光敏核不育水稻农垦58S与正常品种“农垦58”在pmsl区段无育性基因分离

光敏核不育水稻农垦58S系由正常品种“农垦58”(Oryza sativa L.ssp.japonica)自然突变产生。为弄清该突变基因在染色体上的位置,曾用覆盖整个水稻基因组的300余个RFLP探针对农垦58S和“农垦58”进行了对比分析,得到了7个具多态性的探针,其中2个探针RG30和RZ626正好落在第7染色体上以前定位的光敏核不育基因pmsl所在的区段。以这两个标记对农垦58S/“农垦58”组合F_2随机群体140单株进行了RFLP分析,按RFLP基因型分组对育性作方差分析,结果表明,这2个标记位点与此群体中引起育性分离的位点无连锁关系。说明由正常“农垦58”变为光敏核不育农垦58S的突变基因不在pmsl区段。     

Effect of Photoperiod Treatments on Phytochrome a Levels and Its mRNA Abundance in Photoperiod-Sensitive Genic Male-Sterile Rice Mutant and the Wild Type

The effect of photoperiod treatments on phytochrome A (Phy A) level and its mRNA abundance in the leaves of a photoperiod-sensitive genic male-sterile mutant (Nongken 58S) and its wild type ("Nongken 58') of Oryza sativa L. was investigated. The top two leaves of each rice shoot were harvested at the end of the last dark phase of 10 cycles during photoperiod-sensitive stage for fertility alteration of the mutant. Phy A was measured by a sandwich enzyme-linked immunosorbent assay (ELISA) using rabbit polyclonal and mouse monoclonal antibodies. Compared with longday (LD) treatment,short day (SD) resulted in 38.5% increase of relative Phy A content in the mutant, only 18.5% increase in the wild type. In an extended darkness (25 h), the accumulation of Phy A also appeared to be more rapid in the mutant seedlings than in its wild type. RNA dot blot analyses with RPA3 (a cDNA clone of rice Phy A) as a probe showed:the abundances of Phy A mRNA in top leaves of Nongken 58S and "Nongken 58" were obviously higher in SD than those in ID at the end of dark phase of 5 d and 10 d photoperiod treatments. Moreover, under SD Phy A mRNA contents in Nongken 58S were more than those in "Nongken 58" during the whole photoperi- od-sensitive stage for fertility alteration. In addition, after 10 cycles of end-of-day far-red irradiations (EOD FR), the heading and flowering date of the mutant was delayed for 2 d. However, EOD FR had little or no effect on male fertility of the mutant.     

Relationship Between Male Fertility and Endogenous Phytohormones in Photoperiod-Sensitive Genic Male-Sterile Rice

A spontaneous male sterile rice plant (Oryza sativa L. cv. Nongken 58S) "Photoperiod-sensitive Genic Male-sterile Rice has been found to be male sterile under long day cycles (LD) and fertile in short day cycles (SD). The period from secondary rachis-branch and spikelet primodia to pollen mother cell formation in the process of panical development was the photoperiod-sensitive stage for fertility alternation. The phenotype of this mutant was reported to be controlled by two pairs of recessive alleles. The research on relationship between the fertility alternation and phytohormone action in this mutant have been performed by Chinese scientists since 1985. In order to study the mechanism of fertility alternation in Nongken 58S, endogenous IAA, ABA, GA1 and GA4 in apical leaves and reproductive organs in different development stages under LD and SD conditions have been quantiatvely and qualitatively identified by GC-MS-SIM method. It was found that endogenous IAA in apical leaves at the stage of pistil and stamen primodia formation and in panicles at pollen mother cell stage of Nongken 58S with LD condition was deficient comparing with those in SD. Endogenous ABA level in panicles at pollen mother cell stage, in spikelets at uninucleate stage and in anthers at anthesis stage of Nongken 58S-LD were lower than those in SD. ABA levels in corresponding organs and developmental stages of wild type of rice, "Nongken 58" were always higher in LD treatment than those in SD. Endogenous IAA, GA1 and GA4 levels in anthers at anthesis stasge of "Nongken 58"-LD were increased obviously. Thus it appeared that "Nongken 58" possess stronger resistance to LD stress than Nongken 58S. It is concluded that IAA deficiency of reproductive organs at early developmental stage, ABA decrease implying poor resistance to LD stress and reduction of GAs in late developmental stages were the factors causing the anther sterility in Nongken 58S-LD.     

光周期对光敏核不育水稻光敏色素A含量及其mRNA丰度的影响

光敏核不育水稻(农垦58S)是我国特有的水稻(Oryza sativa L.)种质材料,光敏色素是光周期诱导其育性转变的受体。报道了育性转换敏感期间的光周期处理对农垦58S及对照“农垦58”叶片中光敏色素A(Phy A)含量及其mRNA丰度的影响。在10个光周期处理的最后一个暗期结束前,收获每株水稻的上部两片叶,用酶联免疫吸附测定法测定Phy A。和长日照(LD)相比,短日照(SD)处理导致农垦58SPhy A相对含量增加38.5％;而“农垦58”只增加18.5％。显然,在较长的暗期中,农垦58S中Phy A的积累比对照快。在水稻幼苗中也得出相似的结果。以光敏色素A基因(phy A)的特异性片段RPA3作探针,用RNA斑点杂交的方法对叶片中Phy A mRNA丰度进行分析的结果表明,光周期处理5d和10d时,两品种水稻的Phy A mRNA丰度都是SD处理的比LD的高,而且SD下农垦58S Phy A mRNA的丰度均比“农垦58”的高。这些结果表明,甲基化水平较低的农垦58S phy A可能比“农垦58”的phy A更活跃地表达。另外,在育性转换敏感期每日主光期结束时(EOD)进行10次短暂的远红光(FR)照射。结果表明,农垦58S植株抽穗和开花期比SD处理推迟2d,而花粉败育率、种子结实率却无变化。暗示农垦58S开花和育性转变过程的光周期反应可能不同。     

光敏核不育水稻开花和育性转变不同的光反应

从光敏核不育水稻"农垦585"幼穗分化至二次枝梗期开始,在每天的短日照光期（10h日光）结束、暗期开始时（EOD）进行15d的远红光（FR）照射实验,以比较开花、育性转变过程对短暂的远红光（FR）或红光（R）的反应。EODFR明显抑制水稻植株开花（穗分化）,导致"农垦585"和原种"农垦58"的抽穗期均比短日照下推退7d,表现为长日照效应,而"农垦58S"的结实率与原种相比却无显著变化。这暗示诱导农垦58S开花、育性转变过程的光反应可能有差异,前者不仅与光周期有关,且受EODFR的剧烈影响,而育性主要受光周期（临界暗期）控制,基本上不受EODFR的调控。     

Effects of Photoperiod on Supramolecular Architecture of Thylakoid Membranes from a Rice Mutant (Oryza sativa Nongken 58S)

Plants of a rice mutant (Hubei photoperiod-sensitive genic male-sterile rice, Oryza sativa L. Nongken 58S) and its wild type cv. Nongken 58 were cultured in natural summer conditions in Beijing. After induction of proper photoperiods small panicle at the stem tip emerged and developed to the stage of secondary rachis-branch and spikelet primordium formation. Subsequently, part of the rice plants received long day (LD), i.e. 10 h of day-light treatment followed by 5 h of white fluorescent illumination with 1～2 Wm-2) . The others were exposed to daylight for 10 h alternating with a 14 h of dark period as short day (SD) treatment. After 10 days of the photoperiodic treatments, the chloroplast ultrastructure of the first leave below the flag leaf was examined by freeze-fracture rotary and unidirectionally shadowed electron microscopy. At anthesis stage, Nongken 58S plants with LD treatment showed complete pollen sterility, while the same plants with SD treatment exhibited normal fertility. And fertility of Nongken 58 was not affected by photoperiod treatments. The results from electron microscopic observation showed no significant effects of either SD or LD treatment on the freeze-fractured uhrastructure of thylakoid membranes in Nongken 58. No significant difference in particle density and size distribution was found on stacked and unstacked thylakoid membrane regions of the Nongken 58S-SD and those of Nongken 58 rice. However, the particle density of the endoplasmic fracture face in the staked region (EFs) and protoplasmic fracture face in the staked region (PFs) faces detected from the leaf thylakoid membranes of Nongken 58S-SD rice was significantly higher than that of the corresponding faces from Nongken 58S-LD. In some cases much more particles on EFs faces of thylakoid membranes isolated from Nongken 58S-SD rice appeared as paracrystalline particle array, indicating increases in the number of PS Ⅱ reaction centres, LHC I and Cyt b6/f per unit area of thylakoid membrane. The particle density of the endoplasmic fracture face in the unstaked region (EFu) and protoplasmic fracture face in the unstaked region (PFu) faces from unstacked thylakoid membranes of Nongken 58S-LD was less than that of the corresponding faces from Nongken 58S-SD. And the particle density of PFu faces from margin and end of the membranes of the grana thylakoids of LD-treated Nongken 58S leaves was also less than that of unstacked thylakoid membranes from SDtreated rice. In severe cases, most of the particles on endoplasmic fracture face in the unstaked region (EFu) and protoplasmic fracture face in the unstaked region (PFu) faces were even missing, indicating a decrease in the numbers of photosystem Ⅰ , LHCⅠ , Cyt b6/f and ATPase per unit area of' thylakoid membrane. The above results could further provide an augmentation for explaning the photoperiod-sensitive genic male-sterility.     

籼型光敏核不育水稻育性可转换性的基因定位和基因互作研究

本研究以来源于农垦58S的灿型光敏核不育系培矮64S（短日条件下育性难转换）和8902S（短日条件下育性蝗转换）及其F1,F2群体为材料,通过短日不同光温和不同生态条件4种处理,利用RFLP分子标记研究了影响光敏偿育水稻在短日条件下的育性可转换性的遗传,基因定位和基因互作,主要结果表明：影响光敏不育水稻的育性可转换性表现为微效基因的作用,定位了7个控制光敏核不育水稻的育性可转换性QTL,即S2,S3a,S3b,S5,S8和S10,揭示了基因互作真实存在于光敏核不育水稻中,基因互作形式和互作类型对光敏核不育水稻的育性可转换性的影响表现多种多样,不同类型的基因互作所解释的遗传变异处于2．15％－10．07％之间。     

Localization of <Emphasis Type="Italic">pms3</Emphasis>, a gene for photoperiod-sensitive genic male sterility,to a 28.4-kb DNA fragment

Photoperiod-sensitive genic male-sterile (PSGMS) rice, in which pollen fertility is regulated by day-length, originally arose as a natural mutant in the rice cultivar Nongken 58 (Oryza sativa ssp. japonica). Previous studies identified pms3 on chromosome 12 as the locus of the original PSGMS mutation. In this study we have assigned the pms3 locus to a 28.4-kb DNA fragment by genetic and physical mapping. A cross between Nongken 58S (PSGMS line) and DH80 was used to produce an F₂ population of about 7000 plants, from which 892 highly sterile individuals were obtained for recombination analysis. By analyzing recombination events in the sterile individuals using a total of 157 RFLP probes from a BAC contig covering the pms3 region, the pms3 locus was localized to a sub-region of less than 1.7 cM. Further analysis of recombination events using 49 additional probes isolated from this sub-region identified markers flanking the pms3 region on each side; these markers are only 28.4-kb apart. Sequence analysis of this fragment predicted the presence of five ORFs, found high homology with two ESTs in public databases, and detected three SNPs between the mutant and the wild-type parents, which may be helpful for identifying a candidate gene for pms3.     

Specific Proteins in Chloroplasts of Photoperiod-Sensitive Genic Male-Sterile Rice

The chloroplast proteins of a male-sterile mutant Nongken 58S, namely “Hubei Photoperiod-sensitive Genic Male-sterile Rice”, which is male sterile under long day (LD) cycles and fertile under short day (SD) cycles, and its original cultivar Nongken 58 (Oryza sativa L. subsp, japonica, Nongken 58) at seedling stage and photoperiod sensitive stage of fertility transition could be resolved into at least 20 major and more than 70 minor protein components on two-dimensional gel electrophoresis, with molecular weights ranging from 10kD to 67kD and isoelc points (pI) from 4.3 to 8.5. The mutant Nongken 58S had twospecific proteins with molecular weight of 45kD(pI6.7) and 61 kD (pI6.0) as compared with Nongken 58. Another 61 kD(pI6.2) protein was more in Nongken 58S than in Nongken 58. The existance of these proteins was not influenced by SD or LD treatment. The results showed difference in patterns of gene expression between Nongken 58S and Nongken 58. A possible function of these proteins in relation to regulation of sterility was discussed.     

光敏核不育水稻幼穗的乙烯生成与育性转换

研究了在不同光温组合下光敏核不育水稻（ＰＧＭＲ）农垦５８５（ＮＫ５８Ｓ）及普通水稻品种农垦５８（ＮＫ５８Ｂ）的幼穗乙烯生物合成变化及其与育性表达的关系。结果表明ＮＫ５８Ｓ幼穗乙烯生成受光周期和温度的共同调节,而光周期对ＮＫ５８Ｂ幼穗乙烯生成无明显影响。ＮＫ５８Ｓ幼穗乙烯生成的变化与育性转换光温作用模式完全吻合。其幼穗乙烯释放速率（ＥＲＲ）与花粉可育度（ｌｎｙ）呈极显著负相关。用ＡＶＧ抑制乙烯生成可使ＮＫ５８Ｓ（ＬＤ）不育性明显逆转,而用ＡＣＣ促进乙烯生成又可急剧降低ＮＫ５８Ｓ（ＳＤ）的可育水平。表明幼穗乙烯生成与ＰＧＭＲ育性表达密切相关,乙烯参与育性转换的调控并可能起着重要作用。     

Fertility response to photoperiod and temperature in indica photoperiod-sensitive male sterile rice

The aim of this work was to develop a photoperiod-sensitive male sterile rice with stable sterility. We developed Changguang S, an indica rice strain, by using a short critical day length. Differences in the fertility responses of Changguang S strain pollen to temperature and photoperiod under natural and controlled conditions were studied. The results showed that Changguang S strain exhibited stable sterility under long-day and low-temperature conditions (22°C, 15 days). The stability of sterility was significantly higher than that of other such rice strains, Nongken 58S and 7001S. The critical photoperiod for inducing male sterility in Changguang S was 13 h or shorter, and its duration was significantly shorter than that required for rice strains Nongken 58S and 7001S. It is suggested that Changguang S is a typical photoperiod-sensitive male sterile rice strain with a shorter critical day length and a lower critical temperature. It is promising to apply this strain to two-line hybrid rice production.     

pms3 is the locus causing the original photoperiod-sensitive male sterility mutation of‘Nongken 58S'

Photoperiod-sensitive genic male sterile (PSGMS) rice is a very useful germplasm for hybrid rice development. It was first found as a spontaneous mutant in a japonica cultivar 'Nongken 58'. pms3 on chromosome 12 was determined to be the locus where the original PSGMS mutation occurred, changing the normal cultivar Nongken 58 to PSGMS Nongken 58S. Large amounts of RAPD and AFLP analyses were also conducted for the fine mapping of the pms3 genomic region, which resulted in 4 molecular markers linked to pms3. Although these markers somewhat increased the marker density of this region, the pms3 locus is still located in a marker-sparse region.     

pms3 is the locus causing the original photoperiod-sensitive male sterility mutation of ’Nongken 58S’

Photoperiod-sensitive genic male sterile (PSGMS) rice is a very useful germplasm for hybrid rice development. It was first found as a spontaneous mutant in a japonica cultivar ’Nongken 58.pms3 on chromosome 12 was determined to be the locus where the original PSGMS mutation occurred, changing the normal cultivar Nongken 58 to PS-GMS Nongken 58S. Large amounts of RAPD and AFLP analyses were also conducted for the fine mapping of the pms3 genomic region, which resulted in 4 molecular markers linked to pms3. Although these markers somewhat increased the marker density of this region, the pms3 locus is still located in a marker-sparse region.     

免疫测定光敏核不育水稻中光敏色素Ⅰ含量

光敏核不育水稻（农垦５８Ｓ）是中国水稻研究中的一个重要发现,在水稻杂交育种上有巨大潜力。研究表明：农垦５８Ｓ的雄性不育性受光周期调控,光敏色素是育性转变过程中光周期反应的光受体,然而,鉴于高等植物中存在至少两种不同的光敏色素分子,并且它们同时存在于水稻中,人们对调节农垦５８Ｓ雄性不育过程的光敏色素分子种类及作用方式仍然不清楚。本文采用酶联免疫吸附测定法（ＥＬＩＳＡ）,比较了不同光周期下农垦５８Ｓ和对照品种农垦５８叶片（光周期感受器官）中光敏色素Ｉ（ｐｈｙＡ）的含量。从农垦５８Ｓ的二次枝梗原基分化期开始,进行１０天的光周期处理。一组为短日照（ＳＤ）,另一组为长日照（ＬＤ）。在第１０个暗期结束前,于暗绿光下收获每株水稻的最上部两片新展叶,立即保存在液氮中。样品在研钵中磨成液氮粉,然后加入提取液（含５０ｍｍｏｌ／ＬＴｒｉｓ－ＨＣＩ和０．２ｍｏｌ／Ｌ巯基乙醇,ｐＨ８．５）匀浆。粗提液经０．５％聚乙烯亚胺（ＰＥＩ）沉淀后,上清液供ＥＬＩＳＡ分析。以燕麦ｐｈｙＡ的多克隆抗体、单克隆抗体分别作ＥＬＩＳＡ的一抗和检测抗体。采用ＥＬＩＳＡ可以专一性地检测水稻ｐｈｙＡ（Ｔａｂｌｅ１）。几次独立的实验说明,光周期处理对ｐｈｙＡ含     

核酸代谢抑制剂对水稻光敏核不育性的影响

在稻穗分化的二次枝梗期后,观察比较了叶片喷施核酸代谢抑制剂5-FU对水稻光敏核不育性及幼穗发育的影响,结果表明：长日照下,5-FU在使农垦58S穗长缩短、颖花数减少的同时,却使其抽穗提前,可育性得到一定程度的恢复;5-FU处理还使农垦58的抽穗被完全阻止。在短日照下,5-FU处理则使农垦58S与农垦58在穗长与颖花数减少的同时,其抽穗反被延迟,可育性受到抑制而结实率显著降低,上述效应还可被随后施用的恢复剂乳清酸所弱化。因此可以认为光敏核不育现象与稻穗发育中核酸代谢的改变有关。     

氮素形态对烤烟光合特性影响的研究

1996～1997年连续二年进行了固定氮素用量,改变铵态、硝态氮肥的施用比例试验,对烤烟的一些光合生理特性进行了研究。试验结果表明,在烤烟生长前、中期,增施铵态氮施用比例,烤烟的叶绿素含量增加,但达100％铵态氮时,叶绿素含量反而下降,低于施用50％和75％铵态氮的处理;在烤烟生长后期．功能叶片叶绿素含量基本上与施用铵态氮比例高低—致,以100％铵态氮处理的叶绿素含量最高。另外增加铵态氮施用比例,烤烟功能叶片的希尔反应活性及光合磷酸化活性有所提高,但P/O比值基本不变。从叶绿素诱导荧光动力学特征参数及比值情况来看：增加铵态氮施用比例,Fm和Fv值升高;几种荧光参数的比值如Fd/Fs、Fv/Fo、Fv/Fm比值有所上升,但均以25％硝态氮+75％铵态氮的处理最高;并且其烤后烟叶的产量最高、品质最好。     

利用分子标记定位农垦58S的光敏核不育基因

对农垦５８Ｓ（Ｏｒｙｚａｓａｔｉｖａｓｐ．ｊａｐｏｎｉｃａ）／大黑矮生标记基因系ＦＬ２组合组建可育集团和不育集团,并以亲本为对照进行了ＲＦＬＰ、ＲＡＰＤ和双引物ＲＡＰＤ分析,结果第１２染色体上的一个单拷贝标记Ｇ２１４０与光敏核不育基因连锁遗传,二者间的遗传图距为１４．１ｃＭ（ｃｅｎｔｉｍｏｒｇａｎ）。在筛选过的１０４０个随机单引物和１９０个双引物中,仅引物ＯＰＡＵ１０扩增出与光敏核不育基因连锁的１．５ｋｂＤＮＡ片段,回收、克隆该ＤＮＡ片段并制备探针,将其转换成共显性的ＲＦＬＰ标记并命名为ＯＰＡＵ１０１５００。分离群体连锁分析表明该标记与标记Ｇ２１４０紧密连锁,将农垦５８Ｓ的一对光敏核不育基因定位于第１２染色体上。     

RFLP、RAPD、AFLP在水稻农垦58S和1514中多态性比较

本文用RFLP、RAPD和AFLP三种分子标记技术对农垦58SX1514组合及其F2极性集团进行了分 析,比较了它们多态性和阳性的比率,结果显示,三种分子标记的多态性和与目的基因连锁的阳性比率分别为19.93% , 5.23% ;11.17% , 0.76%和86.47% , 7.52%。AFLP的多态性比率和阳性比率均为最高。分析探讨了三种分子标记技术的优缺点及其在区间高分辨率作图和筛选与目的基因连锁标记中的运用。     

RFLP、RAPD、AFLP在水稻农垦58S和1514中多态性比较

本文用ＲＦＬＰ、ＲＡＰＤ和ＡＦＬＰ三种分子标记技术对农垦５８ＳＸ１５１４组合及其Ｆ２极性集团进行了分析,比较了它们多成性和阳性的比率,结果显示,三种分子标记的多态性和与目的基因连锁的阳性比率分别为１９．９３％,５．２３％;１１．１７％,０．７６％和８６．４７％,７．５２％。ＡＦＬＰ的多态性比率和阳性比率均为最高。分析探讨了三种分子标记技术的优缺点及其在区间高分辩率作图和筛选与目的基因连锁标记中的运     

光敏核不育水稻农垦58S与其衍生不育系的叶绿体DNA的比较

扩增了光敏核不育系农垦58S及从它衍生出来的5个两用核不育系叶绿体DNA的ORF（open reading frame）100、ORF29-TrnC^GCA、rps16（ribosomal proteins16）基因内含子和TrnT^UGU-TrnL^UAA（tRNA^Thr（UGU）-tRNA^-Leu（UAA）等4个片段,并测定了其序列。研究结果表明,粳型光敏核不系农垦58S的叶绿体为粳型。农垦58S衍生的核不育系中,粳型核不育系7001S以及3个籼型核不育系1103S、培矮64S和广占63S的叶绿体DNA为粳型,与选育者提供的细胞质系谱一致。籼型核不育系W6154S的叶绿体DNA为籼型,与选育者提供的细胞质系谱不一致,推断选育者在选育过程中更换过细胞质（曾用不育系作过父本）。5个粳型叶绿体DNA的rps16基因内含子和TrnT^UGU-TrnL^UAA间区的序列相互之间有1-2个单核苷酸的变异。