异;在保持系和不育系中克隆了cox3基因,其基因CDS区完全一致,基因长度为798 bp,GenBank序列号为HM535784;cox3基因与其他物种的cox3基因的同源性大于95.9%。结论:cox3基因的组织形式在不育系和保持系中存在差异,研究结果为揭示红麻细胞质雄性不育的机理提供了一定的依据。     

Somaclonal variation of the mitochondrial ATPase subunit 6 gene region in regenerated triticale shoots and full-grown plants

Comparative hybridization analyses of total DNA from fertile and cytoplasmic male-sterile (CMS) triticale plants which had been regenerated from embryogenic callus cultures revealed the organization and variation of the mitochondrial atp6 gene region. In order to compare different developmental phases, we analysed mitochondrial DNA (mtDNA) from both the shoots and full-grown regenerants. Somaclonal variants were identified on the basis of differences in the mtDNA from fertile and CMS triticale. Several shoots as well as all of the full-grown plants analysed showed somaclonal variation. This phenomenon could be traced back to having primarily orginated from the influence of the nuclear background, which give rise to a stoichiometric increase in a rye-specific orf25 gene copy, and a tissue culture-induced combination of fertile and CMS-specific mtDNA organization of the atp6 gene area. The latter event is probably caused by the homologous recombination of repetitive sequences that may be accompanied by selective amplifications.     

Development of SCAR markers for early identification of cytoplasmic male sterility genotype in chili pepper (Capsicum annuum L.)

We previously used Southern blot analysis to detect restriction-length polymorphisms between male fertile and cytoplasmic male sterile (CMS) cytoplasms at the coxII and atp6 loci of the mtDNA of Capsicum annuum L. Two copies of atp6 were found in each male fertile and CMS pepper lines. Interestingly, one of the copies of atp6 in CMS pepper was a 3'-truncated pseudogene. The open reading frame of the coxII gene was the same in the fertile (N-) and CMS (S-) lines. However, the nucleotide sequence in the S-cytoplasm diverged from that in the N-cytoplasm 41 bp downstream of the stop codon. To develop CMS-specific sequence-characterized amplified region (SCAR) markers, inverse PCR was performed to characterize the nucleotide sequences of the 5' and 3' flanking regions of mitochondrial atp6 and coxII from the cytoplasms of male fertile (N-) and CMS (S-) pepper plants. Based on these data, two CMS-specific SCAR markers, 607 and 708 bp long, were developed to distinguish N-cytoplasm from S-cytoplasm by PCR. The CMS-specific PCR bands were verified for 20 cultivars containing either N- or S-cytoplasm. PCR amplification of CMS-specific mitochondrial nucleotide sequences will allow quick and reliable identification of the cytoplasmic types of individual plants at the seedling stage, and assessment of the purity of F1 seed lots. The strategy used in this report for identifying CMS-specific markers could be adopted for many other crops where CMS is used for F1 seed production.     

The Male Sterility-Associated Pcf Gene and the Normal Atp9-1 Gene in Petunia Are Located on Different Mitochondrial DNA Molecules

A mitochondrial DNA (mtDNA) region termed the S-pcf locus has previously been correlated with cytoplasmic male sterility (CMS) in Petunia. In order to understand the relationship of the S-pcf locus to homologous sequences found elsewhere in mtDNAs of both CMS and fertile lines, the structure of the mitochondrial genome of CMS Petunia line 3688 was determined by cosmid walking. The S-pcf locus, which includes the only copies of genes for NADH dehydrogenase subunit 3 (nad3) and small ribosomal subunit protein 12 (rps12) was found to be located on a circular map of 396 kb, while a second almost identical circular map of 407 kb carries the only copies of the genes for 18S and 5S rRNA (rrn18 and rrn5), the only copy of a conserved unidentified gene (orf25), and the only known functional copy of atp9. Three different copies of a recombination repeat were found in six genomic environments, predicting sub-genomic circles of 277, 266 and 130 kb. The ratio of atp9 to S-pcf mtDNA sequences was approximately 1.5 to 1, indicating that sub-genomic molecules carrying these genes differ in abundance. Comparison of the mtDNA organization of the CMS line with that of the master circle of fertile Petunia line 3704 reveals numerous changes in order and orientation of ten different sectors.     

Non-radioactive organization and transcript analysis of the ATPase subunit 6 gene region in the mitochondrial genome from fertile and sterile (CMS) forms of wheat and triticale

In sterile triticale forms [with cytoplasmic male-sterile (CMS)-inducing timopheevi cytoplasm], fertile orms (with normal cytoplasm) and the corresponding wheat cross parents mitochondrial DNA (mtDNA) and RNA (messenger mtRNA) were characterized using total DNA and RNA material for Southern and Northern blots. A novel non-radioactive technique was applied by marking the probes with digoxenin. The fertile and sterile Triticum and triticale forms were analysed in three genes, atp 6, coxIII and rps13. These forms can be distinguished in the apt6 gene at the mtDNA and mtRNA levels.     

A comparative study of the atp9 gene between a cytoplasmic male sterile line and its maintainer line and further development of a molecular marker specific for male sterile cytoplasm in kenaf (Hibiscus cannabinus L.)

mtDNA was isolated from cytoplasmic male sterility (CMS) line P3A and its maintainer P3B of kenaf (Hibiscus cannabinus L.). The atp9 gene and its two flanking sequences were obtained using homology cloning and high-efficiency thermal asymmetric interlaced PCR methods. The coding sequences showed only two base pairs difference between the CMS and its maintainer, and shared a homology of over 87 % with atp9 genes from other species in GenBank. However, when comparing the flanking sequences, a 47-bp deletion was characterized at the 3′ flanking sequence of atp9 in the CMS line. Quantitative PCR analysis indicated that the expression level of atp9 in the CMS line was 0.937-fold that of its maintainer. Furthermore, the respiratory rate of anthers in the CMS line was markedly lower than that of its maintainer. The results indicated that the 47-bp deletion at the 3′ flanking sequence of atp9 and/or down-regulated expression of the atp9 gene in the CMS line might be closely related to CMS in kenaf. To confirm whether the 47-bp deletion was specific to cytoplasm of male sterile lines, another 21 varieties were used for further analysis. The results showed that the 47-bp deletion was specific to male sterile cytoplasm (MSC) of kenaf. Based on these, a specific molecular marker was developed to distinguish the MSC from male fertile cytoplasm of kenaf.     

普通小麦Ｔ型细胞质雄性不育系及其保持系线粒体ＤＮＡ的比较研究

以小麦Ｔ细胞质雄性不育系７５－３３６９Ａ和相应保系７５－３３６９Ｂ为材料,用限制性内切酶ＢamHⅠ、EcoRⅠ、hINDⅢ完全酶解,以Ｏenothera mtDNA qtp6,小麦线粒体基因nad3/rps12、cos1为探针进行Southern杂交,杂交结果表明,７５－３３６９Ａ和 75-3369B在这３个基因上或附近有显著的组织结果差异,推测这些差异可能影响了线粒体基因组的正常功能,最终引起了７５－３３６９Ａ雄性不育。     

Organizational differences between cytoplasmic male sterile and male fertile Brassica mitochondrial genomes are confined to a single transposed locus.

Comparison of the physical maps of male fertile (cam) and male sterile (pol) mitochondrial genomes of Brassica napus indicates that structural differences between the two mtDNAs are confined to a region immediately upstream of the atp6 gene. Relative to cam mtDNA, pol mtDNA possesses a 4.5 kb segment at this locus that includes a chimeric gene that is cotranscribed with atp6 and lacks an approximately 1kb region located upstream of the cam atp6 gene. The 4.5 kb pol segment is present and similarly organized in the mitochondrial genome of the common nap B.napus cytoplasm; however, the nap and pol DNA regions flanking this segment are different and the nap sequences are not expressed. The 4.5 kb CMS-associated pol segment has thus apparently undergone transposition during the evolution of the nap and pol cytoplasms and has been lost in the cam genome subsequent to the pol-cam divergence. This 4.5 kb segment comprises the single DNA region that is expressed differently in fertile, pol CMS and fertility restored pol cytoplasm plants. The finding that this locus is part of the single mtDNA region organized differently in the fertile and male sterile mitochondrial genomes provides strong support for the view that it specifies the pol CMS trait.