一个水稻颖花器官突变体的形态解剖分析(英文)

从水稻 (OryzasativaL .)育种后代材料中获得一个受单隐性基因控制的颖花器官突变体。该突变体的内外稃变型、退化 ;雄蕊雌蕊化 ,每个颖花含 1～ 3个发育完整的雌蕊 ,其他雌蕊发育不完全。有的雌蕊化的雄蕊下部为花丝 ,其上着生不规则膨大组织和 0～ 3个羽毛状柱头。横切面和纵切面观察均可见每个颖花含 3个子房。人工辅助授粉后 ,每个颖花可产生 1～ 2粒种子。根据这些结果推断 ,该突变体为类似B功能缺失的突变体。     

水稻长颖壳突变体的形态发生、解剖结构观察及其遗传鉴定

长颖壳花器官突变体从野生稻(Oryza nivara Sharma et Shastry)和栽培稻(Oryza sativa subsp. indica Kato)杂交后代材料中获得。该突变体的内外稃变长、呈叶状,且顶端表现不同程度的开裂;每朵颖花的雄蕊1~10枚不等;雌蕊1~3枚不等;子房上柱头1~5个不等;有的颖花形成雄蕊/雌蕊嵌合体;子房处常附有瘤状物;此突变体结实率为18.2%;花粉可育率为62.46%。利用扫描电镜观察了该突变体花器官形态发生过程,并经遗传分析鉴定该突变性状由单隐性基因(暂命名为lh)控制。本文讨论了lh基因和以前鉴定的其他突变体基因之间的关系,通过表型分析推测,突变体基因可能影响花器官数目同时具有拟南芥B类基因的部分功能。     

水稻长颖壳突变体的形态发生、解剖结构观察及其遗传鉴定

长颖壳花器官突变体从野生稻(Oryza ntvara Sharma et Shastry)和栽培稻(Oryza sativa subsp.indica Kato)杂交后代材料中获得.该突变体的内外稃变长、呈叶状,且顶端表现不同程度的开裂;每朵颖花的雄蕊l～10枚不等;雌蕊l～3枚不等;子房上柱头l～5个不等;有的颖花形成雄蕊/雌蕊嵌合体;子房处常附有瘤状物;此突变体结实率为1 8.2%;花粉可育率为62.46%.利用扫描电镜观察了该突变体花器官形态发生过程,并经遗传分析鉴定该突变性状由单隐性基因(暂命名为lh)控制.本文讨论了lh基因和以前鉴定的其他突变体基因之间的关系,通过表型分析推测,突变体基因可能影响花器官数目同时具有拟南芥B类基因的部分功能.     

水稻生殖突变体的外观形态特征研究

通过对3种水稻生殖突变体材料的外观形态进行观察后发现,FM1突变体植株不能由营养生长转入生殖生长,一直保持营养生长状态;FM2突变体植株不能分化发育出小穗,只能在进入生殖生长后分化出穗枝梗;FM3突变体植株在生殖生长过程中不能分化出正常小穗,其颖花内的雌蕊和雄蕊明显退化。已经证实这3种生殖突变体植株都不能产生有性生殖后代,只能通过群体内的显性杂合体分离出隐性突变体植株。     

水稻颖花开裂SRS突变体的鉴定

利用扫描电镜观察了水稻（Ｏｒｙｚａ ｓａｔｉｖａ Ｌ．）颖花开裂突变体ＳＲＳ（ｓｐｌｉｔ ｒｉｃｅ ｓｐｉｋｅｌｅｔ）花器官形态发生过程,该突变体表现为内外稃变软变长,不抱合,外稃基部又着生一颖花,浆片呈稃片状,但是雌雄蕊着生位置和形态表现正常。利用ＳＲＳ突变体为父本,“窄叶青８号”为母本配制杂交组合,其Ｆ２代群体中正常与突变植株的分离比例为３：１,表明该突变性状是由单隐性基因控制的。作为对照,同     

一个水稻颖花器突变体的形态解剖分析

从水稻（Ｏｒｙｚａ ｓａｔｉｖａ Ｌ．）育种后代材料中获得一个受单隐性基因控制的颖花器官突变体,该突变体的内外释变,每个颖花含１～３个发育完整的雌蕊,其他雌蕊发育不完全。有的雌蕊化的雄蕊下部为花丝,其上着生不规则在组织和０～３个羽毛状柱头。横切面和纵切面观察均可见每个颖花含３个子房。人工辅助授粉后,每个颖花可产生１～２粒种子根据这些结果推断,该突变体为类似Ｂ功能缺失的突变体。     

融安黄竹小穗和小花的形态发育

运用扫描电镜对融安黄竹Dendrocalamus ronganensis的小穗和小花的发生发育及形态结构进行了研究。其小穗的发育过程是: 小穗原基→第一颖片原基→第二颖片原基→第一朵小花的外稃原基→第一朵小花原基→第二朵小花的外稃原基→第二朵小花原基。小穗为由2个颖片和1-2朵小花组成的假小穗。其小花发育的过程是: 内稃原基→雄蕊原基→雌蕊原基。内稃在发生上由彼此独立的两个突起形成, 随着发育逐渐愈合。观察结果支持内稃是双起源的说法。雄蕊原基近两轮发生。雌蕊原基由小花原基的中央部分直接发育而成。在小花的发育过程中, 未观察到鳞被原基的发生。该种的小花是无花被的, 结构较为简化, 为外稃和内稃包裹的雄蕊和雌蕊组成的结构。与近缘类群做比较, 探讨了小穗和小花在竹亚科中的演化。     

一份条斑和颖花异常水稻双突变体的形态特征和细胞学观察

在水稻遗传转化过程中发现一个不含外源基因的条斑和颖花异常的双突变体。该突变体的茎、叶、穗出现条斑。在分蘖盛期,一些叶片开始分岔或卷曲;花器官数目增多,表现为多内外稃,叶片状浆片,或浆片增大,雌雄蕊增多,颖花开裂。透射电镜对叶片白色组织细胞超微结构观察,发现细胞壁内陷,质体结构异常,不能发育出正常叶绿体所具有的片层和类囊体。叶绿素总含量和净光合速率明显低于野生型。突变体绿色组织部分中的细胞生长正常,但细胞较大。利用扫描电镜对花器官形态发生过程进行观察,雄蕊原基发育严重不同步,原基大小也不一样;心皮原基较小。     

糖蜜草（Melinis minutiflora Beauv．）幼穗分化发育．及花和果实形态的研究

本文对糖密草（ＭｅｌｉｎｉｓｍｉｎｕｔｉｆｌｏｒａＢｅａｕｖ．）的幼穗分化发育及花和果实的形态作了研究,将幼穗分化发育过程划分为以下九个时期：第一苞原基形成期;第一次枝梗原基形成期;第二、三次枝梗原基形成期;小穗及颖花原基形成期;雌、雄蕊原基形成期;花粉母细胞形成期;花粉母细胞减数分裂期;花粉充实期;花粉成熟期。全过程历时约需４２ｄ．从抽穗到颖果成熟约需５０ｄ。糖蜜草的花序为圆锥花序。每花序有可育花２０００—３０００朵．小穗是由小穗轴、内外颖片、不育花外稃和小花构成。小花包括有内外稃各一片、一鳞被、雄蕊三枚和一枚雌蕊,颖果千粒重为９１ｍｇ。     

水稻颖花开裂基因srs-1定位及其同源异型功能分析

以水稻颖花突变体SRS (split rice spikelet)为父本, 窄叶青8号为母本配制杂交组合, 根据其F2代表型及X2测验结果, 表明突变性状是由单隐性基因srs-1决定的. 采用BSA法, 利用RAPD技术在正常池和突变池间寻找多态性标记, 通过筛选520个10碱基引物, 得到了6个能在两池间扩增出多态性条带的引物, 其中最好的是S465, 并成功地将此标记转化为RFLP标记, 该标记在F2群体上表现共分离. 在DH群体上进行基因定位, 将该基因定位在第3染色体上. 该基因的突变导致水稻两稃片变软、变长, 内外稃不抱合, 两稃交接处分别有一质地与稃片类似的小片状物, 雄蕊9枚, 雌蕊2枚. 推测该基因属于同源异型A组基因.     

一个新的水稻花器官数目突变体fon(t)的鉴定及分析

水稻花器官数目突变体 fon(t)是在单倍体与二倍体的杂交 F2代发现的,经过多代种植,已稳定遗传。以 fon(t)为父本,以日本晴、93?11 和 R527 为母本配制杂交组合进行遗传分析,根据 F2代表型及χ2测验结果表明,该突变体的性状是由单隐性基因控制的。因为对花器官数目突变体曾有报道如 fon1、fon2 和 fon3,所以该突变体暂定名为 fon(t)。该突变体导致内外稃开裂,花器官外露;雄蕊和雌蕊的数目均增多,雄蕊一般 6~9 枚,雌蕊 1~2 枚;浆片同源转化为类内稃的结构;个别的花器官中还出现花丝上伸出类柱头的结构,浆片上部同源转化为类柱头或者类雄蕊的结构。研究结果表明,fon(t)基因可能影响水稻第三、四轮花器官的数目以及第二轮浆片的发育。     

Characterization of the Rice Floral Organ Number Mutant fon3

A spontaneous rice mutant named floral organ number 3 (fon3) had major mutations in floral organ numbers. Genetic analysis indicated thatfon3 acted as a single recessive gene. Microscopic observation showed that the number of floral organs infon3 increased centripetally. For example, the number of pistils was the more frequently increased than organs in the outer whorls. Homeotic conversion of lodicules and glumes into palea/lemma-like organs was observed in some flowers. Scanning electron microscopy observation showed that the size of flower meristems was maintained the same or similar until the lemma primordium started to differentiate, at which time the floral meristem became enlarged, suggesting abnormal development of the inner whorls of rice florets. The relationship offon3 with other similar rice mutants is discussed.     

Characterization of the Rice Floral Organ Number Mutant fon3

A spontaneous rice mutant named floral organ number 3 (fon3) had major mutations in floral organ numbers. Genetic analysis indicated that fort3 acted as a single recessive gene. Microscopic observation showed that the number of floral organs infon3 increased centripetally. For example, the number of pistils was the more frequently increased than organs in the outer whorls. Homeotic conversion of lodicules and glumes into palea/lemma-like organs was observed in some flowers. Scanning electron microscopy observation showed that the size of flower meristems was maintained the same or similar until the lemma primordium started to differentiate, at which time the floral meristem became enlarged, suggesting abnormal development of the inner whorls of rice florets. The relationship of fort3 with other similar rice mutants is discussed.     

一个水稻内颖退化突变体的形态特征及基因的精确定位

水稻产量和品质受花器官发育的直接影响,因此对水稻颖花发育机理的研究将有助于水稻产量提高和品质的改良。文章利用60Coγ射线辐照亲本8PW33(籼稻背景)获得一个性状能稳定遗传的内颖退化突变体(编号:MU102),并对其农艺性状和花器官进行了观察和分析。结果显示,相对于野生型,该突变体的株高、每穗总粒数及剑叶宽均显著增加,而结实率则显著降低,差异均达显著水平。解剖镜下观察表明,该突变体内颖退化,外颖弯曲呈现镰刀状,其余器官与野生型表型基本一致。扫描电镜观察显示,突变体与野生型叶片维管束的结构组成以及外颖表皮细胞组成、排列均正常,没有明显差异;与野生型相比,突变体内颖表皮细胞排列较为紧密,推测可能是内颖收缩退化导致的。遗传分析显示该突变性状是由隐性单基因控制,并命名为pd2。利用实验室现有的SSR分子标记将PD2基因定位于水稻第9号染色体上,通过进一步扩大群体和开发新的Indel标记,将PD2基因定位在2个Indel标记之间,两者间的物理距离大约是82 kb。在该物理区间内有一个已经克隆的内颖发育基因REP1,经过测序和比对分析,推测REP1与PD2为等位基因。     

ELE restrains empty glumes from developing into lemmas

Although there is evident homology among reproductive organs when comparing Poaceae(grass)and eudicots,the identity of grass specific organs,such as lodicules,palea,lemma,and glumes has been the subject of a vast and largely inconclusive discussion.Here we provide some direct evidence to support the idea that the empty glumes of rice(Oryza sativa)are counterparts of lemmas.We show that the development of empty glumes is regulated by ELE(elongated empty glume),which belongs to a plant specific novel gene family.Mutations at the ELE locus cause elongated empty glumes,which mimic the lemmas and have the epidermal morphology of lemmas with four or five vascular bundles.As a nuclear-localized gene,ELE is specifically expressed at the empty glumes of immature spikelets,and its ectopic expression causes many floral development defects,including lemma-like palea,extra palea-like structures,elongated lodicules,extra stamens and stigmas.Our result suggests that empty glumes are lemmas of the sterile florets located at the lateral side of the rice spikelet,and ELE acts as a regulator restraining its growth to maintain its small size in wild-type plants.     

Identification and Gene Mapping of a Novel Mutant supernumerary lodicules(snl) in Rice

In order to gain a better understanding of rice flower development, a rice flower mutant supernumerary lodicules (snl), which was identified from ethyl methane sulfonate (EMS)-treated Jinhui10 (Oryza sativa L. ssp. indica) was used in the present study. In the snl mutant, the palea obtained lemma identity, additional glume-like organs formed, lodicules increased and elongated, stamens decreased, and a few aberrant carpels formed. These phenotypes suggest that SNL is involved in the entire rice flower develo...     

水稻花器官突变体apl (abnormal palea and lodicules) 的表型分析与基因初定位

水稻(Oryza sativa)是重要的粮食作物, 其花器官的正常起始及形态建成直接影响水稻的产量。为了深入分析水稻小花发育的调控机理, 从已构建的水稻EMS诱变突变体库中筛选获得了一个花器官异常发育的突变体apl (abnormal palea and lodicules)。与野生型相比, apl突变体小花的内稃膨大, 浆片伸长或转换成稃状结构, 雄蕊数目减少, 表明APL基因可能参与调控水稻内稃、浆片和雄蕊等多轮花器官属性的建成。遗传学分析表明, 该突变体性状受1个隐性单基因控制。通过图位克隆, 将APL基因初步定位于1号染色体上。该工作为深入研究APL基因在水稻花器官形态建成中的作用机制奠定了基础。     

Molecular and genetic analyses of the silky1 gene reveal conservation in floral organ specification between eudicots and monocots

The degree to which the eudicot-based ABC model of flower organ identity applies to the other major subclass of angrosperms, the monocots, has yet to be fully explored. We cloned silky1 (si1), a male sterile mutant of Zea mays that has homeotic conversions of stamens into carpels and lodicules into palea/lemma-like structures. Our studies indicate that si1 is a monocot B function MADS box gene. Moreover, the si1 zag1 double mutant produces a striking spikelet phenotype where normal glumes enclose reiterated palea/lemma-like organs. These studies indicate that B function gene activity is conserved among monocots as well as eudicots. In addition, they provide compelling developmental evidence for recognizing lodicules as modified petals and, possibly, palea and lemma as modified sepals.