T-DNA插入水稻群体中卷叶突变体R1-A2的遗传分析

在根癌农杆菌介导的T-DNA(携带有除草剂Basta抗性基因bar和Ds因子)转化中花11水稻群体中,获得了一个叶片发生明显内卷的突变体R1-A。经过连续三代的分离鉴定,获得突变体的纯合株(R1-A2),并与中花11号进行杂交,在调查的36个F_1植株中,全部表现为卷叶,并对Basta除草剂都表现为抗性。在852个F_2单株中,卷叶为645株,正常叶207株,卷叶和正常叶的比例为3:1,其中,卷叶株均对Basta表现抗性,正常叶株均对Basta表现敏感,表明卷叶性状和Basta抗性存在着共分离关系。用扩增Ds因子的引物,对F_2中45个卷叶抗性株进行PCR鉴定,都获得预期长度的Ds因子片段,进一步表明在这些卷叶的植株中都有T-DNA的插入;而30个正常叶敏感株都不能检测到Ds的特征片段。在以卷叶突变(R1-A2)为回交亲本的F_1B_1植株中,全部植株表现卷叶;在以中花11号为回交亲本的F_1B_1植株中,卷叶和正常叶植株的分离比为1:1。上述结果表明该卷叶突变是个显性突变,受一个基因所控制,且该基因的突变与T-DNA的插入有关。     

番茄果实乙烯释放量的遗传模型分析

本试验选择2个番茄果实乙烯释放量显著不同的番茄品系,通过P_1、P_2、F_1、F_2、B_1和B_2六世代的分析方法,研究了番茄果实乙烯释放量的遗传规律.结果表明:番茄果实乙烯释放量遗传符合1对负向完全显性主基因+加性-显性多基因模型(D-4),主基因效应在B_1、B_2和F_(23)个世代的遗传率分别为36.33%、44.09%和35.14%,多基因效应在B_1、B_2和F_(23)个世代的遗传率分别为54.73%、40.50%和54.88%.     

野败型杂交籼稻基因型的初步分析

通过对F_1、F_2和B_2各代结实率分布的遗传分析,获知野败型二九南1号A的雄性不育性受2对独立隐性基因的控制,而恢复系IR-24具有2对独立显性恢复基因。杂种一代南优2号具有2个显性恢复基因,在套袋情况下,F_1的结实率分布在30-75％之间,平均结实率约为57％,但在大田自由授粉条件下,平均结实率可以额外再提高25％左右。试验结果表明,显性恢复基因具有明显的剂量效应或加性效应。     

“Spelta 545”细胞质的雄性不育性

通过对(Spelta 545×662-249)F_1、F_2和BC_1的雄性育性的观察,证实Spelta 545具有对普通小麦品种的雄性不育细胞质。将Spelta(545×662-249)F_2和BC_1中出现的雄性不育株,授以普通小麦品种的花粉能正常结实,表明Spelta 545的雄性不育细胞质对卵细胞的发育和受精结实没有不良影响。     

一个辣椒功能性雄性不育系的花器形态及遗传研究

本文报道了一个新型辣椒功能性雄性不育系的花器形态和遗传规律。研究表明,新发现的辣椒雄性不育花冠退化,大部分雄蕊萎缩、没有花丝、具发育不完整的花药;虽然花内1～2枚发育正常的雄蕊有少量可育花粉,但由于花萼畸长紧闭,不能开花。雌蕊发育正常,人工辅助自花或异花杂交可正常结果并产生种子。遗传杂交分析表明,该功能性雄性不育遗传上受一对隐性核基因控制,用基因符号fms表示。 Abstract: The floral organ morphology and inheritance of a new functional male sterile line 235A in Capsicum annuum L.were investgated.The corolla of the 235A degenerated and most of its shrivelling stamen had incompletely developed anther and stigma.A few fertile pollens in one or two completly developed stamen were not emerged because anthers were closed by much longer calyx.Completly developed pistil could produred fruits and seeds by man-pilinations.Inheritant analysis showed that the new functienal male steriliy in pepper was controled by a signal nuclear recessive gene.The gene symbol fms were assigned to this character.     

八倍体小偃麦与普通小麦杂交后代的细胞遗传学研究

本研究以八倍体小偃麦小偃7430和普通小麦鲁麦1号为亲本,对其杂种的6个世代(F_1、F_2、F_3、B_1F_2、B_1F_3、B_2F_2)的细胞遗传学进行了研究。结果表明:从杂种F_1开始,随着自交和回交世代的增进,杂种后代植株染色体数逐渐减少;植株染色体数越多,减数分裂中期Ⅰ单价体出现频数、多价体出现类型及频数也越多,但二价体出现个数基本稳定在21左右。通过细胞学鉴定和性状观察,从小偃7430与鲁麦1号杂交的不同世代中选出了几个二体异附加株,有的农艺性状较好;还选出了农艺性状好,细胞学基本稳定的2n=42的株系,初步实现了将偃麦草的某些特异染色体或优良基因导入普通小麦遗传背景的目的。     

水稻单株有效穗数主基因＋多基因混合遗传分析

选择单株有效穗数差异大的3个亲本CB1（15.3）、CB4（6.4）和CB7（11.8）,配制CB1×CB4和CB7×CB4组合,建立了相应的P_1、F_1、P_2、B_1、B_2、F_2群体,将其分为中、晚两个生产季节种植,考察了有效穗数性状.利用主基因＋多基因混合遗传模型理论的Akaike信息准则（AIC）在B_1、B_2、F_2代中鉴定影响数量性状的主基因存在与否,主基因存在时通过分离分析估计主基因和微效基因的遗传效应及所占总变异的分量.结果表明该性状在所有B_1、B_2、F_2中均符合2对加性-显性-上位性主基因＋加性-显性-上位性多基因的遗传模式,主基因遗传率为30.64%-72.26%,多基因遗传率为3.41%-28.20%,总基因遗传率为45.96%-87.29%;相同组合种植季别主基因遗传率及一阶参数对比表明,杂交亲本的选择及种植季别对该性状遗传率影响较小,h_a、h_b、j_（ab）、j_（ba）值均为负值表明显性效应和加性显性互作对该性状表达具有抑制作用.     

水稻光温敏核不育系的育性遗传分析

运用混合遗传模型对水稻光温敏核不育系1290S与1990杂交的F_1、F_2、B_1、B_2和P_1、P_2多世代群体进行联合分析,结果表明:光温敏核不育性遗传符合E-1模型,为两对加性-显性-上位性主基因 加性-显性多基因遗传模型．两对主基因的加性效应均为-0．059,而两对主基因的显性效应分别为0．153和-0．263,多基因的显性效应更大,为-0．404．其中上位性效应比较明显,以显性．显性互作最大,达0．435．B_1、B_2和F_2群体中主基因遗传率分别为56．03%,44．44%,83．0 7%,多基因遗传率分别为42．24%,33．33%,15．23%,表明1290S的不育性主要由两对主基因 多基因相互配合控制遗传的,环境虽有一定影响,但影响较小．     

亚洲棉同源四倍体与陆地棉杂交和回交后代育性遗传的研究

为培育棉花细胞质雄性不育系,从1973年起用陆地棉与人工加倍获得的中棉同源四倍体杂交,以杂种(F_1)为母本,连续用陆地棉作为轮迴亲本回交,1979年获得F_1及四次回交后代,以此为材料研究F_1及其回交后代的育性遗传。中棉同源四倍体雄性全不育,用陆地棉花粉授粉可以成铃,成铃率显著高于中棉二倍体×陆地棉。中棉同源四倍体×陆地棉的F_1雌性高度不育,雄性完全不育;BC_1F_1雌雄配子育性更低于F_1;BC_2F_1雌配子育性迅速恢复,雄配子仍不育;BC_3F_1和BC_4F_1雌配子育性继续提高,雄配子育性发生分离,由BC_2F_1不育株所产生的BC_3F_1群体中,雄性不育株率为17.5％,由BC_3F_1不育株所产生的BC_4F_1群体雄性不育株率达66.6％。对F_1及回交各世代花粉粒形态和生活力作了鉴定,同时对F_1及回交各世代的花粉母细胞减数分裂行为进行了观察。     

甘蓝型油菜芥酸和二十碳烯酸含量的基因效应

以甘蓝型油菜的4种纯合芥酸基因型之间所有可能的6个杂交组合的P_1、P_2、F_1、P_2、B_1和B_2世代为材料,用生统遗传学方法研究了芥酸和二十碳烯酸的基因作用形式及效应。发现无论亲本是单基因差异还是二基因差异,F_1和F_2代的芥酸含量都接近中亲值,F_1略大于中亲值和F_(20)世代均值分析表明,芥酸含量的遗传符合加性显性模型,加性效应占绝对优势,显性效应不显著。用数量遗传学方法估计的芥酸基因数与已知的结果相近。     

A new fertility restorer locus linked closely to the Rfo locus for cytoplasmic male sterility in radish

In this study, we have investigated a new fertility restorer (Rf) locus for cytoplasmic male sterility (CMS) in radish. We have obtained a CMS-Rf system consisting of sterile line '9802A1', maintainer line '9802B1' and restorer line '9802H'. F(1) plants from cross between sterile line '9802A1' and restorer line '9802H' were all male fertile, self pollination of F(1) plants produced an F(2) segregating population consisting of 600 individuals. The segregating population was found to fit a segregation ratio 3:1 for male fertile and sterile types, indicating that male fertility is restored by a single dominant gene (termed Rfo2) in the CMS-Rf system. Based on the DNA sequence of Rfo/Rfk1 (AJ535623), just one full length gene in the sterile line '9802A1', in the restorer line '9802H' and in the male fertile line '2006H', was cloned, respectively. The three sequences correspond to the same gene with two alleles: Rfob in '9802H' and rfob in '9802A1' and '2006H'. These two alleles differ from Rfo/Rfk1 and rfk1 (AJ535624) alleles by two synonymous base substitutions, respectively. Based on the differences between the Rfob and rfob genes, one PCR-based marker was developed, and designated Marker 1, which is identical to the corresponding region of Rfob by sequence analysis. In the F(2) segregating population described above, the Marker 1 was present in 5 sterile plants and in 453 fertile plants, absent in 4 fertile plants and in 138 sterile plants, and was found to fit a segregation ratio 3:1 indicating that Rfob was single copy in '9802H'. Linkage analysis showed that the Rfo2 locus for our CMS-Rf system was distant from the Rfo locus by about 1.6 cM. The sterile line '9802A1' was pollinated by the male fertile line '2006H' and the resulting F(1) plants were all male fertile. These results indicated that the male fertility of radish CMS can be restored by a new Rf locus, which linked tightly to the Rfo locus.     

mRNA differential display between sterile and fertile anther of rice and analysis of cDNA differential fragments

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Genetic Study on the Herbicide (Liberty) Resistibility and Its Application on Utilizing Heterosis in Rice

Three restoring lines (Minghni 63, Ce 64 and Teqing) as female parents were crossed with herbicide-resistant transgenic cultivars (Bengal-Hul0 and Gulfmont) as male parents. Genetic analysis on generations of F1, F2 and BC1 indicated that the resistance to the herbicide (Liberty) was controlled by a single deminant nuclear gene. The resistance to the herbicide will work as a marker for the true hybrid from crossing with the male parent, but not for all other plants from either selfing, or intracrossing in female parent population. After the application of the herbicide, all plants except the true hybrid were eliminated. With the aid of this technology, the strict requirement of complete sterility for male sterile hne in crops can be reduced. It will be beneficial not only for breeding new excellent male sterile lines, but also for commercializing chemically induced male sterile system in crops.     

感光性的遗传背景对水稻短光诱导雄性不育特性表达的影响研究

通过对双亲及Ｆ１的感光性分析和Ｆ２群体单株的感光性及短光不育特性分析表明,强感光性对弱感光性表现为显性;具短光不育特性的单株其感光性均表现为中度以上感光（短日出穗促进率〉１５％）。对宜ＤＩＳ与宜Ｄ２Ｓ的光敏性、感光性分析和不育基因的等位性测定表明,两者感光性与光敏性符合正相关的结论,它们的不育主基因是等位的。可以认为,对短光低温不育水稻,短光不育基因需要在感光性基因存在时才能得到表达,同一不育基因     

一个新的小麦核不育材料的发现和鉴定

从轮选可育株衍生的后代中发现一个雄性不育株,即P740不育材料。在P7 40不育材料第1、2、3次姊妹交后代中,可育株与不育株的分离比分别符合4:1、 7:5和15:13。在第2次姊妹交后代中可育株产生的40个株系中,7个株系的育性分离比是15:1,33个株系是3:1,二者约分别占1/7和6/7。以上结果表明,P740是一个双隐性基因控制的核雄性不育材料。本文提出了计算隐性核不育材料姊妹交后代育性分离比率的公式。 Abstract:A male sterile material was found in the progeny derived from a fertile plant in the population of recurrent selection.The ratios of fertile to sterile plants in three sib-mating of the male sterile material with fertile plants were to 4:1,7:5 and 15:13,respcctively.In the 40 plant lines derived from the fertile plants of second sib-mating population,33 lines approximated to the segregation ratio of 3(fertile):a double recessive nuclear male sterile material.A genetic pattern for calculation of fertile segregation in sib-mating progenies of recessive nuclear male sterile material was advanced in this paper.     

谷子雄性不育系1066A不育基因和黄苗基因的染色体定位

以谷子(Setaria italica (L.) Beauv.)雄性不育系1066A为母本,豫谷1号三体(1～7)及四体8和四体9作父本进行杂交,应用初级三体分析法,进行了谷子雄性不育基因和黄苗基因的染色体定位研究.通过配置大量杂交组合和反复授粉,利用豫谷1号三体的极少量花粉,获得了三体2～9的F1代杂种,各杂种三体的形态与豫谷1号三体基本相似,略有差异,苗色呈绿色且可育.杂种F2植株的苗色和育性都产生分离.结果是三体3、5、7、8、9的F2代分离出的可育株与不育株之比为3∶1,三体6的可育株与不育株之比为14∶1 (χ2=0.012,P=0.01).杂种F2分离出的绿苗与黄苗之比只有三体7为12∶1 (χ2=0.36, P=0.01),其他均为3∶1.因此,可以确定1066A的不育基因为隐性单基因,位于第6号染色体上,该品系的黄苗基因也是隐性单基因,位于第7号染色体上.     

Mitochondrial aldehyde dehydrogenase activity is required for male fertility in maize

Some plant cytoplasms express novel mitochondrial genes that cause male sterility. Nuclear genes that disrupt the accumulation of the corresponding mitochondrial gene products can restore fertility to such plants. The Texas (T) cytoplasm mitochondrial genome of maize expresses a novel protein, URF13, which is necessary for T cytoplasm-induced male sterility. Working in concert, functional alleles of two nuclear genes, rf1 and rf2, can restore fertility to T cytoplasm plants. Rf1 alleles, but not Rf2 alleles, reduce the accumulation of URF13. Hence, Rf2 differs from typical nuclear restorers in that it does not alter the accumulation of the mitochondrial protein necessary for T cytoplasm-induced male sterility. This study established that the rf2 gene encodes a soluble protein that accumulates in the mitochondrial matrix. Three independent lines of evidence establish that the RF2 protein is an aldehyde dehydrogenase (ALDH). The finding that T cytoplasm plants that are homozygous for the rf2-R213 allele are male sterile but accumulate normal amounts of RF2 protein that lacks normal mitochondrial (mt) ALDH activity provides strong evidence that rf2-encoded mtALDH activity is required to restore male fertility to T cytoplasm maize. Detailed genetic analyses have established that the rf2 gene also is required for anther development in normal cytoplasm maize. Hence, it appears that the rf2 gene was recruited recently to function as a nuclear restorer. ALDHs typically have very broad substrate specificities. Indeed, the RF2 protein is capable of oxidizing at least three aldehydes. Hence, the specific metabolic pathway(s) within which the rf2-encoded mtALDH acts remains to be discovered.     

Alloplasmic male-sterile <Emphasis Type="Italic">Brassica juncea</Emphasis> with <Emphasis Type="Italic">Enarthrocarpus lyratus</Emphasis> cytoplasm and the introgression of gene(s) for fertility restoration from cytoplasm donor species

A new cytoplasmic male sterility (CMS) source in Brassica juncea (2n = 36; AABB) was developed by substituting its nucleus into the cytoplasm of Enarthrocarpus lyratus (2n = 20; E(l)E(l)). Male sterility was complete, stable and manifested in either petaloid- or rudimentary-anthers which were devoid of fertile pollen grains. Male sterile plants resembled the euplasmic B. juncea except for slight leaf yellowing and delayed maturity. Leaf yellowing was due mainly to higher level of carotenoids rather than a reduction in chlorophyll pigments. Female fertility in male-sterile plants varied; it was normal in lines having rudimentary anthers but poor in those with petaloid anthers. Each of the 62 evaluated germplasm lines of B. juncea was a functional maintainer of male sterility. The gene(s) for male-fertility restoration ( Rf) were introgressed from the cytoplasm donor species through homoeologous pairing between A and E(l) chromosomes in monosomic addition plants (2n = 18II+1E(l)). The percent pollen fertility of restored F(1) ( lyr CMS x putative restorer) plants ranged from 60 to 80%. This, however, was sufficient to ensure complete seed set upon by bag selfing. The CMS ( lyr) B. juncea compared favourably with the existing CMS systems for various productivity related characteristics. However, the reduced transmission frequency of the Rf gene(s) through pollen grains, which was evident from the sporadic occurrence of male-sterile plants in restored F(1) hybrids, remains a limitation.     

TA29-barnase基因转化菜心

利用根癌农杆菌导入法, 以菜心带柄子叶为外植体, 对TA29-barnase基因转化菜心进行研究。获得转化植株,进行PCR、Southern blotting杂交和半定量RT-PCR检测, 表明目的基因已经整合到转化植株中, 并且目的基因在转基因植株花蕾中得到表达, 但是表达水平在不同转基因植株间存在差别; 转基因植株开花后, 均表现雄性不育, 不能产生花粉或产生没有活力的少量花粉, 自交不能结实; 用未转化植株正常花粉对雄性不育植株进行授粉, 能够正常结实; 保持系(未转化植株)与不育株杂交后代中雄性不育株与可育株的比例为1:1, 在杂交后代植株子叶期, 喷洒10 mg/L的PPT可以完全杀死可育株; 利用其他菜心品种为父本与不育株进行杂交, 获得的F1植株在生长势和产量方面表现优势, 表明开展菜心优势育种具有一定的潜力。     

TA29-barnase基因转化菜心

利用根癌农杆菌导入法, 以菜心带柄子叶为外植体, 对TA29-barnase基因转化菜心进行研究。获得转化植株,进行PCR、Southern blotting杂交和半定量RT-PCR检测, 表明目的基因已经整合到转化植株中, 并且目的基因在转基因植株花蕾中得到表达, 但是表达水平在不同转基因植株间存在差别; 转基因植株开花后, 均表现雄性不育, 不能产生花粉或产生没有活力的少量花粉, 自交不能结实; 用未转化植株正常花粉对雄性不育植株进行授粉, 能够正常结实; 保持系(未转化植株)与不育株杂交后代中雄性不育株与可育株的比例为1:1, 在杂交后代植株子叶期, 喷洒10 mg/L的PPT可以完全杀死可育株; 利用其他菜心品种为父本与不育株进行杂交, 获得的F1植株在生长势和产量方面表现优势, 表明开展菜心优势育种具有一定的潜力。