Chlorophyllide-a Oxygenase 1(OsCAO1) Over-Expression Affects Rice Photosynthetic Rate and Grain Yield

Leaf color and photosynthesis are important factors for rice growth and development.Hence,improving the photosynthetic rate is an effective approach for increasing rice yield.We isolated a gene,chlorophyllide-a oxygenase 1(OsCAO1),which characterized a rice near-isogenic line named fgl(faded green leaf).

水稻矮化小穗突变d18新等位基因的发现及生理功能分析

株高和穗型是决定水稻产量密切相关的农艺性状.本研究从粳稻品种台北309经甲基磺酸乙酯诱变的群体中分离出一个能稳定遗传的矮化小穗突变体,主要表现矮化、粒长增加而宽度变小和穗型变小等特点.遗传分析表明,该突变体受单隐性核基因控制.定位于水稻第1号染色体的Indel标记P4和P5之间,物理距离约为20 kb.由于该区间只有一个已经克隆的矮化基因Dwarf18(d18),其功能编码赤霉素3β-羟化酶(GA3ox2).所以,表明突变基因与d18可能等位.测序比对发现,该突变基因的第2个外显子发生了1个碱基(G)的缺失,造成无义突变,实时荧光定量PCR结果显示,OsGA3ox2基因在突变体中表达量显著下降.因此,将该突变基因暂命名为d18-1.组织切片观察结果显示,与野生型相比,突变体的茎部倒三节间纵向细胞长度显著变短,但细胞数目增多.生理功能结果分析表明,突变体对外源激素GA更敏感,但对外源激素BR不如野生型敏感.检测与GA和BR生物合成与信号传导途径相关基因的表达结果发现,与野生型相比,在突变体中参与GA失活基因OsGA2ox3出现了下调表达,GA生物合成相关基因OsGA20ox2和OsGA3ox2也出现了下调表达,GA信号传导途径中的关键基因都没有明显的差异表达变化.另外,参与BR的合成或者信号传导途径的大部分相关基因在突变体中的表达都出现了下调.由此证明,突变体矮化是由于GA激素的不能正常合成所导致,并且对外源活性BR的响应通路受损而造成对BR激素的低敏感反应.另外,对孕穗期的野生型和突变体的幼穗进行转录组测序分析表明,与野生型相比,突变体检测到1497个差异表达基因,这些差异基因涉及苯丙素的生物合成、糖代谢和碳代谢等.因此,推测突变体中的OsGA3ox2基因发生了无义突变影响了GA和BR生物合成与信号传导途径以及穗型发育相关调控途径,这为更深入研究调控水稻矮化以及穗型的遗传网络提供了新的信息.

BEAK-SHAPED GRAIN 1/TRIANGULAR HULL 1,a DUF640 gene,is associated with grain shape,size and weight in rice

Grain shape and size both determine grain weight and therefore crop yield. However, the molecular mechanisms controlling grain shape and size are still largely unknown. Here, we isolated a rice mutant, beak-shaped grain1 （bsgl）, which produced beak-shaped grains of decreased width, thickness and weight with a loosely interlocked lemma and palea that were unable to close tightly. Starch granules were also irregularly packaged in the bsgl grains. Consistent with the lemma and palea shapes, the outer parenchyma cell layers of these bsgl tissues developed fewer cells with decreased size. Map-based cloning revealed that BSG1 encoded a DUF640 domain protein, TRIANGULAR HULL 1, of unknown function. Quantitative PCR and GUS fusion reporter assays showed that BSG1 was expressed mainly in the young panicle and elongating stem. The BSG1 mutation affected the expression of genes potentially involved in the cell cycle and GW2, an important regulator of grain size in rice. Our results suggest that BSG1 determines grain shape and size probably by modifying cell division and expansion in the grain hull.

水稻中的“伥鬼”:不同表观遗传状态的同一转基因之间的相互作用

位于同源染色体的一对等位基因通过减数分裂与受精独立地遗传给子代,在F1及随后的世代中等位基因独立地表达,这一过程中DNA序列是其表达调控与功能的决定因素。但是基因组印记、X染色体失活、副突变等生命现象并不符合孟德尔遗传定律。在本研究中,利用强启动子35S驱动赤霉素代谢酶编码基因OsGA2ox1,并遗传转化水稻,获得的OsGA2ox1ectopicexpression(GAE)转基因水稻表现出植株矮化、叶色深绿、开花延迟等赤霉素严重缺失的典型表型。在转基因植株的后代中出现了表型恢复、与野生型相同的植株。基因型鉴定发现它们含有35S::OsGA2ox1,但是OsGA2ox1的转录降低到与野生型相当的水平,因此将其命名为OsGA2ox1 silencing(GAS)。进一步研究发现,与矮化的GAE植株相比,GAS的35S启动子上DNA甲基化水平明显升高,表明基因沉默很可能发生在转录水平上。利用这些转基因沉默的GAS与OsGA2ox1超表达的GAE水稻进行正反杂交,所得到的F1代植株都未呈现出赤霉素缺失表型,并且它们35S启动子上的DNA甲基化水平与GAS一样高。在随后的F2、F3代群体中也未出现过矮化的植株。这表明在F1代植株中,GAS沉默的35S::OsGA2ox1与GAE超表达的35S::OsGA2ox1之间发生了相互作用,改变了超表达的35S::OsGA2ox1表观遗传学状态,而且改变后的35S::OsGA2ox1的表观遗传学状态可以稳定地遗传给后代。本研究的发现将为转基因聚合育种提供重要的理论指导。