苎麻雄性不育材料的生理生化特性初探

在苎麻(Boehmeria nivea(L.) Gaud)雌雄性器官发育期取功能叶,现蕾后取幼蕾(直径小于0.4mm)、中蕾(直径0.4-1.2mm)、大蕾(直径大于2.0mm),比较分析苎麻雄性不育材料C26、C4与可育材料B8、B16的可溶性糖含量、淀粉含量、游离脯氨酸含量、可溶性蛋白含量以及过氧化物酶(POD)活性的差异。结果表明,不育材料在各时期的花蕾中可溶性糖含量都高于可育材料的,以大蕾最为明显,C26比B8高0.58%,C4比B16高0.83%;淀粉和游离脯氨酸含量从中蕾期开始,不育材料明显低于可育材料,到大蕾期差异最大(淀粉含量B8/C26为1.81,B16/C4为1.46;游离脯氨酸含量B8是C26的7.35倍,B16为C4的3.94倍);在相同花蕾期,可育材料的POD活性略高于不育材料。可溶性蛋白质含量在可育材料和不育材料中无明显规律性。这些物质的代谢可能是导致苎麻雄性不育的原因。     

枸杞花粉发育进程中花蕾和叶片物质代谢与育性的关系

以宁夏枸杞主栽品种'宁杞1号'的雄性不育株和可育株为研究材料,通过测定它们枝条生长速率,花粉不同发育时期花蕾和叶片的叶绿素、可溶性糖和脯氨酸含量以及硝酸还原酶活性,比较不育株与可育株在发育进程中物质代谢的差异.结果表明:在枸杞花粉发育进程中,不育株枝条生长速率快,花蕾和叶片的叶绿素含量高,而脯氨酸严重缺乏,可溶性糖含量和硝酸还原酶活性低,且各个发育阶段不育株和可育株均存在明显差异.可见,'宁杞1号'不育株物质代谢水平低,缺乏生理活性物质积累,使花粉发育有关基因的表达受到抑制,最终影响了其育性的正常表达.     

白菜型冬油菜不育系LRCMS花器生理生化特性及其雄蕊发育特征研究

以白菜型冬油菜‘陇油8号’ב陇油9号’杂交后代中选育出的不育系LRCMS,以及代表性甘蓝型油菜不育系(J39A、J68A、Pol10A)和它们的保持系为材料,研究LRCMS在盛花期花蕾和花中POD、SOD、CAT活性和可溶性蛋白含量、过氧化物酶(POD)同工酶谱变化特征及其雄蕊败育过程。结果显示:(1)所有参试材料花朵中POD活性普遍高于花蕾。(2)不育材料POD活性高于保持材料,甘蓝型不育材料POD活性较保持材料增加幅度大于LRCMS与‘陇油9号’,LRCMS花蕾与花的POD活性分别较保持系材料‘陇油9号’高出15.0%和9.0%;不育材料花的CAT活性高于保持系材料89%~293%,而其花蕾的CAT活性低于保持系材料25%~43%,LRCMS与其它不育材料间无显著差异;不育系材料花SOD活性低于保持系材料15%~25%,LRCMS与其它不育材料无显著差异,其花蕾SOD活性高于保持材料6%~112%,但LRCMS增加幅度低于其它不育材料;保持系材料花蕾与花中蛋白质含量为0.014~0.020mg/g,不育系材料花蕾与花中蛋白质含量为0.012~0.016mg/g,所有不育材料蛋白质含量均低于保持材料。(3)LRCMS的POD同工酶谱在花中较对应的可育系‘陇油9号’和其它甘蓝型雄性不育多1条迁移率(Rf)为0.623的条带。(4)LRCMS雄蕊败育起始于造孢细胞期,造孢细胞粘连,无核仁,绒毡层未发育,为无花粉囊型不育。研究表明,LRCMS与其他类型油菜不育系有着不同的遗传背景,是一个新的白菜型冬油菜不育类型。     

峨眉拟单性木兰雄性不育的细胞形态学及生理生化特性研究

峨眉拟单性木兰(Parakmeria omeiensis)是木兰科(Magnoliaceae)拟单性木兰属(Parakmeria)的常绿乔木,属于国家Ⅰ级保护的极度濒危植物。为探究峨眉拟单性木兰两性花中雄性败育发生的时期及花药不同发育时期的生理生化特性,以两性花中的不育雄蕊和雄花中的可育雄蕊为材料,利用石蜡切片观察2种雄蕊的花药发育过程,并测定不同发育时期的可溶性糖、可溶性蛋白、脯氨酸的含量,分析过氧化氢酶(CAT)、过氧化物酶(POD)的活性。结果表明：(1)不育雄蕊与可育雄蕊在减速分裂时期出现明显差异,不育雄蕊的绒毡层致密、没有发育,四分体未形成,随后解体,花粉囊中无花粉;可育雄蕊的绒毡层和小孢子母细胞发育正常,成熟时花粉囊开裂,花粉粒溢出。(2)不育雄蕊的可溶性糖含量、可溶性蛋白含量、脯氨酸含量,在减数分裂时期、单核期和花粉成熟期都显著低于可育雄蕊。(3)不育雄蕊POD活性整体呈上升趋势,在减数分裂时期、单核期和花粉成熟期都显著高于可育雄蕊;不育雄蕊CAT活性整体呈下降趋势,显著低于同时期的可育雄蕊。综上认为,两性花中雄性败育发生在减速分裂时期,其败育的主要原因是物质能量代谢降低...     

单显性细胞核雄性不育油菜花雷表达蛋白比较研究

以受1对显性基因控制的单显性细胞核雄性不育油菜为材料,运用蛋白双向电泳技术对初花期不育花蕾和可育花蕾中蛋白质表达差异进行分析.结果表明,可育花蕾中表达的蛋白质总点数高于不育系.不育花蕾和可育花蕾中共有的蛋白点为223个,不育花蕾特有的蛋白质点数为103个,而可育花蕾中特有的蛋白质点数为160个.可育花蕾中表达的特有蛋白质分子量主要分布在60kD以下的小分子量区域,30kD尤为丰富;不育花蕾中表达的特有蛋白按分子量分布相对均匀.两者表达特有蛋白都相对集中在pI6.0～7.5区域,多为中性蛋白.     

单显性细胞核雄性不育油菜花蕾表达蛋白比较研究

以受1对显性基因控制的单显性细胞核雄性不育油菜为材料,运用蛋白双向电泳技术对初花期不育花蕾和可育花蕾中蛋白质表达差异进行分析.结果表明,可育花蕾中表达的蛋白质总点数高于不育系.不育花蕾和可育花蕾中共有的蛋白点为223个,不育花蕾特有的蛋白质点数为103个,而可育花蕾中特有的蛋白质点数为160个.可育花蕾中表达的特有蛋白质分子量主要分布在60kD以下的小分子量区域,30kD尤为丰富;不育花蕾中表达的特有蛋白按分子量分布相对均匀.两者表达特有蛋白都相对集中在pI6.0～7.5区域,多为中性蛋白.     

湖北光周期敏感核不育水稻农垦58S幼穗和花药发育期的蛋白酶活性变化

湖北光周期敏感核不育水稻农垦585的可育与不育株在一次枝梗期的幼穗中可溶性蛋白含量相近。雌雄蕊形成期和花粉母细胞分化期的可有株可溶性蛋白较不育株的分别高21％和12．3％;可有株在花粉二核和三核期亦有较高含量。不育株在雌雄蕊形成期后,酪蛋白酶活性迅速增高,而可有株至二核期才增高。不育株除在二次枝梗期的内肽酶活性略低外,其余阶段酶的活性较高。育性转变时内肽酶类型亦发生变化。可有株有较高的氨肽酶活性．     

辣椒雄性不育材料H9A小孢子败育机理

运用光学、电子显微技术及生化指标测定法, 对辣椒(Capsicum annuum)雄性不育材料H9A及其保持系H9B小孢子不同发育时期进行细胞形态学观察及生化特性分析。结果表明, 雄性不育材料H9A的小孢子败育发生在单核前期, 由于绒毡层细胞极度膨胀, 四分体受挤压后破裂并降解, 无法形成正常的单核花粉粒, 属于孢子体败育。不育材料花蕾中的过氧化物酶活性从四分体时期开始明显高于保持系, 保持系游离脯氨酸含量从单核小孢子期开始明显高于不育材料; 不育材料小孢子发育各时期的可溶性蛋白含量都明显低于保持系, 但丙二醛含量均高于保持系。     

葱胞质雄性不育花蕾生化物质含量和能量代谢酶活性的动态变化特征

以葱胞质雄性不育系CA及其同核异质保持系CB为试材,研究了花蕾发育过程中IAA、GA3、ZR、ABA含量以及细胞色素氧化酶(COD)和ATP酶(ATPase)活性、可溶性糖、游离氨基酸和可溶性蛋白质含量的动态变化规律.结果显示:(1)葱不育系花蕾的IAA和GA3含量在败育过程中显著低于保持系,而ZR和ABA含量则较保持系有不同程度的盈积.不育系花蕾COD和ATPase活性以及游离氨基酸含量、可溶性蛋白质含量在中蕾期后显著低于保持系,可溶性糖在不同发育时期均基本低于保持系.(2)不育系花蕾IAA和GA3含量与可溶性糖含量变化均呈显著正相关,不育系ZR和保持系ABA含量则分别与COD、ATPase活性以及可溶性糖、可溶性蛋白质含量存在负相关关系.研究表明,葱胞质雄性不育系花蕾中IAA和GA3亏缺,而ZR和ABA盈余,各种内源激素含量和营养物质含量与能量代谢有关酶活性相关性不尽相同.     

辣椒雄性不育材料H9A小孢子败育机理

运用光学、电子显微技术及生化指标测定法, 对辣椒（Capsicum annuum）雄性不育材料H9A及其保持系H9B小孢子不同发育时期进行细胞形态学观察及生化特性分析。结果表明, 雄性不育材料H9A的小孢子败育发生在单核前期, 由于绒毡层细胞极度膨胀, 四分体受挤压后破裂并降解, 无法形成正常的单核花粉粒, 属于孢子体败育。不育材料花蕾中的过氧化物酶活性从四分体时期开始明显高于保持系, 保持系游离脯氨酸含量从单核小孢子期开始明显高于不育材料; 不育材料小孢子发育各时期的可溶性蛋白含量都明显低于保持系, 但丙二醛含量均高于保持系。     

小麦不同细胞质雄性不育系及其保持系萌动胚及幼芽可溶性蛋白等电聚焦电泳分析

用等电聚焦电泳分析的方法,测定了小麦（Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍ ）３ 种细胞质雄性不育类型（Ａ 型、Ｅ型、Ｔ型）及其相应同核保持系萌动胚及幼芽可溶性蛋白． 发现雄性可育系等电点（ｐＩ）为４．９０ 的蛋白质合成数量高于相应的不育系;ｐＩ为６．８５ 的蛋白质可能是Ｔ 型细胞质基因表达的结果;ｐＩ为７．６ 的蛋白质可能为津丰Ａ 不育系特有的区带．表明细胞质来源不同的不育类型,其萌动胚及幼芽可溶性蛋白等电聚焦电泳图谱差异明显,有可能作为鉴别它们的依据     

太空诱变玉米核不育材料花粉败育的细胞学观察(简报)

玉米是最早利用雄性不育系生产杂交种的作物之一。在玉米T型细胞质雄性不育杂交种遭受毁灭性病害侵袭之后,科学家认识到利用细胞质雄性不育制种存在潜在的遗传脆弱性,从此试图通过多种途径来创造新的雄性不育．并对雄性不育材料的遗传多样性进行研究。空间诱变育种是80年代于我国发展起来的新技术,在农作物品种改良和种质创新上已初见成效。[第一段]     

Genetics and cytology of a genic male-sterile, female-sterile mutant from a transposon-containing soybean population

A male-sterile, female-sterile soybean mutant (w4-m sterile) was identified among progeny of germinal revertants of a gene-tagging study. Our objectives were to determine the genetics (inheritance, allelism, and linkage) and the cytology (microsporogenesis and microgametogenesis) of the w4-m sterile. The mutant was inherited as a single recessive nuclear gene and was nonallelic to known male-sterile, female-sterile mutants st2 st2, st3 st3, st4 st4, st5 st5, and st6 st6 st7 st7. No linkage was detected between the w4-m sterile and the w4w4, y10 y10, y11 y11, y20 y20, fr1 fr1, and fr2 fr2 mutants. Homologous chromosome pairing was complete in fertile plants. Chromosome pairing, as observed in squash preparation, was almost completely absent in sterile plants. Developmentally microsporogenesis proceeded normally in both the fertile and the w4-m sterile through the early microspore stage. Then the tapetal cells of the w4-m sterile surrounding the young microspores developed different-size vacuoles. These tapetal cells became smaller in size and separated from each other. Some of the microspores of the w4-m sterile also became more vacuolate prematurely and sometimes they collapsed, usually by the late microspore stage. In the w4-m sterile the microspore walls remained thinner and structurally different from the microspore walls of fertile plants. No pollen was formed in the mutant plants, even though some of the male cells reached the pollen stage, although without normal filling. The w4-m sterile was designated st8st8 and assigned Soybean Genetic Type Collection number T352.     

Differential proteomic studies of the genic male-sterile line and fertile line anthers of upland cotton (Gossypium hirsutum L.)

Pollen development is disturbed in the microspore development stage of the double-recessive nuclear male-sterile line ms5ms6 (Gossypium hirsutum L.). This study aimed to identify differentially expressed anther proteins and their potential roles in pollen development and male sterility. We compared the proteomes of sterile and fertile anthers of the double recessive nuclear male-sterile line ms5ms6. Approximately 1,390 protein spots were detected by two-dimensional differential gel electrophoresis. Proteins with altered accumulation levels in sterile anthers compared with fertile anthers were identified by mass spectrometry and the NCBInr and Viridiplantae EST databases. Down-regulated proteins in the sterile anthers included cytosolic ascorbate peroxidase 1 and glutaminyl-tRNA synthetase (glutamine-tRNA ligase). Several carbohydrate metabolism- and photosynthesis-related enzymes were also present at lower levels in the mutant anthers. By contrast, ATP-dependent RNA helicase eIF4A-13, NADH dehydrogenase subunit 1, enolase, gibberellin 20-oxidase, gibberellin 3-hydroxylase 1, alcohol dehydrogenase 2d, 3-ketoacyl-CoA synthase, and trehalose 6-phosphate synthase were expressed at higher levels in sterile anthers than in fertile anthers. The regulation of upland cotton pollen development involves a complex network of differentially expressed genes. This study provides the foundation for future investigations of gene function in upland cotton pollen development and male sterility.     

Protein analysis during the ontogeny of normal and male sterile stamenless-2 mutant stamens of tomato (Lycopersicon esculentum Mill.)

The levels and synthesis of proteins during the ontogeny of normal and male sterile stamenless-2 (sl-2/sl-2) mutant stamens of tomato (Lycopersicon esculentum) were examined. The mutant stamens contained low levels of soluble protein which were related to reduction in protein synthesis. The mutant stamens, however, possessed many polypeptides similar to the normal and synthesized a 53-kd polypeptide at stages when there are abnormalities in tapetum development. The mutant stamens also possessed a 23-kd and some low molecular weight polypeptides that were considered as degradative proteins. Normal stamens exhibited the synthesis of many polypeptides not found in the mutant, from microspore mother cell to the preanthesis stages. In addition, at the time of pollen maturation there was a greater synthesis of several polypeptides, particularly those of 42 and 37 kd. Although the causative mechanisms of male sterility in the sl-2/sl-2 mutant are not known, the synthesis, and the lack, of specific polypeptides reported here appears to be associated with pollen degeneration.This work was supported by an operating grant from the Natural Sciences and Engineering Research Council of Canada to V.K.S.     

Arabidopsis AtBECLIN 1/AtAtg6/AtVps30 is essential for pollen germination and plant development

Pollen germination on the surface of compatible stigmatic tissues is an essential step for plant fertilization. Here we report that the Arabidopsis mutant bcll is male sterile as a result of the failure ofpollen germination. We show that the bcll mutant allele cannot be transmitted by male gametophytes and no homozygous bcll mutants were obtained. Analysis of pollen developmental stages indicates that the bcll mutation affects pollen germination but not pollen maturation. Molecular analysis demonstrates that the failure of pollen germination was caused by the disruption of AtBECLIN 1. AtBECLIN 1 is expressed predominantly in mature pollen and encodes a protein with significant homology to Beclin1/Atg6/Vps30 required for the processes of autophagy and vacuolar protein sorting （VPS） in yeast. We also show that AtBECLIN 1 is required for normal plant development, and that genes related to autophagy, VPS and the glycosylphosphatidylinositol anchor system, were affected by the deficiency of AtBECLIN 1.     

The rice tapetum degeneration retardation gene is required for tapetum degradation and anther development

In flowering plants, tapetum degeneration is proposed to be triggered by a programmed cell death (PCD) process during late stages of pollen development; the PCD is thought to provide cellular contents supporting pollen wall formation and to allow the subsequent pollen release. However, the molecular basis regulating tapetum PCD in plants remains poorly understood. We report the isolation and characterization of a rice (Oryza sativa) male sterile mutant tapetum degeneration retardation (tdr), which exhibits degeneration retardation of the tapetum and middle layer as well as collapse of microspores. The TDR gene is preferentially expressed in the tapetum and encodes a putative basic helix-loop-helix protein, which is likely localized to the nucleus. More importantly, two genes, Os CP1 and Os c6, encoding a Cys protease and a protease inhibitor, respectively, were shown to be the likely direct targets of TDR through chromatin immunoprecipitation analyses and the electrophoretic mobility shift assay. These results indicate that TDR is a key component of the molecular network regulating rice tapetum development and degeneration.     

水稻雄性不育突变体D63的育性基因遗传分析与精细定位

利用化学诱变剂甲基磺酸乙酯(EMS)处理籼稻品种冈46B获得雄性不育突变体D63,并对该突变体进行表型鉴定、遗传分析和基因定位。结果显示D63突变体花药瘦小呈乳白色,花药内完全无花粉粒,属于无花粉型雄性不育。与野生型亲本冈46B相比,D63突变体成熟期株高降低了13.7%,穗伸出度减少了266.7%,自交结实率为0,其他农艺性状无显著差异。遗传分析表明该不育性状受1对隐性核基因控制,该突变基因定位于第2号染色体长臂靠近着丝粒区域In Del标记J2和J4之间,与J2和J4的遗传距离分别为0.2 c M和0.1 c M,该定位区间的物理距离为105.8 kb。候选基因分析结果表明,D63突变体在编码分泌性成束糖蛋白基因LOC_Os02g28970编码区第1580位碱基A突变为C,使编码蛋白的氨基酸序列第527位组氨酸(His)突变为脯氨酸(Pro)。D63突变体与已报道的mtr1突变体表型上不同之处主要是后者花药含有败育花粉粒,二者表型上的差异可能是由于LOC_Os02g28970基因序列突变位点不同,以及它们分别属于籼、粳亚种2个不同遗传背景所致。     

长春蒲公英雄性不育株形态学观察与败育细胞学研究

在长春蒲公英(Taraxacum junpeianum Kitam.)株群中发现雄性不育现象,为研究其败育机理及特点,探寻其不育基因,采用形态观察法、石蜡切片技术和染色体压片法,对长春蒲公英野生型及其雄性不育株的花药发育过程和花粉母细胞减数分裂过程进行了观察。结果表明:(1)长春蒲公英雄性不育株花药中部发红、干瘪、无花粉散出。与野生型比较,雄性不育株雄蕊更短,子房更窄,种子形态更加狭长;(2)长春蒲公英雄性不育株败育时期为四分体到单核小孢子前期,败育方式为小孢子自身异常发育,绒毡层异常分解,互相粘连败育;(3)长春蒲公英雄性不育株花粉母细胞减数分裂二分体时期出现落后微核,随后产生极少四分体,并且四分体产生大量染色体桥,小孢子营养物质流失,彻底败育。因此,长春蒲公英雄性不育株败育彻底、稳定,并且有种的特点。小孢子自身异常发育和绒毡层异常分解是导致败育的主要原因。