水稻窄叶突变体nal（t）的表型分析与基因定位

在水稻（Oryza sativa）缙恢10号的EMS诱变群体中发现一个窄叶突变体nal（t）,表现出叶片变窄不变短、植株半矮化、节间变细变短和穗长缩短等特性。突变体苗期和成熟期叶片平均宽度为0.99cm和1.42cm,分别为野生型的76%和74%,均达到极显著差异。nal（t）成熟期倒一、倒二、倒三节间长和宽分别为9.16cm、6.97cm、3.57cm和0.31cm、0.36cm、0.45cm,仅为野生型的63%、83%、71%和78%、72%、79%。遗传分析表明该突变性状受1对隐性核基因控制,利用SSR标记将NAL（T）定位在第12染色体长臂RM6869和RM28537之间,遗传距离分别为3.1cM和9.0cM。     

一个籼稻脆性突变体的生物学特性及基因定位研究

水稻脆性突变体是研究细胞壁组分结构形成机制的重要材料。通过离子束诱变籼稻9311获得1个茎秆、叶片均脆的突变体,命名为bc9311-1。bc9311-1突变体与野生型9311相比,分蘖数减少,结实率显著降低,其他农艺性状无明显差异。叶片和茎秆的细胞壁成分分析表明,与野生型相比,bc9311-1突变体茎秆中的纤维素和木质素含量明显降低,半纤维素和SiO2含量显著增加;叶片中的纤维素含量降低,半纤维素和木质素含量增加,SiO2含量无明显差异。遗传分析表明,该脆性突变体脆性性状受单隐性基因控制。以bc9311-1突变体与02428杂交的F2群体为基因定位群体,利用SSR标记将bc9311-1突变位点定位在水稻第1染色体上,位于SSR分子标记的RM1095和RM3632之间,遗传距离分别为0.6cM和3.4cM,与其中的标记RM1183表现共分离。这些结果为进一步克隆突变基因,揭示脆性性状的分子机制奠定坚实基础。     

水稻窄卷叶突变体nrl7的鉴定与基因定位

叶片的形态是理想株型的重要性状, 叶片适度卷曲能提高水稻(Oryza sativa)群体的光能利用率, 研究控制水稻叶片形态的相关基因能够进一步丰富株型理论。该研究在粳稻品系C275的群体中发现了1株自然变异的窄卷叶突变体nrl7(narrow rolled leaf 7)。与野生型相比, 突变体的叶片变窄且向内卷曲; 该突变体叶片连接中脉的泡状细胞严重变形, 中脉与小叶脉之间的维管束数量均减少至1个。此外, 突变体nrl7的株高、实粒数和实粒重均降低或减少, 分别为野生型的88.46%、69.77%和68.98%, 差异达极显著水平。叶片卷曲导致单叶光合速率减弱, 与野生型相比, 突变体的光合速率降低了17%, 达极显著水平。突变体nrI7叶片的气孔导度、胞间CO₂浓度和蒸腾速率则与野生型相比无明显变化。利用图位克隆的方法将目的基因定位于水稻第3染色体短臂上的分子标记RM5444和MM1300之间, 物理距离约为185.14 kb。研究结果为该基因的克隆和进一步的功能分析奠定了基础。     

水稻短根毛突变体Ossrh2的表型分析与基因定位

在粳稻品种中花11为遗传背景的T-DNA突变体库中筛选获得一个遗传稳定的水稻（Oryzasativa）短根毛突变体Ossrh2（Oryza sativa short root hair2）。突变体在苗期表现为根毛数量减少,为野生型的61.4%,根毛长度明显变短,只有野生型的22.8%,同时根毛增粗,根毛形态也发生了变异,局部扭曲膨胀和分叉,除此之外突变体的地上部和根部生长情况与野生型相比没有显著差异。遗传分析表明,该突变性状受1对隐性单基因控制。通过对突变体T2和F2代的分子检测发现,该突变体表型非T-DNA插入引起。利用Ossrh2纯合体和籼稻品种Kasalath杂交构建的F2群体对OsSRH2进行基因定位,发现其与第10号染色体短臂上的SSR（simple sequence repeat）标记RM6370和RM474连锁,遗传距离分别为1.1cM和3.0cM。通过在两标记间发展3个新的STS（sequence-taggedsite）标记,将OsSRH2基因定位于标记S1227和S1531之间,物理距离约为304kb,为进一步克隆OsSRH2打下了基础。     

水稻矮杆突变体的细胞学特征及基因定位研究

赤霉素合成基因在植物的生长发育中起着重要的作用。甲基磺酸乙酯(ethyl methane sulfonate, EMS)诱变的超矮杆突变株水稻ag1 (ai-gan1)表现出明显的节间和叶片伸长缺陷,成熟期株高仅为野生型的34.81%,穗长以及各节间长度占整株高度的比例发生明显变化,其中倒二节间和倒三节间所占比例显著降低。MBS(mapping-by-sequencing)基因定位及CRISPR-Cas9基因敲除验证显示,该突变基因为赤霉素-3β羟化酶2 (gibberellin 3-beta-hydroxylase 2, GA3ox2)编码基因D18的等位基因。细胞的形态分析显示,突变体倒二节间的细胞长度显著变短,纵向细胞数量显著减少,而节间中横向薄壁细胞层数显著增加;突变体剑叶中横向小叶脉的数量显著增加,但维管束周围的纵向薄壁细胞数目显著减少。同时,部分与细胞分裂和伸长相关基因的表达量在突变体中都显著降低。上述结果说明GA3ox2在水稻中严重影响地上节间细胞的伸长及节间和剑叶中细胞的分裂活性,从而导致水稻地上部分的形态出现异常。     

水稻白色中脉Oswm2的遗传分析与分子标记定位

从T-DNA突变体库中获得一份以中花11为遗传背景的白色中脉突变体。该突变体剑叶以下叶片的中下部中脉表现为白色, 白色中脉附近的叶色微黄, 并且伴随株高等农艺性状的改变, 暂时将其定名为Oswm2(Oryza sativa white midrib 2)。遗传分析表明该突变性状受一对隐性单基因控制, 以Oswm2和粳稻02428杂交的F2分离群体作为定位群体, 将OsWM2基因定位在水稻第7染色体的SSR标记RM21478和RM418之间, 遗传距离分别为8.7和15.9 cM。     

水稻芽鞘紫线抑制与反抑制现象的遗传及反抑制基因的SSR分析

从芽鞘有紫线和无紫线的杂交组合中发现6个组合的F。代紫线有无比例为13：3,以无紫线且为不育系的亲本XNA为母本对组合XNA／21A150进行回交,BF,代的分离比例符合1：1。遗传分析表明：水稻芽鞘紫线表达受抑制基因,和反抑制基因A『(f)的影响,,抑制芽鞘紫线C_A_P_系统中的P基因,Ai(t)抑制,基因。以BF1构建了Ai(t)基因的定位群体,SSR分析表明：Ai(t)基因与RM335、RM295、RM287、RM21连锁,其遗传距离分别为2．8cM、10．2cM、13．9cM、26．1cM。     

水稻早熟多子房突变体fon5的遗传分析和基因定位

摘要: 在水稻中花11的后代中筛选到1例花器官数目突变体, 突变体主要表现为多雄蕊、多子房和早开花。遗传分析表明, 该突变表型受1对隐性核基因控制。因为对花器官数目突变体曾有报道, 如fon1、fon2、fon3 和fon4, 所以该突变体暂定名为fon5。利用fon5与籼稻品种华粳籼74构建的F2群体对fon5进行基因定位, 发现其与第6染色体上的标记RM400和RM412连锁, 遗传距离分别为10.5 cM 和1.6 cM。通过在两标记间发展6个新的Indel标记, 将该基因定位于116 kb区间     

水稻早熟多子房突变体加以5的遗传分析和基因定位

在水稻中花11的后代中筛选到1例花器官数目突变体,突变体主要表现为多雄蕊、多子房和早开花。遗传分析表明,该突变表型受1对隐性核基因控制。因为对花器官数目突变体曾有报道,如fon1、fon2、fon3和fon4,所以该突变体暂定名为fort5。利用fort5与籼稻品种华粳籼74构建的F2群体对fort5进行基因定位,发现其与第6染色体上的标记RM400和RM412连锁,遗传距离分别为10．5cM和1．6cM。通过在两标记间发展6个新的Indel标记,将该基因定位于116kb区间。     

水稻叶状颖壳突变体Oslh的遗传分析和OsLH基因的定位

通过γ射线诱变,从粳稻品种9522的M2代中筛选出一株具有叶状颖壳的突变体,定名Oslh(1h=leafy hull).Oslh突变体的开花时间要比野生型晚15 d左右,内外稃和浆片发育成了叶片状器官.Oslh突变体与粳稻品种9522回交结果表明Oslh突变性状可能由单核基因隐性突变造成.以Oslh突变体与籼稻品种广陆矮4号杂交的F2代群体为基因定位群体,利用SSR和InDel分子标记将Oslh突变位点定位在3号染色体上的SSR标记RM5475和InDel标记GY305之间,遗传距离分别为2.5 cM和1.9 cM.这些结果为克隆OsLH基因和研究花器官发育的调控机理奠定了基础.     

Downregulation of OsPK1 Contributes to Oxidative Stress and the Variations in ABA/GA Balance in Rice

Abscisic acid (ABA) is a phytohormone that aids plants in coping with stress conditions. ABA and gibberellin (GA) are hormone partners that function via a complicated and antagonistic network. In ospk1, a dwarf rice mutant, the contents of ABA in the youngest leaf sheaths of 6-week-old seedlings and the uppermost internodes of heading stage plants were both increased, and the synthesis of bioactive GAs was suppressed, which may disharmonize ABA/GA balance. In ospk1, expression of three putative enzyme genes related to stress response was upregulated. A strong browning symptom was observed in the second internode (Int2, counted from the top) and part of panicles of ospk1 at the late productive phase. Furthermore, higher levels of H₂O₂ in flag leaf and Int2 were observed in ospk1 than those in wild type. These data suggest that ospk1 may undergo certain stress, especially oxidative stress. Here, we provide evidences that the downregulation of OsPK1 (a cytosolic pyruvate kinase) in ospk1 mutant results in variations in ABA/GA balance in rice and contributes to oxidative stress, which provide a new clue for understanding the connection of pyruvate kinase, ABA/GA balance, and oxidative stress in rice.     

Leaf Lateral Asymmetry in Morphological and Physiological Traits of Rice Plant

Leaf lateral asymmetry in width and thickness has been reported previously in rice. However, the differences between the wide and narrow sides of leaf blade in other leaf morphological and physiological traits were not known. This study was conducted to quantify leaf lateral asymmetry in leaf width, leaf thickness, specific leaf weight (SLW), leaf nitrogen (N) concentration based on dry weight (Nw) and leaf area (Na), and chlorophyll meter reading (SPAD). Leaf morphological and physiological traits of the two lateral halves of the top three leaves at heading stage were measured on 23 rice varieties grown in three growing seasons in two locations. Leaf lateral asymmetry was observed in leaf width, leaf thickness, Nw, Na, and SPAD, but not in SLW. On average, the leaf width of the wide side was about 17% higher than that of the narrow side. The wide side had higher leaf thickness than the narrow side whereas the narrow side had higher Nw, Na, and SPAD than the wide side. We conclude that the narrow side of leaf blade maintained higher leaf N status than the wide side based on all N-related parameters, which implies a possibility of leaf lateral asymmetry in photosynthetic rate in rice plant.     

水稻上部节间长度等数量性状基因的定位及其遗传效应分析

对水稻籼粳杂交（窄叶青８号×京系１７）Ｆ＿１的花药进行离体培养,建立一个含１３３个ＤＨ系的作图群体,通过构建分子连锁图谱,对水稻上部节间长度、株高和抽穗期的ＱＴＬ进行区间作图,定位了影响上部节间长度的１２个ＱＴＬ、株高的４个ＱＴＬ和抽穗期的１个ＱＴＬ。对这些ＱＴＬ的遗传效应分析的结果表明,控制抽穗期的１个ＱＴＬ即Ｈｄ８ａ为主效基因,其余的１６个ＱＴＬ为微效基因。控制上部节间长度单个的ＱＴＬ对表型的贡献率介于８－１８％,其加性效应可使所控制的节间长度增加大约１．６－３．６ｃｍ。值得注意的是,一些控制相关性状的、作用方向相同的ＱＴＬ定位于同一染色体的相同或邻近区段上。这一结果揭示了这些性状相关的遗传基础,在水稻育种中运用这些ＱＴＬ将有助于对株高进行精细的遗传调控。     

Molecular Cloning, Characterization, and Expression Analysis of Genes Encoding Gibberellin 20-Oxidase in Dasypyrum villosum Dwarf Mutant

Thirty-six gene sequences encoding the gibberellin (GA) 20-oxidase were obtained from Dasypyrum villosum and its dwarf mutant. Sequence alignment showed that there were 21 SNPs and 4 InDels among these sequences which could be divided into three haplotypes??haplotype I, II, and III with 1,293, 1,297, and 1,294?bp in length, respectively. They contained a CDS with 1,080?bp in length encoding a putative polypeptide of 359 amino acids. Two haplotypes were found in wild type (I and II) and dwarf mutant (II and III), respectively. Q-PCR analysis showed that in the whole growing stages, the majority expression levels of haplotypes from wild types were higher than that of dwarf mutant, suggesting that wild types could synthesize more active GA substrates than dwarf mutant. The expression level in stem nodes and internodes between wild type and dwarf mutant were not significantly different, whereas their expression levels in roots were distinctly distinguished from each other in seedling, stem elongation, and heading stages, implying that most active GAs were synthesized in the root, and some were consumed by the root itself, and the others might be transported to other organs.     

云南元江普通野生稻株高和抽穗期QTL定位研究

以云南元江普通野生稻为供体亲本,在特青的遗传背景下构建了一套BC3高代回交群体。利用117个SSR标记分析383个BC3F2株系的基因型,采用单标记分析法对控制元江普野株高和抽穗期的QTL进行分析。在北京和合肥两个地点试验结果表明,控制株高的QTL分布在第1染色体上,在RM104附近有一个QTL,与sd-1位置相当,其对表现型变异的贡献率在两个地点分别为27％和28％,其加性效应值分别为26．24cm和26．28cm,来自野生稻的等位基因显著提高回交群体的株高;在第1、3、7、8、11染色体共检测到6个控制抽穗期QTL,其中第8染色体RM25附近控制抽穗期的QTL在两个地点的贡献率分别为13％和15％,加性效应值为4．60d和3．65d,来自野生稻的等位基因使回交群体抽穗期延迟。     

Validation and dissection of quantitative trait loci for leaf traits in interval RM4923-RM402 on the short arm of rice chromosome 6

Validation and dissection of a QTL region for leaf traits in rice which has been reported in a number of independent studies were conducted. Three sets of near isogenic lines (NILs) were originated from a residual heterozygous line derived the indica cross Zhenshan 97B/Milyang 46. They were overlapping and totally covered a 4.2-Mb heterogenous region extending from RM4923 to RM402 on the short arm of rice chromosome 6. Each NIL set consisted of 10 maternal lines and 10 paternal lines. They were measured for the length, width, perimeter and area of the top three leaves and the number of spikelets per panicle, number of grains per panicle and grain weight per panicle. In NIL sets 6-4 and 6-7, differing in intervals RM4923-RM225 and RM19410-RM6119, respectively, significant variations with the enhancing alleles from the female parent ZS97 were shown for the length, perimeter and area except for the area of the third leaf from top in 6-4, but the effects were lower in 6-4 than in 6-7. No significant effects were detected for the three traits in the remaining NIL set. It was shown that flag leaf length (FLL) is the primary target of the QTLs detected. Two QTLs for FLL linked in repulsion phase were resolved, of which qFLL6.2 located in the 1.19-Mb interval RM3414-RM6917 had a major effect with the enhancing allele from Zhenshan 97B, and qFLL6.1 located in the 946.8-kb interval RM19350-RM19410 had a smaller effect with the enhancing allele from Milyang 46. The two QTLs also exerted pleiotropic effects on the yield traits.